Hbot
Principle 1
Henry’s Law
At a constant temperature, the amount of a given gas that dissolves in a given type and volume of liquid is directly proportional to the partial pressure of that gas in equilibrium with that liquid. Pressure is required for a gas (oxygen) to effectively dissolve into a liquid (blood plasma). When inside a hyperbaric environment, greater levels of oxygen are able to reach deep into the tissues of the body.
Principle 2
Boyle’s Law
When temperature is constant, the volume of a gas is inversely proportional to the pressure and the density of a gas is directly proportional to the pressure; As pressure increases, the size of oxygen molecules decrease, creating a denser oxygen environment. Oxygen molecules in the alveolus (lung membrane) become more concentrated and make it possible for more oxygen molecules to be transferred to the blood by diffusion, which saturates the blood plasma.
Effectiveness elements
The four most important points of hbot therapy
POINT 1
Single Use Time
60-90mins is usually
recommended
POINT 2
Frequency Use
5 times a week is
usually recommended
POINT 3
Pressure
1.3ATA-2.0ATA
is recommended
POINT 4
Oxygen content
90% will be enough, 100% will
be easy to catch fire and cause
How does hyperbaric chamber work?
About dissolved oxygen
Oxygen transport includes combined oxygen and dissolved oxygen. Most oxygen binds to hemoglobin, forming combined oxygen. A smaller portion dissolves directly into plasma as dissolved oxygen. While combined oxygen has difficulty passing through narrow vessel walls, dissolved oxygen is smaller and can significantly increase in blood and fluids under hyperbaric conditions.
WHY HYPERBARIC OXYGEN?
Hyperbaric oxygen and normobaric oxygen have a quantitative-to-qualitative relationship. While breathing pure oxygen at normal pressure can saturate the blood with oxygen, inhaling oxygen in a hyperbaric environment not only increases blood oxygen saturation but also enhances oxygen reserve, penetration, and solubility. This leads to a significant improvement in health benefits.
About dissolved oxygen
Oxygen transport can be classified into“combined oxygen and dissolved oxygen”. When entering blood,most oxygen will be combined with hemoglobin,then become combined oxygen. Another part of oxygen will be dissolved in plasma directly and physically,then become dissolved oxygen. Therefore,combined oxygen is difficult to pass the narrow vascular wall,while dissolved oxygen is smaller and can greatly dissolved in blood and fluid under hyperbaric circumstances.
APPLICATION ① Sports Recovery
For Rapid Recovery After Exercise
①Eliminate exercise fatigue
②Restoring physical strength
③Reducing athletic injuries
④Rapid elimination of aggregated lactic acid
⑤Accelerates the removal of blood ammonia
⑥Reduce the damage of free radicals to the body
APPLICATION ② Beauty & Anti-aging
Introduction: Aging is characterized by the progressive loss of physiological capacity.
At the cellular level, two key hallmarks of the aging process include telomere length (TL) shortening and cellular senescence. Repeated intermittent hyperoxic exposures, using certain hyperbaric oxygen therapy (HBOT) protocols, can induce regenerative effects which normally occur during hypoxia. The aim of the current study was to evaluate whether HBOT affects TL and senescent cell concentrations in a normal, non-pathological, aging adult population.
APPLICATION ③ Home Wellness & Health
Improve Work Efficiency And Relieve Work Pressure
The brain has a high oxygen demand. The brain’s chronic mild hypoxia can cause drowsiness, distraction, memory loss, irritability, and so on. Timely supplementation of oxygen can improve brain tissue hypoxia, improve work efficiency, and relieve pressure.
Improvement of sleep quality
Insomnia leads to oxygen deprivation in brain cells. Hyperbaric oxygen therapy increases blood oxygen solubility, improves blood flow in the brain’s posterior circulation, and enhances blood supply to the brainstem’s reticular activating system.
Eliminate fatigue and relieve exam stress
The brain consumes a large amount of oxygen, so oxygen supplementation helps relieve fatigue and stress. For students, it can ease pre-exam tension, reduce psychological burden, enhance oxygen utilization, and regulate the body’s oxygen supply.
Strengthens resistance and promotes healing
HBOT therapy stimulates the growth of new blood vessels in the circulation and speeds up metabolism, thus increasing the rate of wound healing. It also increases resistance through white blood cells.
APPLICATION ④ Recovery From Some Conditions
For Adjuvant Treatment Of Some Diseases
Nowadays, hyperbaric oxygen is often used as an adjunctive treatment method, i.e., conventional treatment as the basis, combined with hyperbaric oxygen therapy as an adjunct, such as the following diseases have very good results: Lyme Disease, Brain Injury, Stroke, Diabetes, Autism, Cancer, Chronic Heart and Lung Disease, Acute Hypoxic Disease, Carbon Monoxide Poisoning, Digestive Disease, Burns
Related Products
HE5000-Plus
2.0 ATA Hard Shell Hyperbaric Chamber HE5000-Mono Fits 1 People, Safe And Efficient Oxygen Therapy For Home Use.
HE5000-Fort
2.0 ATA Hard Shell Hyperbaric Chamber HE5000-Mono Fits 1 People, Safe And Efficient Oxygen Therapy For Home Use.
ST801
2.0 ATA Hard Shell Hyperbaric Chamber HE5000-Mono Fits 1 People, Safe And Efficient Oxygen Therapy For Home Use.
HP1501/2202-75
Hardshell Hyperbaric Chamber HP1501/2202-100 For Home Use, Fits 2 Adults, Providing Safe And Effective Oxygen Therapy.
ST2200
1.5 ATA Mobile Hyperbaric Chamber ST2200 Fits 1 Adult And 1 Kid, Portable And Safe Oxygen Therapy For Home Or Travel Use.
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Principle 1
Henry’s Law
At a constant temperature, the amount of a given gas that dissolves in a given type and volume of liquid is directly proportional to the partial pressure of that gas in equilibrium with that liquid. Pressure is required for a gas (oxygen) to effectively dissolve into a liquid (blood plasma). When inside a hyperbaric environment, greater levels of oxygen are able to reach deep into the tissues of the body.
Principle 2
Boyle’s Law
When temperature is constant, the volume of a gas is inversely proportional to the pressure and the density of a gas is directly proportional to the pressure; As pressure increases, the size of oxygen molecules decrease, creating a denser oxygen environment. Oxygen molecules in the alveolus (lung membrane) become more concentrated and make it possible for more oxygen molecules to be transferred to the blood by diffusion, which saturates the blood plasma.
How does hyperbaric chamber work?
About dissolved oxygen
Oxygen transport includes combined oxygen and dissolved oxygen. Most oxygen binds to hemoglobin, forming combined oxygen. A smaller portion dissolves directly into plasma as dissolved oxygen. While combined oxygen has difficulty passing through narrow vessel walls, dissolved oxygen is smaller and can significantly increase in blood and fluids under hyperbaric conditions.
WHY HYPERBARIC OXYGEN?
Hyperbaric oxygen and normobaric oxygen have a quantitative-to-qualitative relationship. While breathing pure oxygen at normal pressure can saturate the blood with oxygen, inhaling oxygen in a hyperbaric environment not only increases blood oxygen saturation but also enhances oxygen reserve, penetration, and solubility. This leads to a significant improvement in health benefits.
About dissolved oxygen
Oxygen transport can be classified into“combined oxygen and dissolved oxygen”. When entering blood,most oxygen will be combined with hemoglobin,then become combined oxygen. Another part of oxygen will be dissolved in plasma directly and physically,then become dissolved oxygen. Therefore,combined oxygen is difficult to pass the narrow vascular wall,while dissolved oxygen is smaller and can greatly dissolved in blood and fluid under hyperbaric circumstances.
APPLICATION ① Sports Recovery
For Rapid Recovery After Exercise
①Eliminate exercise fatigue
②Restoring physical strength
③Reducing athletic injuries
④Rapid elimination of aggregated lactic acid
⑤Accelerates the removal of blood ammonia
⑥Reduce the damage of free radicals to the body
APPLICATION ② Beauty & Anti-aging
Introduction: Aging is characterized by the progressive loss of physiological capacity.
At the cellular level, two key hallmarks of the aging process include telomere length (TL) shortening and cellular senescence. Repeated intermittent hyperoxic exposures, using certain hyperbaric oxygen therapy (HBOT) protocols, can induce regenerative effects which normally occur during hypoxia. The aim of the current study was to evaluate whether HBOT affects TL and senescent cell concentrations in a normal, non-pathological, aging adult population.
APPLICATION ③ Home Wellness & Health
Improve Work Efficiency And Relieve Work Pressure
The brain has a high oxygen demand. The brain’s chronic mild hypoxia can cause drowsiness, distraction, memory loss, irritability, and so on. Timely supplementation of oxygen can improve brain tissue hypoxia, improve work efficiency, and relieve pressure.
Improvement of sleep quality
Insomnia leads to oxygen deprivation in brain cells. Hyperbaric oxygen therapy increases blood oxygen solubility, improves blood flow in the brain’s posterior circulation, and enhances blood supply to the brainstem’s reticular activating system.
Eliminate fatigue and relieve exam stress
The brain consumes a large amount of oxygen, so oxygen supplementation helps relieve fatigue and stress. For students, it can ease pre-exam tension, reduce psychological burden, enhance oxygen utilization, and regulate the body’s oxygen supply.
Strengthens resistance and promotes healing
HBOT therapy stimulates the growth of new blood vessels in the circulation and speeds up metabolism, thus increasing the rate of wound healing. It also increases resistance through white blood cells.
APPLICATION ④ Recovery From Some Conditions
For Adjuvant Treatment Of Some Diseases
Nowadays, hyperbaric oxygen is often used as an adjunctive treatment method, i.e., conventional treatment as the basis, combined with hyperbaric oxygen therapy as an adjunct, such as the following diseases have very good results: Lyme Disease, Brain Injury, Stroke, Diabetes, Autism, Cancer, Chronic Heart and Lung Disease, Acute Hypoxic Disease, Carbon Monoxide Poisoning, Digestive Disease, Burns
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