Patients’ views

“Going in the chamber helps my general well being”
Marie, multiple sclerosis, September 2013

“I go to the chamber for treatment every week.  I cannot say what it does for my condition, but if I don’t go I know I haven’t been”
John, MS (Multiple Sclerosis), May 2013

 

My name Nick Noble and I came off my motorbike on 15th September 2014 and broke my tibula, fibula and also had a spinal fracture.

I was fitted with an external fixator on my leg to align the bones and then I was told it was just a matter of time.

Being what I am, I needed to speed up my recovery! I did some research on the internet for some sort of alternative treatment/aid and discovered Chedgrave MS Therapy who have a chamber where you can breathe oxygen under pressure which can help heal br…

Using  Oxygen treatment to treat wounds and diabetic ulcers

Wound healing
Tissue repair, new blood vessel formation, resistance to infection and white blood cell bacterial killing are oxygen sensitive responses essential to normal wound healing.  There is more information about this on this Undersea & Hyperbaric Medical Society page.

Normal wound healing proceeds through an orderly sequence of steps involving:

  • control of infection
  • decreasing the inflammatory response around the wound
  • regeneration of the normal skin tissue matrix
  • new blood vessel formation
  • new skin formation

Several of these steps are critically dependent upon adequate blood supply and oxygen availability. The end result of this process is sustained healing.

Problem or chronic wounds are wounds that have failed to proceed through this orderly sequence of events and have failed to establish a sustained healed structure to the skin and tissues that were previously damaged under the skin.

This failure of wound healing is usually the result of one or more local wound or whole body factors inhibiting the normal tissue response to injury. These factors include persistent infection, poor blood supply, low oxygen (hypoxia) and cellular failure.

The hypoxic nature of all wounds has been demonstrated and the hypoxia, when increased (meaning even less oxygen), correlates with impaired wound healing and increased rates of wound infection.

Local oxygen tensions in the vicinity of the wound are approximately half the values observed in normal, non-wounded tissue. The rate at which normal wounds heal has been shown to be oxygen dependent.

The net result of serial oxygen exposures is:

  • improved immune response
  • clearance of infection
  • enhanced tissue growth and blood vessel formation

This all leads to progressive improvement in local tissue oxygenation and healing of problem wounds.

Diabeltic ulcers and blood circulation
Diabetic ulcers are chronic, complex, or problem wounds of the legs and feet in people with diabetes.

Diabetic ulcers require a healthy, oxygenated wound bed to heal. A lack of sufficient oxygen (hypoxia) in the wound bed slows or stops the normal healing process and can lead to amputation.

Oxygen helps repair wounds and enhance healing by improving blood circulation, encouraging the formation of new capillary blood vessels (angiogenesis) and supplying more oxygen to tissue in the wound bed. Oxygen also helps kill the anaerobic bacteria that cause some of the worst infections in chronic diabetic wounds.