The Potential Impact of Biofield Treatment on Human Brain Tumor Cells: A Time-Lapse Video Microscopy

The work impact of biofield treatment on human brain tumor cells has been published in an International peer-reviewed journal entitle “Journal of Integrative Oncology” under omics International publishers. Glioblastoma (GBM) is the most common and deadliest primary brain tumor in adults, with current treatments having limited impact on disease progression. Therefore the development of alternative treatment options is greatly needed. The technique two time-lapse video microscopy technique used for the assessment of brain tumor progression is a very scientific and well established. This unique technique is used in various fields of cancer and cell biology for assessment of cell division, and death. Presently, many options are available for the treatment of GBM such as surgical techniques, radiotherapy, chemotherapy and electrochemotherapy. Apart from commonly used chemotherapeutic agents (such as nitrosoureas derivatives, platinum based drugs, and taxol) and gene therapy, as a novel therapeutic modality frequently being used in cancer. However, chemotherapy causes various side effects such as bone marrow cells damage, amenorrhea, alopecia, sexual dysfunction and adversely affects the quality of life of patients. So, the world cancer victims are looking some alternative approach to mitigate the disease without producing any fatal effects. This is the experiment successfully performed by Mr. Trivedi through his own inherent unique biofield energy treatment to both the normal brain cells as well as brain tumor cells. Overall, the study outcomes indicates that biofield treatment has increased the death rate of GBM brain tumor cells by 41% as compared to the untreated GBM cells. This is obviously beneficial for brain tumor patients. Besides this, normal brain cultured cells treatment reported with 64% reduced cell death rate as compared to the normal brain cells. Based on the obtained results, it is expected that biofield treatment could be novel, cost effective and an alternative advanced strategy towards brain tumor patients.

For more details please go through the link http://dx.doi.org/10.4172/2329-6771.1000141

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