Can Hyperbaric Oxygen Therapy Be Used for Cancer Patients?

In 2011, Chris Francis, of Newport, Australia, underwent radiotherapy after having a small skin cancer removed from her shin. Not only did the treatment destroy the cancer cells, but also the surrounding tissue. According to Chris, ‘I had a great big hole in my leg. Just to stand up and clean my teeth and go back to bed was agony.’ Eventually, she was referred to a therapy that would improve her wellbeing forever.

In January, Chris went to Sydney’s Prince of Wales Hospital’s hyperbaric unit. It took six weeks of daily therapy and regular wound care until her ulcer was ‘looking really good’, and now it has all but disappeared. The main health concern that people believe hyperbaric oxygen therapy is used for is “the bends” or decompression sickness in divers. However, most of the patients undergoing hyperbaric therapy at hospital-based hyperbaric units across Australia are similar to Chris; with half of the patients at PoW being treated for damage to bone or soft tissue incurred during radiation therapy. Hyperbaric oxygen therapy is also used to improve the wellness of those with necrotising infections, carbon monoxide poisoning and Crohn’s disease.

While in normal air under water is 21% oxygen, for the treatment you sit or lie in a sealed chamber and breathe 100% oxygen at depths equivalent to 10-20 metres. Your lungs are saturated with oxygen while the increased atmospheric pressure drives the gas into your body’s tissues much more quickly than under normal atmospheric conditions. Therefore, your tissues can get the blood and oxygen it needs to heal to begin the healing process.

Associate professor Mike Bennett, a doctor at the PoW unit and president of the South Pacific Underwater Medicine Society, explains that for some people with cancers in the pelvic area, for example, and have suffered tissue damage during their treatment, ‘their problem is just unremitting and the only solution until recently [has been] very major, radical surgery – removing the bowel, removing the bladder, having all sorts of bags and tubes permanently attached to your tummy.’

‘Hyperbaric has turned around some of these people’s lives,’ he notes. ‘It allows the tissue to repair itself, so the bowel or the bladder or whatever’s damaged, over a period of weeks to months, slowly repairs itself and normal function, or close to normal function, is restored.’ Chris enthuses, ‘Just to be able to walk outside and hang the washing on the line, do housework – I never thought I’d enjoy that, but I’m just enjoying all that. Being free.’

Categories: cancer, chris, hyperbaric, hyperbaric oxygen, Hyperbaric Oxygen Treatment, normal, normal function, Oxygen, oxygen therapy, The Bends, therapy

Need a New Diabetes Treatment? Try Deep-Sea Diving!

Sitting in a deep-sea diving tank, combined with injections of your own stem cells, has emerged as a possible new treatment for type 2 diabetes, the most common form of the condition. This is according to a trial at Miami University, which found that patients were able to stop using insulin or metformin after a combination of bone-marrow stem cell injections in the pancreas, and five one-hour sessions of hyperbaric oxygen treatment.

According to the scientists, who published their work in the journal Cell Transplantation, the combination of stem cell therapy and hyperbaric oxygen treatment improves patients’ wellbeing, because the high levels of oxygen in the chamber boosts the activity of the stem cells. This helped the stem cells to repair the cells in the body that produce insulin, which thereby guards your wellness against the need for diabetes medications, such as insulin and metformin.

The new treatment is being investigated at a number of centres across the world. It involves extracting stem cells from the patient’s bone marrow under local anaesthetic and injecting them into the pancreas, after which the patient sits in a highly pressurised chamber, causing them to breathe in three times as much oxygen as they would normally. Hyperbaric oxygen treatment is currently used to help divers who have surfaced too quickly and have the ‘bends’ (where bubbles of nitrogen form in the blood).

For the Miami trial, 25 patients, who were taking either metformin, insulin or both, had five hour-long sessions of hyperbaric oxygen treatment before and after the injections, over the course of a week. The results were that four patients were able to stop using their insulin after the combined treatment, whilst another fifteen could gradually reduce their insulin over the following year. When it came to metformin, ten participants were also able to stopped or reduce their dose.

Dr Matthew Hobbs, Head of Research at Diabetes UK, commented on the use of stem cells in diabetes research: ‘Although any stem cell therapies for type 1 and type 2 diabetes are many years away from widespread clinical use, researchers agree that stem cells hold great potential to treat and perhaps even cure a range of different health conditions. Stem cell research is an exciting area of science that, in the long term, could help us bring about a future without diabetes.’

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Need a New Diabetes Treatment? Try Deep-Sea Diving!

Categories: Hyperbaric Oxygen Treatment, Research, stem cells