MOLD AWARENESS Operating Engineers National Hazmat Program 1 This material was produced under grant number 46C5-HT16 from the Occupational Safety and Health Administration, U.S. Department of Labor. It does not necessarily reflect the views or policies of the U.S. Department of Labor, nor does mention of trade names, commercial products, or organizations imply endorsement by the U.S. Government. MOLD AWARENESS International Environmental Technology and Training Center 1293 Airport Road, Beaver, WV 25813 Phone: (304) 253-8674 - Fax: (304) 253-7758 E-mail: hazmat@iuoeiettc.org Operating Engineers National Hazmat Program 3 Objectives Mold versus fungi Fungi in history and its importance Describe parts and types of fungi Identify health hazards of fungi Cause and prevention of indoor fungal growth Current guidance for remediation of fungi Recommended personal protective equipment Describe air monitoring limitations and exposure limits Fungi versus asbestos Operating Engineers National Hazmat Program 4 What is Mold? General term used for fungi that produce asexual spores Artificial grouping similar to the term “weed” No taxonomic significance Generally refers to a visible colony of fungi growing in an indoor environment. “Mildew” is a layperson’s term referring to mold growing in and on substances such as fabrics and wood. Operating Engineers National Hazmat Program 5 What is Fungi? Kingdom of eukaryotic organisms, without chlorophyll, that have cells bound by rigid walls Organisms classified in this kingdom: Absorb food in solution directly through their cell walls and reproduce through spores None conduct photosynthesis Operating Engineers National Hazmat Program 6 What are these? Smooth Earthball (Scleroderma cepa) Common Mushroom (Agaricus bisporus) Operating Engineers National Hazmat Program 7 Linnean Classification Categories Category Corresponding taxon for man Kingdom Animalia Phylum Chordata Class Mammalia Order Primates Family Hominidae Genus Homo Species Sapiens Operating Engineers National Hazmat Program 8 Biological Classification of the Fungi Kingdom Includes Mushrooms Stinkhorns Athlete's foot Wheat rust Apple-scab Wood rots Corn smut Truffles Slime moulds Yeasts And many more… Operating Engineers National Hazmat Program 9 Alexander Fleming In 1928, while working on influenza virus, he observed that mold had developed accidentally on a staphylococcus culture plate Mold had created a bacteria-free circle around itself. Mold culture prevented growth of staphylococci Even when diluted 800 times Named the active substance penicillin Operating Engineers National Hazmat Program 10 Hyphae Size Hair 100 microns Hyphae belong to the genus Penicillium and they are about 2-4 microns across Hyphae of the water mold Saprolegnia Operating Engineers National Hazmat Program 11 Spore Size Outdoor air normally always contains some level of these airborne mold spores Hundreds or even thousands of mold spores per cubic foot of outdoor air Cladosporium produce light and buoyant spores that aerosolize easily Dry, maintained carpet typically contains at least 100,000 mold spores per gram of carpet dust Light Microscope Image of Aspergillus Spores Operating Engineers National Hazmat Program 12 Spore Size - Puffball Most molds reproduce by forming spores that disperse into the air in search of more food and moisture (similar to seed dispersal from plants) Millions of spores being released into the atmosphere from a puffball Most filamentous mold spores are microscopic and therefore, invisible to the naked eye Operating Engineers National Hazmat Program 13 Mycotoxins Fungi that produce mycotoxins are referred to as toxigenic fungi Aspergillus Fusarium Penicillium Stachybotrys Myrothecium Fungi that produce potent mycotoxins Seldom abundant in outdoor ambient air. Most toxic exposures occur from indoor growth of fungi related to excessive moisture Operating Engineers National Hazmat Program 14 Aflatoxin Food products contaminated with aflatoxins Cereal (maize, sorghum, pearl millet, rice, wheat) Oilseeds (groundnut, soybean, sunflower, cotton) Spices (chillies, black pepper, coriander, turmeric, zinger) Aspergillus flavus Tree nuts (almonds, pistachio, walnuts, coconut) Milk. Contamination costs US producers more than $100 million per year on average $ 26 millions to peanuts ($69.34/ha) Animals that have consumed feed contaminated with aflatoxins Operating Engineers National Hazmat Program 15 How do I know what mold I have? Bluish-green to green Penicillium Aspergillus Black to brown-black Aspergillus niger Alternaria alternata Cladosporium herbarum Cladosporium sphaerospermum Stachybotrys chartarum Reddish or pink Fusarium Operating Engineers National Hazmat Program 16 Common Fungi Cladosporium Penicillium Alternaria Aspergillus Penicillium chrysogenum Aspergillus ochraceus Operating Engineers National Hazmat Program 17 Killer Black Mold? Stachybotrys chartarum 35% of the isolates from buildings produce SUPER TOXIC cytotoxic mycotoxins and satratoxins. Operating Engineers National Hazmat Program 18 Health Effects All molds have the potential to cause health effects. (US Environmental Protection Agency) The ACGIH approach has been to emphasize that active fungal growth in indoor environments is inappropriate and may lead to exposures and adverse health effects. (American Conference of Governmental Industrial Hygienists) “There are very few case reports that toxic molds inside homes can cause unique or rare health conditions…” “The common health concerns from molds include hay-fever like allergic symptoms.” (Centers for Disease Control and Prevention) Operating Engineers National Hazmat Program 19 Health Effects Burning eyes Cognitive disorders Headache Pulmonary hemorrhage Nausea Liver damage Nose bleeds Central nervous system damage Allergic Reactions Asthma Exhaustion Sinus infections Brain damage Cancer Death Operating Engineers National Hazmat Program 20 How Do I Prevent Fungi Growth? Prevent ponding of water Fix water leaks promptly Keep relative humidity below 50% Dry wetted materials within 48 hours Operating Engineers National Hazmat Program 21 Water Damage Catastrophic Storm flooding Sewage backflow Plumbing breaks Insidious Water intrusion, Moisture buildup Neglect Operating Engineers National Hazmat Program 22 Ponding on Roof Operating Engineers National Hazmat Program 23 Operating Engineers National Hazmat Program 24 Operating Engineers National Hazmat Program 25 Operating Engineers National Hazmat Program 26 Relative Humidity The amount of water vapor in the air at any given time is usually less than that required to saturate the air. The relative humidity is the percent of saturation humidity, generally calculated in relation to saturated vapor density. Operating Engineers National Hazmat Program 27 Relative Humidity (Actual Vapor Density) Relative Humidity (RH) = X 100% -------------------(Saturation Vapor Density) Indicates how moist the air is Ratio of the water vapor density (mass per unit volume) to the saturation water vapor density, usually expressed in percent Operating Engineers National Hazmat Program 28 Relative Humidity Operating Engineers National Hazmat Program 29 Guidelines on Assessment and Remediation of Fungi in Indoor Environments NYC Department of Health Guidelines 5 Levels of remediation Delineates HVAC as its own type of remediation Operating Engineers National Hazmat Program 30 Guidelines on Assessment and Remediation of Fungi in Indoor Environments Level I: Small Isolated Areas (10 sq. ft or less) ceiling tiles, small areas on walls Level II: Mid-Sized Isolated Areas (10 - 30 sq. ft.) individual wallboard panels Level III: Large Isolated Areas (30 - 100 square feet) several wallboard panels Level IV: Extensive Contamination (greater than 100 contiguous square feet in an area) Level V: Remediation of HVAC Systems (within in the system) A Small Isolated Area of Contamination (<10 square feet) Areas of Contamination (>10 square feet) Operating Engineers National Hazmat Program 31 Guidelines for the Protection and Training of Workers Engaged in Maintenance and Remediation Work Associated with Mold NIEHS Guidelines Recommended 8-hour training by IUOE Table 10: Low-level HVAC Mold Maintenance Work Course Operating Engineers National Hazmat Program 32 Guidelines for the Protection and Training of Workers Engaged in Maintenance and Remediation Work Associated with Mold Table 10: Low-level HVAC Mold Maintenance Work Course Operating Engineers National Hazmat Program 33 IICRC S520 Standard Reference Guide for Professional Mold Remediation Professional guidance for water damage restoration provided by the IICRC Institute of Inspection, Cleaning, and Restoration Certification (IICRC) Locate and eliminate moisture sources Physically remove the contamination Clean and dry structural materials Attempts to kill or encapsulate mold are not adequate to solve the problem Operating Engineers National Hazmat Program 34 How Do I Get Rid of Mold? Fix the leak or eliminate source of water Remove moist organic matter needed to grow Remove areas of fungi contamination Treat fungal growth with a fungicide Use a 10:1 bleach and water solution Operating Engineers National Hazmat Program 35 Fix the Leak Operating Engineers National Hazmat Program 36 Moist Organic Matter Operating Engineers National Hazmat Program 37 Operating Engineers National Hazmat Program 38 Respiratory Protection APR and PAPR P100 cartridge Operating Engineers National Hazmat Program 39 PPE Eye protection Hand protection Foot protection Disposable coverall Tyvek Respiratory Protection Operating Engineers National Hazmat Program 40 Fungicides BenzaRid™ is a professional colorless, water soluble 1:750 quaternary ammonium (benzalkonium chloride) mold killer Only kills mold spores which it comes into actual contact with Lotrimin AF for Athlete’s Foot Antifungal Plant fungicide Chlorine dioxide Operating Engineers National Hazmat Program 41 Fungal Exposure Limits OSHA PEL ? ACGIH TLV? Why? NIOSH REL? ALARA As Low As Reasonably Achievable Operating Engineers National Hazmat Program 42 Air Sampling Visual Inspection most important initial step in identifying a possible contamination problem Bulk/Surface Sampling not required to undertake a remediation may need to be collected to identify specific fungal contaminants Operating Engineers National Hazmat Program 43 Air Sampling Should not be part of a routine assessment, but may be necessary if: An individual(s) has been diagnosed with a disease that is or may be associated with a fungal exposure (e.g., pulmonary hemorrhage/hemosiderosis, and aspergillosis) Evidence from a visual inspection or bulk sampling that ventilation systems may be contaminated Presence of mold is suspected (e.g., musty odors) but cannot be identified by a visual inspection or bulk sampling (e.g., mold growth behind walls) If air monitoring is performed, collect and outdoor and indoor samples Operating Engineers National Hazmat Program 44 Mold is Gold No established exposure limits No mandated training requirements No established clearance criteria Public concern/fear Fungi Versus Asbestos Fungi is living Spore can regenerate Operating Engineers National Hazmat Program 45 Operating Engineers National Hazmat Program 46 This material was produced under grant number 46C5-HT16 from the Occupational Safety and Health Administration, U.S. Department of Labor. It does not necessarily reflect the views or policies of the U.S. Department of Labor, nor does mention of trade names, commercial products, or organizations imply endorsement by the U.S. Government. End This publication was made possible by grant numbers 5 U45 ES06182-07 and 5 U45 ES09763-07 from the National Institute of Environmental Health Sciences, NIH with funds from EPA and DOE. Its contents are solely the responsibility of the authors and do not necessarily represent the official views of the NIEHS, NIH, EPA, or DOE. Operating Engineers National Hazmat Program 48
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