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During the last several years, we all have heard about illnesses and structural problems within homes as a result of exposure to toxic mold and fungal microorganisms. And there seems to be an increase of allergy symptoms and hypersensitivity, particularly in young children, as a result of mold. Learning more about mold and the causes of these problems is the first step in knowing how to maintain a quality home environment.
Building Related Illness (BRI) and Sick Building Syndrome (SBS) are terms used when health symptoms are experienced while in a particular building (including the home) and relief from these symptoms only occurs after leaving the site. Causes of BRI and SBS are often related to poor Indoor Air Quality (IAQ). Poor IAQ can be caused by many different factors such as:
Americans generally spend more than 90% of their day indoors; thus, exposure to indoor pollutants can have a considerable health impact on individual sufferers as well as schools and businesses. In fact, indoor levels of pollutants may be 2-5 times, and occasionally more than 100 times, higher than outdoor levels according to Environmental Protection Agency studies of human exposure to air pollutants. IAQ problems may lead to increased medical expenses due to health problems (direct costs) and lost productivity due to discomfort or absenteeism (indirect costs).
Mold, also called mildew or fungus, is an organic substance that comes in a variety of species and colors and is often recognized by its musty smell. Mold has been implicated as a major cause of Building Related Illness (BRI) and Sick Building Syndrome (SBS). Studies have shown that exposure to indoor mold can induce respiratory illness in adults, and can cause early onset asthma and allergies in children.
Molds produce allergens (substances that can cause allergic reactions), irritants, and in some cases, potentially toxic substances (mycotoxins). Inhaling or touching mold or mold spores may cause allergic reactions... They can be immediate or delayed. Molds can also cause asthma attacks in people with asthma who are allergic to mold. In addition, mold exposure can irritate the eyes, skin, nose, throat, and lungs of both mold-allergic and non-allergic people.
From the EPA - A Brief Guide to Mold, Moisture and Your Home
A recent Mayo Clinic Study (1999) found that 96% of chronic sinus infections were caused by molds. Molds have also been implicated in other non-allergy related illnesses.
A wide variety of symptoms have been attributed to the toxic effects of fungi. Symptoms such as fatigue, nausea, and headaches, and respiratory and eye irritation have been reported. Some of the symptoms related to fungal exposure are non-specific, such as discomfort, inability to concentrate, and fatigue.
From the New York City Department of Health & Mental Hygiene - Guidelines on Assessment and Remediation of Fungi in Indoor Environments
There are a number of different molds that can be found in the home. Some of these molds favor outdoor environments for growth but readily enter the home by circulating through doorways, windows, and systems like heating and air conditioning units. Mold can grow on almost any substance as long as it has a carbon-based food source, moisture, oxygen, and the temperature is between 40 and 100o F. We've listed these molds at the genus level but there are sometimes many different species - some more toxic than others. For example, Aspergillus has well over 100 species including flavus, ochraceus, and parasiticus.
|Alternaria||A large spore mold that can deposit in the nose, mouth and upper respiratory tract causing an allergic response. Indoors, it is often found in carpets, textiles, house dust and potentially damp areas like window frames and showers. It can also be found in plant soil.|
|Aspergillus||Usually found in warmer climates in areas of water damage or extreme dampness. Aspergillus species are also commonly found in house dust. Many species produce mycotoxins which may be associated with disease in humans and some animals. Also found in building materials and in fall leaves and other decomposing matter like compost piles.|
|Cladosporium||The most commonly identified outdoor fungus, but it can easily enter into the house through the HVAC and other airflow entryways. Cladosporium also has an indoor species that grows on textiles, wood and other porous, damp areas. Both indoor and outdoor species are triggers for hay fever and asthma symptoms.|
|Penicillium||A very common mold known to cause allergies, hay fever and asthma. Species may be found growing on wallpaper, wallpaper glue and decaying fabrics in water-damaged buildings or homes. It is also found in carpet and in interior fiberglass duct insulation. Some species can produce mycotoxins.|
|Stachybotrys||Pronounced (stack-ee-BOT-ris), this is an especially toxic black mold that produces airborne toxins (mycotoxins) that can cause serious breathing difficulties, memory and hearing loss, dizziness, flu-like symptoms and bleeding in the lungs. Stachybotrys requires excessive moisture to thrive (usually running water) and is a slimy black mold. Fortunately, stachybotrys is not found in homes as often as the other molds listed above.|
If you think your home or office might have a mold problem it's time to do a little detective work. First, consider your symptoms or those of your loved ones. When you leave the suspected area do the symptoms dissipate? Do you smell anything different when you enter the area (a musty smell for example)? Are there any visible signs of mold growth (even a little) like shown in the pictures? Carpet, dry wall, wood, attic space and insulation, and even bare earth in a crawl space should be checked. Do you or have you ever had a water leak in any part of your home? The source could be rain, plumbing, an appliance or condensation.
If you don't see any visible signs of mold in house, don't breathe a sigh of relief just yet. Unfortunately, there are many places for indoor mold to hide. For example, indoor mold can be behind baseboards, under carpeting, in the ventilation system, or behind drywall. You should also be wary of any area that has been wet at one time but now appears dry: even non-living mold spores can cause adverse health symptoms. While hidden mold is more difficult to detect, it can often be recognized by odor. If you suspect you might have a mold problem, the next step is to utilize a do-it-yourself mold test or contact a professional IAQ consultant for testing.
Testing is an effective and recommended way to discover if mold is present, how much mold is present, and what types of mold are present. Having said that, please realize that these tests should be used as an initial screening procedure and that further testing may be needed to fully characterize your environmental conditions. There are two main test methods available that are very easy to use.
The Air Sample method usually utilizes a culture plate (or petri dish) that must be refrigerated until time of use. It is then left open in the test area for about an hour. Live mold spores that are in the air then settle on the plate and will grow on the media over the course of 5 to 7 days. The plates are sent to a test lab where they are carefully examined. This method allows for the specification of different types of live molds at the genus level and can show how severe the problem is based upon how many colonies grow on the plate. It is important to note that this test method is a "snapshot" view of live airborne mold spore in the location tested. But mold spores can be released intermittently, based upon activity levels in the area, relative air pressure, and other variables, so the air sample snapshot may not reflect the true nature of the condition. Also, mold spores don't have to be live to cause health problems, and dead ones won't grow on the plates. Finally, molds grow at different rates. Slow growing molds (like Stachybotrys) could become hidden on the culture plate by the more rapid growing molds.
The Tape-Lift method of mold detection, as the name implies, utilizes a peel-off tape strip that is pressed on the surface to be tested. The sample is then applied to a glass slide and read at a test lab under a microscope at 400 to 1000 times magnification. Spores are identified by visual characteristics such as size, shape, texture, and color. A heavy load of background material on the slide - like dust, dirt or other debris - might obscure the view of any mold spores present. A report is sent, usually showing a semi-quantitative estimate at the genus level. Because some spores look the same under a microscope (such as Penicillium and Aspergillus) they are listed together, and because there are literally thousands of different spore types, you may sometimes see spores reported as "unidentifiable". Because tape-lift tests read both living and non-living spores, this sampling method reveals a historical account of what has occurred in an area over time rather than a snapshot of what is currently in the air.
Identification and subsequent remediation of indoor mold growth and related contaminants in a home, office or school can result in significant health improvements, as seen in the case of this asthmatic child:
A two year-old boy with a history of poorly controlled asthma was brought to an allergy clinic for assessment by a pediatric allergist. His symptoms included a "smoker-like" cough, nasal congestion, sneezing, eye irritation and wheezing. His family history for allergies was negative, and allergy skin testing demonstrated he was non-reactive to cats, dogs, cockroaches, dust mites, dust and mold allergens (with appropriate positive and negative controls).
The boy was prescribed anti-inflammatory inhalers, plus long and short acting B-agonists for breakthrough symptoms... In spite of the patient's medical regimen, the boy's symptoms persisted. Upon inquiry, his parents reported they had occasional rainwater entry into their finished basement. Mold testing (air and tape lift samples) in the home was recommended.
The mold investigation revealed there were elevated levels and types of mold spores in the finished basement (Stachybotrys, Cladosporium and Chaetomium), indicating indoor mold growth (amplification) had occurred in the area the boy used as his playroom.
The family arranged for environmental remediation, including hiring a qualified (certified) professional to remove the contaminated building materials (in accordance with NYC Guidelines on Assessment and Remediation of Fungi in Indoor Environments), steam-cleaning the carpets, using a vacuum cleaner with a high-efficiency particulate-arresting (HEPA) filter equipped with microfiltration vacuum bags, installing a pleated disposable furnace filter, and cleaning the ventilation system.
Upon completion of the remedial procedures, the patient's health improved dramatically. He was gradually weaned off his medications and remained asymptomatic... Six years later, the boy continues to do well. The physicians concluded remediation of the patient's environment and implementation of appropriate environmental controls were essential to the boy's improved outcome.
From Respiratory Reviews, April 1999.
*We are honored to have Sue Flappan MS, CIH as a contributor to this webpage. Sue is a Certified Industrial Hygienist and an expert on mold in homes, businesses and schools. Mrs. Flappan has been featured on Dateline NBC (1999) and the Discovery Health Channel, and has made numerous presentations at the local, regional and national level for organizations such as Environmental Protection Agency (EPA), American Industrial Hygiene Association (AIHA), and the American Academy of Allergy, Asthma and Immunology (AAAAI).
This information is for educational purposes only. Always consult with your doctor first about your specific condition, treatment options and other health concerns you may have.