Barron Heating AC Electrical & Plumbing Blog: Archive for the ‘IAQ’ Category

TELL-TALE SIGNS OF PROBLEM DUCTS

Friday, October 25th, 2013

Now that you know here each branch duct leads, you are in a better position to ask whether your system is likely to be a big energy loser. Here are the things to look for. 

Uninsulated Ducts in Unconditioned Spaces

Heat transfer through duct walls can contribute significantly to energy losses. Conductive heat losses are typically at least as great as the energy losses due to air leakage. If the duct system runs through an attic or vented crawlspace and is not insulated, you can be sure that much energy is being wasted. If the ducts are in a basement, you will have to weigh the fact that insulating the ducts will cause the basement to get colder. If both the ducts and the basement walls are uninsulated, you should consider insulating the basement walls instead of the ducts.

Disconnected, Torn, or Damaged Ducts

A thorough inspection of the duct system should be made to look for holes large enough to see. Some sections of duct that are supposed to be joined together may have fallen away from each other, leaving a gap through which large quantities or air can leak. Flexible duct sections may have been torn during installation or afterward. Fiberglass ductboard sections are subject to damage if weight is placed on them. Whatever the cause, visible holes in ductwork are a clear indication that the system needs fixing. Blind-Alley Ducts Occasionally found in duct systems that use joist spaces or other parts of the building structure to channel air flow, blind-alley ducts occur as a result of mistakes made during installation.

A blind-alley duct leads nowhere (except possibly to the outside), while the register it was supposed to serve has no source of heat. The room containing this register will then be too cold. If it is an important room, the thermostat setting may be raised in an attempt to get enough heat to this room. If a room always seem too cold or a register doesn’t seem to have any air flowing out of it, it may be worth investigating.

Inadequate Return-Side Ductwork

As we’ve noted, it is common to find building spaces pressed into service as part of the duct system. These tend to be leaky, especially on the return side. Even worse, some homes are designed without any return ductwork at all. In that case, unless the furnace is in the conditioned space, it will be surrounded by cold basement or crawl-space air and will have to use more energy to warm this cold air for delivery to the home than it would have if warmer air from the living space were available from return ducts. A system without return ductwork can also depressurize the furnace room, giving rise to the health hazards we’ve already discussed.

Content from D.O.E Reaseach & Develpment

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Asthma Triggers and Information

Wednesday, May 22nd, 2013

Asthma is a serious lung disease.

* During an asthma attack, the airways get narrow, making it difficult to breathe.
* Symptoms of asthma include wheezing, shortness of breath, and coughing.
* Asthma can even cause death.


If you have asthma or a child with asthma, you are not alone.

* About 17 million Americans have asthma.
* Asthma is the leading cause of long-term illness in children.

The air that children breathe can make a difference.
* Asthma may be triggered by allergens and irritants that are common in homes.
* Help your child breathe easier: consult a doctor and reduce asthma triggers in your home.

Clear Your Home Of Asthma Trigger

Below are five common asthma triggers found in homes and what you can do to reduce you and your child’s exposure to them.

  • Not all of the asthma triggers listed here affect every person with asthma.
  • Not all asthma triggers are listed here.
  • See your doctor or health care provider for more information.

Secondhand Smoke

Asthma can be triggered by the smoke from the burning end of a cigarette, pipe, or cigar and the smoke breathed out by a smoker.

  • Choose not to smoke in your home or car and do not allow others to do so either.

Dust Mites

Dust mites are too small to be seen but are found in every home.

Dust mites live in mattresses, pillows, carpets, fabric-covered furniture, bedcovers, clothes, and stuffed toys.

  • Wash sheets and blankets once a week in hot water.
  • Choose washable stuffed toys, wash them often in hot water, and dry thoroughly. Keep stuffed toys off beds.
  • Cover mattresses and pillows in dust-proof (allergen-impermeable) zippered covers.

Pets

Your pet’s skin flakes, urine, and saliva can be asthma triggers.

  • Consider keeping pets outdoors or even finding a new home for your pets, if necessary.
  • Keep pets out of the bedroom and other sleeping areas at all times, and keep the door closed.
  • Keep pets away from fabric-covered furniture, carpets, and stuffed toys.

Molds

Molds grow on damp materials. The key to mold control is moisture control.

If mold is a problem in your home, clean up the mold and get rid of excess water or moisture.

Lowering the moisture also helps reduce other triggers, such as dust mites and cockroaches.

  • Wash mold off hard surfaces and dry completely. Absorbent materials, such as ceiling tiles and carpet, with mold may need to be replaced.
  • Fix leaky plumbing or other sources of water.
  • Keep drip pans in your air conditioner, refrigerator, and dehumidifier clean and dry.
  • Use exhaust fans or open windows in kitchens and bathrooms when showering, cooking, or using the dishwasher.
  • Vent clothes dryers to the outside.
  • Maintain low indoor humidity, ideally between 30-50% relative humidity. Humidity levels can be measured by hygrometers which are available at local hardware stores.

Pests

Droppings or body parts of pests such as cockroaches or rodents can be asthma triggers.

  • Do not leave food or garbage out.
  • Store food in airtight containers.
  • Clean all food crumbs or spilled liquids right away.

Try using poison baits, boric acid (for cockroaches), or traps first before using pesticidal sprays.
 If sprays are used:

  • Limit the spray to infested area.
  • Carefully follow instructions on the label.
  • Make sure there is plenty of fresh air when you spray, and keep the person with asthma out of the room.

Also… House dust may contain asthma triggers. Remove dust often with a damp cloth, and vacuum carpet and fabric-covered furniture to reduce dust build-up. Allergic people should leave the area being vacuumed. Using vacuums with high efficiency filters or central vacuums may be helpful.

When your local weather forecast announces an ozone action day, stay indoors as much as possible.

Posted by Wes Diskin

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Biological Pollutants In Your Home – Clearing the Air

Thursday, January 24th, 2013

This page will help you understand:

  1. what indoor biological pollution is
  2. whether your home or lifestyle promotes its development
  3. how to control its growth and buildup

Outdoor air pollution in cities is a major health problem. Much effort and money continues to be spent cleaning up pollution in the outdoor air. But air pollution can be a problem where you least expect it, in the place you may have thought was safest–your home. Many ordinary activities such as cooking, heating, cooling, cleaning, and redecorating can cause the release and spread of indoor pollutants at home. Studies have shown that the air in our homes can be even more polluted than outdoor air.
Many Americans spend up to 90 percent of their time indoors, often at home. Therefore, breathing clean indoor air can have an important impact on health. People who are inside a great deal may be at greater risk of developing health problems, or having problems made worse by indoor air pollutants. These people include infants, young children, the elderly, and those with chronic illnesses.

What Are Biological Pollutants?

Biological pollutants are or were living organisms. They promote poor indoor air quality and may be a major cause of days lost from work or school, and of doctor and hospital visits. Some can even damage surfaces inside and outside your house. Biological pollutants can travel through the air and are often invisible.

Some common indoor biological pollutants are:

  • Animal Dander (minute scales from hair, feathers, or skin)
  • Dust Mite and Cockroach parts
  • Fungi (Molds)
  • Infectious agents (bacteria or viruses)
  • Pollen

Some of these substances are in every home. It is impossible to get rid of them all. Even a spotless home may permit the growth of biological pollutants. Two conditions are essential to support biological growth: nutrients and moisture. These conditions can be found in many locations, such as bathrooms, damp or flooded basements, wet appliances (such as humidifiers or air conditioners), and even some carpets and furniture.
Modern materials and construction techniques may reduce the amount of outside air brought into buildings which may result in high moisture levels inside. Using humidifiers, unvented heaters, and air conditioners in our homes has increased the chances of moisture forming on interior surfaces. This encourages the growth of certain biological pollutants.

The Scope of the Problem

Most information about sources and health effects of biological pollutants is based on studies of large office buildings and two surveys of homes in northern U.S. and Canada. These surveys show that 30% to 50% of all structures have damp conditions which may encourage the growth and buildup of biological pollutants. This percentage is likely to be higher in warm, moist climates.
Some diseases or illnesses have been linked with biological pollutants in the indoor environment. However, many of them also have causes unrelated to the indoor environment. Therefore, we do not know how many health problems relate only to poor indoor air.
All of us are exposed to biological pollutants. However, the effects on our health depend upon the type and amount of biological pollution and the individual person. Some people do not experience health reactions from certain biological pollutants, while others may experience one or more of the following reactions:

  • Allergic
  • Infectious
  • Toxic

Except for the spread of infections indoors, ALLERGIC REACTIONS may be the most common health problem with indoor air quality in homes. They are often connected with animal dander (mostly from cats and dogs), with house dust mites (microscopic animals living in household dust), and with pollen. Allergic reactions can range from mildly uncomfortable to life-threatening, as in a severe asthma attack. Some common signs and symptoms are:

  • Watery eyes
  • Runny nose and sneezing
  • Nasal congestion
  • Itching
  • Coughing
  • Wheezing and difficulty breathing
  • Headache
  • Fatigue

Health experts are especially concerned about people with asthma. These people have very sensitive airways that can react to various irritants, making breathing difficult. The number of people who have asthma has greatly increased in recent years. The number of people with asthma has gone up by 59 percent since 1970, to a total of 9.6 million people. Asthma in children under 15 years of age has increased 41 percent in the same period, to a total of 2.6 million children. The number of deaths from asthma is up by 68 percent since 1979, to a total of almost 4,400 deaths per year.

INFECTIOUS DISEASES caused by bacteria and viruses, such as flu, measles, chicken pox, and tuberculosis, may be spread indoors. Most infectious diseases pass from person to person through physical contact. Crowded conditions with poor air circulation can promote this spread. Some bacteria and viruses thrive in buildings and circulate through indoor ventilation systems. For example, the bacterium causing Legionnaire’s disease, a serious and sometimes lethal infection, and Pontiac Fever, a flu-like illness, have circulated in some large buildings.

Talking to Your Doctor

Are you concerned about the effects on your health that may be related to biological pollutants in your home? Before you discuss your concerns with your doctor, you should know the answers to the following questions. This information can help the doctor determine whether your health problems may be related to biological pollution.

  • Does anyone in the family have frequent headaches, fevers, itchy watery eyes, a stuffy nose, dry throat, or a cough? Does anyone complain of feeling tired or dizzy all the time? Is anyone wheezing or having difficulties breathing on a regular basis?
  • Did these symptoms appear after you moved to a new or different home?
  • Do the symptoms disappear when you go to school or the office or go away on a trip, and return when you come back?
  • Have you recently remodeled your home or done any energy conservation work, such as installing insulation, storm windows, or weather stripping? Did your symptoms occur during or after these activities?
  • Does your home feel humid? Can you see moisture on the windows or on other surfaces, such as walls and ceilings?
  • What is the usual temperature in your home? Is it very hot or cold?
  • Have you recently had water damage?
  • Is your basement wet or damp?
  • Is there any obvious mold or mildew?
  • Does any part of your home have a musty or moldy odor?
  • Is the air stale?
  • Do you have pets?
  • Do your house plants show signs of mold?
  • Do you have air conditioners or humidifiers that have not been properly cleaned?
  • Does your home have cockroaches or rodents?

TOXIC REACTIONS are the least studied and understood health problem caused by some biological air pollutants in the home. Toxins can damage a variety of organs and tissues in the body, including the liver, the central nervous system, the digestive tract, and the immune system.

Coping With the Problem

Checking Your Home

There is no simple and cheap way to sample the air in your home to determine the level of all biological pollutants. Experts suggest that sampling for biological pollutants is not a useful problem-solving tool. Even if you had your home tested, it is almost impossible to know which biological pollutant(s) cause various symptoms or health problems. The amount of most biological substances required to cause disease is unknown and varies from one person to the next.

Does this make the problem sound hopeless? On the contrary, you can take several simple, practical actions to help remove sources of biological pollutants, to help get rid of pollutants, and to prevent their return.

Self-Inspection: A Walk Through Your Home

Begin by touring your household. Follow your nose, and use your eyes. Two major factors help create conditions for biological pollutants to grow: nutrients and constant moisture with poor air circulation.

  • Dust and construction materials, such as wood, wallboard, and insulation, contain nutrients that allow biological pollutants to grow. Firewood also is a source of moisture, fungi, and bugs.
  • Appliances such as humidifiers, kerosene and gas heaters, and gas stoves add moisture to the air.
  • A musty odor, moisture on hard surfaces, or even water stains, may be caused by:
- Air-conditioning units
-

Basements, attics, and crawlspaces
- Bathrooms
- Carpets
- Heating and air-conditioning ducts
- Humidifiers and dehumidifiers
- Refrigerator drip pans.

What You Can Do About Biological Pollutants

Before you give away the family pet or move, there are less drastic steps that can be taken to reduce potential problems. Properly cleaning and maintaining your home can help reduce the problem and may avoid interrupting your normal routine. People who have health problems such as asthma, or are allergic, may need to do this and more. Discuss this with your doctor.

Moisture Control

Water in your home can come from many sources. Water can enter your home by leaking or by seeping through basement floors. Showers or even cooking can add moisture to the air in your home. The amount of moisture that the air in your home can hold depends on the temperature of the air. As the temperature goes down, the air is able to hold less moisture. This is why, in cold weather, moisture condenses on cold surfaces (for example, drops of water form on the inside of a window). This moisture can encourage biological pollutants to grow.

There are many ways to control moisture in your home:

  • Fix leaks and seepage. If water is entering the house from the outside, your options range from simple landscaping to extensive excavation and waterproofing. (The ground should slope away from the house.) Water in the basement can result from the lack of gutters or a water flow toward the house. Water leaks in pipes or around tubs and sinks can provide a place for biological pollutants to grow.
  • Put a plastic cover over dirt in crawlspaces to prevent moisture from coming in from the ground. Be sure crawlspaces are well-ventilated.
  • Use exhaust fans in bathrooms and kitchens to remove moisture to the outside (not into the attic). Vent your clothes dryer to the outside.
  • Turn off certain appliances (such as humidifiers or kerosene heaters) if you notice moisture on windows and other surfaces.
  • Use dehumidifiers and air conditioners, especially in hot, humid climates, to reduce moisture in the air, but be sure that the appliances themselves don’t become sources of biological pollutants.
  • Raise the temperature of cold surfaces where moisture condenses. Use insulation or storm windows. (A storm window installed on the inside works better than one installed on the outside.) Open doors between rooms (especially doors to closets which may be colder than the rooms) to increase circulation. Circulation carries heat to the cold surfaces. Increase air circulation by using fans and by moving furniture from wall corners to promote air and heat circulation. Be sure that your house has a source of fresh air and can expel excessive moisture from the home.
  • Pay special attention to carpet on concrete floors. Carpet can absorb moisture and serve as a place for biological pollutants to grow. Use area rugs which can be taken up and washed often. In certain climates, if carpet is to be installed over a concrete floor, it may be necessary to use a vapor barrier (plastic sheeting) over the concrete and cover that with sub-flooring (insulation covered with plywood) to prevent a moisture problem.
  • Moisture problems and their solutions differ from one climate to another. The Northeast is cold and wet; the
  • Southwest is hot and dry; the South is hot and wet; and the Western Mountain states are cold and dry. All of these regions can have moisture problems. For example, evaporative coolers used in the Southwest can encourage the growth of biological pollutants. In other hot regions, the use of air conditioners which cool the air too quickly may prevent the air conditioners from running long enough to remove excess moisture from the air. The types of construction and weatherization for the different climates can lead to different problems and solutions.
  • Maintain and Clean All Appliances that Come in Contact with Water
  • Have major appliances, such as furnaces, heat pumps and central air conditioners, inspected and cleaned regularly by a professional, especially before seasonal use. Change filters on heating and cooling systems according to manufacturer’s directions. (In general, change filters monthly during use.) When first turning on the heating or air conditioning at the start of the season, consider leaving your home until it airs out.
  • Have window or wall air-conditioning units cleaned and serviced regularly by a professional, especially before the cooling season. Air conditioners can help reduce the entry of allergy-causing pollen. But they may also become a source of biological pollutants if not properly maintained. Clean the coils and incline the drain pans according to manufacturer’s instructions, so water cannot collect in pools.
  • Have furnace-attached humidifiers cleaned and serviced regularly by a professional, especially before the heating season.
  • Follow manufacturer’s instructions when using any type of humidifier. Experts differ on the benefits of using humidifiers. If you do use a portable humidifier (approximately 1 to 2 gallon tanks), be sure to empty its tank every day and refill with distilled or demineralized water, or even fresh tap water if the other types of water are unavailable. For larger portable humidifiers, change the water as recommended by the manufacturer. Unplug the appliance before cleaning. Every third day, clean all surfaces coming in contact with water with a 3% solution of hydrogen peroxide, using a brush to loosen deposits. Some manufacturers recommend using diluted household bleach for cleaning and maintenance, generally in a solution of one-half cup bleach to one gallon water. When using any household chemical, rinse well to remove all traces of chemical before refilling humidifier.
  • Empty dehumidifiers daily and clean often. If possible, have the appliance drip directly into a drain. Follow manufacturer’s instructions for cleaning and maintenance. Always disconnect the appliance before cleaning.
  • Clean refrigerator drip pans regularly according to manufacturer’s instructions. If refrigerator and freezer doors don’t seal properly, moisture may build up and mold can grow. Remove any mold on door gaskets and replace faulty gaskets.
  • Clean
  • Clean mold surfaces, such as showers and kitchen counters.
    Remove meld from walls, ceilings, floors, and panelling. Do not simply cover mold with paint, stain, varnish, or a moisture-proof sealer, as it may resurface.
  • Replace moldy shower curtains, or remove them and scrub well with a household cleaner and rinse before rehanging them.
  • Dust Control
  • Controlling dust is very important for people who are allergic to animal dander and mites. You cannot see mites, but you can either remove their favorite breeding grounds or keep these areas dry and clean. Dust mites can thrive in sofas, stuffed chairs, carpets, and bedding. Open shelves, fabric wallpaper, knickknacks, and venetian blinds are also sources of dust mites. Dust mites live deep in the carpet and are not removed by vacuuming. Many doctors suggest that their mite-allergic patients use washable area rugs rather than wall-to-wall carpet.
  • Always wash bedding in hot water (at least 1300 F) to kill dust mites. Cold water won’t do the job. Launder bedding at least every 7 to 10 days.
  • Use synthetic or foam rubber mattress pads and pillows, and plastic mattress covers if you are allergic. Do not use fuzzy wool blankets, feather or wool-stuffed comforters, and feather pillows.
  • Clean rooms and closets well; dust and vacuum often to remove surface dust. Vacuuming and other cleaning may not remove all animal dander, dust mite material, and other biological pollutants. Some particles are so small they can pass through vacuum bags and remain in the air. If you are allergic to dust, wear a mask when vacuuming or dusting. People who are highly allergy-prone should not perform these tasks. They may even need to leave the house when someone else is cleaning.
  • Before You Move
  • Protect yourself by inspecting your potential new home. If you identify problems, have the landlord or seller correct them before you move in, or even consider moving elsewhere.
  • Have professionals check the heating and cooling system, including humidifiers and vents. Have duct lining and insulation checked for growth.
  • Check for exhaust fans in bathrooms and kitchens. If there are no vents, do the kitchen and bathrooms have at least one window apiece? Does the cooktop have a hood vented outside? Does the clothes dryer vent outside?
  • Are all vents to the outside of the building, not into attics or crawlspaces?
    Look for obvious mold growth throughout the house, including attics, basements, and crawlspaces, and around the foundation. See if there are many plants close to the house, particularly if they are damp and rotting. They are a potential source of biological pollutants. Downspouts from roof gutters should route water away from the building.
  • Look for stains on the walls, floor or carpet (including any carpet over concrete floors) as evidence of previous flooding or moisture problems. Is there moisture on windows and surfaces? Are there signs of leaks or seepage in the basement?
  • Look for rotted building materials which may suggest moisture or water damage.
  • If you or anyone else in the family has a pet allergy, ask if any pets have lived in the home.
  • Examine the design of the building. Remember that in cold climates, overhanging areas, rooms over unheated garages, and closets on outside walls may be prone to problems with biological pollutants.
  • Look for signs of cockroaches.

Where Biological Pollutants May Be Found in the Home

  • Dirty air conditioners
  • Dirty humidifiers and/or dehumidifiers
  • Bathroom without vents or windows
  • Kitchen without vents or windows
  • Dirty refrigerator drip pans
  • Laundry room with unvented dryer
  • Unventilated attic
  • Carpet on damp basement floor
  • Bedding
  • Closet on outside wall
  • Dirty heating/air conditioning system
  • Dogs or cats
  • Water damage (around windows, the roof, or the basement)

Warning! Carefully read instructions for use and any cautionary labeling on cleaning products before beginning cleaning procedures.

Do not mix any chemical products. Especially, never mix cleaners containing bleach with any product (such as ammonia) which does not have instructions for such mixing. When chemicals are combined, a dangerous gas can sometimes be formed.

  • Household chemicals may cause burning or irritation to skin and eyes.
  • Household chemicals may be harmful if swallowed, or inhaled.
  • Avoid contact with skin, eyes, mucous membranes and clothing.
  • Avoid breathing vapor. Open all windows and doors and use an exhaust fan that sends the air outside.
  • Keep household chemicals out of reach of children.
  • Rinse treated surface areas well to remove all traces of chemicals.

Posted by Wes Diskin

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The Book On Indoor Air Quality

Thursday, January 24th, 2013

You Are What You Breathe…

  • “Crazy, crazy stuff! I am going back to my bubble now…” – Wes
  • 9 out of 10 breaths we draw are likely drawn indoors; at school, the workplace, restaurants, movie theaters and home.
  • The average person breathes in 50,000 pollution particles a day, and takes 20,000 breaths a day.
  • Poor indoor air quality can cause or contribute to the development of chronic respiratory diseases such as asthma and hypersensitivity pneumonitis. It can also cause headaches, dry eyes, nasal congestion, nausea and fatigue.
  • In today’s world, we inhale toxins on a regular basis and it’s almost impossible to eliminate. What you inhale has an immediate and profound effect on such things as appetite, digestion, moods, depression, anxiety, irritability and sleep. Reducing the toxins that you breathe can have a very profound and dramatic impact on your health.
  • According to the State of Massachusetts Study, 1989, “50% of all illness is due to poor indoor air quality.”

CHILDREN – WHO ARE WE HURTING THE MOST?

  • Children spend more than 90% of their time indoors, in the home (especially with the lure of personal computers and video games), school, hockey arenas and shopping malls.
  • Children are most susceptible to indoor air pollution as their small bodies and undeveloped immune systems are less able to effectively cope. Also, children’s lungs are still developing and they have a higher metabolic rate, which means they require more oxygen. They breathe 3 times faster than do adults and so they tend to absorb 3 times more pollutants and toxic vapors than adults, according to the US National Center for Health Statistics.
  • For children and adults, this all translates immune deficiency, lowered IQ rates, headaches, depression, anxiety, inability to concentrate, attention deficit hyperactivity, shortness of breath, joint pain, sexual problems, memory loss and cancer.
  • According to the Environmental Contamination and Toxicology Institute, until a child is approximately 13 months old, they have virtually no ability to fight the biological and neurological effects of toxic chemicals. A child’s immune system is not fully developed until they are approximately 12 years old.
  • According to the Canadian Institute of Child health (published The Health of Canada’s Children 2000), Canadian children are exposed daily to a toxic soup of chemicals in their water, air and food, and that exposure may explain the dramatic rise in childhood cancers, asthma, sudden infant death syndrome and behavioral problems.
  • The chronic, low-level exposure to pesticides, smog, food additives and other chemicals could also create a host of public-health problems for coming generations, including limiting the ability of prospective parents to conceive.
  • The report states there has been a 25% increase rate of childhood caners in the past 25 years, all believed to be influenced by exposure to environmental contaminants. Asthma is now the leading cause of hospital admissions in Canada, and the most frequent trigger for an attack is air pollution.
  • The US National Cancer Institute states that “Child brain and nervous system cancers have increased 26% overall – in children under 5 years old, brain cancer rose 53% and leukemia is up 18%.”
  • Pollutants including lead, mercury, pesticides, PCB’s and dioxins can reduce intelligence and slow central nervous system development in fetuses.
  • A Canadian study conducted on hyperactivity disorder, among 20,000 children nationwide, found 11% of children have been diagnosed with the disorder, compared with less than 3%, 20 years ago. Some research has pegged the level among US children at 17%.
  • According to The Learning Disabilities Association of America, 12 million children under the age of 18 suffer from learning disabilities and behavior disorders such as hyperactivity and attention deficit disorder.
  • ADD/ADHD is epidemic in schools today. Behavioral problems have long been linked to exposure to toxic chemicals and mold. Use of Ritalin has skyrocketed since 1990.
  • Bristol University’s Children of the 90”s Project, conducted a study on 7000 pregnant mothers and followed their children to the age of 8. The team concluded that “children whose mothers made frequent use of chemical-based domestic products during pregnancy were more likely to wheeze persistently throughout early childhood, independent of many other factors.” Domestic chemicals included: disinfectant, bleach, aerosols, air fresheners, carpet cleaner, paint or varnish, white spirit, pesticide and paint stripper. The Bristol team suggested that the chemical formaldehyde could be the common factor.
  • Parents who keep a spotless house may be triggering an asthma attack. According to Australian researchers, who conducted a smaller sample study than Bristol, toddlers exposed to fumes from solvents and cleaning products at home are most at risk. Polishes, room fresheners and new carpets were some of the triggers. Children exposed to the highest levels of volatile organic compounds were 4 times more likely to have asthma. Benzene which is used to make rubbers, dyes and detergents, and is also a component of gasoline, has been linked to cancers.
  • Researchers from Brock University in St. Catherine’s, Ontario, tracked dozens of southern Ontario school kids aged 10 and 11, and found that athletic kids who get outside and engage in rigorous physical activity are generally healthier and get sick less often. Youngsters who don’t get outside much have higher incidences of upper respiratory tract infections.

VOLATILE ORGANIC COMPOUNDS – JUST CHEMICALS AND MORE CHEMICALS

  • The growth of synthetic chemicals after the 1950’s has been phenomenal. US production alone increases tenfold in each decade. By the 1980’s, 4 million new chemicals had been recorded, of which 60,000 were in common use, with around 1000 being added to this every year. Today there are about 72,000 synthetic chemicals being produced.
  • An average home now probably stores more chemicals than a chemistry lab at the turn of the century, about 62,000 chemicals – most of them in the kitchen and bathroom.
  • Less than 2% of synthetic chemicals have been tested for toxicity, mutagenic, carcinogenic or birth defects. The majority of chemicals have never been tested for long term effects.
  • The Center of Bio Environmental Research found that “of the 70,000 chemical compounds, only 25% have been tested – and they were tested individually, not in combination with other chemicals.” They also stated that “chemicals do not occur individually in our body, they occur in combinations.” “Tiny amounts of only 2 toxic chemicals at the same time are 1000 times more dangerous than 1 of them alone.”
  • The Hazardous Products Act requires that manufacturers list only certain volatile organic compounds in their products.
  • Labeling laws protect Big Business. They do not protect the consumer.
  • The New York Poison Control Centre reported that 85% of product warning labels were inadequate or incorrect for identifying a poison and for first aid instructions.
  • Pesticides only have to include active ingredients on the labels, even though the inert (inactive) ingredients may account for 99%, many of which are toxic and poisonous.
  • Material Safety Data Sheets (MSDS) must be available for any chemical product used in the workplace (in Canada). The air within a home is not considered a legal environment, whereas the air in the workplace and outdoors is.
  • Chemicals can evaporate right through a container that isn’t properly sealed.
  • Chemicals get into our body through inhalation, ingestion and absorption. According to the American Lung Association, we breathe in the vapors, airborne volatile organic compounds or VOC’s. Some products release contaminants into the air right away; others do so gradually over a long period of time. Some stay in the air up to a year.
  • Damage to organs caused by environmental chemicals frequently cannot be repaired or corrected once the injury has occurred. Prevention is therefore essential – Herbert L. Needleman, M.D. and Philip J. Landrigan, M.D., “Raising Children Toxic Free”.
  • Chemicals are attracted and stored in fatty tissues. The brain is a prime target for destruction due to its high fat content and very rich blood supply.
  • Chemicals become more active from higher temperatures. The ideal temperature within the home should be between 68° and 72°.
  • The Canada Mortgage & Housing Corp (CMHC) reports that houses are sealed so tight for energy efficiency that they cannot offgass chemicals. The chemicals have nowhere to go, so they build up within the home.
  • An Environmental Protection Agency EPA study stated the toxic chemicals in household cleaners are 3 times more likely to cause cancer than outdoor air. The EPA also conducted a 15 year study that showed American homes have chemical levels 70 times higher than outside. The number of chemicals used inside the home has more than doubled since 1950.
  • Since 1960, cancer rates have almost doubled. Cancer is the #1 cause of death for children. Since 1982, there has been a 26% increase in breast cancer. Breast cancer is the #1 cause of death for women between the ages of 35 and 54 years. Laundry detergents, household cleaners and pesticides are the primary suspects.
  • There has been a call from the US/Canadian Commission to ban bleach in North America. Bleach is being linked to the rising rates of breast cancer in women, reproductive problems in men, and learning and behavioral problems in children.
  • Research has found that women who work in the home are at a 54% higher risk of developing cancer than women who work outside the home.
  • In children, the risk of leukemia and brain tumours increases dramatically in households using home and garden pesticides, herbicides and insecticides.
  • Indoor air of an average Canadian home on a cleaning day can be hundreds, even thousands of times more contaminated than the outdoor air in the most polluted of cities.
  • Steam from dryer vents is considered extremely toxic, because of the chemicals from dryer sheets and residue from laundry soap and bleach.
  • Chemicals used to dry clean clothing are very dangerous and can cause cancer. Dry cleaned clothes should be hung outside for at least 3 days. Dry-cleaning chemicals are the same cancer causing chemicals that are found in mothballs.
  • Volatile Organic Compounds are off-gassed from new furniture, often lacquered with formaldehyde, particleboard paneling or shelving, stuffed furniture (often coated with a stain treatment) and even carpeting.
  • Volatile Organic Compounds are emitted from air fresheners, bleach products, household cleaning products, deodorizers, dishwashing detergents, disinfectants, dry cleaned clothing, fabric softeners, laundry detergents, furniture polishes, metal polishes, oven cleaners, glues, paints, solvents, mineral deposit removers, pesticides, garden chemicals, personal care products and more.
  • There are approximately 9000 Volatile Organic Compounds found in recently sprayed perfume – similar to numbers found in butane. Toluene, a chemical in almost all fragrances, is believed to trigger asthma attacks and other side effects.
  • Formaldehyde, phenol, benzene, toluene, xylene are found in common household cleaners, cosmetics, beverages, fabrics and cigarette smoke. These chemicals are cancer causing and toxic to the immune system.
  • Products containing formaldehyde can cause allergies, asthma, cancer and immune deficiency diseases.
  • Products such as “Lysol” contain phenols and dioxin (Agent Orange), which are dangerous chemicals. Lysol commercials in the past have show a mother spraying the baby’s diaper pail right in the infant’s diaper pail right in the infant’s bedroom. What a way to start a life!
  • In 1970, NTA’s were banned from use in products. However, in 1980, Proctor & Gamble lobbied to bring back the use of NTA’s. NTA’s cause the sudsing action. More suds mean less clean and more toxic danger. Studies conducted on toothpaste showed that the suds were the same suds found in laundry soap. This part really doesn’t apply to indoor air quality, but I thought you might want to read it.
  • The National Institute of Occupational Safety and Health has found more than 2500 chemicals in cosmetics that are toxic, cause tumors, reproductive complications, biological mutations and skin and eye irritations.
  • Fibromyalgia, chronic fatigue syndrome, arthritis, lupus, multiple sclerosis, circulatory disorders, Alzheimer’s, Parkinson’s disease, irritable bowel syndrome, depression and hormonal problems are diseases commonly related to chemical exposure.
  • Aerosols and air fresheners contain dozens of volatile organic compounds such as xylene, ketones and aldehydes. The University of Bristol found that pregnant women who used aerosols and air fresheners most days, suffered 25% more headaches than those who used them less than once a week. The frequent users also experienced a 19% increase in postnatal depression.
  • A study in Edinburgh found that babies under 6 months old who were exposed to air fresheners on most days, had 30% more ear infections than those exposed once a week, plus they had a 22% increase with diarrhea.
  • Use of aerosols can cause dizziness.
  • The use of aerosol cleaning products at least once a week can lead to asthma symptoms in adults. In an international study of 3500 men and women aged 20 to 44, the more often a person used the aerosol product, the more they experienced breathing difficulties.
  • Air fresheners contain deadly, poisonous chemicals. Would you consider opening the can and drinking the air freshener? You wouldn’t, so why would you want to breathe it? Read the label, they even tell you how poisonous the ingredients are. The poison that you spray in the air kills all of the receptors in the nose so that you cannot smell the offending odor anymore. So therefore, air fresheners don’t eliminate odors, they desensitize the nerves in your nose, so you cannot smell!
  • According to the American Lung Association, carpets emit volatile organic compounds, as do products that accompany carpet installation such as adhesives and padding. Symptoms include eye, nose and throat irritation, headaches, skin irritations, shortness of breath or cough, and fatigue. On the other hand, carpet can act as a sink for chemical and biological pollutants including pesticides, dust mites, and fungi. Carpets, drapes, bedding and stuffed animals are all dust magnets. A 6 year old pillow can get 1/10 of its weight from mites and mite droppings.

FLAME RETARDANTS IN YOUR HOUSEHOLD DUST AND FOOD SUPPLY CHAIN

  • Flame retardants have saved lives and property. However, flame retardant chemicals are quickly contaminating our bodies as they have made their way into our food supply, breast milk and are found throughout our homes in the form of dust.
  • Flame retardants are called PBDE’s or polybrominated diphenyl ethers, a class of about 25 industrial chemicals that are spayed on commercial goods to prevent or slow the rate at which they will ignite. There’s no escaping them. They’re in our sofas, beds, carpets, curtains, televisions, computers, cell phones and our household dust.
  • According to Barbara Thorpe of the Clean Production Action, consumers are unknowingly bathed in brominated flame retardants in their homes and outside. As these chemicals degrade, they leach out of the products they are sprayed on and turn into dust that sticks to surfaces. That dust is inhaled and accumulates in our bodies.
  • The US based National Institute of Standards and Technology (NIST) conducted a study of household grit, fluff and grime. They found that dust bunnies or rec-room tumbleweeds have high concentrations of the carcinogenic compound, PBDE’s. The researchers analyzed floor dust and dryer lint in 17 US homes and found PBDE’s in every sample. These researchers suggest that we may be inhaling trace amounts through loo
  • Professor Miriam Diamond, an environmental scientist at the University of Toronto, found that indoor air contains 10 to 20 times the levels of PBDE’s compared to outdoor air. She found that 2/3’s of adults’ body burden appears to be coming from dust. As for toddlers, who are low to the ground and in closer contact with the carpets/sofas and ground dust, 90% of their body levels are coming from house dust. Did anyone consider our pets – dogs/cats? They’re ingesting/inhaling it too!
  • Scientists are concerned because animal studies show that these chemicals build-up in our bodies and affect brain development, behavior and reproductive hormones
  • Studies have shown that flame retardants are chemically similar to cancer causing PCB’s, which were banned in the 1970’s.
  • Industry representatives/manufacturers say that the results of the animal studies don’t apply to humans. According to Peter O’Toole of the Bromine Science and Environmental Forum, a group that represents these manufacturers of flame retardants, “None of these flame retardants has ever shown a tangible effect to human health or the environment.”
  • According to Dr. Linda Bernbaum of the U.S. Environmental Protection Agency, about 5% of humans tested are showing levels scientists are considering worrisome.
  • An investigation conducted by the Canadian Television Network (CTV) and The Globe & Mail Newspaper, tested 12 common foods and found all to contain flame retardants – cheese, butter, eggs, milk, chocolate ice cream, pork chops, medium and extra lean ground beef, ground turkey, Ocean Pacific Salmon. The highest levels were in farmed Atlantic Salmon and farmed Rainbow Trout.
  • Scientists think flame retardants are ending up in our food through industrial sewage that becomes fertilizer for crops and animal feed.
  • Dr. Arnold Schecter, a University of Texas Health Science Center environmental sciences professor, conducted a study on the problem, and published it in the Environmental Health Perspectives. “When we tested blood from over 30 years ago, we could find no PBDE’s. Blood collected now has some of the highest levels ever found. Schecter tested breast milk samples from 47 Dallas and Austin women, and he found an alarmingly high amount of the chemical. “What it means for the health of nursing children and their mothers is unknown….. It is certainly undesirable to have these toxic chemicals in our food supply.”
  • Health Canada has been tracking PBDE levels for 8 years. Health Canada conducted a study from breast milk collected from Canadian mothers and found they contained the second highest levels of PBDE’s in the world, after the US. Health Canada also takes the stand that the levels of PBDE’s detected do not pose a risk to human health.
  • Environmentalists disagree. According to consumer advocate Beverly Thorpe of Clean Production Action, “Compared to Europe our levels are 10 to 100 times higher and they are doubling every two to five years. So we are facing a chemical crisis.”
  • Europe has taken steps to ban these most dangerous chemicals, yet similar action is not happening in Canada. European scientists rang the alarm on polybrominated diphenyl ethers a decade ago. Scientists in Sweden were the first to discover that flame retardants were unexpectedly migrating from products into the environment and into human breast milk. Two of the most toxic kinds of chemicals were phased out, first in Sweden, then in the rest of Europe.
  • European scientists have found a third formulation which degrades into the two forms that have already been banned. This flame retardant is called Deca-BDE, which is still widely used in products sold in North America.

ASBESTOS – ANOTHER FIRE RETARDANT

  • Asbestos is a mineral fiber that has been used in building materials for insulation and as a fire retardant. It is most commonly found in older homes, in pipe and furnace insulation materials, asbestos shingles, millboard, textured paints and other coating materials and floor tiles.
  • Asbestos can become airborne when disturbed by cutting, sanding or other remodeling activities. Improper attempts to remove these materials can release asbestos fibers into the air in homes.
  • The most dangerous asbestos fibers are too small to be visible. After they are inhaled, they can remain and accumulate in the lungs. Asbestos is known to cause lung cancer, mesothelioma and asbestosis. Symptoms of these diseases do not show up until many years after initial exposure.

RADON – ANY HOME CAN HAVE IT, WHETHER NEW, OLD, WELL-SEALED OR DRAFTY

  • The most common source of indoor radon is uranium in the soil or rock on which a home is build. As uranium naturally breaks down, it releases radon gas which is colorless, odorless and radioactive. Radon gas enters homes through dirt floors, cracks in concrete walls and floors, floor drains, and sumps. Radon can also be found in building materials.
  • Many major health organizations like the Centers for Disease Control and Prevention, the American Lung Association, and the American Medical Association agree that radon causes thousands of preventable lung cancer deaths each year.
  • The EPA estimates that radon causes about 14,000 deaths per year in the US, however, the number could range from 7,000 to 30,000 deaths per year.
  • Smokers are at a higher risk of developing radon-induced lung cancer.
  • Radon decay products, also called radon daughters or progeny, can be breathed into the lungs where they continue to release radiation as they further decay.
  • In 1991, a national US radon survey concluded that the average indoor radon level in a home is 1.2 picocuries per liter (p/Ci/L) while the average outdoor level is 0.4 pCi/L.

MOLD – VERY FEW HOMES LIVE WITHOUT IT

  • The ideal rate of humidity in the home is between 35% and 45%. Anything higher causes mold.
  • Mold growth is encouraged in the standing water of humidifiers or dehumidifiers, water damaged materials or wet surfaces. Contaminated central air handling systems can also become breeding grounds for mold, mildew and other sources of biological contaminants, and can then distribute these contaminants throughout the home.
  • Damp, moldy homes are becoming more of a problem, according to the Canada Mortgage & Housing Corp. Tighter homes make our indoor environments more prone to contamination by molds, spores, fungus and mildew. Tighter homes can keep moisture trapped. Use of more outside air for ventilation can also make a building mold-prone, if that outside air is moisture-laden. Sinks, toilets, tubs, soap dishes and floors are prime targets for mold. While some molds are benign, others are toxic. Mold can suppress the immune system. One can become immediately sensitized and develop allergies upon contact with large areas of mold growth.
  • Different species of mold have different potential health effects. Pathogenic molds are those that can cause disease in humans. Toxigenic molds are those that contain potent poisons (mycotoxins), usually on the surface of the spores. The spores of the pathogenic and toxigenic molds can be harmful even after the mold colony has stopped growing.
  • When spores are airborne or the fungal mass is disturbed, an occupant with pre-existing allergies to molds will react with running nose, eye and throat irritation, cough, etc. Prolonged exposure to mold in buildings may result in development of allergies in individuals who did not have allergies to mold before. Asthmatics are at risk of reacting to indoor mold with more frequent and severe attacks.
  • Symptoms associated with toxigenic molds include headache, sore throat, cough, skin rash, flu-like symptoms, nosebleeds, fatigue, fever, etc.
  • High exposures to stachybotrys chartarum have been implicated in several cases of infant deaths in homes.
  • Moldy materials remain allergenic, infectious, or toxic even after the surfaces have dried and further growth has stopped.

TOBACCO SMOKE

  • Environmental Tobacco Smoke (ETS) or “second-hand smoke” is the mixture of smoke that comes from the burning end of a cigarette, pipe or cigar and the smoke exhaled by the smoker. It contains more than 4700 chemicals including cyanides and carbon monoxide. More than 40 of these chemical compounds are known to cause cancer in humans or animals and many are strong eye, nose and throat irritants.
  • The chemicals linger past the burn, absorbed into drapes, linens, furniture and clothes.
  • According to a study conducted by the EPA in 1992, second-hand smoke is responsible for 3000 lung cancer deaths each year in non-smoking adults (in US).
  • Infants and young children who are exposed to tobacco smoke in the home have a higher risk of having lower respiratory tract infections (pneumonia and bronchitis) and are more likely to have symptoms of respiratory irritation like cough, excess phlegm, and wheeze. The EPA estimates that second hand smoke causes 150,000 to 300,000 lower respiratory tract infections in infants and children under 18 months of age, resulting in 7500-15,000 hospitalizations/year in the US. These children may also have a build-up of fluid in the middle ear, which leads to ear infections. Older children may have slightly reduced lung function. It can also cause non-asthmatic children to develop asthma.
  • The EPA estimates that between 200,000 and 1,000,000 asthmatic children have their condition made worse by exposure to second hand smoke each year.
  • According to Dr. Kenneth Chapman, director of the Asthma Centre of the Toronto Hospital, new smoking trends are fueling the rise in asthma. Although many people have kicked the habit in recent decades, we have actually been losing the war against smoking in young women of child-bearing age. Studies suggest that children and fetuses exposed to cigarette smoke are more likely to develop asthma.

COMBUSTION BY-PRODUCTS FROM STOVES, HEATERS, FIREPLACES AND CHIMNEYS

  • Unvented kerosene and gas space heaters, woodstoves, fireplaces and gas stoves can emit carbon monoxide, nitrogen dioxide and particles. Unvented kerosene heaters may also generate acid aerosols. Combustion gases and particles also come from chimneys and flues that are improperly installed or maintained and cracked furnace heat exchangers. Pollutants from fireplaces and woodstoves with no dedicated outdoor air supply can be “back-drafted” from the chimney into the living space, mostly in weatherized homes.
    Babies who live in wood burning homes tend to have more respiratory illness.
  • Particles from incompletely burned fuels, can lodge in the lungs and irritate or damage lung tissue. Many pollutants such as radon and benzoapyrene, which are cancer causing, attach to small particles that are inhaled and then carried deep into the lungs.

CANDLES – AND YOU THOUGHT THERE WAS A PROBLEM WITH YOUR HVAC SYSTEM

  • Both scientific and anecdotal evidence is mounting that the flames of candles, whether aromatic or unscented, release black soot into interior environments. They also can load the air with deep respirable particles that some compare to the particulate hazards of second-hand smoke.
  • Candle burning and smokeless oil lamps often leave a trail of ghost images and
    mysterious soot tracks on carpets, walls, ceilings and furniture.
  • Candles can vary in their soot generation, as some can produce 100 times more soot than other varieties. A candle placed in an air draft can increase its soot production by a factor of 50.
  • Soot production from certain candles can be significant and may cause indoor levels of airborne soot to exceed concentrations allowed in outside air by the Environmental Protection Agency.
  • Candle sales in the US have increased 400% in the past seven years, to approximately $2 billion. A significant portion of the growth is in the aromatic candle market, which now amounts to an estimated $750 million annually.

LEAD – THINK BEFORE RENOVATING AN OLDER HOME

  • The thrust for lead abatement in the US was primarily due to health concerns. It was recognized decades ago as a serious problem that affects children. (Research and documentation could fill a small library). In 1991, the Secretary of the Department of Health and Human Services called lead the “number one environmental threat to the health of children in the United States.”
  • Lead becomes airborne and enters the body when lead-based paint is removed by dry scraping, sanding or open flame burning. Airborne lead dust can also enter the home from outdoor sources including contaminated soil tracked inside, and use of lead in certain indoor activities like soldering and stained-glass making.
  • At low levels, lead can affect the brain, central nervous system, blood cells and kidneys. At high levels, it can cause convulsions, coma and even death.
  • The effects of lead exposure on fetuses and young children includes delays in physical and mental development, lower IQ levels, shortened attention spans, and increased behavioral problems. Fetuses, infants and children are more vulnerable to lead exposure than adults since lead is more easily absorbed into growing bodies and their tissues are more sensitive to lead’s damaging effects. Children also tend to get lead dust on their hands and put their fingers in their mouths.
  • The young and the poor are more likely to get lead poisoning, as they have the least amount of protection. The older buildings that contain lead paint are usually inhabited by lower income families. Child occupants (especially those under the age of ten) are at the greatest risk, and are the most adversely affected by lead poisoning. In many municipalities, the demolition of buildings is allowed with now site assessment for hazardous materials.
  • A US federal regulation requires real estate agents and owners of dwellings built before 1978, to disclose the property’s lead history and the health hazards related to lead.
  • A rough gauge of how low a priority lead is in Canada, is reflected in the fact that Deleading magazine, the official publication of the US National Lead Abatement Council, is circulated to 8000+ readers per month in the United States, but less than twelve issues are sent to Canada.

HOUSEHOLD PETS – MAN’S BEST FRIENDS

  • A study conducted in East & West Germany, by Dr. Erika von Mutius of the University Children’s Hospital in Munich, found that childhood asthma rates were very few for children living in a heavily polluted city of the former Communist block, than in a relatively cleaner city of the West.
  • House pets, especially cats are major culprits to initiate asthma and allergy attacks. Cats have grown in popularity among urban dwellers, displacing dogs as man’s (or woman’s) best friend. There are now 66 million cats in US households, compared with 53 million dogs. The market for pet care is a $34 billion industry in the US.
  • In Canada, the pet population is dominated by dogs and cats whose number reached over 10 million in 2004. Large dogs account for 2.3 million of the pet population. Research shows that 28.5% of households own at least one dog and 37.5% own a cat. A significant number owns both. According to Euromonitor International, pet food and pet care products will reach $2.2 billion by 2009 in Canada.
  • Dr. Meyer Balter, director of the asthma education clinic at Mount Sinai Hospital in Toronto, has stated that an amazing amount of his patients sleep with a pet sitting on their face.
  • Asthmatics don’t even need to live with a cat to suffer its ill effects, notes Dr. Malcolm Sears, a professor of medicine at McMaster University in Hamilton, Ontario. Cat dander easily clings to the clothing of cat owners, who can then spread it to other homes as well as offices and classrooms.

OUTDOOR AIR

  • 5900 Canadians die annually from air pollution – the brownish or yellowish haze most evident on warm sunny days – according to a new study from Health Canada. Damaging fine particles of smog can be inhaled deeply into the lungs. The most vulnerable are kids, because their lungs are still developing and they breath in more air than adults; the elderly because of the compromised immune systems; asthmatics and others with lung disease’ and anyone with heart problems.
  • According to the Ontario Medical Association’s report, “The Illness Costs of Air Pollution in Ontario” (2000), smog causes 1920 deaths per year, 9800 hospital admissions, 13,000 emergency room visits, 47 million lost work days. Approximate conservative cost estimate to the Ontario economy is $1 billion.
  • As many as 5 million tons of latex particles wear off tires in the United States each year. The Denver Allergy Institute discovered that tiny black particles flake off from tires and are thrown into the air by motorists. The latex particles have been increasingly associated with many medical conditions such as asthma, skin rashes, etc. The heightened irritation might explain why asthma has become increasingly prevalent and severe since the use of radial tires, which flake off in smaller, more readily inhaled particles than previous tires.

ALLERGIES, ASTHMA & RESPIRATORY ILLNESS

  • Poor air worsens conditions for those with allergies, asthma, lung disease and chronic infections. Studies have shown that pollution doesn’t actually cause asthma. It just makes a bad situation worse. People exposed to a lot of outdoor air pollution are more likely to suffer from other lung ailments, such as chronic bronchitis. True asthma initiators, which provoke an inflammatory condition in the lungs, tend to be some of same things that trigger allergies. And these allergens can be found indoors – at home and work.
  • Lung disease claims close to 335,000 lives in America every year and is the third leading cause of death in the United States.
  • Six million Canadians – one in 5 – have some form of respiratory illness.
  • According to Asthma Society of Canada …. Asthma kills 500 Canadians every year.
  • As many as 1 in 5 children have been diagnosed with asthma.
  • According to Statistics Canada, National Population Health Survey 1998-1999, 12% of children and 8% of adults have asthma, which is approximately 2.5 million Canadians.
  • More women than men have asthma – 8.5% of Canadian women, compared to 7.2% men. Women’s symptoms develop later in life.
  • Almost twice as many women as men die from asthma, according to Statistics Canada.
  • Asthma can start at any age. Boys usually start wheezing on the playground, while girls are more likely to come down with their first symptoms in their teens or early 20’s.
  • According to a Canadian study published in the journal Chest in June 2007, giving antibiotics to infants is associated with the development of childhood asthma. Anita Kozyrsyj, lead author and associate professor at the University of Manitoba’s faculties of medicine and pharmacy, drew the link between antibiotic use in the first year of life and asthma by age 7. Her team found that a child’s chances of getting asthma increased depending on the amount and type of antibiotics a child was given. The risk of asthma at age 7 was increased 1 ½ times in children who had received more than four rounds of antibiotics.
  • Nurses are twice as likely as the general population to develop occupational asthma, according to researchers in Spain. Nurses are exposed to sensitizing substances, respiratory allergens, and irritants including sterilizers and disinfectants.
  • Other at-risk occupations for developing asthma include printing, woodworking, agriculture/forestry, and cleaning. Also, if a specific incident in an individual’s life has exposed them to asthma-causing irritants, such as a fire or chemical spill, that person will be three times more likely to develop asthma.
  • Only 25-40% of asthmatics ever get diagnosed.
  • Up to 70% of asthmatics also suffer from allergies, which can play a role in bringing on their symptoms.
  • Since 1980, asthma has increased by 600%. The Canadian Lung Association has identified common household cleaners and cosmetics as triggers.

PRESCRIPTION & NON-PRESCRIPTION DRUGS

  • According to Fortune Magazine, we are losing the war on cancer. The percentage of Americans dying of cancer today is the same as it was in 1970 and even 1950. Over $200 billion has been spent since 1971 trying to prevent and cure cancer. Yet today there is a higher chance of getting cancer than ever before in history, and you have the same chance of dying as you did in 1950.
  • Americans spend over $2 trillion a year on healthcare, yet infant mortality is higher than 20 other developed countries. People in 30 other countries live longer than Americans, but Americans consume over half of all the drugs manufactured in the world.
  • There are over 200,000 non-prescription drugs on the market and over 30,000 prescription medications. Doctors write over 3 billion prescriptions per year.
  • The average American has over 30 different prescription and non-prescription drugs stored in their medicine cabinet.
  • GlaxoSmithKline is the world’s largest producer of steroid puffers.
  • Consumer choice for the asthma and allergy patient is basically steroids and more steroids, from mint flavored syrups, to antibiotics, shots, creams and puffers.
  • Pfizer is the world’s largest pharmaceutical corporation, and also the world’s second largest corporation.
  • According to J. Robinson, Prescription Games: Money, Ego and Power Inside the Global Pharmaceutical Industry: A CEO of a pharmaceutical giant observed in a shareholder’s meeting that “profits can only be harvested from chronic disease.”

Posted by Wes Diskin – Content from 4Seasons

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