Graphene's Breakthrough in the Non-invasive Treatment of Cancer Has Aroused Widespread Attention in the Field of Global Medicine and Materials Science
Cancer treatment is recognized as the biggest problem in the medical area. Recently, the scientific research team of Yewang Technology and Nanjing Medical University discovered a new non-invasive cancer therapy based on graphene flexible devices. The results of nude mice experiments show that graphene far-infrared significantly inhibits metastatic, poor prognosis, and death in breast cancer. Malignant proliferation and metastasis of triple-negative breast cancer cells in nude mice with higher risk, without significant side effects.
Traditional cancer treatment methods include surgical resection, chemical, or high-energy radiation therapy, which can easily damage adjacent tissues and organs and have apparent side effects. The non-invasive non-invasive treatment of cancer with graphene is expected to open up new treatments for cancer patients in the future.
Based on long-term research on graphene special far-infrared, Professor Feng Guanping, the founder of China's graphene industry and chairman of Enwang Technology, joined the scientific team of Dr. Hu Ke and Dr. Tingting Yu from Nanjing Medical University to pioneer an individual non-invasive far-infrared tumor The new method, graphene far-infrared photothermal therapy, brings a new dawn to non-invasive treatment of cancer. It is expected to be applied to non-invasive treatment of tumors in the future.
The breakthrough in graphene for cancer
1. Graphene non-invasive treatment of tumors, non-invasive, no apparent side effects in the experiment
Researches have used graphene and carbon fiber devices to perform far-infrared radiation treatment of breast cancer cells. Compared with carbon fiber devices, far-infrared radiation generated by graphene devices shows more durable penetrating power. Based on the resonance effect, the special far infrared emitted by the graphene device is more easily absorbed by the body through the resonance effect, and it will not produce significant side effects while reaching the temperature conditions of warm treatment.
2. Significantly increase tumor cell apoptosis rate and reduce tumor cell metastasis and invasion ability.
Graphene's flexible electronic devices show good unique far-infrared generation ability after being energized. Its far-infrared radiation can more strongly induce breast cancer cells to undergo apoptosis, significantly inhibit the ability of breast cancer cells to form a monoclonal, and significantly reduce tumor cells. Ability to transfer and attack.
3. It can significantly inhibit tumor growth and prolong the survival time of the body.
The far-infrared radiation generated by the graphene device inhibited the occurrence of MDA-MB-231 breast cancer cell transplantation tumors and prolonged the survival time of tumor-bearing nude mice.
Graphene's non-invasive cancer treatment attracts full attention
Since the publication of research results on non-invasive cancer treatment of graphene, it has aroused widespread concern in the field of global medicine and materials science. Professor Chen House, a professor at the University of Illinois and former director of the Chicago Natural Rehabilitation Information Center, said: "Graphene flexible electronic devices are used as a new type of far-infrared generator for tumor treatment. Its high energy conversion rate and safety will be used in biomedical applications. It has great advantages. "
Scopus "Young Science Star" award winner, Professor Zhu Yanwu of the University of Science and Technology of China commented: "Infrared radiation generated by free electrons in graphene moving and driven by electric fields, and radiation generated by metals or other carbon materials It may have different characteristics, and further research on the electronic behavior in graphene is expected to show more productive physical phenomena and derive more applications. "
With the continuous development of medical technology and the rapid update of new materials, the disadvantages of traditional tumor treatment methods need to be changed. The medical community is continually looking for new forces to change this situation. When difficulties become apparent, there must be new ways to replace them. The development of highly effective, non-invasive, and non-invasive treatment strategies has become an important research topic in tumor treatment.
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