Healthy Breathing

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" HEALTHY BREATHING "

By Rosalba Courtney-Belford

Published in WellBeing Magazine No 68 June 1997

OPTIMISE YOUR BREATHING AND GAIN CONTROL OF YOUR HEALTH USING

THE BUTEYKO BREATHING METHOD.

 

http://www.breathingaugieco2.com/healthy_breathing.htm

 

'GOOD BREATHING, LIKE GOOD NUTRITION ' is breathing that meets the

body's needs and provides optimal conditions for health It doesn't

mean that the more you breathe the better off you are, any more than

the key to good nutrition is not eating more. In fact, one of the

most potent healing tools is the restricted diet or fasting. It may

be that you need to breathe less, but that the breathing should be

of a better quality and more appropriate to your body's energy

expenditure.

 

This article is based on the discoveries and clinical observations of

Russian physician Dr Konstantin Pavlovich Buteyko about the use of

breathing as a tool for overcoming the symptoms of disease and for

enhancing health.

 

The common perception is that the more we breathe, the better we

live. Over fifty years ago, Dr Buteyko observed, after many years of

research, that the sicker people became, the larger volume of air

they needed to breathe and that bringing the volume of their

breathing back to normal led to elimination of their symptoms and

control of their disease process. He then developed the following

concept: the more you breathe, the closer you are to death, while

the less you breathe, the longer you will live.

 

To many people, this statement appears at first to be absurd and to

go against basic intuitive knowledge. However, Dr Buteyko developed

a method of breathing based on training people to use a lesser

volume of air effectively which is one of the most potent means of

correcting body physiology and eliminating disease that I have come

across. In a short period of time, it dramatically effects the

health of people with asthma. allergies, cardiovascular disease,

high blood pressure, immune problems, sleep apnoea, chronic fatigue

syndrome and stress aggravated conditions.

 

Research conducted in Brisbane in 1995 showed that asthmatics using

this form of breathing were able to reduce their use of

bronchodilator medication by 90 per cent and of steroid drugs by 30

per cent compared to asthmatics who were taught normal physiotherapy

breathing exercises. Doctors working with this breathing method in

Russia demonstrated that blood pressure levels consistently drop to

normal if blood pressure is too high. Russian research also showed

that the breathing normalises the immune system of people who suffer

from respiratory and allergic diseases and of people whose immune

systems have been damaged by radiation. Different forms of breathing

therapy have existed across many cultures and many ages. In China,

breathing is a major part of the self development and healing art of

Qi Gong. In India, Pranayama forms a major part of the practice of

yoga. Qi Gong and Pranayama use conscious focus on and control

of the breath to heal disease, access the life force, elevate the

spirit and calm the mind. It is interesting that practitioners of

these arts have claimed success in helping sufferers with the same

types of disease processes as those seen to be helped by the Buteyko

method of breathing.

 

It seems from research into these different types of breathing that

the physiological changes that ultimately occur are similar, despite

the fact that Qi Gong and yoga breathing are associated with deep,

slow breathing while Buteyko breathing uses breath holding and the

controlled reduction of ventilation. Proponents of the Buteyko

method would say that this method is quicker and more direct because

of the role of carbon dioxide in body physiology, and that it is

therefore more effective in achieving the aim of optimising

breathing and body physiology.

 

The functions of breathing

The functions of breathing or respiration are:

To provide oxygen for the production of energy in the aerobic

pathways of the cell's mitochondria (which are responsible for

respiration and energy production). To help keep the correct pH

levels in the body. To maintain enough carbon dioxide for bodily

functions. Most people, including many trained health

professionals, think that the purpose of breathing is to get enough

oxygen or as much oxygen as possible They are not aware of the need

to maintain the correct balance between oxygen and carbon dioxide

(and probably between oxygen and the body's own protective anti-

oxidant systems). If our bodies are depleted of carbon

dioxide because of overbreathing, we are unable to use oxygen

properly. Overbreathing therefore leaves us depleted of oxygen in

the tissues. People who overbreathe feel breathless and are unable

to take a deep breath.

 

One of the fundamental qualities of our physical being is our

ability to maintain a steady state despite all the changes that go

on within and around us. This ability is called homeostasis. Our

temperature, acidity and alkalinity. resting heart rate. weight,

balance of hormones and blood sugar tend always to stay very close

to an established normal range. The reason that life is so good at

maintaining homeostasis is that if we step outside fairly narrow

parameters of normality. we become ill or die. One of the most

important of these parameters is our pH or state of acid/alkaline

balance, which controls most of the chemical reactions in our body.

 

Our bodies will maintain normal pH through retaining adequate levels

of that much maligned, but highly essential, gas produced by the

body's energy metabolism, carbon dioxide (C02).

 

A number of the chemical reactions in our body which sustain the

processes of life are dependent on there being adequate levels of

C02. If an imbalance occurs between the levels of oxygen and carbon

dioxide, all the functions of breathing become disturbed.

 

What is bad/good breathing?

Most people whose body, mind or spirit is out of balance will

hyperventilate or overbreathe with lots of short chest breaths that

leave them depleted of CO2 and therefore not utilising oxygen

properly. Good breathing, according to the standards of medical

texts and the World Health Organisation is about four to six litres

of air per minute. Between attacks, people who regularly suffer

from asthma breathe about fifteen litres per minute. During attacks,

they go up to twenty seven litres per minute. Reducing the

ventilation levels of asthmatics to nine litres per minute reduces

their need for medication by 90 per cent.

 

The better your breathing, the less breaths per minute you need to

take. Twelve breaths per minute would be about the upper limit of

what you should be breathing. Less than that is better. When doing

focused, relaxed breathing, you should be able to reduce your

breaths per minute to four.

 

Bad breathing tends to be localised in the upper chest and rapid

chest breathing is the hallmark of classic hyperventilation or

overbreathing.

 

People who overbreathe usually say that they can't take a full or

satisfying breath and run out of breath easily. They feel they need

to breathe more but, if they try, can't sustain it, or find that it

makes them feel worse.

 

Exercise or exertion in people who overbreathe can lead to anxiety

palpitations, chest tightness or a whole range of other symptoms

associated with overbreathing. Medical texts sometimes refer to the

inability to exercise in these people as effort syndrome. Effort

syndrome and hyperventilation are associated with excess production

of lactic acid and excess loss of CO2.

 

Good breathing uses the diaphragm rather that the chest. The effects

of this are to allow slower, fuller breaths. Hyperventilation is

much less likely to occur in people who use the diaphragm to

breathe. The movement of the diaphragm massages the abdominal organs

and. by equalising the pressure difference between the thoracic and

abdominal cavities, prevents the upward movement of organs such as

the stomach and gall bladder, helping to correct acid reflux and

gall bladder problems.

 

Good breathing keeps the level of carbon dioxide in your lungs at

about 5.5 to 6.5 per cent. Healthy, strong people breathe less at

rest and during sleep, but they can breathe deeply and get as much

air as they need to if they exert themselves or just want to take a

deep breath. People with good breathing always breathe through their

nose. Mouth breathing tends to make you overbreathe: the body

responds by restricting breathing even more. It does this by making

more mucous and creating swelling in the nasal passages and spasm in

the muscles of the bronchi.

 

People with good breathing do not get breathless when they need to

hold their breath or run. Also, stress does not destabilise their

breathing or their nervous system because good breathing increases

their resistance to stress.

 

People who breathe badly tend to be oversensitive to CO2 as a

trigger to breathe. This is known as high ventilation response to

C02. People with incorrect breathing and hyperventilation are very

quick to respond to any increase in levels of CO2 with increased

respiration. thereby overbreathing and depleting CO2 levels. People

with good breathing tend to be normal responders to C02. People with

exceptional endurance and stamina probably have a low ventilation

response to C02. They do not hyper-ventilate under stress or when

physically exerting themselves and their ability to release oxygen

from the red blood cells to the tissues is enhanced.

 

Symptoms of disease as defence mechanisms against hyperventilation

and loss of C02 One of the most common manifestations of bad

breathing is the presence of what Dr Buteyko calls defensive

reactions against the loss of C02. These are reactions that the body

creates to limit the loss of C02 and appear as symptoms of disease.

He lists quite a number of these. but the most obvious are

conditions where we see an increased level of mucous and spasm

and swelling in the airways such as sinusitis, nasal polyps asthma

and chronic bronchitis. According to Dr Buteyko. the restrictions

created in the nose and airways are created in response to the

body's need. Asthmatics and people with other nasal and respiratory

disorders can learn to quickly open their airways just by reducing

their breathing or by holding their breath in order to raise CO2

levels.

 

Great physicians of the past like Hippocrates and Paracelsus said

that we must understand and follow the will of nature and not

attempt to control it. If it is the will of nature to reduce the

loss of CO2 by constricting the airways and correction of the CO2

levels leads to an elimination of symptoms, we are doing one of the

most effective things in natural healing - eliminating the cause of

a condition. Anyone with experience in natural healing will tell you

that causes of disease are often many and this case is no exception.

However. normalising breathing helps us to break many of the vicious

cycles that perpetuate disease processes in the body.

 

The validity of Dr Buteyko's observations and theories on the

presence of defensive reactions against the loss of CO2 is supported

by the rapid relief of symptoms seen when we breathe in such a way

that CO2 levels increase. Learning to control symptoms with

breathing is always best done with an experienced Buteyko

practitioner.

 

Testing your breathing and levels of C02

Research done by Dr Buteyko in the 1960s showed that the levels of

CO2 could be tested very accurately and easily by measuring the

length of time that subjects could hold their breath. without

forcing or straining. after a relaxed or normal expiration. He found

that if C02 levels were normal, the person could hold their breath

for forty seconds.. He considered optimal levels of C02 to be 6.5

per cent of alveolar air and this correlated to a breath-holding

period after expiration of sixty seconds. Many asthmatics cannot

hold their breath for longer than ten seconds and even people

without overt respiratory disease may only be able to hold it

for ten seconds be- fore gasping for air. Training ventilation

response to CO2 with breathing exercises will increase the time that

the breath can be held.

 

How and why does breathing become abnormal?

Most of us are totally unaware of breathing. That is as it should be,

considering what an effort it would be to have to re- member to

breathe 70.000 times per day. We breathe the way we breathe because

of unconscious mechanisms. Stress, anxiety and emotions all

stimulate our breathing rate and heart rate. The strongest immediate

stimulus to our breathing comes through stress. from our sympathetic

nervous system. our fight or flight response. Our nervous system

gears us up to flee or fight' by increasing our heart rate and our

breathing. However, we mostly sit and endure whatever our stressor

is behaving in the socially appropriate way rather than as our

animal natures dictate. Our physiology therefore begins to adapt to

this state of abnormal arousal. which is not discharged by physical

activity. If our breathing stays in this increased state. our body

maintains the physiological effects of the stress response long

after the stressful event has passed. A number of psychological and

personal growth therapies use breathing to effect the psyche. The

reason for this is that breathing effects emotion as much as emotion

effects breathing. Our anxiety makes us breathe more rapidly and our

rapid breathing keeps us in a state of metabolic imbalance where CO2

levels are too low and oxygen utilisation is poor. Low levels of

carbon dioxide make our nervous system more excitable. Our brain

wave patterns change. reflecting low levels oxygen up- take due

to low levels of CO2. Depression has been shown to be associated

with low brain oxygen and subsequent brain wave changes.

 

Exercise, or lack of it, can effect our breathing. If we don't

exercise or exercise too strenuously. particularly while mouth

breathing, we worsen the effects of stress on our bodies and begin

to make what should be a passing state of sympathetic nervous system

dominance into a prolonged and persistent situation. Aerobic

exercise training is helpful because it in- creases our tolerance to

CO2. However, exercise that is too strenuous for our level of

fitness will make us hyperventilate. It is my belief that incorrect

breathing is one of the major factors in over-training syndrome,

with loss of CO2 being one of the major factors in loss of glutamine.

thereby effecting the immune and energy systems. Healthy people make

93 per cent of their energy aerobically and the rest anaerobically.

Bad breathing can decrease the amount of energy we make aerobically

to 84 per cent. It is the aerobic pathways that make CO2 and use

oxygen Anaerobic energy metabolism is much more inefficient and much

more destabilising to homeostasis than aerobic metabolism.

 

When we make energy anaerobically, we use no oxygen and make lactic

acid as a by-product. Lactic acid is known to stimulate breathing.

contributing to hyperventilation. This leads to a situation where

bad breathing itself causes the production of a substance that leads

to more bad breathing.

 

One of the primary factors effecting breathing is what happens in the

cell, how well oxygen is used to make energy. When cellular

metabolism is inefficient because of toxic overload. disease or

deficiency of vitamins, minerals and possible essential fatty acids,

our aerobic cellular metabolism becomes impaired.

 

The modern Western diet of processed food contributes to bad

breathing. Dr Weston Price, in his book Nutrition and Physical

Degeneration, showed that when people used to a traditional

unprocessed diet ate processed foods such as white flour and sugar,

their children showed the classic signs of mouth breathing such as a

long narrow face and narrowed upper jaw. Theybegan to develop what

we would call orthodontic problems with crowding and crossing of the

teeth, protruding or under- developed lower jaws. Previous

to this, all the people in the fourteen different cultures that he

studied had shown perfect facial structures, with broad faces that

allowed plenty of room for nasal breathing and showed no sign of

dental malformation. Medical authorities all over the Western world

are aware that the rate of asthma is doubling every ten years, as is

its severity. People in more primitive societies show very low

levels of asthma. A study done on the differences in asthma

incidence between East and West Germany showed that there was a four

times greater incidence of asthma in the more affluent West Germany.

My feeling is that the high level of calories from fat and

sugar with relatively low micro-nutrient levels leads to an

inefficiency of the cellular respiration mechanism and contributes

to overbreathing. The processed diet of the world's affluent

countries provides the conditions that lead to metabolic

inefficiency and subsequent breathing problems Depleted levels of

carbon dioxide lead to further cellular metabolism inefficiency.

 

Carbon dioxide is one of the most powerful regulators of the aerobic

energy pathway in the cell. Liver cells in a medium containing CO2

show a sevenfold increase in metabolic activity in the aerobic

pathways compared to cells in a medium which has the same pH but

uses phosphate buffers. The fact that carbon dioxide is used in

reversible chemical reactions in the aerobic energy pathways is not

mentioned in many biochemistry text books but it is written about

and discussed extensively by Dr Buteyko. He describes in detail

how " C02 takes part in the regulation of numerous key points of

metabolism and respective physiological functions of the organism " .

Low levels of C02 may lead to an inefficiency of cellular

respiration that perpetuates bad breathing. creating the need in the

body for defensive mechanisms to retain CO2.

 

A raised level of acidity will have the effect of increasing

breathing and aggravating hyperventilation. Acidity happens because

of disease. mineral deficiency. excess protein and grain in the diet

and as part of the allergic response. Factors which lead to acidity

will tend to create overbreathing. Metabolic acidosis develops as a

long term adaptation to the respiratory alkalosis caused by

hyperventilation. creating yet another vicious cycle where bad

breathing leads to more bad breathing.

 

One thing to keep in mind is that the way we breathe was inherited

in part from our parents. It takes a number of generations for the

breathing to really become disturbed. The increased incidence we are

seeing of asthma today is one result of diet and lifestyle changes

over the last two centuries.

 

How do you change how you breathe?

To bring your CO2 levels back to normal, you have to train the

unconscious mechanisms in your nervous system that create the

ventilation response to C02. You can do this by focusing your

attention on the breath! meditation. by physical exercise and also

through specific Buteyko breathing exercises. Measures that improve

your general metabolic efficiency will also help to normalise your

breathing. Focusing your attention on the breath/meditation

Unless we are severely low in oxygen. what normally drives our urge

to breathe is carbon dioxide. As the levels build up in our bodies.

we feel the desire to breathe. People who overbreathe have a higher

levels of response to C02 and tend to increase their breathing

before the levels of C02 are at their optimal levels. You can

train this response to C02 through breathing exercises. Many

meditation techniques and mild Buteyko training use focused relaxed

attention on the breath as a way of calming the nervous system and

normalising the breathing. In this state. your breathing will begin

to slow naturally. Research has shown that CO2 levels will begin to

increase despite the fact that the breathing may become deeper.

After a period of time of unforced observation of your breathing,

you may become so still that your breathing is almost suspended. In

this state. your breathing centre and your nervous system are

trained to accept more normal breathing and higher levels of C02.

 

Deep, slow breathing

My observation is that many people who have tried to do deep

breathing exercises and found them difficult and uncomfortable are

already overbreathing and are too low in C02. Their bodies use

restricted breathing in an attempt to regain their necessary balance

of C02. As a result. the chest is often tight and the diaphragm not

functioning as it should. If you change the focus of your breathing

exercises to raising CO2 levels. your breathing very soon becomes

more free and full chest expansion and diaphragm movement become

possible. Deep. slow breathing is the type of breathing

traditionally used to treat hyperventilation. It can be very useful

if the breathing is slowed sufficiently to actually raise C02 and if

it can induce a sense of relaxation. A very anxious and depressed

person often feels tension in the pit of their stomach. Breathing

with stronger diaphragmatic movement such as one does in a deep

slow breath for three or four breaths can break the cycle and allow

you to move onto focused attention or meditation breathing.

 

Physical exercise

Training the body to accept a change in the ventilation threshold of

C02 is also possible through physical exercise. if most of that

exercise is undertaken while maintaining nasal breathing. The level

of exertion must be built up very slowly so as to discourage

hyperventilation. Excessive exercise and training are major causes

of disturbed breathing and disturbed metabolism. Swimming is one

exercise that is known for its ability to raise levels of C02. The

reason for this is that. when we are swimming. we are restricted

from taking in as much air as we would with the same amount of

exertion on dry land. The ability of your body to build up CO2 is

enhanced by training your breath-holding ability. In swimming. this

is done by in- creasing the number of strokes between breaths. By

swimming slowly at first and then, after a warm up period. building

up the strokes from three to five, then over time to seven strokes

between breaths, you can improve your tolerance for CO2.

 

Other forms of exercise. such as walking and running. can also be

used to build up CO2 tolerance. This is done by utilising a long

warm up period of 10-20 minutes. In the warm up. you should do slow

controlled breathing. ideally with a gap at the end of the in breath

and also at the end of the out breath. More intense exercise can be

done after the warm up period but should be kept within your ability

to maintain nasal breathing. At first. maintaining nasal breathing

during exercise will limit your performance but. over time. your

normal exertion will be possible with the added benefit of increased

endurance and lowered pulse rate. Dr John Douillard. who has trained

many elite athletes to high levels of performance utilising nasal

breathing, says that the drop in performance experienced lasts from

three to ten weeks.

 

The Buteyko method of breathing

The Buteyko method of breathing teaches people to utilise posture.

focused attention on the breath and controlled breath-holding to

raise the levels of C02. It is also probably one of the only forms

of breathing retraining that teaches people to reduce the volume of

air while maintaining a relaxed diaphragm. Dr Buteyko developed a

system for normalising the parameters of breathing that enabled some

people to overcome chronic diseases that they had had for years in a

number of weeks. Changing unconscious breathing patterns takes

discipline. perseverance and persistence. In many cases. it requires

the help of a trained Buteyko practitioner. Most Buteyko

practitioners teach the principles of the breathing over a four to

five day period in a workshop setting. This is the length of time

they find it takes to make some of the initial shifts in physiology

that allow participants to continue on their own. A video teaching

the method has also recently become available.

 

Improving metabolism

A number of medical authors have observed that there are some people

whose hyperventilation stops when they are given supplementary

magnesium. This is not surprising. considering the fact that it is

partly the loss of cellular magnesium by hyperventilation that

creates the acidity that perpetuates hyperventilation The B vitamins

and magnesium are part of the co-enzyme used in the aerobic

metabolism pathways. Both magnesium and B vitamins have been used

in medical studies to improve asthma. Studies done with vitamin B6

show that this vitamin is very low in its active form in the blood

of asthmatics and that supplementing it with vitamin B~ has led to

improvement in asthma. Magnesium intake in the diet also correlates

to lower levels of asthma severity and frequency. Other nutrients

probably play an important role as well.

 

Dr Joanna Budwig talks about the importance of ultra-unsaturated

fats like alpha-linolenic acid in breathing. These fatty acids

contain free electrons that have a great affinity for oxygen. As

aerobic metabolism only happens inside the cell (while anaerobic

occurs outside the cells and the cell membrane is made of fat and

protein. it could be that the affinity of the these fats for oxygen

helps in the transport of oxygeninto the cell.

 

Metabolic toxicity can result in a situation where the enzyme

systems of the mitochondria are poisoned. Inefficient cellular

respiration can result. affecting our breathing. In this case. the

way to improve our breathing may involve a detoxification program

like controlled fasting or bowel cleansing. Substances like co-

enzyme Q10. which improves mitochondrial activity. may also help

cellular respiration and breathing.

 

 

The effects of breathing on your health

If your breathing is incorrect, your health suffers. The effects of

incorrect breathing are felt by a whole range of systems - immune,

circulatory. endocrine and nervous - as well as by your energy

production. By working with your breathing. you can improve a whole

range of symptoms and conditions.

 

The heart and circulation

When we hyperventilate and lose an excess of C02. one of the most

immediate effects is on the circulation. Blood vessels constrict.

leading to increased blood pressure. Normalising breathing has a

very rapid effect on lowering blood pressure in most cases. Raising

CO2 through regulating breathing makes You feel warm as your blood

flow increases. People with Raynauds syndrome and migraine can

learn to control symptoms that come from the constriction of blood

vessels in the head or in the hands and feet by raising their CO2

levels.

 

The movement of the relaxed diaphragm in a person with good

breathing also has a mechanical effect. increasing the venous return

to the heart muscle People who overbreathe or hyperventilate

decrease the amount of oxygen taken up by the heart muscle and

increase resistance in coronary blood flow.

 

One of the classic signs of heart disease is breathlessness. which

can increase any underlying hyperventilation. Some cardiologists

believe that hyperventilation not only produces symptoms that mimic

heart disease but may trigger a heart attack in some situations.

 

The nervous and muscular Systems

The nervous system responds to a drop in CO2 by becoming more

excitable. Smooth and skeletal muscle becomes more prone to spasm

and constriction. Hyper- ventilation seems to make the sympathetic

nervous system become dominant. The effect of this on stress related

disorders like certain types of digestive disorders and headaches

becomes very clear when you see how these symptoms can be control-

led with breathing Brain wave patterns will change in response to

low levels of carbon dioxide, showing certain unctioning.

 

Epilepsy-like brain wave patterns are produced by hyperventilation'.

in the past, people were made to hyperventilate to see if they had

epilepsy. The onset of epileptic attacks is associated with the drop

in brain oxygen that is associated with lowered levels of CO2.

 

Psychologists have known for a long time that people with panic

disorder hyperventilate and that this hyperventilation is the cause

of many. if not all. of the symptoms they experience. The pounding

heart. breathlessness. tingling and numbness in hands. feet and

face. dizziness and feeling of unreality can all be reproduced by

getting susceptible individuals to breath as quickly and as deeply

as they can for a few minutes.

 

Most people. when stressed. are told to take a big deep breath and

relax. To someone who is hyperventilating and already taking in too

much air. this advice may not really help.

 

People who are prone to anxiety and panic attacks need to change

their ventilation response to CO2 over time so that. when the

initiating situation come about, they already have developed a new

unconscious breathing pattern that has given them a reserve of C02.

Most people with breathing disorders or anxiety disorders are too

near the threshold of CO2 and any small stimulus to breathing will

leave them in a destabilised state. Getting back to normal in this

state is like trying to crawl up a cliff once you have already

fallen off. People need daily breathing training to pre- vent the

onset of panic, anxiety and stress and then need to quickly

recognise the early signs of low CO2 to help then keep away

from the edge of the cliff. Once it is trained, breathing can be

used more effectively during a stressful situation.

 

Effects on immunity

Breathing can effect the immune system. Tests on immunity showed

that. after three days of training to breathe with the Buteyko

method, subjects' levels of autohemolysin plaque forming cells

(associated with autoimmunity) decreased. Skin microflora levels,

which are elevated when immunity is low, decreased. At the All Union

Scientific Centre of Radiation Medicine in Russia, this method was

used with fifty victims of the Chernobyl nuclear accident. 83 per

cent of the patients showed an improvement in their symptoms and in

the objective measurements of their immune system functions in blood

tests. Dr Otto Warburg. who inspired and was quoted by the famous

alternative cancer specialist Dr Max Gerson, felt that the problem

with cancer patients was that cancer cells used anaerobic metabolism

(non- oxygen utilising) in preference to normal aerobic (oxygen

utilising) metabolism. In this case, improving the efficiency of

aerobic energy pathways would be of great assistance. The presence

of CO2 can increase the efficiency of the metabolic reactions of C2O

seven fold. The effects of breathing on arthritis are also of

interest as 25 per cent of people with rheumatoid arthritis suffer

from asthma.

 

Infection and allergy both lead to hyperventilation. In the short

term, overbreathing leads to what is known as respiratory

alkalosis.' because of the subsequent loss of minerals and

bicarbonate stores (which are made primarily from C02), the body

becomes more acid. This acidity seems to increase both

hyperventilation and allergic symptoms. People become less

allergic if they can successfully change their breathing patterns.

It is known that low CO2 increases the release of histamine from

most cells.

 

The Buteyko method has become known for its ability to help

sufferers of emphysema. chronic bronchitis, asthma and Sinus

problems. People who have inflammation. infection or restriction of

the airways are the ones most likely to develop breathing disorders.

It is also most likely that bad breathing has been one of the major

factors in the development of their breathing related disease.

People who have lung diseases all develop symptoms of breathlessness

and often a sense of fear. anxiety or even panic about being able to

get enough breath. This breathlessness tends to make them

overbreathe and consequently lose an excess of CO2. This loss

of CO2 from the alveoli of the lungs contributes to bronchospasm and

decreased uptake of oxygen into the tissues. This makes the feeling

of breathlessness worse and subsequently induces the person to

hyperventilate even more. One of the keys points of Dr Buteyko's

hypothesis is that bronchospasm and increased mucus is part of the

body's defence mechanism against loss of C02. He teaches that asthma

is not a disease and is only a defence mechanism against bad

breathing and loss of C02.

 

Sleep apnoea

People with this condition stop breathing during the night. sometimes

every few minutes. This results in a low level of blood oxygen and an

increase in carbon dioxide. They wake in the morning feeling as if

they have not slept. Hyperventilation and resulting low levels of

carbon dioxide can be major contributing factors to sleep apnoea. A

number of research studies have been done where administration of

C02 has led to normalisation of blood oxygen and a reduction or

cessation in sleep apnoea episodes. Researchers at Toronto Hospital

showed that. in patients with heart disease. the chief determinant

of disturbed breathing and sleep apnoea was hyperventilation

and low CO2 hypocapnia). Raising the levels of CO2 above the

threshold for apnoea abolished the sleep apnoea. The experiences of

people working with the Buteyko breathing is that similar effects

can be achieved with breathing alone in some cases.

 

Fatigue

Fatigue always accompanies bad breathing. This is because of the

effects of both oxygen and carbon dioxide on energy metabolism and

the calming effects of breathing on the nervous system. A nervous

system that is dominated by sympathetic activity or the 'flight or

fight' response wastes a lot of energy. Sympathetic nervous s\ stem

dominance leads to an aggravation of breathing problems. with

hyperventilation becoming fixed and established in the person's

homeostatic mechanisms. Breathing can beused as a tool for restoring

rest. relaxation and energy. Many people with chronic fatigue

syndrome ICFS) have greatly aided their r ecoveries using the

principles of normalising breathing. CFS is often accompanied by

feelings of breathlessness and sufferers have been shown to suffer

from frequent episodes of sleep apnoea.

 

CFS is frequently accompanied by insomnia and by a type of restless

fatigue where sleep and rest are not restorative. Aerobic energy

production in the person with chronic fatigue is defective.

Normalising oxygen and carbon dioxide levels seems to increase the

effectiveness of aerobic energy pathways in people who have

metabolic blocks in these pathways. Magnesium levels are always very

low inside the cells of people with CFS and raising levels of

intracellular magnesium is one of the keys to improving their

energy. Correcting cellular pH through maintaining normal CO2 is one

way to stop the draining of magnesium from the cell.

 

Many people who correct their breathing find that they lose a large

amount of excess weight. This is because fat is only burned in the

aerobic metabolic pathways. As these are switched on, people who

were previously unable to lose fat find that it often goes without

reducing their foodintake.

 

Hormones

One of Dr Butevko's ideas is that overbreathing leads to depletion

of the body's steroid production. This includes adrenal steroids as

well as testosterone. the oestrogens and progesterone. Shock and

stress are common causes of premature menopause. One function of

breathing could be to take the stress out of the nervous system.

allowing the endocrine system to normalise itself. Observation of

the effects of correcting breathing on hormone levels has led to its

use in the treatment of numerous types of hormonal problems in Dr

Buteyko's clinic in Russia.

 

Insulin sensitivity and production are both increased by normalising

breathing. Diabetics must be very careful when working with

breathing due to the fact that blood sugar levels will often drop

very quickly as CO2 levels increase. Interestingly, in the case of

hypoglycaemia. blood sugar levels seem to become more stable when

breathing is normalised, decreasing the need for frequent meals and

snacks. If breathing effects so many processes in the human body.

how can we ignore it as a tool for healing? Correcting breathing

involves some discipline as you must practice it every day. Symptom

such as breathlessness, angina, headaches or fatigue remind us that

our breathing is out of balance. Part of the teaching of the Buteyko

method is that it is important to use breathing at these times

to prevent disturbances in our homeostasis that may lead to further

disease in the form of other defence mechanisms.

 

We should also become aware of what our breathing does at times of

stress. anxiety and depression and use breathing to modify our

emotional responses. Finally, we should avoid or correct those

factors that lead to a disturbance of breathing like incorrect

diet. lack of or too much exercise, nutritional deficiency, toxicity

and infection.

 

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Augie

Live Simply So That

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