How is molecular hydrogen inhalation therapy good for cancer treatment?
How is molecular hydrogen inhalation therapy good for cancer treatment?
If you do hydrogen inhalation therapy for side effects of chemotherapy...
Chemotherapy or radiation therapy generates a large amount of active oxygen, so various types of side effects appear. Over the past 18 months, I have achieved results beyond my expectations in the case of simultaneous photobiomodulation (PBM) therapy and molecular hydrogen therapy.
Even considering the effect of systemic PBM therapy on the benefits of blood circulation and nitrogen oxide (NO) production, in the case of systemic PBM therapy alone, we generally found rapid improvement when molecular hydrogen inhalation therapy was performed at the same time.
The common symptoms of side effects of about 19 patients receiving chemotherapy are sore mouth, inability to eat, digestive function, insomnia, and pain.
As a result of simultaneous PBM therapy and molecular hydrogen inhalation therapy, all 19 patients showed an average of 3 to 5 days faster improvement compared to the case of systemic PBM therapy alone.
As the symptoms of anti-cancer side effects were remarkably recovered, one of the people who received 3 sessions had 2 cancer cells seen on CT reduced by about 60% (complaining of bone pain due to terminal cancer) and one showed more than 90 percent less cancer cells in three organs.
It varies from person to person, but with an average of 10 to 30 times, this result can be said to be a huge event in reality.
Although PBM therapy has already been proven in many studies, including capillaries and blood circulation, cell regeneration, nitrogen oxide production, and cell-to-cell signaling and enzymatic action, more research is needed on how this explosive synergy occurs with systemic PBM therapy and simultaneous molecular hydrogen inhalation.
It seems that sophistication such as light output and spectrum, irradiation time, amount of light per irradiation area, hydrogen content, combination with oxygen, and suction time should be premised.
If the oral mucosa is broken, it means that it becomes inflamed. As for this inflammation, tissue capillaries are revived by molecular hydrogen inhalation and PBM irradiation, oxygen supply to cells is smooth, and tissues are restored as blood circulates in the mouth. If so, it can be assumed that other organs will do the same.
This shows that the role of hydrogen in reducing active oxygen, which was excessively generated by chemotherapy and radiation treatment, is clear.
In the future, if these two treatments are performed at the same time, quantitative analysis and research are urgently needed on what specific effects on tissue cells lead to this effect, and whether there are any more effective means or methods regardless of stage for various cancer species.
If this study is conducted properly, it will be able to develop greatly as one of the methods of cancer treatment.
The bottom line is that molecular hydrogen inhalation therapy is powerful and has a very fast antioxidant effect, and it is clear that it is a means to expand the scope of disease treatment even further.
Clinical Trials and Papers to Mitigate Anti-cancer Side Effects
Among anticancer drugs, cisplatin is the most frequently used anticancer drug, but it is known to be toxic with high side effects.
An experiment at Kawasaki City's Japanese Medical University showed that mice administered this cisplatin anticancer drug could inhale hydrogen gas in the air for 10 days to suppress the decline in survival rate due to kidney failure. On the other hand, hydrogen gas does not inhibit the anticancer action of cisplatin, suggesting the possibility of clinical application of hydrogen gas to suppress future anticancer side effects.
https://www.ncbi.nlm.nih.gov/pubmed/19148645
(Dept. of Biochemistry and Cell Biology at the Institute of Aging Science, Japan Medical University, Kawasaki City)
Anti-inflammatory and anti-tumor effects of hydrogen gas…
Molecular hydrogen inhalation therapy (H2) has the advantage of being used as a new antioxidant in preventive and therapeutic applications. Molecular hydrogen inhalation plays a causal role in suppressing tumor cell proliferation, invasion, and metastasis. Molecular hydrogen selectively inhibits excessive active oxygen species (ROS) and is becoming a new antioxidant with anti-cancer drugs, antioxidants, anti-inflammatory drugs, and anti-allergic effects.
(Chinese Tianjin Medical University General Hospital, June 26, 2018)
Hydrogen gas is a side effect protector of radiation therapy...
Molecular hydrogen inhalation (H2) selectively reduces hydroxyl radical (OH) and peroxynitrite (ONOO-) for antioxidant activity. This study demonstrated the radiation protection effect of hydrogen gas in vivo. It was used in clinics to improve the prognosis of patients treated with radiation for liver tumors.
(Beijing Pucheng Road, Naval General Hospital, September 14, 2013)
Recent Directions in Hydrogen Medicine : The Potential of Molecular Hydrogen for Prevention and Treatment…
Persistent oxidative stress is one of the main causes of most lifestyle-related diseases, cancers, and aging processes. This study determined that molecular hydrogen inhalation (H2) has the potential as a strong antioxidant in preventive and therapeutic applications.
(Dept. of Biochemistry and Cell Biology, Kosugimachi Medical School, Nakahara-ku, Japan, July 17, 2011)
Hydrogen inhalation effect improves immune function in cancer patients...
It is the fact that PD-1 extruded CD8+T cells in peripheral blood of cancer patients are related to poor cancer prognosis. The results of this study demonstrated that hydrogen inhalation improves the prognosis of cancer patients by reducing the proportion of late-stage PD-1+CD8+T cells.
(Tamana Health and Medical Center, Japan, October 2018)
Hydrogen inhalation reduces cytotoxic oxygen gas, which acts as an antioxidant for treatment...
Persistent oxidative stress is one of the causes of many common diseases, including cancer. This study shows that hydrogen (H2) has a role as an antioxidant in preventive and therapeutic applications.
(the Institute of Biochemistry and Cell Biology Development and Aging Science, Graduate School of Medicine, Japan, May 7, 2007)
Hydrogen inhalation targets SMC3 to suppress lung cancer progression...
Lung cancer is one of the most common fatal malignancies. The prognosis is poor due to high metastatic potential and drug resistance. In this study, molecular hydrogen inhalation therapy, a powerful treatment for lung cancer, was applied to the treatment of lung cancer and proved that lung cancer progression was suppressed through SMC3, a chromosome condensation regulator provided.
(May 29, 2018, Hebei Medical University Hospital, China)
https://map.naver.com/v5/search/%ED%9C%B4%EB%9D%BC%EC%9D%B4%ED%8A%B8
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