THE TRUTH ABOUT ASTHMA

[Guest guest]

THE TRUTH ABOUT ASTHMA

Walter Last

_http://www.health-science-spirit.com/asthmatruth.html_

(http://www.health-science-spirit.com/asthmatruth.html)

 

The truth about asthma is that the medical treatments for it are ineffective

and dangerous, but the good news is that you can overcome it with a holistic

treatment program.

Asthma is medically defined as a chronic obstructive pulmonary disease,

characterized by a hypersensitivity of the airways. Common symptoms of asthma

include difficulty breathing with wheezing and coughing, feeling of tightness in

the chest, copious production of mucus, apprehension and increased heart

rate.

Sometimes asthma is divided into extrinsic and intrinsic asthma. Extrinsic

asthma is mainly due to allergens, be they airborne or from food. Resulting

immune reactions release inflammatory compounds that cause spasms of the

bronchial tubes. Allergy is a likely cause of asthma in about 90 per cent of

children with asthma and about 50 per cent of affected adults. These figures

vary

from different sources depending on how they tested for allergy.

Intrinsic asthma is not due to allergies, and may come from microbial

infestations, emotional factors, and mucus congestion from other causes.

With asthma we usually see three sets of biological symptoms:

1. The airways become obstructed due to bronchial spasms

2. The bronchial walls become inflamed and swell with further narrowing

of the airways

3. Additional airway obstruction is caused by copious amounts of thick,

tenacious mucus

During an attack these symptoms are triggered and result in an acute

shortness of breath. Because in this situation it becomes easier to inhale than

to

exhale the lungs may become hyper-inflated.

Asthma, especially in older individuals (over 55) is also associated with a

doubled risk of other diseases such as heart disease, stroke, diabetes,

cancer, arthritis and osteoporosis.

Some Statistics

There is a twenty-fold difference between the highest and lowest rates in

the world. The lowest prevalence rates are found in Indonesia, Albania, Romania

and Georgia while the highest are in the United Kingdom, New Zealand,

Australia and Ireland.

The exact order may change from year to year between different countries and

for different age groups. For Australia the Asthma Foundation stated in

January of 2006:

· Australia has the second highest prevalence of asthma in the

world. The reasons for this are unclear

· The incidence of asthma is steadily increasing, with the number of

people with asthma doubling between 1982 and 1992

· Approximately 1 in 4 children, 1 in 7 adolescents, and 1 in 10

adults have asthma (that has been diagnosed by a doctor

· In Australia, asthma affects around 12% of the population (over

two million people), leading to nearly 40,000 hospitalizations and 314 deaths

· Indigenous Australians have more asthma than others

Here some additional statistics. In New Zealand 15.5% of adults (one in

six), and 21% of children aged 0-14 years have asthma. Among 14 year olds the

rate is as high as 30%.

In the USA the overall rate of asthma is only 6.4%. Out of 56 countries

worldwide surveyed, the UK had the highest prevalence of severe wheezing

amongst

children aged 13-14 years. The number of new cases of asthma each year is now

three to four times higher in adults and six times higher in children than

it was 25 years ago.

The prevalence of asthma can be as high as 30 percent among certain

populations, and internationally, cases have more than tripled in the last ten

years.

 

Medical Asthma Treatment

The medical profession regards asthma as incurable, although children may

spontaneously “grow out of itâ€. Therefore, medical treatment of asthma is

purely symptomatic and consists mainly of anti-inflammatory drugs and

bronchodilators.

Most commonly used as anti-inflammatories are corticosteroids. These drugs

reduce swelling and mucus production in the airways, making them less

sensitive and less likely to react to triggers. Other anti-inflammatory drugs

are

called Leukotriene modifiers and Mast cell stabilizers.

Bronchodilators relieve asthma symptoms by relaxing the muscle bands that

tighten around the airways. This quickly dilates the airways, and makes it

easier to breathe. It also helps to clear mucus from the lungs because as the

airways open mucus moves more freely and can be coughed out more easily.

Bronchodilators include mainly short acting beta-agonists, and in addition

Anticholinergics.

These drugs can be administered in different ways. These include a _metered

dose inhaler_ (http://www.webmd.com/content/article/46/1660_51070.htm) , _dry

powder inhaler_ (http://www.webmd.com/content/article/46/1660_51073.htm) ,

or a _nebulizer_ (http://www.webmd.com/content/article/46/1660_51076.htm) , or

taken orally, either in pill or liquid form. Most or all of these asthma

drugs can be expected to cause increasing health problems with long-term use.

The

worldwide asthma statistics clearly show the inadequacy of this drug-based

medical approach.

In the 1980’s New Zealand had the highest rate of asthma deaths in the

world. This figure was drastically reduced when in 1991 the inhaler drug

Fenoterol

was banned. Belatedly it was found that patients with the most severe asthma

(defined by a hospital admission during the previous year and prescription

of oral corticosteroids) had a 13 times higher risk of dying when using

Fenoterol (Crane J, Pearce N et al: Prescribed fenoterol and death from asthma

in

New Zealand, 1981-83: case-control study. Lancet 1989, Apr 29; 1

(8644):917-22).This reduction in New Zealand’s asthma death rate was generally

hailed as a

great triumph for medical science.

Other studies revealed that asthmatics who used more than one bronchodilator

inhaler a month had a fifty-fold increased risk of suffering a fatal asthma

attack.

On 23 January, 2003 the FDA in the US announced: “The drug Serevent may be

associated with an increased risk of life-threatening asthma episodes or asthma

related deaths, particularly in some patients.â€

On 14 August 2003 a Reuters newsagency headline read: “New warnings added to

Glaxo Asthma Drugs†and the report read: “Serevent and Advair will carry new

warnings about a higher, though small, risk of life-threatening asthma

attacks and deaths, U.S. regulators said.â€

More recently ( 8 March 2006) a Fox News release carried this headline: New

labels on asthma drugs Advair and Serevent warn patients that the drugs " may

increase the risk of asthma-related death. "

More “benign†side effects of inhaled bronchodilators include:

palpitations, rapid heart beat, nervousness, light-headedness, dizziness and

tremors.

Inhaled steroids can also cause yeast infections (which are a main cause of

asthma). There are numerous other potential side effects with the inhalers.

The World Today on 13 April 2004 reports on research from the US, which

suggests one of the best-known treatments for asthma, Ventolin, may in fact make

the condition worse.

None of the medical asthma drugs in any way stops or improves the underlying

disease process. It is also well known that the regular use of steroid

inhalers makes it more difficult for the body to fight infections.

A large trial of asthmatic children with inhaled corticosteroids for up to

six years showed that trying to suppress the inflammation did not slow the

deterioration of the airway walls, which became thicker, stiffer and less easy

to dilate with reduced lung function (The C.A.M.P. Group. N Engl J of

Medicine 2000; 343:1054-1063).

In addition, NSAIDs also suppress bone repair and remodeling. Studies showed

that these drugs significantly inhibited matrix synthesis and had toxic

effects on cartilage metabolism. The more " puffs " taken each day, the greater

the

rate of bone loss.

In May 2006 it was confirmed that high rates of inhaled corticosteroids not

only increase the rate of fractures but also trigger atrial fibrillation

(AF), the most common type of abnormal heart rhythm, or arrhythmia. This

sharply

increases the risk of heart failure and stroke.

Finally, in the latest analysis at Cornell and Stanford universities on

33,826 patients up to 80 percent of asthma-related deaths in the US have been

attributed to asthma inhalers with long-acting beta-agonists (Salpeter S. et al

in Annals of Internal Medicine July 4, 2006). The researchers say although

these medications relieve asthma symptoms, they also promote bronchial

inflammation and sensitivity reactions without warning.

I can immediately think of an easy way to prevent most asthma deaths. My

take on all of this is that medical asthma treatment is not just ineffective

but

highly dangerous. Fortunately there are better options as will be shown in

the following chapters.

 

 

2. CONTRIBUTING FACTORS AND TRIGGERS

A website of the Australian Government states “The cause of asthma is not

known, but there is evidence that many factors play a partâ€, and then goes on

to list the following causes:

· Genetic factors: asthma tends to run in families, and many people

with asthma also have other allergic conditions.

· Environmental factors: in wealthy, hygienic Western countries most

babies are not exposed to bacterial infections that " kick start " the immune

system in early life and direct the immune system away from allergic

responses. This makes them allergic to house dust mites, tobacco smoke,

animals,

pollens moulds and dust.

· Dietary changes: changes in diet in Western countries, such as a

high proportion of processed foods, a higher salt intake, a lower antioxidant

intake and a lack of fresh oily fish.

· Lack of exercise: spending more time inside in front of the

television means that children get far less exercise.

· Occupational exposure: in adults, asthma can develop in response

to irritants in the workplace - chemicals, dusts, gases, molds and pollens.

Basically this just confirms that they do not have a clue, because most of

the listed items are triggers of asthma attacks, or contributing factors, and

not the underlying causes. Not one of these listed causes has changed so

drastically in recent years to explain a doubling of asthma rates within 10

years.

A still controversial medical favorite is the hygiene hypothesis. It

postulates that exposure to dirt, bacteria, viral infections or endotoxins

(internally produced microbial toxins) in early childhood act as natural

vaccines that

boost our immune system and protect us against the development of asthma.

For instance in one recent study 1314 children were followed from birth to 7

years, and the number and type of infections recorded. Children who had two

or more mild upper respiratory tract infections, such as rhinitis (running

nose) per year had the asthma risk reduced from 6.3% to 3.2% at age 7.

However, another headline of a New Scientist article seems to say the

opposite: “Severe asthma linked to common cold.†Colds are the most

important

trigger of acute asthma, at least 80% of children with deterioration in their

asthma or asthma attacks have a cold that is the cause of that, and probably

somewhere between 50% and 60% of adults. Later I will show how we can

understand

these contradictions.

Also children with farm animals, dogs or cats were nearly 50% less likely to

develop frequent wheezing. However if one of the parent had asthma then

there was no protective effect.

But pets are also a common trigger of asthma. Just touching and stroking an

animal, or being in the same room as a pet or where that pet has been, can

trigger an attack. The cause is the animal’s dander (skin scales or flakes

from

the fur or feathers), or their saliva or urine. Dander can float in the air

and settle on surfaces around the home. Even animals kept outside, such as

horses, goats, cows, chickens and ducks, can trigger a reaction.

Another study showed that the more bacteria there were in house dust the

more babies were protected from developing allergies and asthma. However, after

children have already allergies and asthma higher exposure means more

disease.

The explanation put forward is that exposure to certain types of infectious

agents and endotoxins is essential for maturation of the immune system, and

that less exposure leads to an imbalance in immune responses.

Diet

There is also overwhelming evidence that asthma is closely connected with

lifestyle, and especially diet. This is strongly suggested by the fact that

asthma is very common in Western industrialized countries but rare in poorer

Asian and African countries. However, when these poorer populations exchange

their traditional foods for Western food then asthma rates begin to climb.

For example asthma was unknown in Kuwait until they became oil-rich and

imported Western food. Also in New Guinea tribal elders saw asthma as a

completely new disease. The same applies to Africa: the poorer the country the

lower

the asthma rate.

A letter in The Lancet (Keely, D. and Neil, P. Asthma Paradox. p.1099,

4/5/91) about Zimbabwe states: “...we found the prevalence of reversible

airways

obstruction to be 5.8% in richer urban children, 3.1% in poorer urban children,

and 0.1% in rural children. "

In these poorer countries there is a vast difference between urban and rural

eating habits, and therefore a great difference in asthma rates, while in

Western countries there is no real difference between rural and urban eating

habits and asthma rates. Another likely factor is that rural populations get

far less treatment with drugs and especially antibiotics than rich urban

populations. We will later see the significance of this.

Food Allergies and Chemical Sensitivities

Asthma is notorious for being triggered by inhaled allergens but this does

not mean that such triggers are a basic cause of asthma. The main problem is

that there is an underlying chronic inflammation and oversensitivity of the

airways which then reacts indiscriminately to a wide range of inhaled

irritants.

One common cause of a chronic inflammatory setting is the presence of hidden

food allergies. ‘Hidden’ means that people are not aware of the allergy

because usually the body does not react to an allergenic food to which it is

exposed every day. Most asthmatics have been shown to have such hidden food

allergies. The most common foods to which asthmatics react are cows’ milk and

cheese, gluten, eggs, nuts, and seafood.

The same applies to chemical sensitivities. The most common reactions for

asthmatics are caused by sulfur dioxide and sulfites (codes 221 to 224), by

monosodium glutamate or MSG (621 to 623), the yellow food dye tartrazine (code

102), and also salicylates such as aspirin. MSG is not necessarily declared

as such on a food label, it may just be called hydrolyzed vegetable protein,

vegetable or Thai seasoning or natural flavoring. All food additives are

potentially dangerous and best avoided, except a few such as vitamin C or

citric

acid.

Medical researchers think mainly in terms of inhaled allergens, but in

response to a study showing that cases of wheezing disorders in preschool

children

in the UK doubled between 1990 and 1998 (The Lancet (Vol 357, p 1821), even

they admit that there must be other unknown factors present to explain this

dramatic increase.

Some Other Contributing Factors

A headline in New Scientist ( 19 July 2001) says “Margarine linked to

dramatic asthma riseâ€. This was a study of children in two rural Australian

towns.lers who consume large amounts of margarine and foods fried in vegetable

oil may be twice as likely to develop asthma as others who eat less of these

foods. This confirms the well known fact that (omega-6) linoleic acid

increases inflammatory tendencies; this applies generally to polyunsaturated

seed

oils.

Finnish researchers came to a similar conclusion. They found that children

who eventually developed allergies ate less butter and more margarine compared

with children who did not develop allergies. Of course, health authorities

have been urging us for decades to consume more polyunsaturated fats and less

saturated fat thereby increasing the severity of asthma.

A study in the British Medical Journal (September 25, 1999; 319, 815-819)

shows that giving babies other milk than breast milk before the age of four

months greatly increases the risk of asthma and allergies.

Children with low birth weight of less than 1 kg in the US had an asthma rate

of 21% compared to 9% for children with higher birth weight.

Another New Scientist headline reads “Weekly swimming linked to lung

damageâ€

(28 September 2001). This article reports that children who use chlorinated

swimming pools every week get lung damage just like smokers. Also lifeguards

who work in indoor pools have an increased incidence of asthma.

A surprising Japanese study found that school children who ate more fish had

also higher rates of asthma (Preventive Medicine February 2002;34:221-225).

As we know from other studies that fish oil and even consumption of oily fish

reduce inflammations and asthma, the conclusion is that in this case the

high rates of mercury in Japanese coastal waters are the cause of such fish

causing increased asthma.

There are also various reports of vaccinations causing asthma. One such case

is described under the title: “A case of asthma after vaccination against

smallpox.†(Ekbom, K. .Acta Med Scand Suppl. 1966; 464:170-1).

Finish researchers found that mothers can prevent eczema and asthma in their

children by taking probiotics (acidophilus-bifido bacteria) while they are

pregnant and breastfeeding. Babies normally get their mother's bacteria as

they travel down the birth canal, but modern medicine is preventing this.

Babies

born by caesarian section are inoculated with hospital bacteria such as

Streptococci and Clostridia.

 

3. COWS’ MILK AND LACTOSE

In the previous chapter we have seen a collection of factors and triggers,

some contradicting each other, which can contribute to asthma. However, the

real cause is the interaction of three factors:

1. Cows’ milk and lactose

2. The antibiotic syndrome or intestinal dysbiosis

3. A low stress tolerance

The contribution of each of these three factors in each individual case may

vary greatly, and other factors and triggers mentioned previously also play a

role. Nevertheless, by addressing these three main factors and with the help

of some supportive measures you are likely to overcome your breathing

difficulties.

The Problem with Lactose

We saw in the previous chapter that cows’ milk allergy is quite common. This

is definitely a contributing factor, as is allergy to any other substance.

But there is something else involved with cows’ milk, and that is a tendency

to cause mucus congestion.

That the medical hygiene hypothesis does not tell the full story can be seen

from the fact that the four countries with the highest asthma rates are also

the greatest producers and consumers of pasteurized cows’ milk. In New

Zealand, for instance, all school children used to receive free milk, and it

has

or used to have the highest rate of asthma.

In regard to asthma there are several problems with milk. One problem that

relates to all milk is lactose or milk sugar; another is the protein specific

to cows’ milk, while a further difficulty is caused by pasteurization.

Casein, the main protein of cows’ milk is difficult to digest, especially for

babies as they have still an immature digestive system, and after

pasteurization,

which destroys the naturally present enzymes in milk.

Most European adults and older children who can digest lactose are unable to

use galactose efficiently. Babies need galactose as an important building

component of the brain, the central nervous system and of many proteins. Thus

mother's milk is even higher in lactose than animal milk to ensure the baby

does obtain sufficient galactose.

In later life, very little galactose is needed and this can easily be

synthesized from other sugars. Therefore, most of the ingested galactose is

converted in the liver to glucose and used as body fuel, but the amount that

can be

converted is rather limited, even in a healthy liver.

This conversion is a slow and complex process requiring four different

enzymes. One of these is sometimes missing from birth, giving rise to a

condition

known as galactosemia. Continued milk-feeding leads to a build-up of

galactose in the baby and causes cataracts, cirrhosis of the liver and spleen

and

mental retardation.

If the liver is not healthy, it becomes less able to convert galactose. This

fact is sometimes used as a criterion for a clinical liver-function test. If

galactose is injected into someone with a defective liver, much of the

galactose will later appear in the urine.

Mucic Acid

Unfortunately, under normal conditions only part of the galactose is

expelled with the urine. If there is a deficiency of protective antioxidants,

then

the rest is mainly oxidized to galactaric acid, commonly known as mucic acid.

The great health danger of mucic acid is that it is insoluble. The body

cannot let it pile up in vital areas and block organ functions or blood

circulation. Therefore, it forms the mucic acid into a sticky suspension in

water,

called mucus. Thus mucic acid is a main component of pathogenic

(disease-producing) mucus.

It is the function of the lymphatic system to remove dangerous substances,

such as mucus, from areas of vital importance and transport it to the organs

of elimination. Mucus is too dangerous to dispose of through the kidneys or

with bile through the liver, but it has a special affinity to the mucous

membranes that line the insides of our body openings. Such areas are the lungs,

the

respiratory tract and the hollow head spaces, such as the sinuses and the

Eustachian tube (a passage between the mouth and the inner ear).

The mucus accumulates in these hollow spaces until external factors help to

sensitize the mucous membranes sufficiently to allow the mucus to pass

through. This is relatively easy in young individuals and those with a poor

sugar

metabolism as they have high levels of histamine and inflammatory adrenal

hormones. Even minor irritations of the mucous membranes, be it from cold air,

dust, air pollution, pollen or germs, will sensitize these to let some of the

mucus flow out.

Such mucus cleansing may be experienced periodically as a cold, hay fever,

wet cough or running nose. In others, the accumulation of mucus, which

provides a favorable breeding ground for germs, causes chronic infections in

specific areas such as the sinuses, the middle ear, the respiratory tract and

the

lungs. This may allow a permanent trickle of mucus through the affected mucous

membrane.

With a high lactose intake, the lymph channels and lymph glands are usually

congested with mucus as well. This allows influenza and other infections to

spread from the sensitized mucous membranes through the mucus-filled hollow

spaces into the lymphatic system, causing lymph gland swellings and

inflammations.

I have found that in many people the number of colds, influenza and other

respiratory infections can be varied at will from none to several per year just

by varying the lactose intake. Mucus congestion is also the main cause of

ear infections (glue-ear) and hearing problems, especially in children.

In most cases it is not a lactose allergy but a galactose overload that is

responsible for this excessive mucus. While in the case of those suffering

from cow's milk allergy more lactose may be tolerated when it comes from goat's

milk, in sensitive individuals the lactose in goat's milk or in tablets will

be equally as mucus-forming as that from cow's milk.

Mucus and Asthma

When more mucus accumulates in the lungs than can be expelled, asthma is

likely to develop. A special feature of mucus produced from lactose is its acid

nature, which is rather irritating to the mucous membranes. On the one hand

it makes them oversensitive to airborne irritants and promotes inflammation,

while on the other hand it also induces the mucous membranes to produce large

amounts of protective mucus. All mucous membranes produce normal healthy

mucus for their own protection; this is, for instance, how the stomach wall

protects itself from being digested by its own hydrochloric acid.

Many cases of asthma seem to be predominantly induced by galactaric

acid-type mucus. I remember a patient who was fond of yogurt and, for health

reasons,

prepared it from skim-milk powder. This produces yogurt with a much higher

lactose content than yogurt from full-fat milk (see Table below). When I

persuaded her to use somewhat less yogurt and prepare it only from whole milk

without additional skim-milk powder, her asthma disappeared for good. The

asthma-causing skim-milk yogurt provided about 50g of lactose per day, while

she was

asthma-free on whole-milk yogurt with about 5g of lactose daily.

See the following table for the lactose content of some common dairy

products.

LACTOSE CONTENT OF DAIRY PRODUCTS

butter

0.5%

cheese, cottage cheese

2-4%

goat's milk

4.3%

cow's milk

4.9%

yogurt and ice-cream (with skim-milk powder) 5-25%

skim-milk powder

52%

whey powder

70%

With a lactose content of 52 per cent in skim-milk powder, you may now

realize how dangerous the current fad is for using low-fat ice-cream, yogurt,

cottage cheese and so forth, instead of full-fat products. Such low-fat foods

are

usually made from skim-milk powder and contain three to five times as much

lactose as the equivalent full-fat foods. Sometimes skim-milk powder is even

added to butter. Therefore read the label and avoid butter that lists 'non-fat

milk solids' as one of the ingredients.

Skim-milk powder is also a favorite additive to many other commercial foods,

such as bread and other baking products, sausages and margarine. The

health-food industry is equally fond of adding lactose to many products such as

soy

milk and dandelion coffee. Lactose is often used as filler in white tablets.

Try to avoid white tablets if the label does not state that they are free of

lactose or are low-allergy tablets.

The lung irritation caused by accumulated mucus also means that the lungs

are more prone to be affected by airborne allergens, food allergies and

chemicals. This could result in inflammatory swellings of the bronchial tubes.

Mucus

accumulating in the lungs allows pathogenic microbes to infiltrate. Some

strains of these bacteria convert sugars into alginic acid, another form of

sticky mucus.

Often there is Candida or fungus infestation as well, which sensitizes the

mucous membranes to airborne molds. Mucus-releasing colds in this setting can

be a blessing in disguise, provided they are not treated with antibiotics.

This is the reason why children with running noses, as shown in the previous

chapter, tend to have less asthma. However heavy or chest colds tend to

aggravate lung irritation and increases asthma problems.

There tends to be less of a problem with raw milk, especially if it is fresh

and organic; this is easier to digest and causes less allergies than

pasteurized milk. Nevertheless, I found that even raw organic goats’ milk can

increase mucus problems in susceptible children.

If breastfeeding is not possible then the best alternative is fresh clean

and raw goats’ milk, it just needs some additional folic acid and vitamin B12

(and raw egg yolk after four months of age). Hydrolyzed casein or partially

hydrolyzed whey formulas have also been found to prevent babies from

developing allergies. These formulas did relieve symptoms in more than 90

percent of

infants who are allergic to cow's milk.

This indicates that most allergy problems may be due to a combination of

enzyme deficiencies as caused by pasteurization and cooking, and dysbiosis due

to antibiotics.

Cows’ milk also provides the explanation why children sometimes grow out of

their asthma problems: as teenagers and adults they tend to drink less milk.

However, if they are still afflicted with the antibiotic syndrome, then this

may not be enough to overcome their asthma.

Understanding that mucus production from lactose is due to a limitation of

liver enzymes also shows us how we can minimize any problem. If it is not

caused by an allergic reaction, then it helps to space out any lactose intake.

For instance 5g of lactose taken in one drink may cause more congestion than

10g taken spaced out during the day.

4. ANTIBIOTICS AND STRESS

A recent paper presented by the Wellington Asthma Research Group showed that

antibiotic use, especially in the first year of life, is associated with a

fourfold increase in the likelihood of asthma. Furthermore, children who

received broad-spectrum antibiotics in early life, which kill a wide range of

bacteria, were 8.9 times more likely to suffer from asthma (New Scientist 30

September 2003).

Antibiotics actually are a major contributing cause of asthma and not just a

trigger or inflammation enhancer. These antibiotics kill the healthy

intestinal bacteria that normally protect us from pathogenic invaders entering

the

blood through the intestinal wall. Now Candida and other fungi and

disease-causing microbes can take over. Their breakdown products, called

endotoxins,

start entering the bloodstream and cause immune reactions.

Gradually Candida begins growing long root systems through the intestinal

wall, and breaks down its integrity. This allows partly digested proteins to

get into the blood and cause allergic reactions against a wide variety of foods

and chemicals. From this we get an overworked and hyperactive immune system.

This also causes a general or systemic inflammatory condition in the body,

because the stressed adrenal glands are increasingly less able to produce

enough anti-inflammatory hormones.

When we have an internal fungus problem we also tend to attract fungi on our

skin and mucous membrane, such as the mouth, vagina and the outside coating

of our lungs and airways. While the general hypersensitivity and inflammatory

setting makes asthmatics sensitive to a wide range of inhaled irritants,

they are especially sensitive to inhaled molds.

Clinical Evidence

A recent research paper (G. Huffnagle and M.C. Noverr in the January 2005

issue of Infection & Immunity), confirms this model of how antibiotics cause

asthma.

One of the researchers commented: " Our research indicates that microflora

lining the walls of the gastrointestinal tract are a major underlying factor

responsible for the immune system's ability to ignore inhaled allergens. Change

the microflora in the gut and you upset the immune system's balance between

tolerance and sensitization. "

And further: " ... we found that differences in host genetics and the type of

allergen used didn't matter. The immune responses were literally identical.â€

His conclusion was that changing the composition of microflora in the gut

predisposes to allergic airway disease. The researchers suspect that changes in

gut microflora caused by widespread antibiotics use and a modern high-fat,

high-sugar, low-fiber diet may be responsible for the major increase in the

last 40 years of asthma and allergies in Western countries.

In a recent trial it was found that the use of anti-fungal remedies reduced

the incidence of hospitalisation for severe asthmatics by 75 per cent

(Scotsman.com News 16 Jun 05).

Antibiotics and Candida may also explain the link for the recent observation

that the biological children (not adopted ones) of mothers with depression,

anxiety disorders and panic attacks had very high rates of asthma and other

allergy problems. For instance 67% of children were affected when the mother

had severe depression and 46% when mothers had panic attacks.

Candida is known to cause depression and other mental and emotional

disturbances. Babies are inoculated with the intestinal bacteria of the mother

during the passage through the birth canal and also during breastfeeding. If

the

mother has Candida, then that is passed on during this crucial phase.

MYCOPLASMA

Closely related to dysbiosis and the antibiotic syndrome are the mycoplasmas

or mycoplasms. These are pleomorphic organisms without cell walls. “

Pleomorphic†means that they can change shape from protein blobs to viral,

bacterial

and fungal forms, depending on the health of the organism in which they live.

 

Mycoplasmas have been shown to be a main factor or contributing factor in

the causation many chronic diseases, including cancer, arthritic and rheumatic

diseases, autoimmune diseases and asthma. Several independent researchers

have reported the proliferation of certain microbes in all of these diseases.

In

various degenerative diseases these protein units grow into cocci and higher

bacterial forms and finally into fungi.

Everyone seems to have some mycoplasmas, which are formed from the breakdown

of body tissue. However, mycoplasmas begin to proliferate with a decline in

health and vitality.

By weakening the immune system and the metabolism they prepare the way for

the development of degenerative diseases. Toxins released by mycoplasmas may

also interfere directly with the respiratory chain and make the metabolism

inefficient with an overproduction of lactic acid. This causes general

overacidity, mineral deficiencies, over-sensitivity, inflammations and pain.

Two factors that greatly contribute to the rise of mycoplasma are dead teeth

and overgrowth of the intestines with harmful microbes. Dead teeth and the

surrounding jawbone can become concentrated breeding grounds of harmful

microbes, releasing a steady stream of toxins into the circulation.

In one study 31 of 55 patients with chronic, stable asthma also had a

low-grade airway infection with mycoplasma pneumoniae, or with chlamydia

bacteria.

These patients were treated with suitable anti-microbials for six weeks and

had significant improvements in lung function.

According to researchers asthmatics with mycoplasma infection had six times

more mast cells than patients with no infection. Mast cells are associated

with allergies. In a mouse model with mycoplasma infection the airways become

hyperreactive and inflamed.

Conventional medicine regards mycoplasmas, similar to Candida, as relatively

harmless and occurring as a side effect of other, more serious infections.

However, extensive clinical and microbiological evidence shows that

mycoplasmas alone can cause a range of diseases even when no other infectious

agents

are present. The elimination of these pathogenic mycoplasmas requires a fully

functional immune system in addition to prolonged anti-microbial therapy.

For further information see _Candida and the Antibiotic Syndrome_

(http://www.health-science-spirit.com/candida.html) .

_http://www.health-science-spirit.com/candida.html_

(http://www.health-science-spirit.com/candida.html)

THE STRESS FACTOR

There are signs that asthmatics are sensitive to stress or have a low stress

tolerance. The adrenal glands and their hormones are mainly involved with

our response to stress.

Stress can be beneficial when it is voluntary as in a self-chosen adventure

or when it is over short periods followed by rest and recovery periods. The

detrimental effect comes from prolonged, unusually severe or chronic stress.

A common example of unusually severe stress is when a newborn baby is

separated for more than a few minutes from its mother. An example of combined

unusually severe and prolonged stress is when a newborn baby is kept away from

its

mother for days or weeks and subjected to medical procedures.

A common example of chronic stress is when a baby is fed a breast milk

substitute to which it is allergic. This sets in train a sequence of events

that

lead directly to asthma and other chronic degenerative diseases.

In 1936 Hans Selye, a Canadian professor of experimental medicine and

surgery, discovered the ALLERGY-STRESS MECHANISM. He described this in his

pioneering book The Stress of Life (McGraw-Hill). So far the medical profession

has

not yet grasped the importance of his fundamental discovery for understanding

the diseases of our society, I assume because it is not profitable to do so.

However, in light of this stress model of disease we know now what we need to

do to heal ourselves.

Initially an environmental challenge such as an incompatible food or

emotional stress causes an ALARM REACTION. The adrenal glands release

inflammatory

hormones and adrenalin, and the sympathetic nervous system is over-stimulated.

This may result in an acute allergic reaction or a general inflammatory

condition, hyper-excitability, palpitation, anxiety, eczema, susceptibility to

colds and other infections, anger, and poor digestion with abdominal

discomfort.

Commonly this alarm reaction occurs in early childhood when we are first

introduced to wheat or cows' milk, egg, maize or soymilk, and then settles down

to several decades of hidden allergies with minimal symptoms.

If we continue eating the same problem food nearly every day or continue to

be plagued by stressful memories or conditions, then the stress becomes

permanent and the body adapts by releasing anti-inflammatory hormones. The

symptoms of the alarm reaction with its inflammatory tendency subside. This is

the

RESISTANCE PHASE, a state of adaptation with a hidden or masked allergy.

However, eventually the capacity of the adrenal glands to produce sufficient

anti-inflammatory hormones becomes exhausted and we enter the EXHAUSTION

PHASE. Now we have a maladaptation to allergens and emotional stress with

chronic

and generalized inflammations. These may manifest as asthma, arthritis,

cancer, heart disease and any of the other diseases typical in our society.

Finally even this chronic inflammatory condition subsides and we have the stage

of

advanced old age with senility, debility and the final insensitive stages of

degenerative diseases.

This description shows the normal progression of the stress-allergy

mechanism over decades of our lives; however, if our parents had already weak

adrenal

glands when we were conceived, or if we endured severe and prolonged stress

immediately after birth, then our adrenal glands are already severely

compromised even as a baby.

In this case we may develop an age-related chronic disease at an early age.

This may be arthritis or asthma or diabetes or a form of cancer. Which

disease develops depends on inherited factors as well as on environmental and

emotional factors.

Fear has a direct relationship with our heart rate and breathing. Initially

we may hold our breath, and later hyperventilate and have palpitations. It is

my perception that anything that interferes with the proper bonding of a

newborn baby with the mother has the potential to induce a permanent

subconscious fear in the growing child.

In particular I believe that a main contributor to asthma is the fear of

being left alone or being abandoned which remains subconsciously for life if

the

newborn baby is taken away from the mother for an extended period in

hospital.

This subconscious fear weakens the adrenal glands and also affects the

lungs. This is the reason why the antibiotic syndrome, allergic reactions and

mucic acid in these individuals lead preferentially to breathing problems

rather

than to digestive or nervous system disorders, or to sinus inflammations and

throat infections as in some other individuals.

Researchers in the US and Germany have shown a clear link between asthma and

mental illness. Even people suffering from milder forms of asthma are more

prone to anxiety and other mental disorders.

Severe asthmatics were up to five times more likely than the general

population to have a range of mental problems, including anxiety disorders,

panic

attacks and extreme shyness. Even with milder forms of asthma there were up to

two-and-a-half times more mental problems (The World Today - 2 December

2003).

5. WHAT YOU CAN DO

The described sequence of events leading to asthma also shows you the

requirements for genuine health improvement and to overcome asthma. Basically

you

need to

1. Sanitize your gastro-intestinal tract

2. Eliminate harmful microbes from your blood and lungs

3. Avoid cows’ milk and lactose

4. Avoid other sources of mucus congestion and inflammation

5. Remove chronic stress from your life.

Initially it is also prudent to continue minimizing or avoiding asthma

triggers, rebuilding and strengthening health with an improved diet and

suitable

supplements, and minimize the effects of chronic stress such as

over-breathing.

SANITIZING THE GASTRO-INTESTINAL TRACT

The main treatment for Candida and the antibiotic syndrome is directed at

sanitizing the gastro-intestinal tract. This is combined with a low-allergy diet

that is also low in simple carbohydrates. Furthermore, molds or yeasts in

food should be avoided as their breakdown products may cause unpleasant immune

reactions.

One unpleasant side-effect of most methods used to reduce the pathogenic

microbial overgrowth of the intestines is the Herxheimer reaction - a sudden

worsening of symptoms due to toxins released by the dead or dying microbes.

This

is sometimes used as a diagnostic tool, especially for Candida.

To avoid or minimize unpleasant side effects I recommend initially flushing

out the gastro-intestinal tract when taking anti-microbial remedies. This

takes the dead or dying microbes immediately out of the body and greatly

minimizes discomfort. After several days the flush may no longer be needed.

Usually

the first reaction is the strongest.

An alternative approach is to start with a low dose of an anti-microbial and

increase only very slowly. In this way the die-off symptoms are milder but

remain for much longer. With this method it is especially important to maintain

a strict diet. I generally prefer the flush method, but if you cannot use

that for any reason, then try this slow approach.

Another principle is to take a high dose of probiotics or beneficial

lactobacteria 30 to 60 minutes after the anti-microbial remedy, and before

eating or

drinking anything containing carbohydrates.

Normally the intestinal wall is densely covered with microbes, either

beneficial or pathogenic ones. When we take beneficial bacteria during Candida

overgrowth, then the good bacteria cannot get a foothold on the intestinal wall,

and largely just pass through the intestines.

Therefore we must first make some free space at the intestinal wall by

ingesting an anti-microbial agent, such as garlic. We need to wait a while until

the anti-microbial has cleared the stomach and then we take a high-potency

probiotic, commonly a culture of acidophilus and bifido bacteria.

Now these good bacteria can easily occupy the vacated spaces at the

intestinal wall. However, if we do not follow up with probiotics, then the next

time

we ingest any carbohydrates the fungus will quickly multiply and fill the

empty spaces again.

In this way we can quickly regenerate a healthy intestinal flora. However,

it takes much longer to eliminate the spores and fungal roots growing through

the intestinal wall. Therefore we need to be careful, use a suitable diet and

continue to avoid or minimize drugs and chemicals that may kill our

beneficial bacteria.

SYSTEMIC ANTIMICROBIAL THERAPY

Furthermore, in long-standing conditions the fungus or other microbes will

have invaded the bloodstream and lodged in other parts of the body, especially

the lungs. For this we need to take stronger action. While continuing with

high doses of raw garlic may initially clear the blood, it is generally

preferable to alternate between different anti-microbial remedies. Commonly used

for this purpose are wormwood, olive leaf and pau d’arco. Sometimes also

oxygen

therapy or colloidal silver are being used.

A combination of these methods should be used from one to two months to

eliminate not only fungi but also most harmful bacteria and viruses from the

body, giving the immune system a chance to get back into control.

It is advisable to use probiotics from time to time during prolonged

anti-microbial therapy, and especially immediately after terminating this

therapy.

Therefore, once a day or several times a week you may take a probiotic 30 to 60

minutes after the anti-microbial and before ingesting any carbohydrate.

After finishing the anti-microbial therapy continue to take probiotics for

several weeks before breakfast.

MINIMIZING MUCUS CONGESTION AND INFLAMMATION

As pointed out previously, the mucic acid produced from lactose is highly

irritating to the mucous membranes lining the bronchial tubes and lungs. This

stimulates the secretion of protective mucus, which then tends to clog up the

airways, and it also increases inflammatory tendencies. All this provides an

ideal breeding ground for pathogenic microbes to thrive in this environment.

Therefore, an important rule is to avoid all lactose-containing products.

Read labels, avoid any suspicious-looking food, and be aware that not all food

additives may need to be declared on the label. While pasteurized cows’ milk

and skim milk products are the most serious offenders, initially avoid even

potentially beneficial foods, such as goats’ milk yogurt. When you are free

of asthma, you may again cautiously re-introduce potentially beneficial

goats’

milk products, such as yogurt, kefir, and natural cottage cheese and cheese.

 

Small amounts of butter are usually alright, except if allergic to cows’

milk. However, even fats, especially saturated fats, ingested or formed in the

liver from excess carbohydrates, can increase mucus congestion if they are not

properly removed from the blood.

Avoid Gluten

Gluten tends to damage the intestinal wall by having an irritating and

inflammatory effect on the intestinal lining. It also blunts the absorption

villi

of the small intestines and contributes to malabsorption. Many individuals

knowingly or unknowingly are highly sensitive to gluten and have varying

degrees of celiac disease associated with mucus formation, inflammation and

allergies.

However, basically everyone seems to be temporarily affected when digesting

gluten as this tends to make the intestinal wall more permeable to only

partly digested proteins. This greatly increases the likelihood of food

allergies

developing. The common gluten grains are wheat, rye, barley and oats. Gluten

is also routinely added to many processed foods.

While you still have asthma completely avoid all gluten products, and later

be very careful. In previous centuries gluten was less of a problem because

on the one hand the gluten content of grains was much lower than today and on

the other hand much of the gluten was enzymatically predigested by proper

sourdough baking. Therefore, if and when you want to re-introduce gluten

products after overcoming your asthma, continue to avoid or minimize wheat and

use

preferentially spelt and rye sourdough bread (also see _Wheat & Gluten_

(http://www.health-science-spirit.com/HF4-2.html#Wheat)

_http://www.health-science-spirit.com/HF4-2.html#Wheat_

(http://www.health-science-spirit.com/HF4-2.html#Wheat) ).

Avoid Moldy Foods

Dietary yeasts and molds as well as mushrooms greatly increase the

difficulties of susceptible individuals, frequently causing allergic reactions

and

flare-ups of asthma. In addition, some molds may damage the liver, for instance

a mold that frequently grows on peanuts and is present in peanut butter.

Molds commonly grow on dried fruits and on poorly stored grains and nuts, also

on

the outer leaves of cabbage and the skins of various fruits. Molds may be in

food at such low levels that we cannot taste or smell it. Cooking or

processing does not help as allergic reactions commonly are against the cell

walls,

regardless if the fungi are dead or alive.

A study in the UK in 1977 found that molds and their poisonous myco-toxins

(fungal toxins) were in all 318 samples of flour tested. This mold

contamination is due to insufficient drying in the process of

combine-harvesting grain.

Wholemeal flour, bran and wheat germ are even more affected by mold than is

white flour. Rice is also frequently contaminated.

Washing whole grains and nuts, susceptible fruits and vegetables before

cooking or eating helps to remove molds; drying in the sun destroys fungi and

prevents their development. Preferably remove environmental molds, for instance

those on walls and bathroom tiles.

Frequently antibiotics are routinely added to animal feed for meat

production; this applies especially to poultry and pigs. Antibiotic residues

may

impair the intestinal flora of the consumer of such products and thereby

encourage

the spread of Candida. In addition, the meat itself may be infested with

Candida or other fungi because of the prolonged use of antibiotics while, on

the

other hand, resistant strains of harmful bacteria may be present. I do not

recommend habitually eating such meat. As a general rule I recommend to avoid

meat from feedlots.

Allergies

Food allergies, chemical sensitivities and airborne allergens are major

causes of inflammation and, with this, of deteriorating asthma conditions. It

is

difficult to do much about airborne allergens but fortunately these usually

clear up when food allergies and chemical sensitivities are corrected.

As explained before, this is mainly done by re-establishing a healthy

intestinal flora. Until this is accomplished it is recommended to follow a

low-allergy diet or to do elimination food testing to eliminate offending

foods.

A main reason why foods cause allergic reactions is a deficiency of

digestive enzymes. Therefore, initially you may also use digestive enzyme

supplements

to minimize allergy problems.

Other Causes of Inflammations

Allergies, molds, mucic acid, as well as Candida and other microbes are the

most common causes of inflammations. If we are persistently exposed to some or

all of these, then the inflammation will be chronic or permanent.

Another aggravating influence is an overacid body. The main reasons for this

are allergens and microbial toxins which make the energy metabolism

inefficient. Instead of producing energy from glucose, cells produce only

lactic

acid, which makes the lymph fluid too acid. This can also happen if the diet is

too high in sugar and refined flour products, or if the diet is too low in

alkalizing minerals as from fruit and vegetables.

The more acid the body fluids are the more histamine is released, and this

greatly intensifies any allergic reaction. Therefore, make the necessary

dietary adjustments to avoid or minimize sweet food and refined flour products,

and instead use alkalizing fruits and vegetables.

Another inflammation booster is cooked food in general, and especially food

that has been heated to above the boiling point. Therefore maximize the

intake of anti-inflammatory raw food, and do not heat the food to more than

100°C.

The linoleic acid in seed oils, an omega-6 fatty acid, is pro-inflammatory

while the omega-3 fatty acids in fish oils and linolenic acid in linseed are

anti-inflammatory.

REDUCING STRESS

By sanitizing your intestines, eliminating microbial infestations, and

minimizing allergens you have taken some major steps to reduce the chronic

stress

load in your life. But there may be other problems, both biological and

emotional. Therefore, see what more you can do to improve your adrenal glands.

You may have dead teeth, commonly with root canal fillings. These tend to

become breeding grounds for anaerobic bacteria that may cause chronic jawbone

infections and weaken the immune system. You may also have amalgam fillings

that constantly leach mercury into your system, or two different metals in the

mouth that act like a corrosive battery.

Other chronic stressors are electromagnetic fields which are especially

detrimental in the bedroom. Living or working for extended periods under

fluorescent light is a stress as is looking for long periods into a TV or

computer

screen. See _Healthy Living_

(http://www.health-science-spirit.com/basicrules.html)

_http://www.health-science-spirit.com/basicrules.html_

(http://www.health-science-spirit.com/basicrules.html) for suggestions on

minimizing these

harmful dental and environmental factors.

Emotional Health

Individuals with weak adrenal glands tend to use stimulants to get more

drive for daily living, and easily become addicted to whatever they regularly

use. Others try to get stimulated with loud music or daring activities.

However, what is really needed is the opposite of continuously stimulating

weak adrenal glands. This includes restful activity in nature such as

gardening and leisurely walking; relaxation and slow breathing exercises,

meditation

and especially inter-personal activities that make you feel loved, safe and

protected.

For a small child that may mean lots of touching, cuddling and sometimes

sleeping in the parents’ bed; older children thrive on praise and knowing

that

they can come to their parents with any problem, doing things together as a

family, going camping (see _Emotional Security in Children_

(http://www.health-science-spirit.com/children.html)

_http://www.health-science-spirit.com/children.html_

(http://www.health-science-spirit.com/children.html) ) . As

adults we need a dependable and caring partner, and still continue to thrive on

much touching, cuddling, and gentle relaxing massages.

By permanently removing the offending environmental or emotional stress, and

at the same time supporting the body with high-quality nutrition and strong

emotional support, we slowly begin climbing back. Our adrenal glands leave

the exhaustion phase and re-enter the resistance phase with a period of quiet

recovery and finally move back into the alarm phase with a series of acute

healing crises. At the end of this long healing process we may have re-acquired

the adrenal functions and disease-resistance that we had as a small child

before we started getting colds, allergic reactions, digestive upsets and

asthma.

A holistic asthma treatment program is in preparation.

 

_OVERCOMING ASTHMA_ (http://www.health-science-spirit.com/free-asthma.htm)

_http://www.health-science-spirit.com/free-asthma.htm_

(http://www.health-science-spirit.com/free-asthma.htm)

also helps with other lung diseases and breathing problems