How to Avoid Sick-House Syndrome

Jun 21, 2018 by

How to Avoid Sick-House Syndrome

Although we all know that fresh air is good for us, we tend to associate it with spending time outdoors. Since many of us spend most of our lives indoors, we should educate ourselves on the danger of what is called “sick-house” syndrome. This occurs when our homes, offices, etc. are sealed tightly to prevent noise, pollution, or cold air from entering. Unfortunately, this also prevents harmful fumes caused by paints, cleaning products, deodorizers and wood smoke from getting out. Even our furnishings, carpeting, and clothing can emit dangerous pollutants.

Image: Invisible toxins may be throughout your home, causing sick-house syndrome.

Studies show that the air in our homes should be changed ten times per day – anything less causes build up of dangerous pollutants. Below are some tips to help avoid Sick-House Syndrome. First, open the windows (just a crack is sufficient) when possible, and check to make sure that all vents are unblocked.

Another problem that lack of ventilation can cause is mold and mildew. This is found to be a danger not only to your health, but it can also damage the structure of your house. Especially in rooms such as kitchens and bathrooms, where humidity is likely to be high, proper ventilation is essential. The use of fans in these areas are helpful.

Also, check areas such as the attic and underneath floors for proper air circulation. If you have a humidity problem upstairs, it probably means that the attic or roof space needs more ventilation. Be aware that some types of flooring can sustain structural damage if there is not adequate ventilation beneath it.

We all want our homes to smell nice, and a clean, well-ventilated house will. But unpleasant odors happen, and we should not become overzealous in using artificial scents that add more pollutants to the air. Aerosols, in particular, are not eco-friendly and often contain nasty additives that contribute to allergies and even lung damage. Do not fall into the trap of trying to create a “fresh smelling” home by adding more chemicals to your already polluted air.

You can easily make your own room deodorizer by sprinkling a few drops of vanilla or essential oil on a cotton ball. Place this in a small open container to prevent the oil or alcohol from damaging your furniture. Other natural room fresheners to use include baking soda, white vinegar, fresh or dried herbs, or even a bowl of fresh apples. And, if you like the scent of fresh flowers, treat yourself to the real thing instead of using an artificial spray. Try to keep chemical-laced cleaners and perfumed products to a minimum, and use natural products as much as possible.

If you or your loved ones suffer from unexplained drowsiness, headaches or a general malaise, try getting fresher air through the house. Your family and your home with breath easier and you can avoid the “sick-house” syndrome.

Next : Air Purification Solutions

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Symptoms of Toxic Mold Illness

Jun 18, 2018 by

Symptoms of Toxic Mold Illness

Human bodies can tolerate molds and mycotoxins in small quantities, but common molds are a very common allergen. Because exposure to mycotoxins is relatively rare, allergic effects are more common than toxic effects, but flooding such as is caused by hurricanes or other storms have led to some serious dangers from Mycotoxin, or what is commonly called Black Mold or Toxic Mold.

Image: Mold toxins can cause flu-like symptoms, especially in children and people with allergies.

Stachybotrys mold spores are toxic because they produce a poisonous substance called mycotoxin. When these spores are inhaled they can cause many unpleasant, and even very serious, symptoms and conditions.

The health effects of mycotoxin exposure are different from allergic reactions to mold spores. Toxic effects can include flu-like symptoms, respiratory problems, headaches, memory and cognitive problems, and skin irritation.

Another and more dangerous health threat from mold exposure is systemic fungal infection. Individuals with compromised immune systems, exposed to high levels of mold, or possibly individuals with chronic exposure paired with mycotoxic exposure may become infected. Sinuses and digestic tract infections are most common. Lung and skin infections are also possible.

Systemic fungal infection can be a serious health problem. Alcohol and mycotoxin production may result from the fungal growth, leading to a myriad of symptoms. Sudden food allergies and digestive problems can mislead diagnosis. Treatment can be long-term (many years).

Systemic infection may be of the environmental mold itself, or by other common food-related molds consumed under an weakend immune system. A weakened immune system may also result in other opportunistic infections, for example bacterial infection.

Environmental illnesses can be difficult for healthcare practitioners to diagnose. Because those who are living in houses comntaminated by the mold generally can’t smell the mildewy odor, they tend to be in denial that the problem exists.

MOST COMMON SYMPTOMS OF TOXIC MOLD EXPOSURE

Symptoms of black mold or toxic mold exposure may not seem life threatening at the onset. Over time more serious illnesses may develop.

People with chronic illnesses, such as obstructive lung disease, may develop mold infections in their lungs. Mycotoxin poisoning by the Stachybotrys fungus is called stachybotryotoxicosis.

A few of the possible symptoms of mold allergy:
Nasal Congestion
Irritation of the eyes
Inflammation of the sinuses
Irritation of the skin
Breathlessness
Headache
Runny nose
Fatigue
Cough
Sore throat
Hoarseness

MORE SERIOUS SYMPTOMS
You may develop a skin rash.
Flu like symptoms such as nasal stuffiness, fever, headaches, abdominal pain and diarrhea may occur.
Can induce serious respiratory problems.
May cause wheezing or shortness or breath.
Inflammation of the ear
Bleeding Lungs
Nose Bleeds
Memory Loss
Arthralgia ( Pain in the joints without swelling )

Below Are A Few News Items About this Problem

Asthma from Mold Exposure in Infancy. “Recent studies have confirmed what scientists have suspected for years: that asthma is an immune system reaction to dust, pollution and other allergens [e.g., airborne mold spores] in the environment, which trigger spasms and tightening of the airways of some people who also have a genetic predisposition. Now they’re zeroing in on the genetic vulnerability. The new thinking is that asthma isn’t simply a matter of having the wrong genes. Instead, at some point in early childhood, or possibly in the womb, an event takes place that turns a person into a lifetime asthmatic. Scientists think the fetus or infant is somehow exposed to a critical dose of pollutants that cause the immune system to overreact, permanently narrowing the airways and making them more sensitive to irritants. It might be possible to inoculate children against the condition before this even occurs, preventing asthma entirely.”—from “Waiting to Inhale,” NEWSWEEK, March 14, 2005.

“Fungi are also being recognized more frequently as a factor in chronic sinusitis, and the importance of fungi in the pathogenesis of chronic sinusitis is a subject of increasing research interest.”—“A Practical Approach to the Patient with Sinusitis” on Medscape, November, 2005.

Deadly Tsunami and Hurricane Fungal Infections. Survivors of the Asian tsunami could be at risk of the deadly fungal infection Mucormycosis, Australian researchers said on Jan. 28, 2005. Doctors at Sydney’s St George Hospital treated the Mucormycosis infection in an Australian man who was injured in the disaster. Doctors fear it could be the first case of many. This fungal disease is caused by the Mucor mold species, which is a very common mold species that readily grows in water-damaged buildings worldwide, and which is commonly found in the soil and in decaying vegetation. Mucormycosis affects the sinuses, brain, lungs, skin and kidneys. People with immune disorders are more susceptible to the infection.

Coccidioides immitis mold [the cause of widespread “Valley Fever” in the southwestern USA desert cities] is on the U.S. Dept. of Human Service list of biological agents and toxins that have the potential to pose a severe threat to public health and safety, and that can potentially be utilized by terrorists to infect and kill Americans.

Next : Who Is Most Vulnerable to Illness from Molds

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History of Mold and Man

Jun 7, 2018 by

History of Mold and Man

Since Biblical times it has been known that indoor mold growth can be a health hazard:
Leviticus 14:39-47. “On the seventh day the priest shall return to inspect the house. If the mildew has spread on the walls, he is to order that the contaminated stones be torn out and thrown into an unclean place outside the town. If the mildew reappears in the house after the stones have been torn out and the house is scraped and plastered, it is a destructive mildew and the house is unclean. It must be torn down – its stones, timbers and all the plaster – and taken out of town.”

Image: Rooms that are not well ventilated, or rooms exposed to the weather in humid climates, can be overrun by mold in a short time.

Several times throughout history mold has been identified as the cause behind the mysterious deaths of farm animals.

Stachybotrys chartarum was found growing on wet grain used for animal feed, and the resulting toxins poisoned the animals. Today, the agriculture industry keeps a close eye on mold and mycotoxin levels in grains to prevent the contamination of animal feed and human food supplies.

Stachybotrys chartarum is a fungus that has become notorious as a mycotoxin producer that can cause animal and human mycotoxicosis. Over the past 15 years in North America, evidence has accumulated implicating this fungus as a serious problem in homes and buildings and one of the causes of the “sick building syndrome.” In 1993-1994, there was an unusual outbreak of pulmonary hemorrhage in infants in Cleveland, Ohio, where researchers found S. chartarum growing in the homes of the sick infants. This incident increased the awareness of home/building molds and brought this fungus to the immediate attention of the medical community. In recent years there has been a cascade of reports about toxic molds in the national media.

The New York Times Magazine, August 12, 2001, ran a front page story on toxic mold. Newspaper articles (Fig. 1) such as “Fungus in ‘Sick’ Building” (New York Times, May 5, 1996) or “Mold in schools forces removal of Forks kids” (Fargo Forum, June 1997) are eye-catching news items. The nationally syndicated comic strip Rex Morgan ran a series on Stachybotrys, and television news shows have run entire programs on Stachybotrys contamination of homes. The fungus has resulted in multimillion dollar litigations and caused serious problems for homeowners and building managers who must deal with the human issues and remediation.

In the 1970s, building construction techniques changed in response energy crises, and homes and commercial buildings became more air-tight. At the same time, cheaper materials such as drywall moved into common use. This combination of increased moisture because of higher humidity and suitable surfaces for mold growth led to an increase in mold indoors.

The recent increase in serious storms and flooding has increased the danger greatly, and some health experts have even predicted a large number of deaths among those of the threatened population with suppressed immune systems.

Molds and fungi growing inside buildings may be the source of indoor air-quality problems known as the “sick building syndrome.” While the syndrome has been blamed on a variety of causes, from the emissions of particleboard partitions and paints to carpets and cleaning supplies, Georgia Tech research has found that metabolic gases emitted from molds and fungi may be a significant source of airborne volatile organic compounds (VOCs) that can cause indoor air-quality problems. The new research suggests that control measures prescribed for sick buildings may need to be altered to address microbial problems as well as building materials.

Next : Types of Mold and the Harm They Cause

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