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Translational Medicine & Research

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Received: January 01, 1970 | Published: ,

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In the current study, we have experimentally and comparatively investigated and compared malignant human cancer cells and tissues before and after irradiating of synchrotron radiation using Thermal Spectroscopy, Photothermal Spectroscopy, Thermal Microspectroscopy, Photothermal Microspectroscopy, Thermal Macrospectroscopy and Photothermal Macrospectroscopy. 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 1–6).1–109

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Figure 1 Thermal spectroscopy analysis of malignant cancer cells and tissues (A) before and (B) after irradiating of synchrotron radiation in transformation process to benign human cancer cells and tissues with the passage of time.

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Figure 2 Photothermal spectroscopy analysis of malignant cancer cells and tissues (A) before and (B) after irradiating of synchrotron radiation in transformation process to benign human cancer cells and tissues with the passage of time.

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Figure 3 Thermal microspectroscopy analysis of malignant cancer cells and tissues (A) before and (B) after irradiating of synchrotron radiation in transformation process to benign human cancer cells and tissues with the passage of time.

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Figure 4 Photothermal microspectroscopy analysis of malignant cancer cells and tissues (A) before and (B) after irradiating of synchrotron radiation in transformation process to benign human cancer cells and tissues with the passage of time.

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Figure 5 Thermal macrospectroscopy analysis of malignant cancer cells and tissues (A) before and (B) after irradiating of synchrotron radiation in transformation process to benign human cancer cells and tissues with the passage of time.

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Figure 6 Photothermal macrospectroscopy analysis of malignant cancer cells and tissues (A) before and (B) after irradiating of synchrotron radiation in transformation process to benign human cancer cells and tissues with the passage of time.

Conclusion

It can be concluded 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.

Acknowledgements

Author declares no acknowledgment.

Conflict of interest

The author declares no conflict of interest.

References

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  37. Alireza Heidari. Study of the Role of Anti–Cancer Molecules with Different Sizes for Decreasing Corresponding Bulk Tumor Multiple Organs or Tissues. Arch Can Res. 2016;4:2.
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  69. Alireza Heidari. Polymorphism in Nano–Sized Graphene Ligand–Induced Transformation of Au38–xAgx/xCux(SPh–tBu)24 to Au36–xAgx/xCux(SPh–tBu)24 (x=1–12) Nanomolecules for Synthesis of Au144–xAgx/xCux[(SR)60, (SC4)60, (SC6)60, (SC12)60, (PET)60, (p–MBA)60, (F)60, (Cl)60, (Br)60, (I)60, (At)60, (Uus)60 and (SC6H13)60] Nano Clusters as Anti–Cancer Nano Drugs. J Nanomater Mol Nanotechnol. 2017;6:3.
  70. Alireza Heidari. Biomedical Resource Oncology and Data Mining to Enable Resource Discovery in Medical Medicinal Clinical Pharmaceutical Chemical and Translational Research and Their Applications in Cancer Research. Int J Biomed Data Min. 2017;6:103.
  71. Alireza Heidari. Study of Synthesis Pharmacokinetics Pharmacodynamics Dosing Stability Safety and Efficacy of Olympiadane Nanomolecules as Agent for Cancer Enzymotherapy Immunotherapy Chemotherapy Radiotherapy Hormone Therapy and Targeted Therapy under Synchrotorn Radiation. J Dev Drugs. 2017;6:154.
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  73. Alireza Heidari. Opinion on Computational Fluid Dynamics (CFD) Technique. Fluid Mech Open Acc. 2017;4:157.
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  90. Alireza Heidari. An Investigation of the Role of DNA as Molecular Computers: A Computational Study on the Hamiltonian Path Problem. International Journal of Scientific & Engineering Research. 2014;5(1):1884–1889.
  91. Alireza Heidari. Active Targeted Nanoparticles for Anti–Cancer Nano Drugs Delivery across the Blood–Brain Barrier for Human Brain Cancer Treatment Multiple Sclerosis (MS) and Alzheimer's Diseases Using Chemical Modifications of Anti–Cancer Nano Drugs or Drug–Nanoparticles through Zika Virus (ZIKV) Nanocarriers under Synchrotron Radiation. J Med Chem Toxicol. 2017;2(3):1–5.
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  93. Alireza Heidari. A Comparative Computational and Experimental Study on Different Vibrational Biospectroscopy Methods Techniques and Applications for Human Cancer Cells in Tumor Tissues Simulation Modeling Research Diagnosis and Treatment. Open J Anal Bioanal Chem. 2017;1(1):14–20.
  94. Alireza Heidari. Combination of DNA/RNA Ligands and Linear/Non–Linear Visible–Synchrotron Radiation–Driven N–Doped Ordered Mesoporous Cadmium Oxide (CdO) Nanoparticles Photocatalysts Channels Resulted in an Interesting Synergistic Effect Enhancing Catalytic Anti–Cancer Activity. Enz Eng. 2017;6:1.
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  97. Alireza Heidari. Transport Therapeutic Active Targeting of Human Brain Tumors Enable Anti–Cancer Nanodrugs Delivery across the Blood–Brain Barrier (BBB) to Treat Brain Diseases Using Nanoparticles and Nanocarriers under Synchrotron Radiation. J Pharm Pharmaceutics. 2017;4(2):1–5.
  98. Alireza Heidari, Christopher Brown. Combinatorial Therapeutic Approaches to DNA/RNA and Benzylpenicillin (Penicillin G), Fluoxetine Hydrochloride (Prozac and Sarafem), Propofol (Diprivan), Acetylsalicylic Acid (ASA) (Aspirin), Naproxen Sodium (Aleve and Naprosyn) and Dextromethamphetamine Nanocapsules with Surface Conjugated DNA/RNA to Targeted Nano Drugs for Enhanced Anti–Cancer Efficacy and Targeted Cancer Therapy Using Nano Drugs Delivery Systems. Ann Adv Chem. 2017;1(2):61–69.
  99. Alireza Heidari. Vibrational Spectroscopy of Nucleic Acids. In: Wahid Ali Khan, editor. Basic Biochemistry. USA: Austin Publishing Group (APG); 2016. p. 1–18.
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