Investigation Of Bladder Cancer, Breast Cancer, Colorectal Cancer, Endometrial Cancer, Kidney Cancer, Leukemia, Liver, Lung Cancer, Melanoma, Non-Hodgkin Lymphoma, Pancreatic Cancer, Prostate Cancer, Thyroid Cancer And Non Melanoma Skin Cancer Using Synchrotron Technology For Proton Beam Therapy: An Experimental Biospectroscopic Comparative Study

Volume 1 - Issue 1

Alireza Heidari*

Received: February 22, 2018;   Published: March 06, 20188

DOI: 10.32474/TRSD.2018.01.000102

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Abstract

In the current study, we have experimentally and comparatively investigated and compared malignant human cancer cells and tissues such as Bladder Cancer, Breast Cancer, Colorectal Cancer, Endometrial Cancer, Kidney Cancer, Leukemia, Liver, Lung Cancer, Melanoma, Non-Hodgkin Lymphoma, Pancreatic Cancer, Prostate Cancer, Thyroid Cancer and Non-Melanoma Skin Cancer before and after irradiating of synchrotron radiation for proton beam therapy using Correlation Spectroscopy (COSY), Exclusive Correlation Spectroscopy (ECOSY), Total Correlation Spectroscopy (TOCSY), Incredible Natural-Abundance Double-Quantum Transfer Experiment (INADEQUATE), Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC), Heteronuclear Multiple-Bond Correlation Spectroscopy (HMBC), Nuclear Over hauser Effect Spectroscopy (NOESY) and Rotating Frame Nuclear Over hauser Effect Spectroscopy (ROESY). It is clear that malignant human cancer cells and tissues have gradually transformed to benign human cancer cells and tissues under synchrotron radiation with the passage of time (Figures 1-4) [1-50]. It should be noted that malignant human cancer cells and tissues were exposed under white synchrotron radiation for 30 days. Furthermore, there is a shift of the spectrum in all of spectra after irradiating of synchrotron radiation that it is because of the malignant human cancer cells and tissues shrink post white synchrotron irradiation with the passage of time. In addition, all of the figures are related to the same human cancer cells and tissues. Moreover, in all of the figures y-axis shows intensity and also x-axis shows energy (keV) [51-100].

Abbrevations: COSY: Correlation Spectroscopy; ECOSY: Exclusive Correlation Spectroscopy; TOCSY: Total Correlation Spectroscopy; INADEQUATE: Incredible Natural-Abundance Double-Quantum Transfer Experiment; HSQC: Heteronuclear Single-Quantum Correlation Spectroscopy; HMBC: Heteronuclear Multiple-Bond Correlation Spectroscopy; NOESY: Nuclear Over hauser Effect Spectroscopy; ROESY: Rotating Frame Nuclear Over hauser Effect Spectroscopy

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