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Certification
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Description Objectives
Requirements Schedule
Faculty Registration Accommodations
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Certification Are you overbreathing?
Which brain is yours?
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PROGRAM DESCRIPTION Certified Breathing Practitioner (CBP) BREATHING IS BEHAVIOR. Breathing is behavior, a
behavior that regulates acid-base physiology.
Acid-base physiology is about pH balance of body fluids, including
blood and the fluids that surround tissue cells. The effects of deregulated pH (or
chemistry) on health and performance can be dramatic and profound. Good breathing behavior is
about regulating of body chemistry (pH), a chemistry that ensures electrolyte
balance, proper blood distribution, and efficient allocation of oxygen. Bad breathing behavior means deregulating
body chemistry. Breathing, like any
other behavior, is regulated by learning, and thus by motivation, emotion,
cognition, perception, and memory. Bringing together these two
simple facts, that (1) breathing is a behavior subject to the principles of
learning, and that (2) breathing regulates body chemistry (pH), means bringing
together the biological and behavioral sciences in profoundly practical ways
relevant to the lives of millions. PROPER ALLOCATION OF CARBON DIOXIDE IS CRUCIAL. Breathing behavior regulates
pH through proper allocation of carbon dioxide (CO2). Proper exhalation of CO2, at rest, is only
about 12 to 15 percent of the total CO2 arriving in the lungs. The remaining CO2 is retained in the blood,
and is fundamental to pH regulation.
Although this is common knowledge to any pulmonary or acid-base
physiologist, it remains virtually unknown by others. Exhalation of more than a
relatively small amount of CO2, results in a CO2 deficit in the blood and
other body fluids, a deregulated respiratory chemistry known as
hypocapnia. Traditional common sense
has misguided us into believing that CO2 is poisonous, and that good
breathing requires its complete elimination.
This superstition needs to be replaced with the facts. Hypocapnia is the result of
overbreathing, the mismatch of breathing rate and depth. Its consequence is an increased level of
pH, or respiratory alkalosis, which may have profound immediate and long-term
effects that trigger, exacerbate, perpetuate, and/or cause a wide variety of
emotional, perceptual, cognitive, attention, behavioral, and physical
deficits that may seriously impact health and performance. These deficits may be the result of the
following: ● Blood vessels
constrict in the brain and in the heart (coronaries). ● Blood flow to the
brain is reduced by as much as 50 percent. ● Oxygen and glucose
supplies to the brain are radically reduced. ● Brain cells become
more excitable, and are more likely to be anaerobic. ● Smooth muscles
constrict, including the bronchioles, placenta, and gut. ● Sodium and potassium
deficiencies (electrolyte imbalance) may develop. ● Calcium-magnesium
ratios in muscles become imbalanced. ● Bicarbonates
required for regulating acids (e.g., lactic) are depleted. ● Oxygen and nitric
oxide release by hemoglobin is inhibited. ● Airway resistance
increases and lung compliance decreases. |
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