(Non-healing, diabetic foot ulcer)
HBOT improves wound healing in non-healing wounds and diabetic foot ulcers by enhancing oxygenation, promoting angiogenesis (formation of new blood vessels), boosting immune function, and stimulating tissue repair. It can help facilitate the healing process and prevent complications in these challenging wounds.
HBOT plays a crucial role in burn care by enhancing tissue oxygenation, reducing inflammation, and promoting wound healing. It can improve outcomes in severe burns, minimize tissue damage, and reduce the risk of infection.
HBOT promotes tissue healing, reduces inflammation, and mitigates the effects of radiation by increasing oxygen levels in irradiated tissues. It can be beneficial for conditions such as radiation cystitis, osteoradionecrosis, and radiation-induced soft tissue injuries.
(Severe)
HBOT enhances the body’s immune response, increases oxygen levels in infected tissues, and aids in the elimination of bacteria. This can help combat severe skin and bone infections that are difficult to treat with antibiotics alone.
(Complete hearing loss that occurs suddenly and without any known cause)
HBOT can improve hearing outcomes in cases of sudden sensorineural hearing loss by enhancing oxygen delivery to the inner ear, reducing inflammation, and promoting tissue repair.
HBOT improves the survival of skin graft flaps by increasing blood vessel formation, enhancing tissue oxygenation, and supporting the healing process. It can be particularly valuable when compromised blood supply puts the graft at risk of necrosis.
(When sudden and painless in one eye due to blockage of blood flow)
HBOT can enhance oxygen delivery to the affected eye, potentially improving blood flow, reducing tissue damage, and supporting visual recovery in cases of sudden painless vision loss due to blockage of blood flow (e.g., central retinal artery occlusion).
HBOT assists in the treatment of crush injuries by improving tissue oxygenation, reducing swelling and inflammation, and promoting tissue repair. It helps mitigate the effects of tissue compression and supports the healing process.
(Severe anemia when blood transfusions cannot be used)
HBOT delivers high levels of oxygen to the tissues, promoting oxygenation and supporting cellular metabolism. It can be beneficial for individuals with severe anemia who cannot receive blood transfusions, helping to improve tissue oxygenation and promote healing.
HBOT helps by increasing the amount of oxygen dissolved in the plasma, reducing the size of air or gas bubbles, and promoting their elimination. This is particularly important in conditions such as arterial gas embolism and decompression sickness.
HBOT is a cornerstone therapy for gas gangrene, a severe infection caused by certain bacteria. HBOT creates an oxygen-rich environment that inhibits the growth of anaerobic bacteria responsible for the infection. It aids in killing bacteria, reducing toxins, and promoting tissue healing.
HBOT rapidly reduces the presence of carbon monoxide in the bloodstream by increasing the oxygen-carrying capacity of red blood cells. This helps to eliminate carbon monoxide and restore normal oxygen levels, preventing further damage to organs and promoting recovery.
(Non-healing, diabetic foot ulcer)
HBOT improves wound healing in non-healing wounds and diabetic foot ulcers by enhancing oxygenation, promoting angiogenesis (formation of new blood vessels), boosting immune function, and stimulating tissue repair. It can help facilitate the healing process and prevent complications in these challenging wounds.
HBOT plays a crucial role in burn care by enhancing tissue oxygenation, reducing inflammation, and promoting wound healing. It can improve outcomes in severe burns, minimize tissue damage, and reduce the risk of infection.
HBOT promotes tissue healing, reduces inflammation, and mitigates the effects of radiation by increasing oxygen levels in irradiated tissues. It can be beneficial for conditions such as radiation cystitis, osteoradionecrosis, and radiation-induced soft tissue injuries.
(Severe)
HBOT enhances the body’s immune response, increases oxygen levels in infected tissues, and aids in the elimination of bacteria. This can help combat severe skin and bone infections that are difficult to treat with antibiotics alone.
(Complete hearing loss that occurs suddenly and without any known cause)
HBOT can improve hearing outcomes in cases of sudden sensorineural hearing loss by enhancing oxygen delivery to the inner ear, reducing inflammation, and promoting tissue repair.
HBOT improves the survival of skin graft flaps by increasing blood vessel formation, enhancing tissue oxygenation, and supporting the healing process. It can be particularly valuable when compromised blood supply puts the graft at risk of necrosis.
(When sudden and painless in one eye due to blockage of blood flow)
HBOT can enhance oxygen delivery to the affected eye, potentially improving blood flow, reducing tissue damage, and supporting visual recovery in cases of sudden painless vision loss due to blockage of blood flow (e.g., central retinal artery occlusion).
HBOT assists in the treatment of crush injuries by improving tissue oxygenation, reducing swelling and inflammation, and promoting tissue repair. It helps mitigate the effects of tissue compression and supports the healing process.
(Severe anemia when blood transfusions cannot be used)
HBOT delivers high levels of oxygen to the tissues, promoting oxygenation and supporting cellular metabolism. It can be beneficial for individuals with severe anemia who cannot receive blood transfusions, helping to improve tissue oxygenation and promote healing.
HBOT helps by increasing the amount of oxygen dissolved in the plasma, reducing the size of air or gas bubbles, and promoting their elimination. This is particularly important in conditions such as arterial gas embolism and decompression sickness.
HBOT is a cornerstone therapy for gas gangrene, a severe infection caused by certain bacteria. HBOT creates an oxygen-rich environment that inhibits the growth of anaerobic bacteria responsible for the infection. It aids in killing bacteria, reducing toxins, and promoting tissue healing.
HBOT rapidly reduces the presence of carbon monoxide in the bloodstream by increasing the oxygen-carrying capacity of red blood cells. This helps to eliminate carbon monoxide and restore normal oxygen levels, preventing further damage to organs and promoting recovery.
19-LG-01, Level B1, Block E, Kompleks Komersil Akasa, Jalan Akasa, Akasa Cheras Selatan, 43300 Seri Kembangan, Selangor
Opening Hours:
Monday to Friday (8am – 5pm)
Saturday (8am – 1pm)