月度归档： 2022 年 4 月

All human cells must be constantly supplied with sufficient oxygen (O_2). This is one of the basic requirements for the formation of energy in each cell, on which all life processes and life functions depend. Portable hyperbaric oxygen chamber is the increase in oxygen uptake, usually through inhalation.

What is oxygen therapy?

At rest, we take in about 250 ml of oxygen per minute through breathing. During a walk, the oxygen uptake doubles to around 500 ml per minute. When we jog, we take in 2,000 ml of oxygen per minute, which is eight times as much oxygen as when we are at rest.

The simplest form of oxygen therapy is therefore any physical movement. If possible, this should take place in nature. The type of movement, the intensity and the duration discuss with the doctor and recommended individually.

In the case of special complaints or illnesses, portable hyperbaric oxygen chamber is also good to use. This treatment increases the oxygen concentration in the blood. Tissues in need or cells that undersupply can supply with oxygen again in this way. Regeneration and healing at the cell level are only possible again as a result.

Expert advice and therapy control are essential when using oxygen as a 'medicine'.

Hyperbaric oxygen chamber: Indications for oxygen therapy

In the event of an acute or chronic undersupply of the body with oxygen (hypoxia), the portable hyperbaric oxygen chamber indicates in order to prevent the cells from dying.

Hypoxia can have many causes

• In addition to problems in the lungs themselves (e.g. COPD, bronchial asthma, pulmonary emphysema), the transport of oxygen via the blood can also disrupt. This is the case, for example, with a lack of red blood cells (erythrocytes) or with reduced hemoglobin.
• Hemoglobin attaches itself to red blood cells and is responsible for carrying oxygen. In the case of iron deficiency or diseases such as sickle cell anemia, the formation of hemoglobin disturbs or reduces.
• Portable hyperbaric oxygen chambercan cure cardiovascular diseases (e.g. Heart attack, cardiac insufficiency) or poisoning (e.g. With CO2 in the case of smoke inhalation) can also be the cause of a lack of oxygen supply to the tissue.
• Oxygen therapy increases the oxygen content in the arterial blood and counteracts the reduced performance and exercise capacity good to use by the undersupply of oxygen.

Side effects of oxygen therapy

When oxygen is administered through nasal cannula or a mouth-nose mask, the mucous membranes in the nose can dry out. Therefore, the breathing air should always be humidified. The humidifier of portable hyperbaric oxygen chamber should be replaced regularly to minimize the risk of bacterial and fungal colonization.

Another risk of oxygen administration is an increased concentration of oxygen in the blood, as this can inhibit the drive to breathe. For this reason, the O2 concentration in the blood should be monitored during longer application and the flow rate should be adjusted by the doctor if necessary.

What is hyperbaric oxygen therapy?

Hyperbaric oxygen therapy (HBO) is good to use when there is a reduced oxygen concentration in the cell tissue. This can be the case, for example, with chronic wounds (diabetic foot syndrome) or aseptic bone necrosis.

For the duration of the application, the patient is in a special chamber in which overpressure is created. He breathes 100% pure oxygen. The overpressure ensures better solubility of gases (oxygen) in liquids (blood). In this way, the oxygen also reaches tissues with poor blood circulation.

New blood vessels as well as bone and connective tissue form as a result of the hyperbaric oxygen therapy. In addition, the cell metabolism normalizes and degradation products can be better removed.

Side effects of portable hyperbaric oxygen chamber

 

Side Effects and Complications of HBO:

• Pain in the paranasal sinuses
• Toothache
• Temporary impairment of vision
• Damage to the eardrum
• Emotional disturbances
• Tinnitus
• Anxiety reactions such as tachycardia or nausea
• Twitching of the facial muscles/diaphragm
• Overstretching of the lung tissue with consequences such as pneumothorax or air embolism (very rare)
• Seizure (very rare)

Overall, complications and side effects of treatment with hyperbaric oxygen are extremely rare. Some side effects may be transient and resolve within a few weeks (e.g. visual disturbances). These are mostly due to pressure exposure. Patients then develop problems with pressure equalization, which can lead to undesirable effects (barotrauma).

In a previous examination by the doctor, previous illnesses are asked about, which may speak against hyperbaric oxygen therapy. In this way, risk factors on the part of the patient are almost completely ruled out.

Portable hyperbaric oxygen chamber: Stimulates, Strengthens, Regenerates

Oxygen is the drug. The hyperbaric chamber is the tool. Here is the new therapy.

Hyperbaric Oxygen Therapy (OTI) is a non-invasive therapy based on the breathing of 100% pure oxygen or hyper-oxygenated gas mixtures inside a Hyperbaric Chamber.

In this way, by breathing pure oxygen (or the mixture prescribed by the hyperbaric doctor) hyperoxygenation of the blood and cells is stimulated.

In practice, hyperoxygenation stimulates, strengthens and regenerates our body's ability to react and heal from trauma and certain types of diseases.

Portable hyperbaric oxygen chamber has a beneficial effect on the body such as accelerating the healing of skin wounds, burns or trauma wounds.

Oxygen is essential, without it we could not live. In some situations, breathing it at a very high concentration saves life and hyperbaric therapy, that is the administration of pure oxygen at a pressure higher than that of the atmosphere, is an effective treatment in many diseases.

Hyperbaric oxygen chamber: What is it for?

The therapy is good to use to deliver more oxygen to areas where there has been trauma (risky fractures, such as open ones) or where there is an infection or vascular insufficiency.

By breathing a slightly higher percentage of oxygen than the ambient one in a portable hyperbaric oxygen chamber (with a pressure that corresponds to -15 m of water), the oxygen also dissolves in the liquid part of the blood (plasma) favoring the processes tissue healing and helping the body fight infections.

Importance of oxygen

Oxygen is a gas essential to the survival of the human being and his well-being.

Circulating in the blood, oxygen reaches all cells in the body and provides them with the sustenance they need to function at their best.

In addition, protection from infections and the release of substances, such as growth factors and stem cells, which promote tissue healing depends on portable hyperbaric oxygen chamber.

A lack of oxygen in the blood represents a condition that affects the good health and proper functioning of the organs of the individual concerned.

Hyperbaric oxygen therapy (HBO therapy, pressure chamber therapy) is a treatment method in which medically pure oxygen inhales under increased (hyperbaric) ambient pressure. Read here when oxygen machine therapy performs, how it works and what needs to consider.

What is hyperbaric oxygen therapy?

Hyperbaric oxygen therapy is good to use to increase the oxygen uptake into the blood above normal levels. In this way, one wants to achieve a better supply of oxygen to tissue that poorly supplies with blood.

Under normal conditions, the red blood pigment (hemoglobin) in the red blood cells (erythrocytes) is already more than 98 percent saturated with oxygen, so that an increase with the oxygen supply from normal breathing air is hardly possible.

In oxygen machine, the external pressure increases to 1.5 to 3 time’s normal pressure using a pressure chamber. As a result, more oxygen physically dissolves in the liquid components of the blood. The amount is proportional to the ambient pressure and the oxygen content in the breathing gas.

Due to the increased oxygen content in the blood, the metabolism is said to accelerate in tissues with poor circulation. This intends to drive healing processes, for example.

When do you do hyperbaric oxygen therapy?

Hyperbaric oxygen therapy is good to use for:

• Diabetic foot syndrome
• Carbon monoxide poisoning
• Diving sickness (caisson disease)
• Bone marrow inflammation (osteomyelitis)
• Death of bone tissue (osteonecrosis)
• Burns
• Hearing loss (with and without tinnitus), tinnitus
• Late effects of radiation therapy (such as non-healing wounds or bone defects)

Hyperbaric oxygen therapy: Use partially disputed

The effectiveness of oxygen machine is controversial. For example, the Institute for Quality and Efficiency in Health Care (IQWIG) was able to demonstrate a benefit of HBO therapy for diabetic foot syndrome with regard to wound closure - but not with regard to other factors such as mortality, length of hospital stay and amputations (as of 2016).

The IQWIG was not able to prove a benefit of hyperbaric oxygen therapy for burns or the death of bone tissue on the femoral head (femoral head necrosis) (status 2007).

The study situation on the effectiveness of HBO therapy in acute hearing loss is also unsatisfactory. For example, an evaluation of several studies on the subject (2012) showed that although oxygen machine was able to significantly improve hearing in patients with sudden hearing loss, the clinical significance of this result remained unclear.

In addition, the number of study participants was small and the studies had methodological inadequacies.

The current guideline does not recommend hyperbaric oxygen therapy for the treatment of chronic tinnitus.

What is oxygen machine therapy?

Before hyperbaric oxygen therapy, you will examine for your suitability for pressure, for example by means of an ECG and lung function test. The patency of the auditory tube (tuba auditive) - the tubular connection between the pharynx and the middle ear - is also checked. This is important for equalizing the pressure in the ears.

Pressure chamber Space from which you can contact the doctor or nursing staff at any time (e.g. by speaking loudly). The pressure in the chamber now slowly increases so that the pressure in the ears can equalize without complications and as comfortably as possible.

You can facilitate this process yourself by chewing gum or pressing air into the throat area while pinching your nose (Valsalva maneuver).

Once the intended pressure reaches, put on an oxygen mask. You now breathe in pure oxygen through oxygen machine. At the end of the therapy, the pressure reduces over a period of several minutes, which also refers to as discharge.

Hyperbaric oxygen therapy: duration and number of treatments

It depends on the indication (area of ​​application), a session in the pressure chamber lasts between 45 minutes and more than six hours. Treatments lasting several hours are necessary, for example, in the acute therapy of diving disease.

How many sessions are held in individual cases also varies. Depending on the indication and the course of the disease, some patients only have to sit in the oxygen machine once, while others have to sit down several times (up to 30 times or more).

What are the risks of hyperbaric oxygen therapy?

The doctor treating you will explain to you in advance about the possible side effects and risks of HBO therapy. These include, for example:

• Barotrauma: These are injuries good to use by sudden changes in pressure in gas-filled body cavities (e.g. in the ear) when the pressure is insufficient.
• Rupture of the eardrum ( eardrum perforation or rupture)
• Irritation of the respiratory tract
• Temporary visual disturbances

Some people also react to breathing oxygen under pressure with seizures (rarely).

What do I have to consider with hyperbaric oxygen machine?

Also react if you notice such symptoms in other patients in the hyperbaric chamber.

These high and also very high oxygen partial pressures (pO2) have a number of direct and indirect effects on the human body. Most of these effects are helpful for the purpose of alleviating or curing diseases, and in selected cases they are even very effective.

Hyperbaric oxygen therapy (HBO) causes, among other things

• Reduced edema by reducing blood flow without (!) reducing the supply of oxygen
• Extension of the oxygen diffusion distance in human tissue (range extension)
• Promotion of new blood vessel formation (angiogenesis) in oxygen-poorly supplied body tissues
• Displacement of toxins (e.g. carbon monoxide) from vital, oxygen-dependent proteins and enzymes
• Reduction of blockages in blood vessels good to use by accumulations of air or inert gases

In addition to and through these direct effects, for example

• Oxygen machinepromotes wound healing
• The supply of oxygen and nutrients via the formation of new blood vessels (angiogenesis) permanently improve.

In very high doses, oxygen can also have effects to cells

In very high doses, oxygen can also have effects that can be harmful to cells in the human organism. However, these “side effects” can also be good to use therapeutically: a massive supply of oxygen (as with HBO) can make certain types of malignant diseases more sensitive to radiation therapy.

An example of this is the recurrence of stage IV neuroblastoma in children and adolescents.

The costs for hyperbaric oxygen machine are usually only covered by social security in certain cases..

What Is High Pressure Oxygen Chamber System?

Find out what High Pressure hyperbaric oxygen therapy for sale with Macypanhbot.

Hyperbaric oxygen is pure oxygen under high pressure (or high content). Hyperbaric Oxygen Therapy (HBOT) is the use of a sealed chamber containing completely pure oxygen under high pressure or high concentration to treat and treat a number of incurable diseases. For treatment with this method, the patient needs to lie in a specialized machine.

What is Hyperbaric Oxygen Therapy?

This is a method that can be used to treat many different diseases.  However, for each specific case, there are specific treatment indications.

For the treatment modality with the hyperbaric oxygen therapy for sale, there are two forms of treatment according to relative indications and absolute indications.

Hyperbaric oxygen system is a method develops in most countries with developed economy and medicine. In particular, China is also one of the countries that have recently put this system into application.

The current hyperbaric oxygen system offers many benefits in the treatment of diseases. Based on the method of using pure oxygen pressure gas generator at high pressure in the treatment and nursing of patients.

Hyperbaric oxygen therapy for sale: an important role in human life

All metabolic activities in the body go from the molecular, cellular to organ levels, all of which require oxygen. Oxygen is the substance that sustains life. When lack of oxygen can be one of the causes for the disease mechanism to arise.

In fact, it is possible to increase the amount of dissolved oxygen by increasing the inhaled pressure and oxygen content. Once the inspiratory oxygen pressure increases by 1 at a constant temperature, the amount of oxygen dissolved in 100 ml of blood increases by 2.3 ml. This method of increasing the oxygen content carries out through a dedicated high-pressure system.

Relative indications of hyperbaric oxygen therapy for sale

Relative indications are the use of hyperbaric oxygen systems to combine the treatment of medical conditions such as:

• Stroke, headache, insomnia, cardiovascular disease, cerebral infarction, vestibular
• cerebral palsy, autism, mental retardation in children
• Cerebral circulatory disorders, atherosclerosis
• Absolute indications for treatment
• Indications Absolutely use high pressure system to treat cases of CO poisoning, depressurization in divers, embolism due to gas.

Benefits of using a Hyperbaric Oxygen System

Many people still mistakenly believe that hyperbaric oxygen therapy for sale will help to completely eliminate all diseases. However, this is something that has never been clinically proven to be curative or effective, especially in the treatment of cancer, autism or diabetes.

That's not to say that completely negates the benefits of hyperbaric oxygen therapy. This method of therapy not only has a therapeutic effect, but also has a nursing effect, and is safe for both newborns and the elderly.

This method does not introduce any foreign substances into the body, so there are almost no side effects. It also does not cause discomfort to the patient.

Hyperbaric oxygen therapy for sale has significant benefits, but should not overuse. According to the advice of a specialist, the treatment method should be carefully considered and strictly prescribed to avoid unwanted effects.

Does hyperbaric oxygen therapy have side effects?

Hyperbaric oxygen therapy chamber almost does not cause any side effects.

Hyperbaric oxygen chamber treatment has almost no side effects because there is no need to introduce foreign substances into the human body. However, if the patient has one of the diseases such as closed air abscess, pneumothorax; epilepsy; hypertensive disease (BP>160/90mmHg).

Patients who are afraid of entering a closed room, are sensitive to oxygen, and have infections in the nose, throat, sinuses and middle ear are not allowed to treat with hyperbaric oxygen therapy for sale.

High Pressure Oxygen System is a good support in the treatment of some diseases

What diseases does the Hyperbaric Oxygen Chamber System support?

As mentioned above, the hyperbaric oxygen chamber treats and supports many incurable diseases. In particular, in the following cases, high-pressure oxygen therapy can use to support therapy with extremely high efficiency.

For the treatment of external injuries

Long-healing open wounds: These wounds can cause by infection, by arterial occlusive disease or by long-term paralysis, causing ulcers, foot ulcers in diabetics and many cases of unknown cause. Hyperbaric oxygen therapy for sale helps these wounds stop necrosis, reduce exudation, edema, skin tissue grows faster and heal easier.

In orthopedic trauma: Hyperbaric oxygen therapy has a nourishing effect, limiting edema in the wound area. Not only that, they also help avoid causing infections, especially anaerobic infections. Hyperbaric oxygen helps bones, joints, skin patches heal quickly, function of the injury area, and surgery recover quickly, contributing to better surgical results.

Hyperbaric oxygen is very necessary in the preparation and after surgery for patients with poor blood clotting, patients with diabetes, heart disease.

Traumatic brain injury, cerebrovascular accident

Early treatment, hyperbaric oxygen therapy for sale contributes to the effective against cerebral edema; treatment and rehabilitation of sequelae of movement, language, excretion...

Cardiovascular disease: Hyperbaric oxygen has a rapid effect on myocardial ischemia, cerebral circulatory insufficiency, lower extremity vascular occlusion. Hyperbaric oxygen rapidly reduces symptoms of the disease such as chest pain, dizziness, fatigue...etc.

Sudden deafness, sudden vision loss

These diseases happen quickly, suddenly, often without warning symptoms. There are many causes of this condition, but it is usually due to decreased blood supply to the cochlea, central retinal artery. May be due to blood vessel spasm, thrombosis, hemodynamic disturbances.

Hyperbaric oxygen therapy for sale acts on the above factors to help restore hearing and vision. This is an emergency, so hyperbaric oxygen should treat as soon as possible.

Diabetes: Hyperbaric oxygen stimulates the pancreas to secrete insulin to lower blood sugar. Especially, the most obvious effect of Hyperbaric Oxygen for this disease is to treat complications of the disease such as necrotic ulcers in the feet, arteriosclerosis, and vision loss.

Complications due to radiation therapy in cancer patients

Hyperbaric oxygen therapy stops the process of soft tissue necrosis (usually ulcers in the maxillofacial region and sacrum), osteonecrosis (common in bones). jaw) and enhanced nourishment to help injuries recover quickly.

On the other hand, hyperbaric oxygen therapy for sale also has the effect of constricting blood vessels, increasing the amount of oxygen to nourish damaged areas in the bladder and colon, thereby reducing and alleviating the symptoms of blood in urine and bowel movements. blood in these patients.

Nervous breakdown, body weakness: High-pressure oxygen helps the body recover quickly after intense mental and physical work; after severe illness, after prolonged fatigue, after surgery…etc.

Oxygen therapy for home is an emergency response that must initiate as soon as possible. Due to the physical reduction in the size of the gas bubbles as a result of the increased ambient pressure, the blood flow releases more quickly.

In addition, damage mechanisms in the brain and spinal cord stops and repairs processes are set in motion at the same time. The duration of the first treatment can last several hours. This often follows by a series of weeks of therapy.

Who benefits from hyperbaric oxygen therapy?

Oxygen therapy for home is mainly good to use in the following situations:

• Carbon monoxide ("flue gas") or cyanide gas poisoning
• Decompression sickness ("diving accident", air embolism)
• Severe, life-threatening infections (e.g. Gas gangrene)
• Crush injury (extensive contusions in the context of severe accidents)
• Threatened grafts or replants with poor perfusion
• Rehabilitation after stroke
• Non-healing wounds (problem wounds, such as diabetic foot or "open legs" in the context of circulatory disorders)
• Late effects after radiation in the context of malignant tumors, chronic bone diseases
• Migraines that do not respond to other therapy , sudden hearing loss , acoustic trauma and tinnitus

How does Oxygen therapy for home work?

The effect of hyperbaric oxygen therapy bases on a variety of pathophysiological and physical effects:

• The plasma and not the blood cells are responsible for the transport of oxygen, which is why oxygen is particularly easy to get into areas of the body that poorly supply with blood. In addition, under these conditions, oxygen acts like a highly effective drug
• Damage mechanisms block and at the same time complex repair processes are set in motion
• The formation of new blood vessels stimulates by increased oxygen supply
• Toxins push out of their bond in the body

Carbon monoxide and cyanide gas poisoning

Oxygen transport or oxygen utilization is significantly impaired when inhaling smoke gas components (primarily carbon monoxide and cyanide) and can result in permanent damage to the brain or heart.

On the one hand, Oxygen therapy for home displaces the toxins from their bonds in the body, but at the same time prevents the development of consequential damage in the tissue - in this case especially in the brain. The treatment should carry out as quickly as possible, preferably within 4 hours, at least 3 units require.

Gas bubbles in the blood

If air bubbles get into the blood vessels (air embolism, decompression sickness after a diving accident), they block them and thus impede the oxygen supply. If you survive this serious situation, the lack of oxygen can cause severe, permanent damage, especially in the brain and spinal cord (paralysis, impaired consciousness, etc.).

Life-threatening infections

Various groups of germs, such as those that occur in gas fires, can massively damage the tissue. The Oxygen therapy for home can intervene directly in the metabolism of the germs and thereby prevent them from growing. At the same time, HBO supports the body's defense mechanisms.

Severe accidents can result in extensive crushing of tissue, which can result in the loss of extremities. Early HBO can save tissue from destruction.

Hyperbaric oxygen therapy: Threatened transplants and replants

After the replantation of limbs that have severed in accidents or after organ transplantation, the transplant or replant can die due to disturbed blood flow.

If the blood flow is disturbed in particular or if there is severe tissue swelling in the replant. Oxygen therapy for home can help to save the transplanted tissue.

Rehabilitation after stroke

Many scientific studies show that HBO can regenerate and rebuild cells in the central nervous system. This can support the regression of symptoms such as paralysis, speech and memory disorders.

The supplied oxygen also reaches poorly circulated or sore tissue and accelerates the healing process, for example in the case of diabetic feet or circulatory disorders. The Oxygen therapy for home lasts about 2 ½ hours per therapy unit and carries out 30 times or more depending on the course.

Late effects after radiotherapy

In the course of radiotherapy (e.g. after prostate cancer or rectal cancer or tumors in the mouth, jaw and face area), not only the malignant tumor damages, but also the surrounding healthy tissue.

Due to the higher oxygen concentration in the blood and the greater "range" of oxygen transport, the affected tissue can supply with oxygen with the help of HBO, which unfolds its medicinal effect. New cells form, tissue regenerates, open areas heal.

This also relieves pain and stops bleeding. Depending on the severity of the damage, 30 to 60 treatments of 2 ½ hours each require.

Oxygen therapy for home: bone and bone marrow diseases

In the case of inflammation of the bone marrow, injuries to the bone that are difficult to heal, the periosteum or accumulation of fluid in the bone marrow, HBO increases the supply of nutrients and oxygen to the conjunctival tissue, which is otherwise difficult to access.

Defense cells activate, water retention (edema) reduces through points of attack on the vessels. This allows fistulas to heal and reduces pain. The duration of treatment varies and depends on the individual clinical picture.

Hearing loss, tinnitus, acoustic and acoustic trauma

The Oxygen therapy for home increases the supply of oxygen to the sensory cells in the inner ear by a factor of 4 to 6. Treatments are given about 10 to 15 times for 90 minutes each to restore hearing or reduce ringing in the ears.

Although the increased oxygen supply for the sensory cells in the inner ear can be proven without a doubt, the success of the therapy is difficult to predict in individual cases, especially in the case of tinnitus. Therefore, before HBO for tinnitus, all other therapeutic measures should exhaust or at least take place in parallel with HBO.

How does hyperbaric oxygen therapy work?

With Oxygen therapy for home you are in a hyperbaric chamber with "normal" breathing air. Depending on the disease, the pressure is 2 to 4 times normal pressure. In this environment, you will supply with pure oxygen via a mask. The hyperbaric chambers are spacious, so feel free to bring a book, but electronic devices are not allowed.

HBOT is not recommended if you suffer from the following conditions:

• Untreated bronchial asthma, severe COPD
• tuberculosis
• Heart diseases (cardiac arrhythmias, cardiac insufficiency , untreated high blood pressure )
• Seizures that are not stable with medication (e.g. epilepsy )
• Acute infections, fever (exception: gas gangrene)
• Psychiatric disorders (e.g. schizophrenia , certain anxiety disorders )

What else you need to know?

• In pregnant patients, Oxygen therapy for homecan and must be good to use as a life-saving immediate measure for acute indications. In non-life-threatening situations, however, HBOT should avoid during pregnancy.

The pressure equalization in the middle ear must be possible. Otherwise damage to the eardrum and middle ear can occur. An examination by an ear, nose and throat specialist is therefore recommended before treatment.

Did you know that you can access hyperbaric chambers near me with the appearance of a capsule, large or small, where the supply of oxygen increases enormously and thus enhances the healing effect? Yes, it may sound like a science fiction movie, but it is a reality that has existed for decades.

There are even "oxygen bars" and some sports or beauty centers offer treatments in a hyperbaric chamber with the excuse that breathing pure oxygen increases performance or helps reduce wrinkles.

When is hyperbaric medicine necessary?

There are some diseases, such as diabetes, that cause less oxygen to reach the cells. And others even interrupt certain mechanisms of the body.

The oxygen in hyperbaric chambers near me created inside the hyperbaric chamber. Moreover, it can help recover physiological functions that slow down. It can also act as a drug against the problems caused by the lack of oxygen.

What is hyperbaric chamber used to treat?

Decompression accidents in diving or carbon monoxide poisoning problems (after a fire, due to poor combustion of a stove...).

It is also useful against sudden deafness, diabetic foot and other healing problems, chronic infections or infections that destroy tissues.

Healing poorly or slowly can hide a disorder

And, if you are receiving radiotherapy, it helps to preserve the healthy area next to the affected area.

Moreover, the application of hyperbaric oxygen therapy in sports is something that has become very popular in recent years. At the end of this article we will mention the reason for this, and the benefits it brings to athletes.

How does the hyperbaric chambers near me work?

The pressure developed inside the hyperbaric chamber is up to three times greater than atmospheric pressure. Thanks to this, up to 23 times more oxygen reaches us than usual. It is a non-invasive and painless method.

Moreover, under these conditions, the lungs can hold much more oxygen than would be possible by breathing pure oxygen at normal air pressure.

When the blood carries this extra amount of oxygen throughout the body, it helps fight bacteria and stimulates the release of substances called 'growth factors' and 'stem cells', which promote healing.

What does the session in the hyperbaric chambers near me consist of?

A session inside the hyperbaric chamber has the following steps:

Moreover, when the patient/person arrives, they are given cotton clothing to avoid possible accidents and the formation of sparks.

In the United States the session usually lasts 90 minutes, on the other hand in Europe and specifically in Spain it is more difficult to find HM centers that work during those times, and the usual thing is 60 minutes.

During the first 15 minutes inside the chamber, a phase known as pressurization. The pressure increases and, so that the ears do not hurt. A series of exercises must be done. Once the desired pressure reaches, the iso-pressure phase passes. And once the session is over, the hyperbaric chambers near me depressurize.

What is a pressure chamber?

A pressure chamber or oxygen chamber is a saturation (treatment) of oxygen under high pressure. Moreover, the procedure of hyperbaric oxygenation has a positive effect on changes in the body and has a healing effect.

What are the indications for treatment in a pressure chamber?

• Elimination of oxygen deficiency in organs and tissues
• Improving metabolic processes in the body, reducing pulmonary fibrosis after covid-19 disease
• Activation of detoxification
• Strengthening immunity

What does the oxygen chamber treat?

• Vascular and heart diseases
• Disorders of the gastrointestinal tract
• Poisoning by combustion products
• Hyperbaric chambers near meaccelerates wound healing in obstetric practice, gynecology, plastic surgery
• Post-Coptic rehabilitation

What are the contraindications for oxygen treatment?

• Epilepsy
• Severe hypertension
• SARS, inflammation of the nasopharynx and middle ear
• Individual hypersensitivity to oxygen
• Claustrophobia

What is hyperbaric oxygen therapy?

Hyperbaric oxygen therapy is a method of using pure (high-concentration) oxygen at high pressure to treat diseases. Moreover, this therapy has been widely deployed in countries with developed economies and medicine.

This is a rare method of using qi to cure diseases and is highly effective. Hyperbaric oxygen uses to treat decompression caused by scuba diving (diver's disease).

In addition, this hyperbaric chambers near me is also useful in the treatment of serious infections, air bubbles in the blood vessels (caused by decompression sickness), skin ulcers that take a long time to heal due to many causes such as radiation, cancer, or diabetes. Disconnect the road.

Moreover, in the hyperbaric oxygen chamber, the pressure of the air increases to 3 times of normal. At this time, the patient's lungs can absorb more oxygen. The blood carries this oxygen throughout the body, helping to fight bacteria, stimulate the release of stem cells and promote healing.

Benefits of this treatment

Many people mistakenly believe that treatment with hyperbaric chambers near me therapy will completely cure the disease. However, this therapy has not been shown to be curative or effective in treating autism, cancer, diabetes, depression, etc.

That's not to say that completely negates the benefits of this treatment. This method is not only therapeutic, but also nursing for the patient. At the same time, the therapy also increases the amount of oxygen in the blood, temporarily restoring tissue function, to promote healing and fight infection. Moreover, this treatment method is very safe for newborns and the elderly.

Types of high-pressure oxygen chambers

Currently, the treatment chamber by this method divides into two types: single-site and multi-site hyperbaric chambers near me. However, these types of chambers have the same function. The only difference is the capacity of the dedicated chambers.

What diseases does the hyperbaric oxygen chamber support?

Long-healing open wounds: These wounds can cause by infection, clogged arteries or paralyzed people who have to lie down for a long time, causing ulcers and in many cases, the cause is unknown. Moreover, Hyperbaric oxygen will help these wounds stop necrosis, reduce edema, exudate, skin tissue grows quickly and heal easily.

In orthopedic trauma: Treatment with hyperbaric oxygen has a nourishing effect, limiting wound edema. Not only that, this therapy also helps to avoid causing infections, especially anaerobic infections.

Moreover, at the same time, the above method also supports bones, skin patches, fast-healing joints and surgical and trauma areas for early recovery. Furthermore, hyperbaric chambers near me is essential in the pre- and post-operative period for patients with poor blood sugar levels, heart disease and diabetes.

Background

Te  coronavirus  disease  2019  (COVID-19)  pandemic has resulted in a growing population of individuals who experience a wide range of long lasting symptoms after recovery from the  acute  illness,  referred to by  several terms,  including  “post-COVID  conditions”  and  “long COVID.” Te fve most common symptoms recognized post-COVID are fatigue (58%), headache (44%), cognitive impairment (27%), hair loss (25%), and dyspnea (24%) [1]. Two main biological sequelae of COVID-19 play roles in the pathogenesis of long COVID. Te frst is hyper- coagulability  state  characterized  by  increased  risk  of small- and large-vessel occlusion  [2]. Te second is an uncontrolled   continuous   infammatory   response   [3]. Microinfarcts   and   neuroinfammation   are   important causes of brain hypoxia and can be responsible for the chronic unremitting neurocognitive  decline in patients with  long  COVID  [4].  One  of the  options  to  reverse hypoxia,  reduce  neuroinfammation,  and  induce  neu- roplasticity  is  hyperbaric  oxygen  therapy  (HBOT)  [5].

In this article, we present the frst case report of previ- ously healthy, athletic individual who sufered from long- standing   post-COVID   syndrome   treated   successfully with HBOT.

Case presentation

A  55-year-old  previously  healthy  Caucasian  man  suf fering  from  persistent  unremitting  symptoms  of  long COVID attended our clinic for evaluation. Te clinical presentation included memory problems, worsening of multitasking  abilities,  fatigue,  low  energy,  breathless- ness, and reduced physical ftness, which all started after acute SARS-CoV-2 infection diagnosed 3 months before. He  initially  developed  high-grade  fever  without  chest pain, cough, or shortness of breath, on 21 January 2021. He was admitted to hospital because of dehydration on 30 January 2021 and was diagnosed with COVID-19 by reverse-transcription  polymerase  chain  reaction  (RT- PCR). During the hospital stay, he developed acute res- piratory  syndrome  due  to  pneumonitis  and  required supportive treatment with high-fow oxygen for 1 week. He was discharged from hospital on 16 February 2021. At discharge, he was stable with normal oxygen and no neurological defciencies were noted on physical exami- nation. In addition, 6 weeks after being diagnosed with COVID-19, he developed a pulmonary embolus and was treated with rivaroxaban. Prior to the SARS-CoV-2 infec- tion, he had been a healthy, high-functioning, and ath- letic individual.

Te baseline evaluation done at our clinic, 3 months after the acute infection, included brain magnetic reso- nance imaging (MRI) with perfusion and difusion tensor imaging (DTI), computerized neurocognitive evaluation, cardiopulmonary exercise test  (CPET),  and pulmonary function tests.

At  baseline,  the  patient complained  of shortness  of breath with exercise as well as difculties with memory and multitasking that started after his COVID-19 illness.

Physical and neurological examination was normal. Brain MRI  evaluation  demonstrated  reduced  perfusion  that correlated with the cognitive decline as detailed below. He was referred to hyperbaric oxygen therapy (HBOT) that  included  60  sessions,  5  days  per week.  Each  ses- sion included exposure to 90 minutes of 100% oxygen at 2  atmosphere  absolute with  5-minute  air breaks  every 20 minutes.

Te patient started his frst HBOT on  19 April 2021 and fnished on 15 July 2021 without any signifcant side efects. After the frst fve sessions, he reported that his breathing had started to improve and that he no longer had  muscle  aches  after  exercise. After  15  sessions,  he noted less fatigue and an improvement in his previous low energy. After 20 sessions, he noticed that his breath- ing and exercise capacity had returned to his capacity pre-SARS-CoV-2 infection, returning to running moun- tain trails. Additionally, he noted that his memory and multitasking ability returned to his pre-COVID-19 levels.

Te baseline brain MRI, prior to the HBOT, showed two small foci of signal alterations in the right and left parietal regions suggestive of early small vessel disease. In addition, there was a global decrease in the brain per- fusion. As detailed in Fig. 1 and Table 1, re-evaluation after HBOT (done 4 weeks after the last HBOT to avoid any potential intermediate efect) revealed a signifcant increase in brain perfusion. Tables 2 and 3 present the improvements  in  the  brain  microstructure  as  demon- strated by MRI–DTI.

Neurocognitive assessment was done using NeuroTrax full  computerized  testing  battery  to  measure  diferent aspects of brain function, such as memory, information processing speed, attention, and executive function, was done before and after HBOT. Te post-HBOT neurocog- nitive testing showed signifcant improvement in global memory with the most dominant efect being on nonver- bal memory, executive functions, attention, information procession speed, cognitive fexibility, and multitasking. Table 4 summarizes the pre- and post-HBOT scores in the diferent cognitive domains.

Physical capacity was evaluated by maximal cardiopul- monary exercise test (CPET) conducted on a COSMED treadmill using the Boston 5 protocol. Table 5 presents the pre- and post-HBOT physiological evaluated param- eters. As detailed, there was a 34% increase in the VO2 max from 3083 to 4130 mL per minute after HBOT. Te forced vital capacity (FVC) improved by 44% from 4.76 to 6.87 L, the forced expiratory volume  (FEV) by 23% from 3.87 to 4.76 L, and peak fow measurement (PEF) by 20.2% from 10.17 to 12.22 L per second.

After receiving full information at the end of his post- HBOT evaluation, the patient signed an informed con- sent allowing publication of his medical information.

Fig. 1  Brain perfusion magnetic resonance imaging before and after hyperbaric oxygen therapy. The upper row represents brain perfusion 3 months after the acute infection, before hyperbaric oxygen therapy. The lower row represents the perfusion magnetic resonance imaging done after completing the hyperbaric oxygen therapy protocol.

Table 1  Brain  blood fow changes  before and after  hyperbaric oxygen therapy

Brain region                                    Pre-HBOT   Post-HBOT   Change in %
White matter right (R)	19.43	22.89	17.80
White matter left (L)	19.17	22.23	16
Gray matter R	32.34	38.6	19.40
Gray matter L	33.3	38.91	16.80
Primary gustatory cortex R	34.22	47.43	38.60
Lateral postcentral gyrus R	32.08	42.79	33.40
Superior temporal gyrus R	38.04	50.65	33.10
Supramarginal gyrus R	36.37	46.39	27.60
Anterior cingulate cortex L	40.16	50.61	26
Inferior frontal gyrus L	39.47	49.6	25.70
Inferior frontal gyrus (Broca’s	37.55	46.81	24.70
area) R
Medial frontal gyrus R	29.57	36.67	24

Discussion and conclusions

Here,  we  report  the  frst  case  of a  patient  with  long COVID with cognitive and cardiorespiratory symptoms treated successfully by HBOT. Following treatment, he showed  signifcant  improvements  in  brain  perfusion, white  matter  brain  microstructure,  and  cognitive  and cardiopulmonary function. Tis case report shows that HBOT has potential use for treatment of patients with long COVID who sufer from unremitting cognitive and physical functional decline.

Hypoxia plays an important role in the pathophysiol- ogy of long COVID. Systemic hypoxia could result from lung impairment, and organ-related hypoxia can develop because  of vascular  damage.  Persisting  lung  function

Table 2  Magnetic resonance imaging–difusion tensor imaging fractional   anisotropy   changes   before   and   after   hyperbaric oxygen therapy

Brain region                                  Pre-HBOT    Post-HBOT    Change in %
Superior fronto-occipital fasciculus L		0.44	0.48	7.52
Cingulum (hippocampus)	R	0.24	0.26	7.46
Superior corona radiata L		0.39	0.42	5.63
Body of corpus callosum		0.43	0.45	5.39
Cingulum (hippocampus)	L	0.23	0.24	4.59
Corticospinal tract L		0.37	0.38	3.49
External capsule L		0.36	0.38	3.23
Superior corona radiata R		0.43	0.44	3.21

Fractional anisotropy (FA) is a measure used to evaluate white matter fber   integrity, directionality, and order. A higher value of FA indicates better fber organization. DTI difusion tensor imaging

Table 3  Magnetic resonance imaging–difusion tensor imaging mean  difusivity  changes  before  and  after  hyperbaric  oxygen therapy

Brain region                                  Pre-HBOT    Post-HBOT    Change in %
Medial lemniscus R	1.3	1.24	4.72
Superior longitudinal fascicu- lus L	0.76	0.73	4.61
Medial lemniscus L	1.23	1.18	4.34
Superior corona radiata L	0.77	0.74	3.18
Superior fronto-occipital fasciculus L	0.75	0.72	3.14
Sagittal stratum L	0.83	0.81	2.51
Pontine crossing tract	0.76	0.75	2.35
Fornix L	1.01	0.99	2.06

Mean difusivity (MD) is a measure used to evaluate white matter fber density. A lower value of MD indicates a higher density. DTI difusion tensor imaging.

Table 4  Cognitive  scores  before  and  after  hyperbaric  oxygen therapy

Neurotrax	Pre-HBOT	Post-HBOT	Change in %
Global cognitive score	93.3	99.4	6.5
Memory	98.8	105.8	7.1
Nonverbal memory	96.2	114	18.5
Delayed nonverbal memory	105.6	113.6	7.6
Verbal memory	92.1	94.5	2.6
Delayed verbal memory	101.3	101.3	0
Executive function	101.2	112.6	11.3
Information processing speed	74.6	80.8	8.3
Attention	87.9	92.1	4.8
Motor skills	104	105.6	1.5

Table 5  Physiological  parameters  before  and  after  hyperbaric oxygen therapy

Cardiopulmonary exercise test
VO2 max (mL/min)	3083	4130	34
VO2max/kg (mL/min/kg)	31.5	42.4	34.6
Lactic threshold (mL/min)	2941	3439	16.9
Respiratory threshold (mL/min)	3103	4076	31.4
Metabolic equivalent of task	9	12.1	34.4
(MET)
Maximal heart rate (bpm)	155	164	5.8
VO2/HR (mL per beat)	19.9	25.2	26.6
Pulmonary function tests
FVC (L)	4.76	6.87	44.3
FEV1 (L)	3.87	4.76	23
PEF (L/s)	10.17	12.22	20.2

VO2max maximum rate of oxygen consumed during exercise, ml/min milliliter      per minute, VO2max/kg maximum rate of oxygen consumed during exercise       per kilogram, ml/min/Kg milliliters per minute per kilogram, MET metabolic           equivalent of task, bpm heartbeats per minute, VO2/HR rate of oxygen consumed per heart rate, FVC forced vital capacity, L liters, FEV1 forced expiratory volume,    PEF peak fow measurement, L/s liters per second.

impairment has been seen in patients who required sup- plemental  oxygen  during  acute  SARS-CoV-2  infection even 6 and 12 months after the acute infection [6]. Since brain functionality and regenerative capacity is sensitive to any decline in oxygen supply [7], long-term cognitive defcits correlate with the amount of oxygen needed to overcome the respiratory difculties [1]. With regard to organ-related ischemia, COVID-19 induced endothelial damage and hypercoagulation, which increases the risk of vascular dysfunction responsible for the high preva- lence of myocardial infarction, ischemic strokes, and pul- monary embolism [8]. In the presented case, the patient required supportive treatment with high-fow oxygen for 1 week during the acute illness, meaning he had sufered from systemic hypoxia with its consequent risk for long- term cognitive impairment due to anoxic brain damage. Moreover, 6 weeks after the acute infection, he developed a  pulmonary  embolus,  representative  of the  endothe- lial  dysfunction  with  additional  exposure  to  systemic hypoxia. In addition, as demonstrated by the brain perfu- sion MRI, he had microvascular-related perfusion defects that correlated with his neurocognitive decline.

HBOT involves the inhalation of 100% oxygen at pres- sures  exceeding   1  atmosphere  absolute   (ATA),  thus enhancing the amount of oxygen dissolved in the body tissues.  Even  though  many  of the  benefcial  efects  of HBOT can be explained by improvement of tissue oxy- genation, it is now understood that the combined action of hyperoxia and hyperbaric pressure triggers both oxy- gen- and pressure-sensitive genes, resulting in induction of regenerative processes including stem cell proliferation and  mobilization  with  anti-apoptotic  and  anti-infam- matory factors, angiogenesis, and neurogenesis  [9–12]. HBOT  can  induce  neuroplasticity  and  improve  cogni- tive function even years after the acute insult [13]. In the case presented of long COVID, HBOT improved cerebral blood fow to the malperfused brain regions (indicative of brain angiogenesis) and improved the integrity of brain microstructure (indicative of neurogenesis). Te correla- tion between the signifcant improvements demonstrated on brain imaging and the neurocognitive improvements indicates that most of the benefcial efects of HBOT are indeed related to its ability to induce neuroplasticity of the brain’s dysfunctional regions.

HBOT has been demonstrated to have benefcial efects on mitochondrial function, a crucial element of appropri- ate muscle function  [12]. HBOT can also increase the number of proliferating and diferentiating satellite cells as well as the number of regenerated muscle fbers, and promote  muscle  strength  [14].  Te  newly  intermittent repeated HBOT protocol was demonstrated to have the potential to improve lung function with respect to peak expiratory fow (PEF) and force vital capacity (FVC) [15]. In the presented patient, performance capacity of the car- diopulmonary system was evaluated using cardiopulmo- nary exercise test (CPET) and pulmonary function tests. HBOT induced a signifcant improvement of 34% in the maximal oxygen consumption capacity, an improvement of 34.4% in the maximal METs, and an increase of 16.9% in the lactic threshold. With regard to lung function, FVC was improved by 44.3%, and PEF by 20.2%. Tese meas- urable improvements correlated with the patient’s ability to regain his previous high athletic performance.

In this reported case, HBOT was initiated more than 3  months  after  the  acute  SARS-CoV-2  infection.  Even though the symptoms persisted till the HBOT was ini- tiated  and  signifcant  improvement  began  only  after HBOT was initiated, it is possible that at least some of the clinical improvement could have occurred without HBOT.  However,  the  abrupt  signifcant  improvement with full recovery after the chronic nature of the symp- toms, our understanding of the physiological efects of HBOT,  and  the  objective  measurements  done  on  this patient support the relation between the treatment and the improvements seen. As this is only a case report, fur- ther prospective clinical trials are needed to gain a bet- ter  understanding  of the  potential benefcial  efects  of HBOOT for patients with long COVID.

In summary, this article represents the first case report showing that long COVID can be treated with HBOT. Te benefcial efect of HBOT sheds additional light on the pathophysiology of this syndrome. As this is a sin- gle case report, further prospective randomized control studies are needed for the use of hyperbaric oxygen ther- apy in treating long COVID.

Abbreviations

HBOT: Hyperbaric oxygen therapy; MRI: Magnetic resonance imaging; DTI: Dif- fusion tensor imaging; VO2 max: Maximum rate of oxygen consumed during   exercise; CPET: Cardiopulmonary exercise test; HR: Heart rate; Bpm: Heart beats per minute; FVC: Forced vital capacity; FEV1: Forced expiratory volume; PEF:       Peak fow measurement.

Acknowledgements

Not applicable.

Authors’ contributions

AMB, ES, SE, and SK analyzed and interpreted the patient data regarding the     MRI, perfusion, and DTI. AMB and SE analyzed and interpreted the patient data regarding the cardiopulmonary and pulmonary function tests. All authors read and approved the fnal manuscript.

Funding

No funding was received.

Availability of data and materials

All data generated or analyzed during this study are included in this published article.

Declarations

Ethics approval and consent to participate

Not applicable.

Consent for publication

Written informed consent was obtained from the patient for publication of this case report and any accompanying images. A copy of the written consent is available for review by the Editor-in-Chief of this journal.

Competing interests

AMB, ZW, SK, MG, and UQ work for AVIV Clinics. ES works for AVIV Scientifc LTD. SE is a cofounder and shareholder at AVIV Scientifc LTD.

Received: 11 October 2021   Accepted: 21 January 2022, Published online:  15, February 2022

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