Black mold, or Stachybotrys chartarum, is a greenish-black mold that grows on materials with high cellulose content in the presence of moisture. It produces toxins that can become airborne and pose health risks. The main risks are from ingestion, skin contact, and inhalation of spores and toxins. While links to serious health effects are theoretical, removal of mold is recommended to prevent exposure. Personal protective equipment should be used during do-it-yourself mold removal including respirators. Professional remediation is advised for large areas. Preventing moisture and fixing water sources are key to preventing mold growth.
VIP Call Girls Lucknow Nandini 7001305949 Independent Escort Service Lucknow
IS BLACK MOLD DANGEROUS
1. BLACK MOLD
HOW BAD IS IT?
Group 5: Katelyn Hall, Danielle Rope, Katie Lupo, Blythe Dollar, & Kirk Shamley
2. Background: What is black mold?
Stachybotrys chartarum (Stachybotrys atra)
greenish-black mold
grows on material with high cellulose and low
nitrogen content (fiberboard, gypsum board,
paper, dust, lint)
Occurs where there is water damage, excessive
humidity, condensation
Produces multiple mycotoxins that have potential
to become airborne
3. Risk Characterization
Public health risk for Stachybotrys chartarum is broken
down into three categories
1. Ingestion
2. Topical
3. Inhalation
Stachybotrys chartarum spores dyed blue.
4. Primarily due to the mycotoxin produced by the mold
Reported and identified in farm animals having consumed
affected feed, but rarely reported in humans
Ongoing risk is unlikely in view of moderate agricultural
methods and scrutiny of agricultural products.
Risk Characterization: 1. Ingestion
5. Direct infection, especially in immunocompromised
populations
Plausible but rarely reported and unlikely with modern
medical care
Risk Characterization: 2. Topical
6. Allergic reaction and direct toxic effects to the lungs
No confirmed cases but remains theoretically possible
Risk Characterization: 3. Inhalation
7. Etiology yet to be elucidated
Role of Black mold remains theoretical but unproven
“Sick Building Syndrome”
8. Association of mold, including Stachybotrys, with is
biologically plausible but still theoretical
Hypothetically, black mold could be a surrogate marker for
poor and substandard housing, a known link to poor health
Dampness-related illnesses
9. Risk is theoretical only
Potential for a large number of people to be affected would
appear to justify continued scrutiny
10. Exposure Assessment
Lack of standardized method for describing mold burden
Stachybotrys rarely exists in isolation
Questionnaires, visual or engineering inspections
Sample air, dust or contaminated materials
Heavy mold burdens can usually be seen or smelled
11. Exposure Assessment Cont.
Air sampling is most common
Typically done for several hours
Determination of total spore counts
(generic, species usually not identified)
Unknown how well air samples represent a
breathing zone
Currently, reliable sampling of mold is costly
and no standard for interpretation of results
EPA recommends removing any mold that is
found regardless of species
12. Exposure Assessment Cont.
EPA recently developed metric called the Environmental Relative
Moldiness Index (ERMI)
DNA analysis called Mold Specific Quantitative PCR
(MSQPCR)
Dust samples are collected and DNA from mold is analyzed
Sample is compared to the ERMI
Used only for research at this time, not yet validated for
routine public use
13. Unintended Consequences
“There is no way to test for Stachybotrys in the body, nor
for poisoning after it has left the body.”
black mold blood tests - IgA (Immunoglobulins)
urine sample - mycotoxins
“According to respected scientific bodies like the Environmental
Protection Agency and Centers for Disease Control, among
others, there is very little scientific evidence linking mold with
serious human illness, particularly considering the low levels
of exposure in most homes.”
14. Unintended Consequences:
Symptoms of Black Mold Exposure
Exposure to the mycotoxins present in specific types of mold
makes some people sick
Skin problems, flu-like symptoms, chronic fatigue,
headaches, respiratory and heart problems, nose bleeding,
bronchitis, pulmonary hemorrhage
Learning disabilities, mental deficiencies, cancer, multiple
sclerosis, lupus,fibromyalgia, rheumatoid arthritis
15. Linkedin Discussion
1994 - case of bleeding lung disease in children
10,000 pending cases in the United States
Just to be safe - get your house checked
out and remove mold!
16. Hazard Assessment
Best prevention from adverse health effects from
exposure to Stachybotrys chartarum is to
REMOVE THE MOLD!!!
Can call a mold removal company to
assess and remove the mold
Can remove the mold yourself
17. Hazard Assessment: Mold Removal
If you decide to remove the mold yourself:
Open windows and doors in the area
Wear non-porous gloves and protective eyewear
Wear a mask to prevent inhalation of mycotoxins
Wear protective clothing and do not have exposed skin
18. Hazard Assessment: Mold Removal
Cont.
To remove mold from hard surfaces mix 1 cup of bleach to 1 gallon of water and
clean the surface
Absorbent porous materials like drywall, ceiling tiles, or carpet should be thrown
away if contaminated with mold
1 Cup Bleach 1 Gallon Water
19. Hazard Assessment: Mold Removal
Cont.
If the area to be cleaned is
larger than 10 square feet
consult the U.S.
Environmental Protection
Agency (EPA) guide titled
Mold Remediation in Schools
and Commercial Buildings
Or hire a professional
mold removal company
21. Personal Protective Equipment
Remediation in Schools & Commercial Buildings (EPA Guidelines)
Skin and Eye Protection
Properly fitted goggles or a full-face respirator with HEPA filter.
Respiratory Protection
Small area affected by mold: N-95 respirator; covers the nose and mouth, will filter out 95% of
the particulates in the air, and is available in most hardware stores.
Limited PPE: half-face or full-face air purifying respirator equipped with a HEPA filter
cartridge; contain both inhalation and exhalation valves that filter the air and ensure that it is
free of mold particles.
High levels of airborne dust or mold spores are likely or when intense or long-term exposures
are expected: a full-face, powered air purifying respirator (PAPR) is recommended; HEPA-
filtered air is supplied to a mask that covers the entire face or a hood that covers the entire
head.
22. Administrative Controls (i.e., Gaps in
Solutions)
EPA:
Standards or Threshold Limit Values for airborne concentrations of mold have not been set. No regulations
or standards for airborne mold contaminants.
OSHA:
No standard for mold exposure. No enforcement directive for mold exposure.
Federal Legislation:
Congress has failed several times to pass federal legislation requiring inspections and remediation of rental
properties and new homes sales, establishing EPA and HUD guidelines, establishing a FEMA catastrophic
loss program, and requiring Medicaid coverage for “mold victims”.
State Legislation:
Most states have enacted legislation regarding mold, including California’s Toxic Mold Protection Act,
which establishes permissible exposure limits.
Lawsuits:
A surge in lawsuits in the early to mid 2000s awarded billions of dollars to plaintiffs claiming property
damage and health problems due to black mold.
25. Elimination
Control potential water sources. To prevent mold growth, control the places where water can get in and cause
damage, including:
Temporary holes in roofing, walls, or siding during construction/renovation.
Leaking roofs, windows, siding, crawl spaces, etc.
Plumbing or washing machine leaks, dishwasher backups or pump failure, leaking icemaker water line to
refrigerators, toilet overflows, slow water pipe leaks inside walls, etc.
Bathing/showering areas, cooking areas, indoor plants, or pet urine.
Condensation from poorly insulated windows or cold surfaces.
Repair leaks quickly. Because mold and bacteria grow very rapidly, it is important to fix the source of water intrusion
immediately. If not fixed, the mold will simply grow back. Without moisture, microbes cannot grow and will not be a
health concern indoors.
Dry wet areas within 48 hours. Mold and bacteria grow quickly, so dry water-damaged areas within 48 hours.
Discard any building materials that have not been dried and can support mold and bacterial growth. Materials that
are not dried within 48 hours will grow mold, and the mold spores will remain in the material. Dead and dried mold
causes more health problems than moist.
26. Colorado Floods
Boulder County mold information and resources:
https://www-static.bouldercolorado.gov/docs/post-flood-mold-
information-resources-1-201310091553.pdf
Colorado Department of Public Health and Environment Protect Yourself
From Mold:
http://www.colorado.gov/cs/Satellite?blobcol=urldata&blobheadernam
e1=Content-Disposition&blobheadername2=Content-
Type&blobheadervalue1=inline%3B+filename%3D%22Protect+yours
elf+from+mold.pdf%22&blobheadervalue2=application%2Fpdf&blobk
ey=id&blobtable=MungoBlobs&blobwhere=1251885530334&ssbinary
=true
28. References
Anonymous. 2014. [online] Available at: http://www.socialissues.us 17701.html [Accessed: 31 Mar 2014].
Bashir, S. (2002). Home is where the harm is: Inadequate housing as a public health crisis. American Journal of Public Health, 92(5), 733-738.
Bay., T. 2014. Mold Removal Tampa | Mold Remediation Tampa Clearwater Florida. [online] Available at: http://www.idestroymold.com/ [Accessed: 31 Mar 2014].
Cabral, J. (2010). Can we use indoor fungi as bioindicators of indoor air quality? Historical perspectives and open questions. Scientific Total Environment, 408(20), 4285-95.
Centers for Disease Control and Prevention. Mold: Facts about Stachybotrys chartarum and Other Molds. Accessed Mar 29, 2014 at http://www.cdc.gov/mold/stachy.htm#Q11
Chapman, J. (2003). Stachybotrys chartarum and other problems caused by allergenic fungi. Allergy Asthma Procedures, 24(1), 1-7.
Damp Indoor Spaces and Health, Committee on Damp Indoor Spaces and Health, Board on Health Promotion and Disease Prevention, Institute of Medicine, 2004.
Facilitiesnet. 2014. Mold: Behind the Hype - Facilities Management IAQ Feature. [online] Available at: http://www.facilitiesnet.com/iaq/article/Mold-Behind-the-Hype--1523# [Accessed: 31 Mar
2014].
Hardin, B., Kelman, B., and Saxon A. (2003). Adverse human health effects associated with molds in the indoor environment, Journal of Occupational Environmental Medicine, 45(5), 470-8.
Hope, J. (2013). A Review of the mechanism of injury and treatment approaches for illness resulting from exposure to water-damaged buildings, mold, and mycotoxins. The Scientific World
Journal.
Hossain, A., Ahmed, M., & Ghannoum, M. (2004). Attributes of Stachybotrys chartarum and its association with human disease. Journal Allergy Clinical Immunology, 113(2), 200-207.
Occupational Safety and Health Administration. ( 2011) . Indoor Air Quality in Commercial and Institutional Buildings.
Khalili B., Montanaro, M., & Bardana, E. (2005). Inhalational mold toxicity: fact or fiction? A clinical review of 50 cases. Annals Allergy Asthma Immunology, 95(3), 239-246.
29. References
Laumbach, R. & Kipen, H. (2005) Bioaerosols and sick building syndrome: particles, inflammation, and allergy. Current Opinions Allergy Clinical Immunology, 5(2),135-139.
Lagasse, T.S, & Reyna, K.N. (2004). 30 states and counting: Mold legislation continues to sweep the nation. Mold.
Macher, J., McNeel, S., & Waldman, J. (2005). Implementation of the Toxic Mold Protection Act. Richmond, CA: California Department of Health Services.
Menetrez, M.Y., Foarde, K.K., Webber, T.D., Dean, T.R., & Betancourt, D.A. (2007). Testing antimicrobial paint efficiency on gypsum wallboard contaminated with Stachybotrys
chartarum. Journal of Occupational and Environmental Hygiene, 5, 63-66.
National Institute of Environmental Health Sciences. (2005). Guidelines for the protection and training of workers engaged in maintenance and remediation work associated with mold.
Washington, DC.
National Research Council. (2004). Damp Indoor Spaces and Health. Washington, DC: The National Academies Press.
Nelson, B.D. (2001). Stachybotrys chartarum: The Toxic Indoor Mold. APSnet Features. Online. doi: 10.1094/APSnet Feature-2001-1101.
Nytimes.com. 2014. Infants' Lung Bleeding Traced to Toxic Mold. [online] Available at: http://www.nytimes.com/1997/01/24/us/infants-lung-bleeding-traced-to-toxic-mold.html [Accessed:
31 Mar 2014].
PUBH 5103: Exposures to Environmental Hazards: Indoor Mold. Accessed Mar 29, 2014 at http://enhs.umn.edu/current/5103/molds/absorption.html
Takaro, T.K., Krieger, J., Song, L., Sharify, D., & Beaudet, N. (2011). The Breathe-Easy Home: The impact of asthma-friendly home construction on clinical outcomes and trigger
exposure. American Journal of Public Health, 101(1), 55-62.
Toxic-black-mold-syndrome.com. 2014. Toxic Black Mold Syndrome, Symptoms, Testing and Treatment. [online] Available at: http://www.toxic-black-mold-syndrome.com/ [Accessed: 31
Mar 2014].
United States Environmental Protection Agency. (2008). Mold remediation in schools and commercial buildings. (EPA 402-K-01-001). Washington, DC.
World Health Organization. (2009). WHO guidelines for indoor air quality: dampness and mould.