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Open Access Journal of
eISSN: 2576-4578

Translational Medicine & Research

Clinical Images Volume 2 Issue 1

Comparative study on malignant and benign human cancer cells and tissues with the passage of time under synchrotron radiation

Alireza Heidari

Faculty of Chemistry, California South University, USA

Correspondence: Alireza Heidari, Faculty of Chemistry, California South University, 14731 Comet St. Irvine, CA 92604, USA

Received: December 13, 2017 | Published: January 12, 2018

Citation: Heidari A. Comparative study on malignant and benign human cancer cells and tissues with the passage of time under synchrotron radiation. Open Access J Trans Med Res. 2018;2(1):4-9. DOI: 10.15406/oajtmr.2018.02.00026

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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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  42. Alireza Heidari. Cheminformatics and System Chemistry of Cisplatin, Carboplatin, Nedaplatin, Oxaliplatin, Heptaplatin and Lobaplatin as Anti–Cancer Nano Drugs: A Combined Computational and Experimental Study. J Inform Data Min. 2016;1:3.
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  67. Alireza Heidari. Deficiencies in Repair of Double–Standard DNA/RNA–Binding Molecules Identified in Many Types of Solid and Liquid Tumors Oncology in Human Body for Advancing Cancer Immunotherapy Using Computer Simulations and Data Analysis. J Appl Bioinforma Comput Biol. 2017;6:1.
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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.
  74. Alireza Heidari. Concurrent Diagnosis of Oncology Influence Outcomes in Emergency General Surgery for Colorectal Cancer and Multiple Sclerosis (MS) Treatment Using Magnetic Resonance Imaging (MRI) and Au329(SR)84, Au329–xAgx(SR)84, Au144(SR)60, Au68(SR)36, Au30(SR)18, Au102(SPh)44, Au38(SPh)24, Au38(SC2H4Ph)24, Au21S(SAdm)15, Au36(pMBA)24 and Au25(pMBA)18 Nano Clusters. J Surgery Emerg Med. 2017;1(1):21.
  75. Alireza Heidari. Developmental Cell Biology in Adult Stem Cells Death and Autophagy to Trigger a Preventive Allergic Reaction to Common Airborne Allergens under Synchrotron Radiation Using Nanotechnology for Therapeutic Goals in Particular Allergy. Shots (Immunotherapy). Cell Biol (Henderson NV). 2017;6:1.
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  77. Alireza Heidari. Nanomedicine–Based Combination Anti–Cancer Therapy between Nucleic Acids and Anti–Cancer Nano Drugs in Covalent Nano Drugs Delivery Systems for Selective Imaging and Treatment of Human Brain Tumors Using Hyaluronic Acid Alguronic Acid and Sodium Hyaluronate as Anti–Cancer Nano Drugs and Nucleic Acids Delivery under Synchrotron Radiation. Am J Drug Deliv. 2017;5:2.
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  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.
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  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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