2013 aaCC annual MeetinG PReview The last decade has seen a worrisome rise in U.S. cases of prediabetes, a condition associated with a higher risk of developing type 2 diabetes, according to a newly published study. In light of this finding, the authors suggest that diabetes prevention programs target demographic subgroups experiencing the greatest increase in prediabetes prevalence. Researchers analyzed data from 19,182 nonpregnant individuals age 12 or older who participated in the National Health and Nutrition Examination Surveys during three time periods: 1999–2002, 2003–2006, and 2007–2010. Using hemoglobin A1c levels of 5.7–6.5% (A1C5.7) or fasting plasma glucose 100–126 mg/dL, the team found that age-adjusted prediabetes prevalence increased 21% over the 10 year period, 1999–2010. The results are significant because the study is the first of its kind to use a nationally snapshoT Prediabetes Prevalence by BMI Group 1999–2002 Percent Prediabetic 50% 40% 27.9 30% 30.8 2007–2010 35.7 35.5 40.5 19.5 20% 10% 0% < 25.0/ Normal 25.0–29.9/ ≥ 30.0/ Overweight Obese BMI/Weight status N = 19,182 Source: Diabetes Care 2013; doi: 10.2337/ dc12-2563 representative sample to assess changes in prediabetes prevalence during the first decade of the 21st Century. While prediabetes prevalence rose for all subgroups studied, it increased the most for non-Hispanic blacks and individuals below the federal poverty level, with both groups undergoing increases of more than 11 percentage points (ppts). The proportion of adolescent girls and women with prediabetes also grew by 7.9 ppts, a rate nearly twice that of males. Researchers found this statistic particularly concerning because children exposed to hyperglycemia in the womb have a higher risk of becoming diabetic. Most surprising of all, the study reveals that individuals with a normal body mass index (BMI) experienced an increase in prediabetes cases greater than any other BMI group, with A1C5.7 prevalence more than doubling for the normal BMI group. According to the authors, further investigation is needed to identify the factors that might explain this pattern. They also recommend consistent population surveillance to identify, quantify, and characterize the population of high-risk individuals in order to better target diabetes prevention efforts. Clinical Laboratory News The auThoriTaTive source for The clinical laboraTorian june 2013 volume 39, number 6 w w w. a a c c. o rg Competency Assessment Does the New CLIA Guidance Mean Big Changes? By Bill Malone l aboratory professionals work in one of the most highly regulated environments in healthcare. Everything from specimen integrity to result reporting fits into a continuum that has to meet strict quality standards under CLIA. As a result, suggesting even a small change to one part of a lab’s process can be unsettling, especially when labs already have little room to maneuver—be it due to time, budget, or staff constraints. Now, new guidance from the Centers for Medicare and Medicaid Services (CMS) aims to clarify the CLIA rules for an area that seems routine, but one in which many labs have been getting it wrong—assessing the competency of personnel who perform testing. During an April 17 AACC webinar with CMS Division of Laboratories Director Judy Yost, MT(ASCP), questions from laboratory professionals poured in, highlighting the confusion on this topic. Surprisingly, many labs get tripped up on the basics, like which staff members should be assessed by whom and how often. “Competency assessment is critical to ensure that the personnel in the laboratory are meeting their duties under CLIA,” Yost said. “Really what that means is that the individuals in the laboratory are providing high quality testing. Performing routine competency assessments is an important way labs can avoid errors that could lead to patient harm.” But while the CLIA regulations for competency assessment have not changed, the often vague language in the regulations has led to an increasing number of inquiries that spiked over the past several years, Yost said. Accreditation organizations also noticed a high number of citations for this area, which prompted CMS to prepare a new guidance with more detailed explanation. See competency, continued on page 3 The Next Generation of Prostate Cancer Diagnostics in This issue Lab 2013 Monitoring Newer Antiepileptic Drugs Are Molecular Tests Ready? 8 By Genna Rollins Annual Meeting Preview T he shortcomings of prostate-specific antigen (PSA) as a screening test for prostate cancer have long been obvious to scientists, to clinicians, and most of all to men who have had elevated levels and faced difficult decisions about what to do next. A considerable scientific enterprise has been devoted to improving on or replacing the PSA test, which detects prostate disease but not necessarily prostate cancer. Even as studies continue and controversy roils around how to make the most of the PSA test, a large contingent of researchers is seeking better biomarkers for prostate cancer that take advantage of genomic technologies. However, even as some genomic tests are making their way into the marketplace, leading researchers have sounded a note of caution. “It’s a very daunting task, introducing a biomarker that’s going to impact clinical care. That’s really the important issue at hand,” said Mark Rubin, MD, a professor of pathology and laboratory medicine at Weill Cornell Medical College in New York City. “In developing biomarkers for prostate cancer, a major clinical question to be addressed is distinguishing between aggressive versus indolent disease. Conceptually, this is easy and the terms indolent and aggressive are easily spoken, but are much more difficult to define.” Rubin spoke recently at the annual meeting of the American Association for Cancer Research (AACR) as part of a panel exploring prostate cancer screening now and in the future. He went See prostate cancer, continued on page 6 Clinical Laboratory News Prediabetes on the rise in the U.s. The American Association for Clinical Chemistry, Inc. 1850 K Street, NW, Suite 625 Washington, DC 20006 news Brief 12 13 14 16 17 18 19 Plenary Speakers Division Events List of Exhibitors Regulatory Profiles Industry Profiles Diagnostic Profiles News From the FDA @cln_aacc LiBertY, Mo permit no. 190 paid nonprofit org. u.s. postage The BD FACSCanto™ II Consistency you can depend on to keep work flowing. Reliability is timeless. With all the challenges facing clinical labs, one thing is clear: reliability is timeless. For over 40 years, BD has delivered flow cytometry systems that are progressively more powerful, more dependable, and easier to use. A lot has changed over that time, but the BD FACSCanto™ II continues to be a mainstay of core labs with proven reliability and consistency to help clinicians deliver patient care. BD, BD Logo and all other trademarks are property of Becton, Dickinson and Company. © 2012 BD 23-14766-00 Today’s BD FACSCanto II system is complemented by a full spectrum of BD conjugated antibody specificities including the BD Horizon™ V500-C violet reagents. You can count on BD to make your job easier, your workflow more efficient, and your results more reliable—today and tomorrow. For more information, go to: bdbiosciences.com/go/canto BD Biosciences 2350 Qume Drive San Jose, CA 95131 bdbiosciences.com Labs Skip Compliance Essentials Competency, continued from page 1 Defining Roles and Responsibilities So where are labs having trouble? Based on CMS surveys and reports from accrediting organizations, labs are failing to follow some of the ground rules for competency assessment, not due to negligence, but from confusion over the nuances of the regulation. Under CLIA, anyone performing testing must have his or her competency assessed annually, and during the first year a person works in the lab, every 6 months. The new CMS guidance emphasizes that competency assessment is not the same as a performance evaluation. Rather, the legal requirements for competency assessment mirror the responsibilities of each person’s role in the lab as defined by regulation: laboratory director, clinical consultant, technical consultant, technical supervisor, general supervisor, and testing personnel. Although some of these roles can have a long list of responsibilities based on how much the lab director delegates, labs often miss the minimal requirements for anyone who performs testing. CLIA defines six elements of competency assessment for anyone who actually performs testing, and all six must be documented for each person, each year (See Box, below). In addition, not just anyone can perform the assessments. Depending on whether the lab performs high- or moderate-complexity testing, only those individuals who meet the regulatory qualifications of a technical supervisor, technical consultant, or general supervisor may perform an assessment. Accrediting organizations, such as the Joint Commission, have also spotted trouble. “Competency assessment is one of our most frequently cited areas for lack of compliances,” noted John Gibson, MT(ASCP), DLM, associate director of the Standards Interpretation Group at The Joint Commission, in an interview with CLN. “In 2012, 39 percent of labs were cited for non-compliance. In many cases, we’re seeing that not all six of the competency assessment criteria are being utilized, and the required frequency of six months during the first year and annual thereafter falls short in some laboratories. We’ve also noted that frequently the individual performing the competency assessment does not really have the required qualifications.” Deb Hagen-Moe, a frequent presenter on competency assessment at lab management meetings, said she always receives a lot of anxious questions on this topic. Hagen-Moe is an education coordinator in the department of laboratory medicine and pathology at Mayo Clinic in Rochester, Minn. “I think this is a challenge because the regulations have to be written broadly, since laboratories come in a variety of sizes and complexities,” she said. “I hear a lot of comments like, ‘I’m not quite sure how to interpret those regulations. I’m afraid I’ll do it wrong and I don’t want to risk a citation,’ or even, ‘how do I get started?’” Often labs get confused about who can delegate to whom. The important point to remember is that the task must be delegated in writing, and only to someone who has the required level of education and experience. “We’ve had situations where we found that people were delegating this to almost anyone, and that was a little bit too risky for us,” Yost told CLN. “However, most labs have personnel who have the education and experience to qualify for a position as a technical supervisor or consultant but don’t necessarily have that title. Delegating assessments to these personnel can give the lab more flexibility, while still holding the assessments to a high standard.” For example, in a high-complexity lab, a technical supervisor may delegate to a general supervisor, or to someone at least meeting the minimum qualifications for a general supervisor (See Sidebar, p. 4). The requirement for an annual competency assessment applies to everyone who actually performs testing, Yost emphasized, including pathologists and doctoral-level personnel. On the other hand, personnel who only perform waived testing or whose work in the lab only involves pre- or post-analytical processes are not required to undergo assessment under CLIA, although some accrediting organizations may require it. The Question of Test Systems Under CLIA regulations, all six elements of competency assessment must be completed for every test a person performs, not just testing in general. In order to make competency assessment less burdensome, labs will naturally want to consolidate the assessment of multiple steps or analytes. However, they can easily run afoul of CLIA regulations if Learn More Hear directly from CMS Division of Laboratories Director Judy Yost, MT(ASCP), answering labs’ questions about competency assessment. A recording of the April 17 AACC webinar is available for download or on CD from the AACC store, http://direct.aacc.org. they go too far, Yost warned. “If you have several analytes that are based on the same testing platform, labs can certainly combine them as part of competency assessment,” Yost said. “But that means one compact device or test system; the regulation does not give labs the leeway to go further than that.” See Competency, continued on page 4 Competency Assessment Basics Six Areas Define Minimum Requirements Under CLIA regulations, all phases of testing should be reflected in a lab’s competency assessment program. A new CMS guidance defines competency as the ability of personnel to apply their skill, knowledge, and experience to perform their duties correctly. Laboratory directors, consultants, supervisors, and managers must be assessed on their administrative duties in addition to performing testing. However, the experience of CMS and accrediting organizations points to the basics of competency assessment as the area where most labs run into trouble. CLIA regulations break down competency assessment for performing testing into six areas, each of which must be completed for each person, each test, each year. 1. Direct observations of routine patient test performance, including patient preparation, if applicable, specimen handling, processing, and testing. 2. Monitoring the recording and reporting of test results. 3. Review of intermediate test results or worksheets, quality control records, proficiency testing results, and preventive maintenance records. 4. Direct observations of performance of instrument maintenance and function checks. 5. Assessment of test performance through testing previously analyzed specimens, internal blind testing samples or external proficiency testing samples. 6. Assessment of problem solving skills. CMS’s new brochure on competency assessment, “What Do I Need to Do to Assess Personnel Competency?” is available online, www.cms.gov/CLIA. CliniCal laboratory news June 2013 3 Labs Can Document Routine Work Clinical Laboratory News Competency, continued from page 3 Editorial Staff Editor—Nancy Sasavage, PhD Senior Editor—Genna Rollins Senior Editor—Bill Malone Editorial assistant—Christine DeLong Contributor—Matthew D. Krasowski, MD, PhD Board of EditorS Chair—Lorin M. Bachmann, PhD, DABCC VCU Health System, Richmond, Va. Members—Joshua Bornhorst, PhD University of Arkansas, Little Rock, Ark. Andrew Don-Wauchope, MD Juravinski Hospital and Cancer Center, Hamilton, Ontario Jacqueline Fisher, MS, C(ASCP) Abbott Diagnostics Division, Boston, Mass. Steven Goss, PhD Siemens Healthcare Diagnostics, Newark, Del. Pamela Steele, PhD Covance, Inc., Indianapolis, Ind. aaCC offiCErS President—Robert H. Christenson, PhD, DABCC, FACB President-Elect—Steven H. Wong, PhD, DABCC, FACB treasurer—Michael J. Bennett, PhD, DABCC, FACB Secretary—Elizabeth L. Frank, PhD, DABCC, FACB Past President—Greg Miller, PhD, DABCC, FACB advErtiSing SalES Scherago International, Inc. 525 Washington Blvd, Ste. 3310 Jersey City, NJ 07310 Phone: (201) 653-4777, Fax: (201) 653-5705 E-mail: aacc@scherago.com President—H.L. Burklund v.P. of Sales—Mike Minakowski traffic Manager—Olga Guerra SUBSCriPtionS American Association for Clinical Chemistry, Inc. 1850 K Street, NW, Suite 625 Washington, DC 20006 Phone: (202) 857-0717 or (800) 892-1400 Fax: (202) 887-5093 E-mail: custserv@aacc.org Subscriptions to Clinical Laboratory News are free to qualified laboratory professionals in the United States. AACC members outside the U.S. pay $87 for postage. The subscription price for those who do not qualify for a free subscription is $87/year in the U.S. and $130/ year outside the U.S. For more information, contact the AACC Customer Service Department at (800) 892-1400 or (202) 857-0717 or custserv@aacc.org. Editorial CorrESPondEnCE Nancy Sasavage, PhD, Editor Clinical Laboratory News 1850 K Street, NW, Suite 625 Washington, DC 20006 Phone: (202) 835-8725 or (800) 892-1400 Fax: (202) 835-8725 E-mail: nsasavage@aacc.org Contents copyright © 2013 by the American Association for Clinical Chemistry, Inc., except as noted. Printed in the U.S.A. Clinical Laboratory News (ISSN 0161-9640) is the authoritative source for timely analysis of issues and trends affecting clinical laboratories, clinical laboratorians, and the practice of clinical laboratory science. @Cln_aaCC 4 CliniCal laboratory news June 2013 CMS’s new guidance on competency assessment recommends labs focus on whether there are unique procedures for the test. If so, the test will require a separate assessment of competency. “As long as there are no unique aspects, problems, or procedures associated with any test on the testing platform, all tests performed simultaneously on the same testing platform may be combined,” the document states. “However, any test with unique aspects, problems, or procedures within the same testing platform should be assessed separately to ensure that staff maintain their competency to report test results promptly, accurately, and proficiently.” According to Yost, the regulation’s definition of a test system draws a clear line between different analytes on the same platform versus lumping together broader categories such as serology or immunology. CLIA defines a test system as “the instructions and all of the instrumentation, equipment, reagents, and supplies needed to perform an assay or examination and generate test results.” Another way to look at consolidating testing is grouping tests based on platforms, according to Gibson from The Joint Commission. “We see an instrument as a single platform of testing—for example, a hematology analyzer or chemistry analyzer,” Gibson explained. “All of the tests that are being performed on that analyzer are on a single platform, and labs can assess competence across the board for all the analytes on the instrument unless a specific test has some unique step or process. That simplifies things tremendously.” This question of assessing competency for every test—but not necessarily every analyte—comes to the fore with next-generation sequencing, which may explore many different genes. This is an area where CMS plans to produce further guidance for labs. Meanwhile, competency assessment should tackle reasonable goals, Yost commented. “We realize that it doesn’t make sense to require every single possible analyte in this case,” she said. “Further guidance is coming for labs, but in the meantime, labs are safe if they do what they think is best.” Don’t Reinvent the Wheel Having a thoughtful system in place for competency assessment will help labs stay in compliance. However, a competency assessment plan need not create a lot of new work. It should be integrated into what laboratory professionals already do every day—performing tests, reviewing results, checking maintenance on instruments— and simply capture and document these routine events. “Unfortunately, instead of using the quality processes that they already have in place, we often see labs trying to create something completely new from scratch,” said Stacy Olea, MT(ASCP), a field director in surveyor management and development for The Joint Commission. “But if you actually look at the six elements under CLIA, laboratorians are doing all of those on a regular basis.” For example, one of the requirements is reviewing intermediate test results or worksheets and quality control records. “Usually you have a supervisor of the department who reviews quality control on a regular basis, so you’re already doing that piece as part of your existing lab quality program,” Olea explained. “What labs need to do is take that documentation and include it in competency assessment.” Similarly, many everyday tasks fall under the rubric of problem-solving skills. For example, an unusual number of delta flags may prompt a technologist to go back and investigate a possible instrument error. “The technologists working the bench are doing this problem-solving on a day-to-day basis,” Olea said. “But instead of just fixing the problem and moving on, the person could document the problem-solving that they did, and submit that as part of their competency assessment program.” Yost also clarified that the annual requirement does not mean that labs have to perform all of their assessments at the same time each year. “Don’t do it all in one day,” Yost said. “I recently received a question from a supervisor who said she did a lot of observation of testing, but didn’t always see everyone through the entire testing process. I said, ‘I bet you do over the course of a year, though, don’t you?’ So she was already doing it, and didn’t realize she was covered. Often it’s just a matter of documentation— making sure you have a checklist or spreadsheet to record all of this.” Gibson echoed this idea. “Too frequently managers feel that competency assessment is a snapshot in time, when you actually have a year to gather the data that’s used to determine the competence of your staff,” Gibson said. “It makes a lot more sense to gather that data as a continuum. The direct observation of testing, the monitoring of the recording, review of intermittent results, and so on, does not have to happen at one point. It happens on an ongoing basis, and most of it happens in the routine supervisory review process.” Planning, Teamwork, and Efficiency If labs follow the rules carefully about who can perform assessments, they can share responsibility and avoid overwhelming one person, according to experts. “One of the pitfalls we see is the lab manager or the supervisor trying to run the competency assessment program all by him or herself— doing all six elements for every test for every person,” Olea said. “The key is to involve the testing personnel: they’re the ones who know when they’re doing maintenance, testing, or problem solving. At some level, all of the staff of the laboratory have to be accountable.” Olea recommends giving each person a binder or folder so that when they accomplish one of the elements of their assessment for a test, they can proactively gather documentation. Creating a schedule for which elements will be assessed, and by whom, can save time and keep documentation organized, said Hagen-Moe. “I often recommend that labs make sure their staff knows that they’re responsible for getting this done within a certain timeframe. It can’t only be the responsibility of the laboratory director to chase everyone around: set out the expectations and make your staff accountable.” Overall, a standardized approach across the organization can help make sure that regulatory requirements are met while setting clear expectations for staff. HagenMoe recommends that laboratory directors and managers sit down with representatives from each area of the lab and design a process together, along with clear policies and procedures. “You want to avoid everyone producing variations on the same thing,” she said. Laboratory directors and managers should also explain why competency assessment is important in the first place, Hagen-Moe emphasized. “I think it’s really important to explain to your staff that competency is not just a compliance issue. The goal is that we’re doing quality work: we want to provide the highest quality test results that we can, and to do that we’re doing quality checks on our staff,” she said. “Don’t take it as something punitive—we do quality checks on the instruments, we do quality checks on the process, so we’re going to do a quality check on you to make sure we’re providing our patients with CLN accurate test results.” Who Can Perform Competency assessments? Labs Must Delegate Carefully A common pitfall for labs is the question of who can actually perform a competency assessment under the regulations. In a moderately complex laboratory, the person performing the competency assessment must be qualified as a technical consultant. This means at least a bachelor’s degree and 2 years of laboratory training or experience with nonwaived testing. The experience should be in the designated specialty or subspecialty in which the testing takes place. In a highly complex laboratory, he or she must qualify as a technical supervisor, with a bachelor’s degree and 4 years’ training or experience in high-complexity testing. However, a technical supervisor may delegate the responsibility for competency assessments, in writing, to a general supervisor. Minimum qualifications for a general supervisor are an associate degree and 2 years’ of high complexity testing training or expertise. For technologists who’ve been working in the lab longer, the regulation makes an exception for those previously qualified as a general supervisor under federal regulations on or before Feb. 28, 1992. Personnel who perform point-of-care testing must also have their competency assessed. In this case, trained nurses may perform the assessment, but they must still meet the regulatory qualifications—at least a bachelor’s degree and 2 years’ of training or experience with non-waived testing. In addition, the laboratory director must delegate this task to a nurse in writing beforehand. United by care. Bound by quality. Partners in excellence. Monitoring overall laboratory performance. Saving time and resources. Increasing and sharpening skills. We understand what is crucial to your laboratory's success and provide the solutions that help you meet these challenges. Discover new ways the CAP can help you achieve your goals—visit us at the 2013 AACC Annual Meeting. July 28–August 1 | Houston, Texas | Booth #3428 © 2013 College of American Pathologists. All rights reserved. cap.org New Biomarkers Face High Bars Prostate Cancer, continued from page 1 on to add that next-generation sequencing has the potential to address the many demands placed on biomarkers for prostate cancer, from diagnosis all the way to personalizing drug therapies of the future (See Table, right). However, he also warned against being beguiled by the novelty of this technology if it doesn’t decisively answer key clinical questions. PSA’s History The U.S. Food and Drug Administration (FDA) first cleared the PSA test in 1986 to monitor treatment in men already diagnosed with prostate cancer and extended approval in 1994 for detecting cancer in symptomatic men. By that time, however, the PSA horse was out of the proverbial barn, and the test was being used widely, particularly in the U.S., for screening asymptomatic men. Off-label use of PSA as a general screening test has been at the center of the controversy, for many reasons. One is that PSA, a glycoprotein produced by the epithelial cells of the prostate, can be elevated for reasons other than prostate cancer, including from prostatitis, trauma, or benign prostatic hyperplasia. As a consequence, the test is not very specific for detecting prostate cancer. At modest elevations its specificity is as low as 20%, but rises to as much as 50% at levels ≥10 µg/L. This perhaps would not be such an issue if the prostate cancer field was not weighed down by over-diagnosis and over-treatment. American men have a 16% lifetime risk of developing the disease, but only about 3% die from it. As many as fourout-of-five prostate biopsies on men with elevated PSA levels turn out to be negative for cancer, and up to half the true-positives are unlikely to pose problems for men during their lifetimes. At the same time, both prostate biopsies and treatments pose risks: biopsies have infectious complication rates ranging from 0.6–4.1%, while radical prostatectomy leads to sexual function issues in an estimated 20–70% of men and urinary problems in 15–50%. Despite these cautionary statistics, once men hear the word cancer, many still pursue treatment. The bias toward treatment in the U.S. contrasts sharply with other countries. For example, an estimated 20–30% of European men choose active surveillance compared with only about 5–10% of American men. This screenand-treat mentality is beyond frustrating to Otis Brawley, MD, chief medical officer of the American Cancer Society (ACS), who also spoke at the AACR conference. “One of the problems I’ve had with this frenzy of prostate cancer screening and treatment over the last 25 years is that we’ve actually impeded scientific development of the new markers we desperately need to figure out the cancers that kill versus the cancers that don’t kill,” he contended. Which Cancers Need to Be Treated? Knowing which men have indolent disease that merely deserves active surveillance and which have aggressive cancer that must be acted on, has, in fact, been at the heart of the PSA debate. Quite a number of different strategies for using PSA and its various 6 CliniCal laboratory news June 2013 forms have been proposed to address this issue, including: PSA density, PSA velocity, PSA doubling time, free PSA (fPSA), proPSA, and complexed PSA. All of these have been found to be complementary to PSA in certain circumstances, and the FDA has cleared fPSA for use in men with total PSA in the diagnostic gray zone between 4–10 µg/L. Different cutoffs also have been proposed to fine-tune PSA’s sensitivity and specificity. A cutoff of 4 µg/L has been commonly adopted and used in major screening studies, and an ACS literature review found this threshold to have an estimated sensitivity of 21% for detecting any prostate cancer and 51% for detecting highgrade cancer. Lowering the cutoff to 3 µg/L boosts these sensitivities to 32% and 68%, respectively, but at the cost of specificity, which drops from 91% to 85%. However, lower thresholds have not been endorsed formally by professional organizations. In fact, the National Academy of Clinical Biochemistry Laboratory Medicine Practice Guideline on the use of tumor markers recommends not using age-specific reference intervals and notes that the reported benefits from lowering the clinical decision limit below 4 µg/L are too uncertain to make a blanket recommendation (Clin Chem 2008:54:e11–79). Demands for Prostate Cancer Biomarkers Biomarkers are needed to address prevalent clinical issues in all stages of prostate cancer. Prostate Cancer State Medical Need Screening/early detection Risk stratification, detection, and diagnosis. 15–20% of asymptomatic men. Localized prostate cancer Treatment stratification, treatment selection, and recurrence monitoring. Active surveillance monitoring. Untreated: 33% of men will suffer with metastatic cancer and 21% will die from it. Treated: 22% of men will suffer with metastatic cancer and 15% will die from it. 20–40% of men on active surveillance will progress to need intervention over 5–10 years. Recurrent/ advanced prostate cancer Risk stratification, treatment monitoring, and progression detection. Rising serum PSA: 30% progress to metastases over 8 years. Castration-resistant prostate cancer (metastatic and non-metastatic) Treatment stratification and treatment monitoring. Treatment selection. Rising serum PSA: 33% progress to metastases over 2 years. Significant responses to abiraterone and enzalutamide in 40–60%. A Lack of Clarity Researchers and clinicians who hoped clarity about the role of PSA in screening would come from two major clinical trials—the Prostate, Lung, Colorectal, and Ovarian Cancer Screening Trial (PLCO), and the European Randomized Study of Screening for Prostate Cancer (ERSPC)— were disappointed. PLCO, a study of 77,000 men at 10 U.S. centers, did not identify a significant reduction in prostate cancerspecific mortality. However, this study has been criticized because half of the men assigned to the control group also underwent screening by virtue of receiving usual care. “PLCO does not provide an answer to value of screening—it compares screening to the current U.S. practice of screening,” contended AACR panelist, Fritz Schröder, MD, PhD, a professor of urology at Erasmus University in Rotterdam, the Netherlands and one of the lead ERSPC investigators. The initial report from ERSPC involving 182,000 subjects from seven countries, found the death rate of prostate cancer was 20% lower in the screening versus control arm, but 1,410 men would need to be screened and 48 cases of prostate cancer detected to prevent one death from the disease. The second report, published in March 2012 and reflecting 2 more years of follow-up, consolidated the authors’ prior findings that PSA significantly reduced prostate cancer-related mortality—a 29% relative risk reduction—but did not affect all-cause mortality, the crucial criterion for population-based screening. More recently, ERSPC researchers examined quality of life issues around prostate cancer screening and concluded that long-term effects after diagnosis and treatment diminished the benefits of screening but that more data was needed to make universal screening recommendations. “There are significant harms from screen- Estimated Prevalence Courtesy of William G. Nelson, MD, PhD ing, and this is the agreement in general around the world,” said Schröder. “The most important message is that the harms do not exceed the benefits; they adjust the benefits in a reasonable way.” Based on the controversial and still confused picture of PSA’s role, Schröder and Brawley agreed that individual informed decision-making for now remains the best prostate cancer screening strategy. “The present evidence does not justify the introduction of population-based screening programs,” said Schröder. “However, wellinformed men should not be denied PSAdriven testing.” Brawley drove the point home more directly. “Mass screening for prostate cancer is commonly done in the U.S., and I’ve been on a 22-year mission to drive it out of the picture and drive screening into the doctor-patient relationship.” Molecular Biomarkers to the Rescue? With PSA’s flaws, research to come up with something better has been intense, particularly in the genomic realm. Molecularbased biomarkers hold the promise of answering crucial clinical questions, such as who should be screened, who has prostate cancer, and who needs treatment (See Table, p. 7). PSA currently plays a more or less unsatisfying role in addressing these concerns. Already, at least 80 single nucleotide polymorphisms (SNP) have been linked to prostate cancer, and multigene panel tests that detect or predict the disease are available commercially. A recent New York Times article indicated that more than one dozen companies have already or intend to introduce such tests, some intended to be used as adjuncts to PSA results, others independently. Several are aimed at teasing out from biopsy samples how aggressive a cancer is, including Genomic Health’s Oncotype DX Prostate Cancer Test. Others strive to guide treatment choice or provide prognostic information after surgery, like Myriad Genetics’ Prolaris test. Still others propose to forestall unnecessary second biopsies in men whose PSA levels stay elevated after an initial negative biopsy. One such example is the PCA3 test cleared by the FDA in 2012, which detects a long noncoding RNA elevated in >90% of prostate cancer tissue but not normal tissue. In the midst of all this test development, the Agency for Healthcare Research and Quality reviewed 15 multigene panels and concluded that all have “poor discriminative ability” for predicting risk of prostate cancer. Likewise, leading researchers have been underwhelmed with some proposed tests, and AACR panelist William Nelson, MD, PhD, explained the high bar assay developers face. “We’re very interested in sensitivity and specificity, but when we think about employing these tests for the purposes of medical decision-making we need to think a lot more about predictive value,” he said. “As many as 15 to 20 percent of all men if biopsied would be found to have cancer in their prostates. So a test with a negative predictive value of 80 percent is not giving me any more information than I had just by walking around anyway. You have to beat this threshold to have a useful test; otherwise, it’s not adding to the clinical picture.” Nelson is professor of oncology and director of the Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins University in Baltimore. One of the issues in developing clinically useful multigene panels is that most genome-wide association studies have identified relatively more common SNPs. That means that men both with and without prostate cancer carry at least some of the risk markers detected in these panels, making it challenging to set cutoffs for high- and low-risk groups, and affecting the positive predictive power of the test. Promising Genetic Signatures Some of the genetic signatures that have been studied the most and show the most promise in prostate cancer include PTEN, TMPRSS2, and SPOP. As an example, loss of PTEN inhibits androgen receptor signaling and causes resistance to androgen receptor-based therapies. PTEN deletion also has been associated with poor outcomes, suggesting it may be of both prognostic and predictive importance. Similarly, gene fusions between TMPRSS2 and ERG—present in about half of all prostate cancer cases—especially in conjunction with PTEN deletion, may be a biomarker of aggressive disease. Rubin also discussed an intriguing line of investigation involving chromothripsis, a dramatic rearrangement of DNA in localized chromosomal regions with usually one-to-two copy number states across the rearranged region. Cells not only survive this catastrophic event, but through their new genomic make-up seem to confer selective advantage to the clone, setting the stage for cancer. First reported in 2010 in the genome of chronic lymphocytic leukemia, bone cancer, and small cell lung cancer, it now has been found in the genome of other cancers, including prostate cancer. “The lack of stability of the genome could potentially be a biomarker,” he explained. “From the first study looking at this, investigators found these rearrangements often incorporated known oncogenes. This suggests that this pattern of rearrangement is a type of biomarker where there may be a selection for alterations over-expressing an oncogene or knocking out a tumor-suppressor gene.” Rubin was quick to add that the chromothripsis phenomenon represents not only the excitement and promise but also the hard work ahead in changing the Subscribe to CLN Today —It’s FREE! Go to www.aacc.org, click on publications, then Clinical Laboratory News. Molecular Biomarkers in Prostate Cancer Molecular-based biomarkers hold the promise of answering crucial clinical questions from screening to treatment monitoring in metastatic disease. Prostate Cancer State Screening/early detection Localized prostate cancer Medical Need Biomarkers Existing and in Development Clinical Application Risk stratification Who should be screened? Detection/diagnosis Who has prostate cancer? Risk stratification Who needs treatment? PSA, prostate cancer genetic susceptibility loci. DNA, RNA, protein biomarkers. DNA, RNA, protein, circulating cells, grade/stage, PSA. Currently based on risk. PSA Treatment stratification What treatment is needed? Treatment monitoring Is treatment effective? Recurrent/advanced Risk stratification prostate cancer Treatment monitoring Castration-resistant prostate cancer (metastatic and non-metastatic) When should treatment begin? PSA, previous grade/stage. Is treatment effective? PSA Treatment stratification Which treatment is most likely to be of benefit? Treatment monitoring Is treatment effective? ? PSA Courtesy of William G. Nelson, MD, PhD prostate cancer diagnostic landscape. “This is very complex biology that’s going to take a while to understand, but my point is it represents biomarkers that a few years ago would never have been thought about.” Mutations and Methylation Both Rubin and Nelson noted the importance of two studies published in 2012 involving whole genome sequencing in sizable prostate cancer cohorts. One involved 112 cancer tumors at diagnosis prior to treatment, and the other, 50 treatmentresistant, ultimately fatal cases. Mutation rates in the two types of disease were fairly similar, but the treatment-resistant tumors had markedly increased copy-number alterations. Overlap in mutations in both types of tumors also suggest that dysregulation of the androgen receptor pathway could be an early event in prostate cancer development. Nelson’s own work and that of other research teams involves exploring DNA methylation alterations. He reported that at least 5,000 of these epigenetic changes have been found in prostate cancer, and that the changes tend to be stable in individuals but vary between individuals. “What’s becoming surprising is just how many of these look like they’re drivers of the neoplastic phenotype. We’re working hard to figure out how that works, which are drivers, which are passengers,” he said. If this work seems very far removed from helping a man and his physician make an informed decision about prostate cancer screening and treatment, both Rubin and Nelson suggested otherwise. “By looking at advanced disease, hopefully it will provide insight in early detection as to which tumors will go on to develop into those aggressive cancers. There are a number of activities going on with dream teams dedicated to this issue,” said Rubin. Nelson reflected on how quickly the field moved in 2004/2005 to begin using the alpha-methylacyl-CoA racemase (AMACR) monoclonal antibody, P504S, in immunohistochemistry analysis for prostate biopsy specimens that are difficult to diagnose by morphology alone. From the time several research teams discovered that AMACR was very commonly over-expressed in prostate cancer but not in normal prostate tissue, he recalled that the field rallied rapidly to make use of this finding. “It moved incredibly quickly, using an enabling technology that had appeared on the scene at that time—tissue microarrays—and a collaborative spirit among prostate pathologists. They got together very quickly, looked at a very large number K-ASSAY ® of prostate samples and were able to introduce the antibody staining for this literally from the first report of it to wide-spread community adoption improving cancer care within two years,” he said. “So we are ready as a field for a good biomarker to deliver into the community. I’m very optimisCLN tic about what we can accomplish.” The Assay You Can Trust... 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Not for use in diagnostic procedures in the U.S. KAMIYA BIOMEDICAL COMPANY 12779 Gateway Drive, Seattle, WA 98168 800-526-4925 206-575-8068 FAX: 206-575-8094 www.k-assay.com CliniCal laboratory news June 2013 7 Antiepileptic Drugs Therapeutic Drug Monitoring of the Newer Generation Drugs MATTHEW D. KRASOWSKI, MD, PHD ntiepileptic drugs (AEDs) used to treat seizure disorders are today among the most common medications for which clinical laboratories perform therapeutic drug monitoring (TDM) (7,2).The first-generation of AEDs-carbamazepine, ethosuximide, phenobarbital, phenytoin, primidone, and valproic acid-were introduced by u.s. and European drug manufacturers several decades ago, and TDM quickly became part of using them in clinical practice. Generally speaking, these AEDs have complicated pharmacokinetics, including absorption, distribution, metabolism, and excretion, as well as narrow therapeutic ranges that cause significant differences in individuals' therapeutic dosages. In the last 20 years, 14 more so-called newer generation AEDs entered the market: eslicarbazepine acetate, felbamate, gabapentin, lacosamide, lamotrigine, levetiracetam, oxcarbazepine, pregabalin, rufinamide, stiripen tol, tiagabine, topiramate, vigabatrin, and zonisamide (3). Only eslicarbazepine acetate and stiripentol are not approved in the U.s., while all of the drugs are available in Europe. Compared to first-generation AEDs, the newer agents generally have wider therapeutic ranges and fewer serious adverse effects. Despite the fact that evidence for the of clinical assessment. Furthermore, sei metabolites,TDM may also include mea clinical benefit of monitoring blood levels zures by nature occur irregularly and un suring the concentration of metabolite of AEDs in patients is mostly anecdotal and predictably, making diagnosis difficult. alone or together with the parent drug. retrospective, TDM today continues to be The basic assumption of TDM is that For example, TDM of oxcarbazepine widely used in clinical practice. Only two the measured drug concentration corre often focuses on its active metabolite, 10-hydroxycarbazepine. randomized, controlled studies have been lates with the concentration at the target published, and neither showed clear clinical site of its action, usually an ion channel or (4, 5). Moreover, these two studies neurotransmitter transporter in the brain, Clinical Need for TOM Clinicians rely upon TDM for managing benefits and others indicate that pre- and post and therefore with the therapeutic effect. analytical errors occur frequently, particu However, the correlation of drug concen patients' AED therapy for multiple reasons. larly in timing blood draws and interpret tration with clinical effect is reduced by Perhaps the most common is that the pa factors such as irreversibility of drug action tients exhibit significant inter-individual ing drug levels (1,2). variability in their pharmacokinetic re sponses to most AEDs (1, 2). However, a few AEDs have predictable and consistent pharmacokinetics and generally require little or noTDM. The major pharmacokinetic factor af fecting a patient's therapeutic drug levels is how quickly the liver metabolizes the AED. It is well known that the cytochrome P450 (CYP) enzyme system plays a major role. Some drugs actually increase or induce liver metabolism by CYP enzymes, leading to quicker metabolism. Classic inducers in clude carbamazepine, phenobarbital, phe nytoin, rifampin (a tuberculosis drug), and St. John's wort (an herbal antidepressant). These drugs may lower patients' blood lev els below what is optimal unless the AED dose is increased. Other drugs inhibit CYP enzyme me tabolism of some AEDs.This inhibition can lead to excessively high drug concentrations unless the clinician reduces the patient's dose. Inter-individual differences may also result from: impaired organ function, typi cally kidney or liver; drug-drug or drug-food interactions; or genetic or pharmacogenet ics factors. In renal failure patients, AEDs This article will present an overview or an individual's tolerance of the drug. For may be removed during dialysis procedures, of the newer AEDs and why improved example, TDM has limited utility for vi especially those that only bind plasma pro education on the proper use ofTDM is an gabatrin because it irreversibly binds to its teins weakly. A number of factors also may important goal for maximizing the safety molecular target. and benefits of these drugs for patients. Current Status ofTOM for AEOs 8 alter serum protein concentrations includ Laboratories usually perform TDM ing liver disease, advanced age, pregnancy, on serum or plasma samples, and less uremia, and other drugs (e.g., valproic acid) commonly on cerebrospinal fl u id or sa that also bind serum proteins. TDM of AEDs is challenging because no liva. However, the popularity of saliva as a Clinicians also rely uponTDM to assess simple diagnostic tests can assess the clinical specimen for TDM of AEDs is growing. It patient compliance. Typically, they pre efficacy of any of the drugs. Careful clinical is easy to collect and transport saliva (6), scribe the drug for the patient for months observation and labor-intensive electroen although it is not a viable specimen type or even years, despite the absence of sei cephalograms (EEG) remain the mainstays for some AEDs (7). For drugs with active zures. Patients may skip doses or stop taking CLINICAL LABORATORY NEWS JUNE 2013 the medication altogether because they haven’t had a seizure, or they may quit taking it due to adverse effects or the cost of the medication. Lastly, AED levels may also be useful in managing suspected toxicity due to inadvertent or intentional overdose. The Reference Range Dilemma Although the newer AEDS offer many benefits for patients, laboratories have struggled to establish reference ranges for TDM, primarily because many of the drugs are effective over a wide range of serum/plasma concentrations (1, 2, 8). Furthermore, some individuals show good clinical response at levels above or below the standard reference range. Reference ranges also vary with different types of seizures, as well as with whether the AED is taken as monotherapy or in combination with other AEDs. A noted clinical pharmacologist, Emilio Perucca, MD, PhD, has promoted the concept of “individual therapeutic concentrations” for AEDs, wherein a patient is treated until good seizure control is achieved (8). In this model, the clinician assesses the AED’s serum/plasma concentration at a clinical endpoint and uses it as the patient’s individual therapeutic concentration. The frequency of TDM can be adjusted as needed when any changes occur that might alter the AED’s pharmacokinetics. Table 1 presents a summary of the factors that influence clinical use and interpretation of these drugs. Analytical Methods Another reason that TDM of the newer AEDs has been challenging is that homogeneous immunoassays have only recently become available on standard chemistry analyzers. Early on, some clinical laboratories developed analytical methods using chromatography techniques, with or without mass spectrometry (MS) (9). Many laboratories, however, send out samples to reference laboratories. Today, most reference laboratories employ high-performance liquid chromatography (HPLC) and liquid chromatographytandem mass spectrometry (LC-MS/MS) for measuring levels of newer-generation AEDs. Immunoassays are also commercially available for gabapentin, lamotrigine, levetiracetam, topiramate, and zonisamide, with assays for other AEDs in development. Table 2 summarizes the analytical methodologies used for measuring AED serum/ plasma concentrations (9), as well as the viability of saliva as a specimen type (7). A Closer Look The newer AEDs are a welcome addition to therapeutic options for treating epilepsy; however, the large number of drugs along with the variability in patients’ responses presents a wide array of challenges for assessing their levels in patients. Laboratorians need to be aware of the key clinical and pharmacokinetic properties of these AEDs in order to optimize their TDM. Below is a brief review of each drug that summarizes key parameters. Eslicarbazepine Acetate. Approved in Europe, but not in the U.S., eslicarbazepine acetate is a pro-drug that is rapidly metabolized by liver esterases to form eslicarbaze- Table 1 Justifications and Limitations of Therapeutic Drug Monitoring of Newer Antiepileptic Drugs Generic Drug Name Clinical Need for TDM Justification for TDM* Limitations of TDM Eslicarbazepine Intermediate Clearance decreases with chronic dosing and liver failure. Felbamate Intermediate Unclear relationship between Clearance varies significantly by patient age. plasma concentration and toxicity. Gabapentin Infrequent Clearance decreases with renal failure. Wide therapeutic reference range. Low incidence of toxicity. Lacosamide Infrequent Limited. Predictable dosing. Lamotrigine Frequent Metabolism is variable. Possibility of drug-drug interactions. Wide variability in toxic range, with some patients tolerating up to 70 mg/L. Levetiracetam Intermediate Clearance decreases with renal failure. Wide therapeutic reference range. Wide variability in toxic range. Oxcarbazepine Intermediate to frequent Metabolism is variable. Relatively well-defined toxic range exits. Wide therapeutic reference range. Pregabalin Infrequent Clearance decreases with renal failure. Wide reference range. Low incidence of toxicity. Rufinamide Intermediate to frequent Absorption is variable. Possibility of drug-drug interactions. Clearance decreases with renal failure. Uncertain therapeutic reference range. Stiripentol Frequent Pharmacokinetics are complex, including extensive first-pass metabolism, high serum protein binding, and zero-order kinetics. Therapeutic and toxic reference ranges not well defined. Tiagabine Intermediate Shows significant binding to proteins (96%). Uncertain therapeutic reference range. Topiramate Intermediate Clearance decreases with renal failure. Possibility of drug-drug interactions. Toxic ranges not well defined. Vigabatrin Infrequent Limited. Irreversible action. Poor correlation of plasma concentrations to clinical effect. Frequent Metabolism is variable. Clearance decreases with renal failure. Good correlation of plasma concentration with patient response. Toxic ranges not well defined. Zonisamide Generally predictable pharmacokinetics. *In addition to assessing compliance. Source: The data presented are summarized from a number of primary sources that have been recently reviewed (9). pine, the active metabolite that is the target of TDM. Overall, the drug has relatively predictable pharmacokinetics; therefore, TDM has a minimal role in eslicarbazepine therapy, except when it is taken by renal insufficiency patients who may have impaired drug clearance. Felbamate. The Food and Drug Administration (FDA) approved felbamate for treating adults with partial seizures and children with Lennox-Gastaut Syndrome, a type of childhood epilepsy that is often refractory to standard AED therapy. By 1994, however, clinicians identified cases of aplastic anemia, some of which progressed to severe liver failure, that were associated with felbamate therapy. While the drug has remained on the market, FDA sought revised labeling and restricted its use. Patients taking a typical dose of felbamate have serum/plasma concentrations of 30–60 mg/L, but children clear the drug 20–65% faster than adults. Overall, felbamate TDM has relatively modest utility, and unfortunately, toxicity cannot be easily predicted from laboratory studies. Given felbamate’s potential adverse effects, laboratorians should advise clinicians to closely monitor blood counts and liver function of patients receiving this therapy. Gabapentin. FDA originally approved gabapentin for treating epilepsy, but the drug has achieved far greater popularity as an adjunctive therapy for chronic pain. Gabapentin is not metabolized, shows little binding to serum proteins, and is cleared almost entirely by the kidneys. A wide range of serum/plasma concentrations, 2–20 mg/L, are associated with effective seizure control. Other than optimizing dosing in renal insufficiency patients, TDM has overall low utility in gabapentin therapy. Saliva concentrations can be monitored, but they are only 5–10% of those in serum/plasma. Lacosamide. This drug has predictable pharmacokinetics across all ages and is cleared almost equally by the liver and kidney. Clinically significant drug-drug interactions involving lacosamide are also uncommon. Lacosamide TDM has relatively low utility except in patients with severe liver and/or kidney failure. Lamotrigine. Approved in the U.S., lamotrigine is widely used to treat partial seizures, as well as bipolar disorder. Several first-generation AEDs have been associated with severe birth defects, but lamotrigine has a solid safety record in pregnancy, making it the AED of choice to treat pregnant women experiencing seizures. Dermatologic reactions occur frequently, however, and patients should seek medical attention promptly if any skin reactions occur. Lamotrigine’s pharmacokinetics are well understood, but fairly complex. The drug exhibits: increased metabolism over time (auto-induction); drug-drug interactions with CYP enzyme inducers and inhibitors; and impaired clearance in renal failure. But lamotrigine’s clearance is higher in children and markedly higher (~300%) in pregnancy. Researchers have proposed a reference range of 3–14 mg/L for refractory epilepsy therapy; however, the incidence of toxic effects is significantly increased when serum/plasma concentrations are above 15 mg/L. Given the complicated pharmacokinetics and well-defined toxicity level, TDM plays a major role in lamotrigine therapy. In addition to serum/ plasma, saliva is a viable specimen type for lamotrigine TDM. CliniCal laboratory news June 2013 9 Levetiracetam. A widely used newer AED, levetiracetam is available in both oral and intravenous formulations, with the intravenous form used for acute management in the hospital setting. The drug does not bind serum proteins, has predictable pharmacokinetics, and limited drug-drug interactions because it is not metabolized by the liver. Laboratories that perform TDM of levetiracetam should separate serum or plasma from whole blood rapidly, as hydrolysis of levetiracetam can occur in the blood tube. Saliva is also a viable specimen type for levetiracetam. Researchers have proposed a therapeutic reference range of 12–46 mg/L, but laboratorians should be aware that samples drawn shortly after a dose of intravenous levetiracetam can appear to have very high drug levels. The main value of TDM for levetiracetam is adjusting dosage for pregnant patients and those with renal insufficiency. Oxcarbazepine. Oxcarbazepine is structurally related to carbamazepine, but it has a lower incidence of adverse effects, such as agranulocytosis and drug-drug interactions. The drug is metabolized primarily to 10-hydroxycarbazepine, which accounts for much of the anti-seizure activity. For TDM, oxcarbazepine is treated like a prodrug, with monitoring focused on 10hydroxycarbazepine. Clearance is reduced in the elderly and in individuals with renal insufficiency, but increased in pregnant women and patients taking liver enzymeinducing drugs. Laboratories have observed that a wide range of serum concentrations, 3–35 mg/L, are clinically effective in seizure treatment, with toxic side effects more common at >35 mg/L. Overall, TDM is useful especially in renal insufficiency, pregnancy, and cases with suspected drug-drug interactions. Saliva is also a possible specimen type, although 10-hydroxycarbazepine has a shorter halflife in saliva compared to serum. Pregabalin. Pharmaceutical researchers designed pregabalin to be a more potent analog of gabapentin. Similar to its predecessor, pregabalin is effective in treating chronic pain, and since its introduction, FDA approved a separate indication for treating fibromyalgia. Pregabalin has predictable pharmacokinetics with no reported drug-drug interactions and minimal binding to serum proteins; however, renal failure patients generally take lower dosages. Within the reference range of 2.8–8.3 mg/L, patients experience beneficial antiseizure effects. However, other than adjusting dosage for renal failure patients or assessing adherence to therapy, TDM has minimal benefit in pregabalin therapy. Rufinamide. Approved in the U.S. for Lennox-Gastaut syndrome, rufinamide has very complicated metabolism pathways and a high potential for drug-drug interactions. Serum/plasma levels within a broad reference range of 3–30 mg/L correlate well with seizure control. Monitoring serum levels can be especially helpful in patients taking concomitant liver enzyme inducers or who are receiving hemodialysis. Overall, TDM is quite useful for this drug. Stiripentol. Approved in Europe in 2001, stiripentol has yet to be approved in the U.S. It has very complex pharmacokinetics, including non-linear elimination kinetics, high serum protein binding, and extensive metabolism by the liver, which resembles the classic AED phenytoin more than newer AEDs. The stiripentol reference range is not well-defined, but serum concentrations of 4–22 mg/L correlate with good management of seizures in children. Monitoring the free-drug fraction of stiripentol would appear to be beneficial, but no methods have been reported to date. Overall, clinical use of the drug is limited, and therefore so is experience with TDM. Tiagabine. The AED drug tiagabine is not widely prescribed in the U.S. or Europe. Its limited use has been attributed to a propensity to cause non-convulsive status epilepticus, a serious adverse effect (10). It shows significant binding to proteins (>96%), as well as variability in inter-individual metabolism by the liver. Although therapeutic levels of the drug are substantially lower than those for other newer generation AEDs, tiagabine has a broad reference range of 0.02– 0.2 mg/L for its anti-seizure effect. Overall, TDM is very useful for tiagabine due to its complex and variable pharmacokinetics. Topiramate. Approved for treating epilepsy in children and migraine headaches in adults, topiramate is metabolized in the liver and has the potential for drug-drug interactions. Researchers have proposed a reference range of 5–20 mg/L for epilepsy therapy. TDM of topiramate is valuable because individuals’ metabolism is quite variable. Saliva is also a viable specimen type. Vigabatrin. An irreversible inhibitor of GABA transaminase, vigabatrin breaks one of the principle assumptions of TDM, namely that the concentration in serum/ plasma correlates with the concentration at the target site. This may be one reason why laboratories have observed a wide range, 0.8–36 mg/L, of trough serum/plasma concentrations found in patients successfully treated with the drug. Consequently, other than to assess patient compliance or to evaluate possible drug overdose, there is little benefit in monitoring vigabatrin. Zonisamide. Metabolism of zonisamide is affected by drugs that induce or inhibit CYP enzyme activity. There is significant inter-individual variability in metabolism of the drug, especially in patients who are on concomitant therapy with other drugs that also affect expression of liver enzymes. Toxic side effects are uncommon at serum concentrations <30 mg/L, and researchers have Online Extras More on Newer AEDs— Chemical Structures Pharmacokinetic Parameters Commercial Assays Go to the June issue of CLN at www.aacc.org 10 CliniCal laboratory news June 2013 Table 2 Analytical Methods for Therapeutic Drug Monitoring of Newer Antiepileptic Drugs Generic Drug name Primary Analytical Methodology(ies)* Viability of saliva as a specimen Type Eslicarbazepine HPLC Unknown Felbamate GC, HPLC, LC-MS/MS Unknown Gabapentin HPLC, LC-MS/MS, immunoassay Lacosamide HPLC, LC-MS/MS Yes Lamotrigine HPLC, LC-MS/MS, immunoassay Yes Levetiracetam GC, HPLC, LC-MS/MS, immunoassay Yes Oxcarbazepine HPLC, LC-MS/MS Yes Pregabalin HPLC, LC-MS/MS Unknown Rufinamide HPLC, LC-MS/MS Unknown Stiripentol HPLC Unknown Tiagabine LC-MS/MS Unknown Topiramate GC, HPLC, LC-MS/MS, immunoassay Yes Vigabatrin HPLC No Zonisamide HPLC, LC-MS/MS, immunoassay Yes Limited, low concentrations in saliva * Abbreviations: GC, gas chromatography; HPLC, high-performance liquid chromatography; LC-MS/MS, liquid chromatography-tandem mass spectrometry. proposed a reference range of 10–40 mg/L in serum/plasma for managing seizures. Saliva is also a viable specimen type for zonisamide TDM. Overall, TDM is useful for zonisamide. The Take-Home Message The past 20 years have seen the introduction of 14 newer AEDs for treatment of seizure disorders. Clinicians also prescribe the newer agents for “off-label” conditions, including bipolar disorder, chronic pain syndromes such as fibromyalgia and trigeminal neuralgia, or migraine headaches. As use of these drugs increases, clinical laboratories will likely see more requests from clinicians to monitor patients’ drug levels. Although physicians often order the tests to assess adherence to therapy, laboratorians should approach TDM for conditions other than seizure disorders cautiously, as it is not well-defined at present. The availability of more automated immunoassays for measuring these drugs, as well as the expected development and introduction of more assays by manufacturers, will allow larger numbers of laboratories to perform in-house TDM of the newer AEDs. Laboratorians would do well to recognize this trend and evaluate new assays carefully so that they can best help clinicians understand the clinical utility CLN of the results. antiepileptic drugs: Clinical applications. JAMA 2004;291:615–20. 4. Fröscher W, Eichelbaum M, Gugler R, et al. A prospective randomized trial on the effect of monitoring plasma anticonvulsant levels in epilepsy. J Neurol 1981;224:193– 201. 5. Januzzi G, Cian P, Fattore C, et al. A multicenter randomized controlled trial on the clinical impact of therapeutic drug monitoring in patients with newly diagnosed epilepsy. Epilepsia 2000;41:222–30. 6. Jones MD, Ryan M, Miles MV, et al. Stability of salivary concentrations of the newer antiepileptic drugs in the postal system. Ther Drug Monit 2005;27:576–9. 7. Patsalos PN and Berry DJ. Therapeutic drug monitoring of antiepileptic drugs by use of saliva. Ther Drug Monit 2013;35:4– 29. 8. Perucca E. Clinical pharmacology and therapeutic use of the new antiepileptic drugs. Fundam Clin Pharmacol 2001;15:405–17. 9. Krasowski MD. Therapeutic drug monitoring of the newer anti-epilepsy medications. Pharmaceuticals (Basel) 2010;3:1909–35. 10. Schapel G and Chadwick D. Tiagabine and non-convulsive status epilepticus. Seizure 1996; 5:153–6. RefeRences 1. Neels HM, Sierens AC, Naelerts K, et al. Therapeutic drug monitoring of old and newer anti-epileptic drugs. Clin Chem Lab Med 2004;42:1228–55. 2. Patsalos PN, Berry DJ, Bourgeois BFD, et al. Antiepileptic drugs—best practice guidelines for therapeutic drug monitoring: A position paper by the subcommission on therapeutic drug monitoring, ILAE Commission on Therapeutic Strategies. Epilepsia 2008;49:1239–76. 3. LaRoche SM and Helmers SL. The new Matthew D. Krasowski, MD, PhD, is a clinical associate professor and medical director of the Clinical Chemistry and Point of Service Laboratories, and director of clinical laboratories in the Department of Pathology at the University of Iowa Hospitals and Clinics, Iowa City, Iowa. Email: matthew-krasowski@uiowa.edu. Disclosure: The author has nothing to disclose. all tHe eleMents of laBoratory ManaGeMent, researCH and CuttinG-edGe teCHnoloGy will Be tHere. WIll you? tHe world’s larGest GatHerinG for laBoratory MediCine + annual MeetinG & CliniCal laB expo 2013 200+ New Product Introductions. this is tHe place to learn about cutting edge technology in laboratory medicine. + 17,000+ Attendees. Join the global leaders in clinical chemistry, molecular diagnostics, mass spectrometry, translational medicine, + July 28-August 1, 2013 GeorGe r. Brown lab management, lab medicine and more. Convention Center 5 Packed Days. Build your agenda with educational sessions, Houston, texas usa networking, new science and technology previews, and more. The New York Times recently ranked RegistRation now open www.aacc.org/2013am Houston as one of the top places to see in 2013—save the date and watch for registration details soon. The Must-Attend Event for Lab Medicine Get ready for the world’s largest gathering focusing on management, research, and cutting-edge technology in laboratory science. Medical Marvel The Texas Medical Center is the largest medical complex in the world, with 50 member institutions. A Culinary Destination Choose from more than 8,000 restaurants in Houston featuring cuisines of 35 countries and American regions. World-Class Museums Houston boasts one of the largest museum districts in the country with 18 museums within walking distance of each other. Five Plenary Speakers Describe the Future of Laboratory Medicine Deconvoluting the Metabolic Syndrome at a Molecular Level C. Ronald Kahn, MD Joslin Diabetes Center and Harvard Medical School Boston, Mass. 2013 Wallace H. Coulter Lectureship Award The recipient of numerous prestigious scientific awards, Dr. Kahn will open the AACC Annual Meeting as the winner of the AACC 2013 Wallace H. Coulter Lectureship Award. Dr. Kahn’s research over the last 30 years has defined the field of insulin signal transduction and mechanisms of altered signaling in disease. He will present the latest findings from his laboratory using a mouse genetics model and describe how those findings impact our understanding of metabolic syndrome. Challenging the Dogma: A New View of the Genomic Programming of Human Development John Mattick, PhD Garvan Institute of Medical Research Darlinghurst, NSW, Australia The Vitamin D Debate: Is Enthusiasm Outpacing Evidence? Bruce Hollis, PhD Medical University of South Carolina Charleston, S.C. Jo Ann Manson, MD, DrPH Brigham and Women’s Hospital and Harvard Medical School Boston, Mass.P Patient-Based Therapeutics Discovery Stuart Schreiber, PhD Broad Institute of Harvard and MIT Cambridge, Mass. Dining in With Trillions of Fascinating Friends Jeffrey Gordon, MD Washington University School of Medicine St. Louis, Mo. 12 CliniCal laboratory news June 2013 Why is the Annual Meeting & Clinical Lab Expo a must-attend event for you? “I’ve been attending every year since I was a student. It allows young members to meet some of the biggest names in the field and attend excellent sessions on the most up-to-date clinical lab practices. I especially enjoy the poster and oral sessions, and Society for Young Clinical Laboratorians events, which provide great networking opportunities.” Maria D. Pasic, PhD Clinical Biochemist St. Joseph’s Health Centre Assistant Professor Department of Laboratory Medicine and Pathobiology University of Toronto “The Annual Meeting and Clinical Lab Expo always has been more to me than just a meeting. It has been a home where I gain knowledge, establish collaborations, network with colleagues, and enjoy time with friends.” Gregory J. Tsongalis, PhD Director, Molecular Pathology Professor of Pathology Dartmouth-Hitchcock Medical Center Lebanon, N.H. “The Annual Meeting and Clinical Lab Expo gives me the opportunity to connect clinical lab testing with those who bring it to fruition in the marketplace, with others from around the world who perform testing, and with experts who present the latest science. Connecting faces and names is another highlight of the event!” Peggy Mann, M.S., MT(ASCP) Quality, Safety, and Environment Program Manager Ambulatory Practices POC Coordinator University of Texas Medical Branch Galveston, Texas “It’s a great place to stay connected! Drawing scientists, laboratorians, and exhibitors from all over the world, the Annual Meeting and Clinical Lab Expo is a rare opportunity to take in all the latest innovations within our industry. Plus, catching up with old friends, making new friends, and maybe even agreeing to new research collaborations. I come away with a great sense of renewed energy and fresh approaches, and I’d never miss it!” Sihe Wang, PhD, DABCC, FACB Section Head, Clinical Biochemistry Cleveland Clinic Cleveland, Ohio AACC DIVISION EVENTS Connect Boost your AACC Annual Meeting experience by connecting with other laboratory professionals who share your interests! Select from these special events and others when you register. JuLy 27 SyCL Workshop and Mixer Practical Approaches to Sustainable Planning in Achieving LEAN Success 1–5:30 p.m. (Mixer 5:30–7:30 p.m.) Hilton Americas Sponsored by Abbott, AB Sciex, Beckman Coulter, Inc., Bio-Rad Laboratories, Nova Biomedical, Ortho Clinical Diagnostics, Roche Diagnostics, Sysmex America, Inc., The Binding Site, Inc., Thermo Fisher Scientific, UTAK Laboratories, and Waters Corporation. Geared toward current trainees, as well as new and junior laboratory directors, this workshop will cover topics including LEAN implementation in the clinical laboratory, how to financially justify and implement laboratory automation, and how to create an early and successful career path. REGISTRATION fEE: $30 27 Saturday Biomarkers of Acute Cardiovascular Diseases forum Applications of High-Sensitivity Troponin in Clinical Practice 4–6:30 p.m. Hilton Americas Sponsored by the AACC Biomarkers of Acute Cardiovascular Diseases Division, Singulex, and Abbott. The next generation of high-sensitivity troponin assays will be on the market soon. Attend this symposium if you are confused about the current generation of troponin assays and their cutoffs, and in particular, to learn about how the next generation of troponin assays will be used. REGISTRATION fEE: $20 AACC members, $30 non-members (includes reception). JuLy 27 Saturday 29 Monday Annual Lipoproteins and Vascular Diseases Division Dinner Meeting Current Topics in Cardiovascular Disease 5:30–9:30 p.m. Hilton Americas Saturday JuLy JuLy 18th Annual Management Sciences and Patient Safety Leadership Seminar Errors in Selection of Appropriate Laboratory Tests and Interpretation of Test Results: A Major Cause of Poor Patient Outcomes 5:30–8 p.m. Hilton Americas Sponsored by the AACC Management Sciences and Patient Safety Division. Sponsored by the AACC Lipoproteins and Vascular Diseases Division. Division members are invited to this annual awards celebration and scientific session on current topics in cardiovascular disease. The dinner will include presentations from experts on microRNAs in lipid metabolism, novel biomarkers, and drug targets. REGISTRATION fEE: $50 (includes reception and dinner). Division members only. JuLy 30 Tuesday International Lipoprotein Standardization forum 6–9:30 p.m. Hilton Americas Sponsored by the AACC Lipoproteins and Vascular Diseases Division. Cosponsored by the Japan Healthcare Technology Foundation and Pacific Biometrics Research Foundation. Division members are invited to join international leaders in a discussion of recent findings related to lipoproteins, with a focus on new technologies and standardization efforts. REGISTRATION fEE: $40 (includes reception and dinner). Division members only. JuLy 30 Tuesday Annual Nutrition Division Networking Seminar 6–9:30 p.m. Hilton Americas Sponsored by the AACC Nutrition Division. This meeting is an excellent opportunity for networking with laboratory professionals interested in advancing science in the field of nutrition. The scientific presentations will include an overview of the clinical significance of trace elements in health and disease, how laboratories should measure and interpret trace metal concentrations, and the factors that influence trace metal levels in blood. REGISTRATION fEE: $20 (includes reception). AuGuST 1 Thursday 11th Annual Point-of-Care Coordinators forum The Role of Point-of-Care Testing in a Disaster Plan 7:30–10 a.m. George R. Brown Convention Center Sponsored by the AACC Critical and Point-of-Care Testing Division. Laboratory leaders are in a position to have a big impact on patient safety. failure to select appropriate laboratory tests and misinterpretation of laboratory test results can have potentially disastrous outcomes for patients, including misdiagnosing common disorders such as pulmonary embolism, bleeding disorders, and hypercoagulable states. This presentation will focus on the cause of diagnostic errors and potential solutions, particularly those that leaders of clinical laboratories can influence. Point-of-care testing (POCT) has become an integral part of hospital disaster planning. Attend this event to learn how to develop emergency and disaster response plans that fit your institution. The program features presentations from four perspectives: real-world scenarios from a health services officer in the Centers for Medicare and Medicaid Services, hospital and regional disaster plans from two point-of-care coordinators, and a discussion of a POCT emergency and disaster guidance document now under development. REGISTRATION fEE: $20 (includes reception). REGISTRATION fEE: $20 (includes breakfast). CliniCal laboratory news June 2013 13 clinical lab JULY 30-AUGUST 1,2013 expo HOUSTON, TEXAS A/C Diagnostics LLC ................ 2305 Bangs Laboratories/Polysciences ... 3967 Chembio Diagnostic Systems,Inc. .. 2045 Epitomics - An Abcam Company .... 1809 Innova Biosciences ................. 5251 A2LA American Association for Laboratory Accreditation ......... 1337 BBlnternational .................... 3363 Chemelex,SA ...................... 2654 Eppendorf ......................... 3527 Innovize ........................... 4262 BD Equitech - Bio Inc. ................. 3262 INOVA Diagnostics,Inc. AACC .............................. 3728 Beckman Coulter ................... 4751 Chongqing Tianhai Medical Equipment Co. .................. 5327 Erba Diagnostics Manneim GmbH .. 3015 AAFP- Proficiency Testing ........... 2411 Beijing Chemclin Biotech Co.,Ltd. .. 2209 Chromsystems GmbH .............. 2734 Euroimmun US ..................... 2738 Institut fur Microtechnie Mainz GmbH .................... 5322 Aalto Scientific,Ltd. ................ 5434 Beijing DDM Advertising Co.,Ltd. ... 1908 Chrono-Iog Corporation ............ 2409 Eurospital S.P.A. .................... 3948 Instrumentation Laboratory (lL) ..... 2429 AB SCIEX ........................... 4826 Beijing Golden Bridge Technology .. 2039 Clemex ............................ 5245 Eurotrol,Inc. ....................... 2424 InTec Products,Inc. ................. 5643 Abbott Diagnostics ................. 2837 Beijing Haimiao Pharmaceutical .... 5345 Cleveland Clinic Laboratories ....... 2927 EVERGREEN SCIENTIFIC ............. 2806 Integra Biosciences (Via Flo) ......... 4306 AbD Serotec ....................... 4452 Beijing Strong Biotechnologies,Inc.. 1944 Excel Scientific,Inc. ................. 4168 Inter Bio-Lab,Inc.................... 4259 Abliance ........................... 4066 . Int 'I,Inc. ....... 183 5 Express D'lagnostlcs Accel Biotech,Inc. .................. 3567 Beijing Succeder Technology Development ................... 5324 Clinical and Laboratory Standards Institute .........3624,3626 International Immunology Corporation ..................... 4105 Access Bio,Inc. ..................... 1439 Berthold Detection Systems GmbH . 3266 CLlNIQA Corporation ............... 3406 Access Biologicals,LLC ............. 4214 BERTHOLD TECHNOLOGIES GmbH .. 5127 CLTech International Corp. ......... 1827 AccuBioTech Co.,Ltd. .............. 2611 Bethyl Laboratories, Inc. ............ 2766 Cognex Corporation ............... 1914 Accudynamics LLC ................. 2609 Big C: Dino-lite Scopes .............. 1950 COLA .............................. 2317 Accumax Lab Technology .......... 1816 Binding Site Inc.,The ............... 1525 College of American Pathologists ... 3428 AccuMed Biology .................. 5337 BIOANALYSE ....................... 5328 CompuGroup Medical .............. 2153 Accumetrics,Inc. ................... 2635 BioAssay Works .................... 3662 Conductive Technologies Inc. ...... 2035 Adaptive Mfg.Technologies,Inc. .... 3362 BIOBASE Biodustry (Shandong) Co.Ltd. .......................... 5223 Cone Bioproducts .................. 5446 ADEM TECH ........................ 4358 Bio-Chem Fluidics Inc. ............. 2604 Continuum Advanced Systems ..... 5342 Adhesives Research,Inc. ........... 4425 BIOCLIN ........................... 5150 Copan Diagnostics, Inc. ............ 3058 AdvaMed Dx ....................... 5255 BioDot,Inc. ........................ 3706 Core Technology Co.,Ltd. .......... 1545 Advanced Instruments,Inc. ......... 4226 BioFire Diagnostics ................. 1425 Corgenix ........................... 3009 Acon Laboratories,Inc. ............. 1711 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3621 Clinical Diagnostic Solutions,Inc. ... 5734 Constitution Medical ............... 2129 Advanced Microdevices Pvt.Ltd..... 2769 Biofortuna Ltd. .................... 4467 Coris Bioconcept ................... 2751 Advance-Medica Marketing & Mechandise .................... 4552 BioHit OYJ 2709 Corvalent Corporation .............. 2665 Biokit SA ......................... 2523 Coyote Bioscience .................. 2666 Advantech Corp..................... 1639 Biolabo ............................ 2907 Creative Laboratory Products Inc. ... 2565 Aesku Diagnostics .................. 5543 BIOLEEN ........................... 3010 CSCC .............................. 3605 Agappe Diagnostics Switzerland GmbH ............... 5325 BIOLYPH, LLC ...................... 2412 CSP Technologies .................. 4268 BioMedica Diagnostics Inc. ......... 5129 CTK Biotech,Inc. ................... 2507 . . . . . . . . • . . . . . . . . . . . . . . . . Aggredyne,Inc. .................... 5244 BIOMERICA ........................ 1537 CyVek ............................. 2043 Agilent Technologies ............... 3753 bioMerieux,Inc. .................... 3205 Ahlstrom Filtration LLC ............. 4125 Bioneer Corporation Daan Diagnostics Ltdl DAAN GENE CO.Ltd. ............. 2712 Ahram Biosystems,Inc. ............. 1920 . . . . . . • . . . . . . . . . 3663 FAMECO ........................... 3006 Fapon B'lotech Inc................... 1635 Far East B'10 - Tec C 0., Lt d. ........... 2010 Festo Corporation .................. 1750 Fitzgerald Industries Int'I FlexLink Systems, Inc. . . . . • • . . . . . 1934 . . . . . . . . • . . . . . 4427 Fluid Metering,Inc. ................ 3062 Focus Diagnostics .................. 4817 Foliage ............................ 1311 Freezerworks ...................... 2049 Fujirebio Diagnostics,Inc. .......... 2844 Gale Force Software Corporation ... 2563 Genolution ........................ 5650 Japanese Association of Clinical Chemistry ..........1449,1451 GenPrime,Inc. ..................... 5945 Jei Daniel Biotech Corp.............. 5408 GenWay B'lotech,Inc. ............... 1850 Jiangsu Kangjian Medical Apparatus Co. ........... 5250 GG&B Company .................... 4524 Gilson,Inc. ......................... 5335 Globe Scientific Inc. ................ 3805 DAS Sri ............................ 5219 ALiFAX SPA ........................ 5435 Bioresource Technology,Inc. ........ 1405 Data Innovations,LLC. .............. 4011 Allen Thermal,Inc. ................. 1440 Bioscience (Tianjin) Diagnostic Tech.Co. ........................ 1654 Data Unlimited International,Inc. ... 1607 Allied Media CLP Magazine ......... 1447 ALPCO ............................. 2608 BioScience Writers,LLC ............. 2044 Denka Seiken Co.,Ltd. .............. 4053 Amano Enzyme USA ............... 2748 Biosearch Technologies ............ 3163 DenLine Uniforms,Inc. ............. 5334 American Board of Clinical Chemistry ................ 3728 Biosensia .......................... 4064 Desert Biologicalsl Omega Biologicals ............... 2358 Grace Bio-Labs ..................... 3366 Greiner Bio-One North America ..... 4511 GRIFOLS ........................... 2713 H & H System,Inc. .................. 1335 H.Lee Moffitt Cancer Center ........ 5949 Haemonetics Corporation .......... 1813 Hamamatsu Corporation ........... 3863 Hamilton Company ................ 4855 Detekt Biomedical ................. 2042 Hanlab Corporation ................ 3107 American Proficiency Institute ...... 5741 Biosino Bio-Technology & Science Inc. ................... 5426 DFI Co.,Ltd. ........................ 5312 Harlan Bioproducts for Science,Inc. . 2968 AMHYSPIN - CECOTEPE ............. 2949 BiosPacific ......................... 3604 Dia Carta .......................... 1815 HB Optical ......................... 2868 Analis .............................. 2848 Biotix .............................. 2705 Diagam ............................ 2852 Healgen Scientific LLC .............. 1935 AnaSpec,Inc. ...................... 5249 Ani Labsystems Ltd.Oy BIOTRON DIAGNOSTICS USA ....... 2452 DiagCor Bioscience Inc.Ltd. ........ 4252 Health Care Logisitics .............. 1913 . . . . . • . . . . . . . 4563 BIOWEST ........................... 3008 Heathrow Scientific,LLC ............ 4224 . . . . . . . . . . . . . • . . . . . . . 1341 BIT Group Diagnostic Automationl Cortez Diagnostics ............... 1345 Hedwin Corporation ............... 1334 BODITECH MED Inc. ................ 4359 Diagnostic Consulting Network ..... 2963 Helena Laboratories Anthro Corporation ................ 1819 Boval Company,L.P. ................ 1544 Diagnostic Net ..................... 2645 HELMER Scientific .................. 3811 Apacor Ltd . ........................ 2015 Broadmaster Biotech Corp. ......... 1307 Diagnostica Stago,Inc. ............. 2729 Hemo bioscience .................. 2047 Applied Biocode,Inc. ............... 4210 Bruker Daltonics ................... 2854 Diagnostics Biochem Canada ....... 4560 HemoCue America ................. 5004 . . . . . . . . . . • . . . . . 3505 . . . . . . • . . . . . . . 5128 BUHLMANN Laboratories AG ....... 2142 DIALAB GmbH ..................... 5029 Hemosure ......................... 2404 . . . . . . . . . . . • . . . . . . . 2463 Burkert Fluid Control Systems ...... 3249 Diametra ........................... 4906 Hettich ............................ 4363 Arista Biologicals Inc. .............. 2562 C & A Scientific Co.,Inc. ............. 5243 Diamond Diagnostics Inc. .......... 2615 Hipro Biotechnology Co.,Ltd. ....... 5226 ARK Diagnostics,Inc. ............... 3835 CalBioreagents ..................... 3563 DIARECT AG ....................... 1438 Hitachi Chemical Diagnostics ....... 1910 ARKRAY ............................ 3653 Calbiotech,Inc. .................... 4111 Diasource .......................... 3050 Hologic ............................ 4213 Arlington Scientific Inc. ............ 2112 Calzyme Laboratories,Inc. .......... 2925 DiaSys Diagnostic Systems ......... 3957 Hoover Precision Products, LLC ..... 3853 Artel ............................... 3324 Cambridge Consultants ............ 4307 Diatron ............................ 3204 HORIBA Medical ................... 1323 Artron BioResearch Inc. 3066 CapitalBio Corporation ............. 4562 Diazyme Laboratories .............. 4613 Hycor Biomedical Inc. ARUP Laboratories ................. 2815 Capralogics Inc. .................... 4209 DIBA Industries,Inc. ................ 2605 HyTest Ltd Asahi Kasei Fibers Corporation ...... 4566 Capricorn Products LLC ............ 2744 DiCon Fiberoptics DBA Scope LED .. 1342 12A ASCLS ............................. 3128 Cardicare Company,Ltd. ........... 5315 Dierks & Bohle,RAE ................ 2647 IBL- International Corp.............. 2508 ASCO Numatics .................... 4505 Cardinal Biologicals,Inc. ............ 5246 DIESSE Diagnostica Senese S.p.A. ... 4663 IDEX Health & Science .............. 3463 Associates of Cape Cod,Inc. ........ 2858 CARE diagnostica .................. 3469 Dirui Industrial Co.,Ltd. ............ 1617 IFCC -Inti Federation of .............. 3407 Association for Molecular Pathology 3525 Carolina Liquid Chemistries ........ 4534 DOCRO,Inc. ........................ 1611 lIine Microsystems S.L. ............. 1704 Atlas Link,Inc. ..................... 5551 CDI/Biochem ...................... 1441 Douglas Scientific,LLC .............. 5449 IMMCO Diagnostics Audit MicroControls,Inc. ........... 5835 Cedarlane ......................... 3111 DRG International,Inc. ............. 3305 Immucor,Inc. ...................... 4829 Auer Precision Co. ................. 1320 CeliaVision ......................... 2545 Drummond Scientific .............. 4163 Immundiagnostik AG .............. 2726 Aurora Biomed ..................... 1354 CeliTrend GmbH ................... 2645 D-Tek .............................. 3048 Immuno Concepts ................. 2048 AUS BIO R&D Europe ............... 5841 Centers for Disease Control & Prevention .................... 1348 DTx Inc. ............................ 3267 immunochemical intelligence GmbH 2645 Dynex Technologies Inc. ........... 2753 Immunodiagnostic Systems Inc. .... 3910 EastCoast Bio,Inc. .................. 2263 APTEC Diagnostics NV . . . . • . . . . . . . Autobio Diagnostics Co.Ltd......... 4063 Centers for Medicare & Medicaid Services ............. 3024 . . . . . . . • • . . . . . 3949 . . . . . . . . . . . . . . . . . . • • . . . . . 3227 . . . . . . . . . . . . . . . . . . . . . . . . . . • . . . . . 2911 . . . . . . . . . . . • . . . . . 3904 eBI'osc'lence ....................... 1343 Immunology Consultants Laboratory,Inc. .................. 3368 Cepheid ........................... 4529 EDAN INSTRUMENTS, INC. .......... 1318 ImmunoReagents,Inc. Awareness Technology,Inc. ......... 2904 Ceragem Medisys,Inc. .............. 2034 Elga Labwater ...................... 5450 Improve Medical ................... 1517 AWEX .............................. 2947 Cerilliant Elitech Group Company ............ 4707 IMRA America Inc. ................. 3867 Axxin .............................. 2651 Cerner ............................. 5846 EMD Millipore ...................... 2855 InBios International,Inc. ............ 1823 AZOG,Inc. ......................... 1535 CERTEST BIOTEC S.L. ............... 2557 Emergo Group ..................... 1437 Informa Life Sciences ............... 5406 B&E Scientific Inc. CETAC Technologies ................ 2625 Entrocomponent Solutions (ECS) ... 2742 Innogenetics Inc. .................. 1817 AutoGenomics,Inc.................. 2415 AVE Science & Technology Industrial Co. .................... 1634 . . . • . . . . . • • . . . . . . . 5326 . . . . . . . . . . . . . . . . . . • . . . . . . . . 4824 Chata Biosystems .................. 1546 14 CLINICAL LABORATORY NEWS JUNE 2013 . ITSP Solutions Inc. ................. 3966 IVD Industry Connectivity Consortium ..................... 5847 Jadak,LLC .......................... 1536 Bio-Rad Laboratories ............... 3929 Aries Filterworks ITC Nexus DX ...................... 5421 GenMark Diagnostics,Inc. .......... 4407 ALCOR Scientific Inc. ............... 1538 Anteo Diagnostics ................. 3664 2724 Jackson ImmunoResearch Lab,Inc... 2128 Golden West Biologicals,Inc. ....... 3845 3349 . . . . . . . . • • . . . . . . • . . . . . . . IT41P ............................... 2749 General Biologicals Corp. ........... 2708 BioPorto Diagnostics A/S ........... 1834 . . . . . . . . . . . . . . . • • . . . . . . . . . Isensix,Inc. Genisphere,LLC .................... 3869 Gold Standard Diagnostics ......... 4411 Ansh Labs,LLC lonics Mass Spectrometry Group .... 4907 IQuum,Inc. ........................ 4725 IVD Technologies .................. 1443 Daitron,Inc. ........................ 2464 American Medical Technologists .... 2750 Invetech ........................... 2735 Iwaki America Inc. .................. 2627 Dako .............................. 4469 BioSero ............................ 1314 in.vent Diagnostica GmbH .......... 2645 Inverness Medical Innovations Hong Kong ...................... 1442 Gems Medical Sciences ............ 3806 Bionostics .......................... 2466 Dawning Technologies,Inc. ........ 4443 2521 GE Healthcare ...................... 3014 1705 Aim Lab Automation Technologies . . . . . . • . . . . . . . . . . . . . • . . . . . 3068 Jiangsu Zhengji Instruments Co.Ltd. 4069 Jiangyin Hongmen Rubber Plastic Product ........... 5320 JSR Life Sciences ................... 3468 Kamiya Biomedical Company ....... 3825 Kem-En-Tec Diagnostics ............ 4606 Kestrel ............................. 2365 Kewaunee Scientific Corporation ... 1448 Key Tech ........................... 3950 Kikkoman Biochemifa Company .... 1435 Kinematic Automation Inc. ......... 2863 KMC Systems,Inc. .................. 2304 KNF Neuberger Inc. ................ 4405 Kova International,Inc. ............. 3952 KRONUS,Inc. ....................... 3934 Lab Medica International ........... 1542 Lab Products,Inc. .................. 1906 LabCorp ........................... 5415 LABiTec GmbH ..................... 4353 Labnovation Technologies,Inc. ..... 2315 Laboratory Desk Reference ......... 3946 Labotix Automation,Inc............. 3847 Labroots,Inc. . . . . . . . . . . . . . . . • . . . . . . . 1306 Labtest ............................ 1317 Lampire Biological Laboratories,Inc. 4607 LasX Industries,Inc. ................ 5747 Lathrop Engineering Inc. . . . • . . . . . . . 3856 Lee Company,The .................. 1839 LGP Consulting,Inc. ................ 1543 Life Technologies .................. 3504 LifeSign LLC ........................ 5409 Linear Chemicals, S.L. .............. 2555 LipoScience ........................ 5535 Liuyang Medical Instrument Factory 5329 Lohmann Precision Die Cutting ..... 1404 LRE Medical, Esterline Corp. ........ 2253 LSI International Inc. ............... 5346 Luminex Corporation .............. 4539 LW Scientific ....................... 2353 MagArray,Inc. ...................... 3865 Magellan Diagnostics,Inc. .......... 5340 MagnaBioSciences ................. 2207 MagnaMedics ...................... 3965 MagneMotion ..................... 4863 Magnisense . . . . . . . . . • . . . . . . • . . . . . . . 2809 Magsphere Inc. .................... 4264 Maine Biotechnology Services ...... 3607 Maine Manufacturing,LLC .......... 3964 Maine Standards Co.LLC ........... 3515 MAKER Biotechnology .............. 5443 March Manufacturing Inc. .......... 4167 Market Diagnostics International ... 2008 GEORGE R. BROWN CONvENTiON CENTER TO REGisTER, GO TO WWW.AACC.ORG/2013AM MATEST Systemtechnik GmbH . . . . . . 4756 MBL International . . . . . . . . . . . . . . . . . . 5154 McKesson . . . . . . . . . . . . . . . . . . . . . . . . . . 3938 MD Anderson Cancer Center . . . . . . . . 5941 MediaLab, Inc . . . . . . . . . . . . . . . . . . . . . . 4558 Medica 2013/Messe Duesseldorf . . . . 3610 Medica Corporation . . . . . . . . . . . . . . . . 1324 Medical Device Safety Service GmbH 4458 Medical Electronic Systems . . . . . . . . . 2704 Medical Laboratory Evaluation . . . . . . 2807 MedicalLab Management Magazine 1316 MEDIPAN GmbH . . . . . . . . . . . . . . . . . . . 2641 MediSensor, Inc . . . . . . . . . . . . . . . . . . . . . 1717 Medix Biochemica . . . . . . . . . . . . . . . . . 3606 Megatone Electronics Corp . . . . . . . . . 5339 Meizhou Cornely Hi-Tech Co . Ltd . . . . 5248 Mercodia Inc . . . . . . . . . . . . . . . . . . . . . . . 3908 Mercy Ships . . . . . . . . . . . . . . . . . . . . . . . . 5935 Meridian Bioscience, Inc . . . . . . . . . . . . 4514 Meridian Life Science, Inc . . . . . . . . . . . 4508 Michigan Diagnostics, LLC . . . . . . . . . . 2465 Micro Digital Co ., Ltd . . . . . . . . . . . . . . . . 1312 Micro Lab Instruments . . . . . . . . . . . . . 1912 Microbix Biosystems . . . . . . . . . . . . . . . 2558 MicroDiscovery GmbH . . . . . . . . . . . . . 2645 microfluidic ChipShop GmbH . . . . . . . 2663 Microliter Analytical Supplies . . . . . . . 5047 Micronics, Inc . . . . . . . . . . . . . . . . . . . . . . . 1505 Micropoint Bioscience, Inc . . . . . . . . . . 2029 Midland BioProducts Corporation . . 3916 Mikrogen . . . . . . . . . . . . . . . . . . . . . . . . . . 5341 MiniFab . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2410 MiniGrip . . . . . . . . . . . . . . . . . . . . . . . . . . . 1855 Minitubes . . . . . . . . . . . . . . . . . . . . . . . . . 3304 Miracle Electronic Devices Pvt . Ltd . . . 2041 Mitsubishi Chemical USA, Inc . . . . . . . 3924 MK Fluidic Systems . . . . . . . . . . . . . . . . . 1351 ML LifeSciences . . . . . . . . . . . . . . . . . . . . 1956 MLO-Medical Laboratory Observer . . 5253 Moduline Systems, Inc . . . . . . . . . . . . . . 1349 Moeller Medical GmbH . . . . . . . . . . . . . 3268 Monobind Inc . . . . . . . . . . . . . . . . . . . . . . 2915 Moss, Inc . . . . . . . . . . . . . . . . . . . . . . . . . . . 4109 Motoman Yaskawa . . . . . . . . . . . . . . . . . 2453 MT Promedt Consulting GmbH . . . . . 4266 Multisorb Technologies . . . . . . . . . . . . 2445 m-u-t AG . . . . . . . . . . . . . . . . . . . . . . . . . . 3355 Nanjing Liming Bio-Products Co ., Ltd 5343 Nanjing Perlove Medical Equipment Co .Ltd . . . . . . . . . . . . . . . . 5318 Nano-Ditech Corporation . . . . . . . . . . . 1350 Nanoq . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2850 Nantong Egens Biotechnology Co ., Ltd . . . . . . . . . . . . . . . . . . . . . . . . . . . 5344 Neogen Corporation . . . . . . . . . . . . . . . 2506 New England Biolabs, Inc . . . . . . . . . . . 4463 New England Small Tube . . . . . . . . . . . 2013 NewScen Coast Bio-Pharmaceutical Co .,Ltd . . . . . . . . . . . . . . . . . . . . . . . . . . . 5221 NICHIREI BIOSCIENCES, INC . . . . . . . . . Nihon Dempa Kogyo Co ., Ltd . . . . . . . Nikon Instruments Inc . . . . . . . . . . . . . . Ningbo Ruiyuan Biotechnology Co ., Ltd . . . . . . . . . . . NIST . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NOF America Corporation . . . . . . . . . . Norgen Biotek Corporation . . . . . . . . . Nor-Lake Scientific . . . . . . . . . . . . . . . . . Nova Biologics, Inc . . . . . . . . . . . . . . . . . . Nova Biomedical . . . . . . . . . . . . . . . . . . . Novatec Immundiagnostica GmbH . . NuAire Inc . . . . . . . . . . . . . . . . . . . . . . . . . . OAKRIDGE PRODUCTS . . . . . . . . . . . . . OAPI Medical Devices . . . . . . . . . . . . . . ODPM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Olympus America, Inc . . . . . . . . . . . . . . Omega Bio-tek . . . . . . . . . . . . . . . . . . . . . Omega Diagnostics Group PLC . . . . . OPERON . . . . . . . . . . . . . . . . . . . . . . . . . . . OPTI Medical Systems, Inc . . . . . . . . . . OptiGene Limited . . . . . . . . . . . . . . . . . . OPTRICON GMBH . . . . . . . . . . . . . . . . . . OraSure Technologies, Inc . . . . . . . . . . . Orchard Software Corp . . . . . . . . . . . . . Ortho Clinical Diagnostics . . . . . . . . . . OYC Americas, Inc . . . . . . . . . . . . . . . . . . Oyster Bay Pump Works, Inc . . . . . . . . . Pacific Die Cut Industries . . . . . . . . . . . PAML . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Parallel - Synthesis Technologies, Inc . Parker Precision Fluidics Division . . . . Path - Tec . . . . . . . . . . . . . . . . . . . . . . . . . . Pel-Freez Biologicals . . . . . . . . . . . . . . . Perfect Ease Biotech Co ., Ltd . . . . . . . . Pevco . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Pharmasan Labs . . . . . . . . . . . . . . . . . . . Phytronix Technologies Inc . . . . . . . . . . Plasma Services Group . . . . . . . . . . . . . PlexBio Co . Ltd . . . . . . . . . . . . . . . . . . . . . . Pointe Scientific, Inc . . . . . . . . . . . . . . . . Poly-AN GMBH . . . . . . . . . . . . . . . . . . . . . Polymed Therapeutics, Inc . . . . . . . . . . Polymedco Cancer Diagnostic Products LLC . . . . . . . . . . . . . . . . . . . . Polymedco, Inc . . . . . . . . . . . . . . . . . . . . . Polymer Technology Systems, Inc . . . . POLYMICROSPHERES . . . . . . . . . . . . . . . Pozzetta Scientific . . . . . . . . . . . . . . . . . . Precision Converting Solutions, LLC Precision Dynamics - St . John . . . . . . . Precision Systems Inc . . . . . . . . . . . . . . . Preco, Inc . . . . . . . . . . . . . . . . . . . . . . . . . . . PrimeraDx . . . . . . . . . . . . . . . . . . . . . . . . . PrimerDesign Ltd . . . . . . . . . . . . . . . . . . . Princeton BioMeditech Corp . . . . . . . . Prior Scientific, Inc . . . . . . . . . . . . . . . . . . Pro-Lab Diagnostics . . . . . . . . . . . . . . . . 5424 3968 1534 2969 2026 3064 4369 2325 3369 3935 2662 3026 1550 3108 2913 1638 5146 1927 2551 5115 1811 2649 2752 2134 4229 3167 1734 1804 1445 1911 1511 1322 4368 1745 1606 1548 2667 2669 1907 3837 2643 2307 4204 4207 2012 2869 1744 2311 5336 4504 1746 5946 5152 5411 4269 1915 Proliant Health and Biologicals . . . . . Puritan Medical Products . . . . . . . . . . . PZ CORMAY S .A . . . . . . . . . . . . . . . . . . . . Qarad . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . QBC Diagnostics . . . . . . . . . . . . . . . . . . . Qiagen Lake Constance GmbH . . . . . . Qingdao Hightop Biotech Co ., Ltd . . . Quansys Biosciences . . . . . . . . . . . . . . . Quanterix . . . . . . . . . . . . . . . . . . . . . . . . . . QUANTI SCIENTIFICS . . . . . . . . . . . . . . . Quantimetrix Corporation . . . . . . . . . . Quest Diagnostics . . . . . . . . . . . . . . . . . . Quimica Clinica Aplicada, S .A . . . . . . . R D Plastics Company . . . . . . . . . . . . . . . Radiometer America . . . . . . . . . . . . . . . Rainin Instrument, LLC . . . . . . . . . . . . . Randox Laboratories US Ltd . . . . . . . . . Randox Life Sciences . . . . . . . . . . . . . . . Rayto Life & Analytical Sciences Co, Ltd . . . . . . . . . . . . . . . . . . . . . . . . . . . R-Biopharm AG . . . . . . . . . . . . . . . . . . . . Response Point of Care . . . . . . . . . . . . . Retractable Technologies, Inc . . . . . . . Rheonix, Inc . . . . . . . . . . . . . . . . . . . . . . . . RND Group, Inc ., The . . . . . . . . . . . . . . . . Roche Diagnostics Corporation . . . . . Rockland Immunochemicals, Inc . . . . Rocky Mountain Diagnostics . . . . . . . ROHM CO ., Ltd . . . . . . . . . . . . . . . . . . . . . . Rotek Industries . . . . . . . . . . . . . . . . . . . . Runlab Labware Manufacturing Co ., Ltd . . . . . . . . . . . . . . . . . . . . . . . . . . . RURO Inc . . . . . . . . . . . . . . . . . . . . . . . . . . . SA Scientific LTD . . . . . . . . . . . . . . . . . . . Samsung Electronics . . . . . . . . . . . . . . . Sansure Biotech, Inc . . . . . . . . . . . . . . . . Sarstedt, Inc . . . . . . . . . . . . . . . . . . . . . . . . Sartorius Stedim Biotech . . . . . . . . . . . Scantibodies Laboratory Inc . . . . . . . . SCC Soft Computer . . . . . . . . . . . . . . . . . SCETI K .K . . . . . . . . . . . . . . . . . . . . . . . . . . Scienion AG . . . . . . . . . . . . . . . . . . . . . . . . Scienion US, Inc . . . . . . . . . . . . . . . . . . . . Scientific Systems, Inc . . . . . . . . . . . . . . . Scimedx Corporation . . . . . . . . . . . . . . . Sclavo Diagnostics International Srl Scripps Laboratories . . . . . . . . . . . . . . . ScyTek Laboratories, Inc . . . . . . . . . . . . . SDIX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Sebia Electrophoresis . . . . . . . . . . . . . . Seegene, Inc . . . . . . . . . . . . . . . . . . . . . . . . Sekisui Diagnostics . . . . . . . . . . . . . . . . . SelectScience . . . . . . . . . . . . . . . . . . . . . . Sequenom, Inc . . . . . . . . . . . . . . . . . . . . . . SeraCare Life Sciences . . . . . . . . . . . . . . Shanghai Kehua Bioengineering . . . . Shanghai Chemtron Biotech . . . . . . . . Shanghai Fosun Long March Medical . . . . . . . . . . . . . 4609 4554 4667 5410 1805 4068 4465 5448 1504 2364 3757 4917 2553 2362 4650 1310 3245 3225 1735 4657 1454 1942 5005 5114 4049 2259 1640 1739 2462 5015 1845 3768 4765 2668 2540 5206 5111 1411 5314 2645 3263 1549 5213 1849 5211 2568 1840 3453 3115 1627 1645 2613 4404 3568 2363 1938 Shanghai Upper Biotech . . . . . . . . . . . Shanghai ZJ Bio-Tech . . . . . . . . . . . . . . Shel Lab (Sheldon Manufacturing Inc .) . . . . . Shenzhen Emperor Electronic Technology . . . . . . . . . . . . . . . . . . . . . . Shenzhen iCubio Biomedical Technology Co . . . . . . . . . . . . . . . . . . . Shenzhen Landwind Industry . . . . . . . Shenzhen Mindray Bio-Medical Electronics . . . . . . . . . . . . . . . . . . . . . . Shenzhen Procan Electronics Inc . . . . Shenzhen Xilaiheng Medical Electronics . . . . . . . . . . . . . . . . . . . . . . . SIAS AG . . . . . . . . . . . . . . . . . . . . . . . . . . . Siemens Healthcare . . . . . . . . . . . . . . . . SIFIN GMBH BERLIN . . . . . . . . . . . . . . . . Sigma-Aldrich . . . . . . . . . . . . . . . . . . . . . . Siloam Biosciences . . . . . . . . . . . . . . . . . SimPort Scientific . . . . . . . . . . . . . . . . . . SLR Research Corporation . . . . . . . . . . SMC Corporation of America . . . . . . . SNIBE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Softtech Health . . . . . . . . . . . . . . . . . . . . Sol-Millennium Medical, Inc . . . . . . . . . Sony DADC . . . . . . . . . . . . . . . . . . . . . . . . SouthernBiotech . . . . . . . . . . . . . . . . . . . Span Diagnostics Ltd . . . . . . . . . . . . . . . Spark Holland B .V . . . . . . . . . . . . . . . . . . . Sparton Medical . . . . . . . . . . . . . . . . . . . Spherotech, Inc . . . . . . . . . . . . . . . . . . . . Spinreact S .A .U . . . . . . . . . . . . . . . . . . . . . Stanbio Laboratory . . . . . . . . . . . . . . . . . STRATEC Biomedical AG . . . . . . . . . . . . Stratos Product Development . . . . . . Streck, Inc . . . . . . . . . . . . . . . . . . . . . . . . . . Sunostik Medical Technology . . . . . . . Sunquest Information Systems . . . . . SurModics IVD . . . . . . . . . . . . . . . . . . . . . Swisslog . . . . . . . . . . . . . . . . . . . . . . . . . . . Syntron Bioresearch, Inc . . . . . . . . . . . . Sysmex America, Inc . . . . . . . . . . . . . . . . Taigen Bioscience Corporation . . . . . . Tarcine BioMed Inc . . . . . . . . . . . . . . . . . Tecan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Technidata . . . . . . . . . . . . . . . . . . . . . . . . Techno Medica Co . Ltd . . . . . . . . . . . . . . Teco Diagnostics . . . . . . . . . . . . . . . . . . . TELCOR . . . . . . . . . . . . . . . . . . . . . . . . . . . . Tetracore, Inc . . . . . . . . . . . . . . . . . . . . . . . THERADIAG . . . . . . . . . . . . . . . . . . . . . . . . Therapak Corporation . . . . . . . . . . . . . . Thermo Scientific . . . . . . . . . . . . . . . . . . thinXXS Microtechnology AG . . . . . . . Tianjin Bio-Enoche Engineering . . . . TOKYO BOEKI MACHINERY LTD . . . . . . Topscien Instrument (Ningbo) . . . . . . Tosoh Bioscience . . . . . . . . . . . . . . . . . . . Toyobo U .S .A ., Inc . . . . . . . . . . . . . . . . . . . 1949 1644 1742 5943 1647 3942 3321 1446 1843 3456 3449 2639 1649 4165 5011 2327 3063 4263 1943 1847 2564 3565 1355 4557 2763 3165 2650 3614 3763 4439 2144 1751 2212 1434 4408 2762 2149 1846 1646 4811 1954 1948 5212 4451 3963 3012 4113 5140 4468 5440 1916 1941 4642 5110 Tricontinent . . . . . . . . . . . . . . . . . . . . . . . TRINA BIOREACTIVES AG . . . . . . . . . . . Trinity Biotech . . . . . . . . . . . . . . . . . . . . . UBIFRANCE . . . . . . . . . . . . . . . . . . . . . . . . UCLA Health System . . . . . . . . . . . . . . . UCP Biosciences, Inc . . . . . . . . . . . . . . . . UCSF Medical Center . . . . . . . . . . . . . . . UNICO/United Products & Instruments . . . . . . . . . . . . . . . . . . . URIT Medical Electronic Co ., Ltd . . . . . UTAK Laboratories, Inc . . . . . . . . . . . . . . ValuMax International . . . . . . . . . . . . . . Vector Laboratories, Inc . . . . . . . . . . . . . VEDA .LAB . . . . . . . . . . . . . . . . . . . . . . . . . . Vircell . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ViroStat, Inc . . . . . . . . . . . . . . . . . . . . . . . . . Vital Diagnostics . . . . . . . . . . . . . . . . . . . Viva Products . . . . . . . . . . . . . . . . . . . . . . Vonco Products . . . . . . . . . . . . . . . . . . . . Wako Diagnostics . . . . . . . . . . . . . . . . . . WAMA Diagnostica . . . . . . . . . . . . . . . . Warde Medical Laboratory . . . . . . . . . . Waters Corporation . . . . . . . . . . . . . . . . Watson Bio Lab . . . . . . . . . . . . . . . . . . . . Werfen Group . . . . . . . . . . . . . . . . . . . . . West Medica Produktins-GmbH . . . . . WesTgard QC, Inc . . . . . . . . . . . . . . . . . . . Wheaton . . . . . . . . . . . . . . . . . . . . . . . . . . WHPM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Wi Medical Device Development . . . Wiener Laboratorios SAIC . . . . . . . . . . Wiley . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Wisepac Active Packaging Components Co . . . . . . . . . . . . . . . . . Wondfo USA . . . . . . . . . . . . . . . . . . . . . . . Worthington Biochemical Corporation . . . . . . . . . . . . . . . . . . . . . XEMA Group . . . . . . . . . . . . . . . . . . . . . . . YANCHENG HUIDA IMP & EXP CO . LTD . . . . . . . . . . . . . . . . . . . . Yantai Addcare Biotech Co ., Ltd . . . . . YD Diagnostics Corporation . . . . . . . . Zentech . . . . . . . . . . . . . . . . . . . . . . . . . . . ZeptoMetrix Corporation . . . . . . . . . . . Zeta Corporation . . . . . . . . . . . . . . . . . . . ZEUS Scientific, Inc . . . . . . . . . . . . . . . . . Zhejiang Aicor Medical Technology Co . . . . . . . . . . . . . . . . . . . Zhejiang Gongdong Medical Technology . . . . . . . . . . . . . . . . . . . . . . Zhejiang Medicines & Health Products I/E . . . . . . . . . . . . . . Zhongke Meiling Cryogenics Limited Co . . . . . . . . . . . . . . . . . . . . . . . Zhongshan Chuangyi Biochemical . . Zhuhai Encode Medical Engineering Co . Ltd . . . . . . . . . . . . . . 1946 5207 3158 2907 1643 1754 1947 1838 4253 4435 2459 3666 3669 2656 1844 3926 1338 1738 4129 1648 1637 4923 5848 2421 5428 4127 5045 2408 1650 5225 1748 1339 2405 3962 1939 1540 5937 4706 2951 1539 5748 1741 1740 5412 1655 1749 1642 5649 As of May 8, 2013 Put Your Meeting Plan in Your Pocket The AACC Pathfinder App With hundreds of exhibitors to navigate and dozens of educational sessions to attend, planning your busy days at the 2013 AACC Annual Meeting and Clinical Lab Expo in Houston is essential to make the most of this dynamic event. Now you can do all that and more with the FREE AACC 2013 Pathfinder app! Available for smartphones and tablets from the Apple iTunes store and on Google Play for Android devices. n Keep track of the educational sessions you’re attending. n Plan each day with a built-in calendar. Browse exhibitors and map out your path through the Expo. n Organize your notes about exhibitors, or check off which ones you’ve visited. n Follow live tweets and other social media about the show. CliniCal laboratory news June 2013 15 Disease Control and Prevention (CDC). not use these products to meet the require In 2006, CDC recommended that opt-out ments of the Medicare and Medicaid EHR HN screening be a part of routine clinical Incentive programs. EHRMagic-Ambulatory and EHRMag care for American adolescents and adults ages 13-64. REGULATORY • • • • • • • • USPSTF now recommends that clini ethical questions, such as neurology and ge • ic-Inpatient, both developed by EHRMagic Inc. of Santa Fe Springs, Cali£, no longer cians screen all people ages 15 to 65, as well meet the EHR certification requirements. as younger adolescents and older adults The EHRs must be certified by a certifica tion body authorized by the Office of the Presidential Commission Will netics, in addition to various settings such who are at increased risk for HN infection. Study Inci dental Findi ng s as clinical and research. The implications of It also recommends that all pregnant wom National Coordinator for Health IT (ONC) how incidental findings are handled affect en, including those in labor whose HN sta before regaining certification. tus is unknown, be screened. T he Presidential Commission for the Study of Bioethical Issues announced research participants, patients, consumers, that in an upcoming report it would focus and healthcare professionals, they noted. More about ONe's certification process The task force's grade A recommenda on the ethical implications of incidental In a forthcoming report, the commission tion is important because, under the Af findings resulting from genome sequenc plans to cover the importance of what pa fordable Care Act, private health insurance ing, an area receiving growing attention as tients and participants are told by health policies must offer free preventive services after • • • • • • • that have been given an A or B recommen PCORI Awards $88.6 Million dation by USPSTF. In addition, Medicaid in Funding for Comparative programs receive financial incentives to fol Effectiveness Research Projects More information is available from low these recommendations. Many profes T part of the informed consent process. www.bioethics.gov. sional societies also base their recommen dations on USPSTF decisions. Medical Genetics and Genomics released • • as aims or goals of testing discovered during recommendations for incidental findings, • a proce care professionals, not only dure or a test is performed, but In March, the American College of healthit.gov. before sequencing becomes more routine. Inci dental findings are data beyond the original sequencing a genome or exome. for EHR technologies is available at www. • • • • • • • The task force noted in its report that • he Patient-Centered Outcomes Re search Institute (PCORl) has approved 51 new awards, totaling $88.6 million over 3 years, to fund comparative clinical ef listing 24 conditions and associated genes USPSTF Releases Final HIV although there is no cure for HN infection, fectiveness research (CER) projects under and variants that should be reported for in Screenin g Rec ommendat ions treating people with HN earlier can not the first four areas of its National Priorities cidental findings in all patients regardless of T age (See eLN, May 2013). he u.s. Preventive Services Task Force only reduce their risk of developing AIDS for Research agenda. Established under the (USPSTF) released its final recommen and delay its onset, but it also decreases the Affordable Care Act, PCORl has now awarded nearly $130 million. dation statement on screening for HIV, chance that they will pass on the infection mission members discussed several fields bringing the task force closer in line with to someone else. In addition, treating preg The projects approved include studies in which incidental findings raise serious recommendations from the Centers for nant women reduces the chances that the of how to best care for people with kidney virus will be transmitted to their babies. disease, certain cancers, obesity, asthma, In a recent meeting, presidential com K-ASSAY ® The Assay You Can Trust... Immunoassay Reagents for Chemistry Analyzers™ The recommendations are online in diabetes, and various mental health condi Annals of Internal Medicine, as well as tions. Other projects will explore ways to on the USPSTF website, www.uspreventive support patient decision-making, reduce the healthcare delivery systems. • • • Insulin Now it is possible to run quantitative insulin assays on your existing chemistry analyzer without the hazardous radioactivity of RIAs or the high cost of ELiSAs. • • • • • • PCORl's funding announcements con • sist of three annual cycles and seek propos Two EHR Systems als for research that will provide patients he government is sending the message and those who care for them with the that its electronic healthcare record evidence-based information needed to make (EHR) certification requirements have to better-informed health decisions. Twenty of be taken seriously. Two EHRs previously the latest awards address PCORl's national certified for healthcare providers to use as research priority area of assessment of pre part of the Medicare and Medicaid Elec vention, diagnosis, and treatment options; tronic Health Record EHR Incentive Pro 13 align with the priority area "improving grams have had their certifications revoked. healthcare systems;" eight address "commu The insulin assay is highly specific and features liquid Farzad Mostashari, MD, the national coor nication and dissemination research;" and 10 stable reagents requiring no dilution or mixing. dinator for health information technology align with "addressing disparities:' Assay Range: 1 -100 IlIUlmL Sample Type: serum or plasma in the Department of Health and Human More information on the awards is Services, announced that the products do available from the PCORl website, www. not meet standards and that providers can- pcori.org. a-1 Microglobulin Assay Range: mglL (serum /plasma) mg/L (urine) 1.0-137 0.2-34 • • Government Rejects T / specific health disparities, and improve servicestaskforce.org. Fructosamine Colorimetric assay. Includes calibrator. Assay Range: • • , .. ARK Methotrexate Direct Hemoglobin A1c Non-enzymic assay. No patient fasting required. On-board lysis step on many analyzers. Assay Range: • 1 -10 mmol/L 2-16% Assaysfor the Next Generation ARKTM Methotrexate Assay ARK introduces its homogeneous enzyme � Adaptable to most chemistry analyzers (including Abbott Aeroset®, Bayer Advia®, Beckman Synchron CX® and LX®, Dade Dimension®, Roche/Hitachi, Olympus® AU™) For in vitro diagnostic use. ARK produces assays of choice high-quality, rapid and reliable - for immunoassay for methotrexate. Liquid, stable, ready-to-use formulations deliver convenience for routine use. precise results on automated clinical chemistry analyzers. Call or email today. Also available, AED assays: --------, • Levetiracetam • Topiramate • Zonisamide • Lamotrigine • Gabapentin KAMIYA BIOMEDICAL COMPANY 12779 Gateway Drive, Seattle, WA 98168 800-526-4925 206-575-8068 FAX: 206-575-8094 www.k-assay.com 16 CLINICAL LABORATORY NEWS JUNE 2013 48089 Fremont Boulevard, Fremont, CA 94538 877.869.2320 customersupport@ark-tdm.com www.ark-tdm.com ed for clinical diagnostic use of this HCC • • • • • • • • • decisions for cancer patients. Approximate tial for a large-scale global surveillance test ly 60% of all cancer patients receive radio ing opportunity:' said Yujin Hoshida, MD, therapy during their treatment, according PhD, who led the discovery of the signature to Javier F. Torres-Roca, MD, co-founder while working as a postdoctoral fellow at and chief scientific officer of CvergenX. The Broad Institute. The goal of the research is to develop an assay that will reduce the need for radia diagnosed with hepatocellular carcinoma OHSU and Intel to Collaborate (HCC) and hepatitis C-related early-stage • on Computing Solutions cirrhosis are at the highest risk for poor CvergenX, NCI Work to • • • • • • • • tion therapy by identifying which patients will not respond to treatment. Initially, the prognosis. NanoString plans to assess the Develop Predictive Test for company will focus on rectal cancer, where regon Health & Science University feasibility of developing a diagnostic as Radiation Therapy Success pre-operative radiotherapy is part of the for Genomic Analysis O that could lead to better radiation therapy gene signature, especially given the poten (OHSU) and Intel have joined forces say based on the HCC gene signature that to develop next-generation computing would run on the nCounter Analysis Sys technologies that will increase the speed, tem. "This platform could provide the mul precision, and cost-effectiveness of ana tiplexed gene expression capabilities need- T he National Cancer Institute has grant standard-of-care for patients with stage ed CvergenX more than $2 million to two or three disease. In this group, approxi develop a reliable radiosensitivity test us mately 40% of patients do not respond to ing a molecular signature index technology the therapy. lyzing an individual's genetic profile. This multi-year collaboration combines Intel's extreme-scale, high-performance com puting solutions with OHSU's innovative four-dimensional approach to imaging and analyzing the molecular drivers of cancer and other diseases. By joining their resources, the two organizations hope to develop a way to create a highly detailed circuit diagram of the genome. This infor mation would allow clinicians to compare a patient's circuitry with the map of a healthy genome in order to isolate the patient's ge netic abnormalities and determine which, if any, are linked to disease. The partner ship's first projects will focus on genetic profiling of patients' tumors to look for patterns in disease progression and how to use this information to predict the tumor's response to treatment. • • • • • • • • • Qiagen Inks Deal to Buy Ingenuity Systems Q iagen finalized a deal on April 29 to acquire Ingenuity Systems, a provider of software solutions to analyze and inter pret the biological meaning of genomic data, for $105 million. The centerpiece of Ingenuity's product portfolio is the Inge nuity knowledge base, a 14-year effort to manually curate, model, and computation Elevated levels of Lipoprotein(a) are considered to be both a causal risk factor and independent genetic marker of atherosclerotic disorders. Lipoprotein(a) levels are genetically determined and ally structure the vast amount of existing are unaffected by diet, exercise or other lifestyle modifications used to lower lipid levels. Increased biomedical literature, including genomic Lipoprotein(a) levels mean an individual will always be at increased risk of a cardiovascular event, variations implicated in human disease and thousands of disease models. The Ingenuity making Lipoprotein(a) testing an essential addition to the lipid profile. knowledge base and software applications allow users to interpret the increasingly large amounts of biological data produced by human genome sequencing in hopes of Randox Lipoprotein(a) • Liquid ready-to-use reagents • Superior methodology- displaying minimal Apo(a) size related bias, better guiding medical treatment decisions. Ingenuity is also developing a new prod uct to enable broader adoption of next generation sequencing in molecular diag nostics by offering an optimized and scal able solution for interpreting and scoring clinical variants identified by sequencing based molecular diagnostic tests. The acqui producing more accurate results • - giving a true reflection of the isoforms present in the population • sition of Ingenuity will significantly expand and strengthen Qiagen's own curated data Five point calibrator • Extensive measuring range Applications available for a wide range of analyzers base, which is commercially embedded in lab assays sold through Qiagen's GeneGlobe content portal. • • • • • • • • • NanoString Acquires Liver Cancer Gene Signature From Broad Institute T he Broad Institute has granted an exclu sive worldwide license to NanoString RANO(!)X Randox Laboratories-US Limited, 515 Industrial Boulevard, Kearneysville,WestVirginia, 25430 304728 2890 TOLL FREE 8664 RANDOX F + I 3047281890 TOLL FREE866 RANDOX I I www.randox.com Emarketing@randox.com T +I Technologies for a 186-gene signature that could help determine which patients CLINICAL LABORATORY NEWS JUNE 2013 17 risk of any diabetic complication, with an respectively. After multivariate adjustment, odds ratio of 3.1. each 1 nglmL increase in galectin-3 was associated with an estimated 2.9% higher • • • • • • • • • risk of mortality, 2.1% increased risk of Displaying Fees Leads first morbid event, and 2.2% greater risk of to Fewer Test Orders • • • • • • • • • sity, individuals with type 1 diabetes may M heart failure hospitalization. Including the erely displaying the Medicare allow change in other measurements, such as left able fee for diagnostic laboratory ventricular ejection fraction, serum sodi eGDR Linked to Complications share genetic and environmental factors tests at the time of order entry can influence um, and uric acid, the change in galectin-3 in Type 1 Diabetes that result in reduced insulin sensitivity, a physician ordering behavior, even without from baseline to 4-months and baseline to 12-months remained significantly associat L ow estimated glucose disposal rate phenomenon sometimes called double any other type of educational interven (eGDR) is associated with micro- and diabetes, according to the authors. tion (JAMA Intern Med 2013 doi:1O.1001/ ed with all endpoints. However, because of Researchers at Montefiore Medical Cen jamainternmed.2013.232). These findings the smaller number of events, the associa macro-diabetic complications in patients with type 1 diabetes, suggesting that eGDR ter in New York City wanted to explore the suggest that this simple measure might tion with heart failure hospitalization was could be useful in identifying patients who distribution of eGDR in type 1 diabetics reduce the number of inappropriately or no longer significant. would benefit most from early, aggressive and the association between eGDR and dered diagnostic tests. prevention strategies (Diabetes Care 2013 diabetes complications, because the hospi Researchers at Johns Hopkins Hospital doi:10.2337/dcl2-1693). Valsartan was not associated with a ben eficial effect on any outcome in the subset tal's surrounding community has the high in Baltimore were interested in evaluat of Val-HeFT subjects who provided base A formula based on HbA1c, presence est rates of type 2 diabetes and obesity in ing whether an uncomplicated method line galectin-3 levels. However, in patients of hypertension, and waist circumference, New York City and among the highest in to reduce lab test ordering would actually with baseline galectin-3 levels below the eGDR is an alternate method of estimat the country. result in fewer tests ordered. From a total median, use of valsartan was associated ing insulin sensitivity and has been vali In a cohort of 207 white, black, or of 70 tests representing the 35 most fre with a significant decrease in hospitaliza dated in patients with type 1 diabetes. It Hispanic adults with type 1 diabetes, the quently ordered and the 35 most expensive, tions for heart failure. also is more practical than the accepted authors found that ethnicity was strong the authors randomly selected 61 tests for standard for measuring insulin sensitivity, ly associated with eGDR, with African the study: 31 in the control arm, without • the euglycernic-hyperinsulinernic clamp. Al Americans having significantly lower eGDR charges displayed, and 30 in the active arm Scalp Cortisol though insulin resistance is a hallmark of than Hispanics or whites. In comparison to with charges displayed. type 2 diabetes, in populations with high patients with the highest eGDR, those with During a 6-month baseline period, prevalence of type 2 diabetes and obe- the lowest eGDR had a significantly greater the authors collected data about usage of K-A SSA Y ® The Assay You Can Trust... Immunoassay Reagents for Chemistry Analyzers™ Lipoprotein Assays For use on most chemistry analyzers including: Abbott Aeroset/ Architect, Beckman Synchron & Olympus AU, Horiba ABX Pentra, Mindray, Roche/Hitachi, Roche • • Apolipoprotein AI • ,------------------------------------------' / • • • With Cardiovascular Disease E levated long-term cortisol levels mea sured in scalp hair are associated with for tests in the active arm were displayed equivalent to the effect of traditional CVD alongside the test name in Johns Hopkins' risk factors (J Clin Endocrinol Metab physician order entry system. Physicians 2013;doi:10.1210/jc.2012-3663). The find were not informed about why fees for only ings suggest that long-term elevated corti certain tests were displayed; if any physician sol might be an important CVD risk factor. asked the investigators about the charge The impact of chronic stress on CVD display, they were told it was for a research has been studied by measuring the stress effort, but not the specifics of the study. hormone cortisol in serum and saliva. In comparing the baseline and interven However, these one-time measurements tion periods, the authors found a 9.1% re poorly reflect long-term cortisol levels duction in tests ordered in the active arm, due to factors such as the diurnal pattern but a 5.1% increase in tests ordered in the of cortisol secretion and acute stress. El control arm. This resulted in a net charge evated hair cortisol levels previously have reduction >$400,000. been associated with chronic stress, so the • long-term cortisol levels in scalp hair were • • • • • • • • " "'\ associated with CVD. The study involved a subset of 283 par aieCtin-3 is elevated in a substantial ticipants in a larger cohort study of pre portion of patients with heart failure, dictors and consequences of changes in especially those with more severe disease physical, cognitive, emotional, and social and renal dysfunction. In addition, in pa function in older adults. The authors used tients who received the angiotensin recep a commercial enzyme-linked immunosor tor blocker valsartan, researchers found a bent assay kit for cortisol to measure levels Apolipoprotein CII significant reduction in hospitalizations for in hair samples cut as close to the scalp as heart failure only in those with galectin-3 possible. They extracted cortisol from the Apolipoprotein cm levels below the median of 16.2 nglmL hair using an overnight methanol incuba (Eur J Heart Fail 2013;15:511-8), suggest tion. • Apohpoprotem All • • • a history of cardiovascular disease (CVD), G . • charges Outcomes in Heart Failure Patients Apolipoprotein B . period, Galectin-3 Associated With Negative Lipoprotein(a) For in vitro diagnostic use. /' • authors sought to investigate whether high Cobas, Siemens/Bayer Advia & Dimension, and others. / intervention • Measurements Associated the tests in question. During a subsequent 6-month • Apohpoprotem E . • . For research use only. Not for use in diagnostic procedures in the U.S. ing that galectin-3 might predict response to therapy. Laboratory Testing Service Now Available For: > > Apo All Apo ell > > Apo cm Apo E '�-------------�:! The investigators found significantly higher hair cortisol levels in men than in The Valsartan Heart Failure Trial (Val women, with a median of 26.3 pglmg hair HeFT) evaluated the efficacy of valsartan in versus 21.0 pglmg, respectively. In com 5,Ql0 patients with symptomatic heart fail parison to subjects in the lowest quartile of ure. Researchers measured galectin-3 and cortisol levels, those in the highest quartile other biomarkers such as high-sensitivity had a 2.7-fold increased risk of CVD and a C-reactive protein, high-sensitivity tropo 3.2-fold higher risk of type 2 diabetes. The nin, and B-type natriuretic peptide at three authors found no association between hair time points in a subpopulation of the trial cortisol levels and non-CVD diseases. patients. The time points were at baseline KAMIYA BIOMEDICAL COMPANY 12779 Gateway Drive, Seattle, WA 98168 800-526-4925 206-575-8068 FAX: 206-575-8094 www.k-assay.com and 4- and 12-months after randomiza tion. The median baseline galectin-3 level in 1,650 patients was 16.2 nglmL, and levels increased significantly from baseline at both 4- and 12-months post-randomization, with 1.0 nglmL and 2.2 nglmL increases, 18 CLINICAL LABORATORY NEWS JUNE 2013 Visit AACC.org n ew s f ro m t h e fda FDA Announces New Draft Guidance on Molecular Diagnostic Instruments Luminex Receives FDA Clearance for Multiplexing Instrument he Food and Drug Administration (FDA) released new draft guidance, “Molecular Diagnostic Instruments With Combined Functions,” which outlines the agency’s thinking on regulation of molecular diagnostic instruments including approved or cleared functions as well as functions that do not require approval or clearance. The new guidance applies to instruments used with assays that measure or characterize human or microbial nucleic acid analytes, as well as to software intended for use with these instruments or with approved molecular diagnostic assays. The guidance also details the information FDA recommends applicants include in a submission for a molecular diagnostic instrument with combined functions. In the past, FDA has handled the permissibility of such instruments on a case-by-case basis, providing informal advice in response to individual inquiries. When finalized, the agency intends that this draft guidance will standardize its approach to these instruments. FDA is accepting comments on the draft guidance until July 8 at www.regulations.gov. DA granted clearance to Luminex for its Magpix instrument along with its xTAG Gastrointestinal Pathogen Panel (xTAG GPP). Based on Luminex’s xMAP Technology, the Magpix instrument is a compact, multiplexing platform that analyzes proteins and nucleic acids in a variety of sample matrices. It can perform up to 50 different tests in a single reaction. In January 2013, the xTAG GPP became the first test cleared in the U.S. that simultaneously detects 11 common viral, bacterial, and parasitic causes of infectious gastroenteritis. T FDA Issues Emergency Use Authorization for H7N9 Influenza Screening W ith the threat of a deadly outbreak of avian influenza spreading to the U.S., Secretary of Health and Human Services Kathleen Sebelius on April 19 authorized the emergency use of in vitro diagnostics for detection of the avian influenza (H7N9) virus. FDA quickly took action, issuing an Emergency Use Authorization (EUA) on April 22 for the CDC Human Influenza Virus RealTime RT-PCR Diagnostic Panel-Influenza A/H7 (Eurasian Lineage) Assay. Laboratories can use this test in conjunction with the FDA-cleared CDC Human Influenza Virus Real-Time RT-PCR Diagnostic Panel in real-time RT-PCR assays for the presumptive detection of the H7N9 virus in patients with respiratory infection symptoms. Under the new EUA, the Applied Biosystems 7500 Fast Dx Real-Time PCR instrument from Life Technologies also received clearance for use under the CDC protocol for emergency H7N9 screening. Along with the company’s SuperScript III One-Step qRTPCR reagent kit, laboratories can monitor the spread of the pathogen with the 7500 Fast Dx Real-Time PCR instrument and CDC’s Human Influenza Virus Assay. F ARK Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 www .ark-tdm .com BD Biosciences . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 www .bdbiosciences .com/go/canto Cerilliant . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 www .cerilliant .com College of American Pathologists . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 www .cap .org Kamiya Biomedical Company . . . . . . . . . . . . . . . . . . . . . . . . . . 7, 16, 18 www .k-assay .com Kronus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 www .kronus .com Randox Laboratories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 www .randox .com Roche Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 http://becauseofus .roche .com/Carmen medication monitoring? ask the experts For a complete list of our Certified Spiking Solutions® for Clinical Applications, visit Cerilliant.com • Analgesics Cerilliant offers a wide range of Certified Spiking Solutions® • Antidepressants suitable for use in medication monitoring applications by • Antiepileptics LC/MS or GC/MS to assist laboratories in establishing patient • Antipsychotics adherence to prescribed medications. • Caffeine-related Drugs • Cardiac Drugs • Catecholamines • Hormones Featured products for Medication Monitoring including parent compounds, internal standards & metabolites: — — — — — Female Male Neonatal OH Vitamin D Thyroid • Retigabine • Amiodarone • Lacosamide • Oxycodone • Immunosuppressants • Citalopram • NSAIDs • Vitamins (including Vitamins A, B, D, & E) Visit Cerilliant.com or call: — Josh Cooper, PhD ANALYTICAL R&D FDA Clears BD Diagnostics C. difficile Test 800/848-7837 USA or CANADA 512/238-9974 INTERNATIONAL Also available through select Sigma-Aldrich locations. Visit www.sigma-aldrich.com for more information. B D Diagnostics received FDA clearance for the BD Max Cdiff Assay for detecting the toxin B gene (tcdB), an essential gene in Clostridium difficile infection. Designed for use on the fully-automated BD Max System, the BD Max Cdiff assay is the third FDA-cleared assay on this system. Other assays cleared for the BD Max platform include the BD Max MRSA for the detection of methicillin-resistant Staphylococcus aureus, and BD Max GBS for the detection of Group B Streptococcus. INDEx To ADvERTISERS Please visit these websites to learn more about the products in this issue. Cerilliant Quality ISO GUIDE 34 ISO/IEC 17025 ISO 13485 ISO 9001 GMP/GLP © 2013 Cerilliant Corporation CliniCal laboratory ab CLN 6/13 ©2013 Roche Diagnostics. All rights reserved. 671-52177-0113 Because of us, Carmen’s smile is coming straight from her heart. Every day at Roche Diagnostics we work to help patients like Carmen live longer, healthier lives and not let things like a cardiac emergency define them. That’s why we develop diagnostic tests that help save lives by saving time when every heartbeat matters. Together, we’re making a difference. And it’s written all over Carmen’s face. Doing now what patients need next Learn more about Carmen’s story at http://becauseofus.roche.com/Carmen. Please visit us at booth #4049 at AACC Clinical Lab Expo.
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