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Investigation of Gold Nanoparticles Effects in Radiation Therapy of Cancer: A Systematic Review

Publish place: Journal of Advances in Medical and Biomedical Research، Vol: 30، Issue: 142
Publish Year: 1401
نوع سند: مقاله ژورنالی
زبان: English
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لینک ثابت به این Paper:
https://civilica.com/doc/1536507

شناسه ملی سند علمی:

JR_ZUMS-30-142_001

تاریخ نمایه سازی: 23 مهر 1401

Abstract:

Background and Objective: In recent years, the use of nanoparticles (NPs), especially gold nanoparticles (GNPs) in radiotherapy, has been repeatedly studied by in-vitro, in-vivo experiments, and Monte Carlo simulation. Some studies declare that specific absorption of GNPs (with a higher atomic number) by cancerous cells increases radiations’ lethal effect compared to normal cells. This review article aimed to investigate the radiosensitizing effect of GNPs in cancer radiotherapy. Materials and Methods: Research databases such as Web of Science, PubMed, and Scopus were examined from December ۲۰۱۹. All Gold Nanoparticles Radiation Therapy (GNRT) articles that studied the radiosensitization of gold nanoparticles in radiotherapy were involved in the assessment. Among ۷۰۶ chosen articles, ۵۲ documents were included in this investigation. Results: The results of all these studies indicate that an increase in tumor mortality happens due to higher radiation absorption by nanoparticles entering the tumor; however, the relationship between the interaction of radiant energy and the size of gold nanoparticles is controversial. Conclusion: This review article will discuss recent advances in the development of gold-based NPs to improve radiotherapy.

Keywords:

Gold Nanoparticle , Radiotherapy , Radio sensitization , Cancer

Authors

Hossein Khosravi

Dept. of Radiology, Faculty of Allied Medical Sciences, Hamadan University of Medical Sciences, Hamadan, Iran

Amin Doosti-Irani

Dept. of Epidemiology, Hamadan University of Medical Sciences, Iran

Hamid Bouraghi

Dept. of Health Information Technology, Faculty of Allied Medical Sciences, Hamadan University of Medical Sciences, Hamadan, Iran

Safoora Nikzad

Dept. of Medical Physics, Faculty of Medicine, Hamadan University of Medical Sciences, Hamadan, Iran

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  • Dorsey JF, Sun L, Joh DY, et al. Gold nanoparticles ...
  • Hainfeld JF, Dilmanian FA, Zhong Z, Slatkin DN, Kalef-Ezra JA, ...
  • Gharbavi M, Johari B, Rismani E, Mousazadeh N, Taromchi AH, ...
  • Moradi M, Abdolhosseini M, Zarrabi A. A review on application ...
  • Kim JK, Seo SJ, Kim HT, et al. Enhanced proton ...
  • Kirkby C, Ghasroddashti E. Targeting mitochondria in cancer cells using ...
  • Misra R, Acharya S, Sahoo SK. Cancer nanotechnology: application of ...
  • Su XY, Liu PD, Wu H, Gu N. Enhancement of ...
  • Brun E, Sanche L, Sicard-Roselli C. Parameters governing gold nanoparticle ...
  • Huang YC, Yang YC, Yang KC, et al. Pegylated gold ...
  • King RB, McMahon SJ, Hyland WB, et al. An overview ...
  • Singh N. Nano-particulate technology: a promising technology in the field ...
  • Hainfeld JF, Slatkin DN, Smilowitz HM. The use of gold ...
  • Chang MY, Shiau AL, Chen YH, Chang CJ, Chen HHW, ...
  • Chithrani BD, Ghazani AA, Chan WC. Determining the size and ...
  • McInnes MD, Moher D, Thombs BD, et al. Preferred reporting ...
  • Zhu CD, Zheng Q, Wang LX, et al. Synthesis of ...
  • Zhu C, Wang L, Cai Y, et al. Enhanced radiation ...
  • Zheng Q, Yang H, Wei J, Tong JL, Shu YQ. ...
  • Zhao N, Yang ZR, Li BX, et al. RGD-conjugated mesoporous ...
  • Zhang Y, Huang F, Ren C, et al. Enhanced radiosensitization ...
  • Zhang XD, Wu D, Shen X, et al. Size-dependent radiosensitization ...
  • Zhang X, Wang H, Coulter JA, Yang R. Octaarginine-modified gold ...
  • Zabihzadeh M, Hoseini-Ghahfarokhi M, Bayati V, et al. Enhancement of ...
  • Wang C, Jiang Y, Li X, Hu L. Thioglucose-bound gold ...
  • Sung W, Ye SJ, McNamara AL, et al. Dependence of ...
  • Shi M, Paquette B, Thippayamontri T, Gendron L, Guerin B, ...
  • Nicol JR, Harrison E, O'Neill SM, Dixon D, McCarthy HO, ...
  • Mehrnia SS, Hashemi B, Mowla SJ, Arbabi A. Enhancing the ...
  • McMahon SJ, Hyland WB, Muir MF, et al. Nanodosimetric effects ...
  • Ma NN, Jiang YW, Zhang XD, et al. Enhanced radiosensitization ...
  • Ma NN, Wu FG, Zhang XD, et al. Shape-dependent radiosensitization ...
  • Ab Rashid R, Razak KA, Geso M, Abdullah R, Dollah ...
  • Al Zaki A, Joh D, Cheng ZL, et al. Gold-loaded ...
  • Enferadi M, Fu SY, Hong JH, Tung CJ, et al. ...
  • Jain S, Coulter JA, Hounsell AR, et al. Cell-specific radiosensitization ...
  • Taggart LE, McMahon SJ, Butterworth KT, Currell FJ, Schettino G, ...
  • Khosravi H, Hashemi B, Mahdavi SR, Hejazi P. Target dose ...
  • Rezaee Z, Yadollahpour A, Bayati V, Dehbashi FN. Gold nanoparticles ...
  • Rahman WN, Corde S, Yagi N, Abdul Aziz SA, Annabell ...
  • Rahman WN, Bishara N, Ackerly T, et al. Enhancement of ...
  • Mousavi M, Nedaei HA, Khoei S, et al. Enhancement of ...
  • Cui L, Her S, Dunne M, et al. Significant radiation ...
  • Amato E, Italiano A, Leotta S, Pergolizzi S, Torrisi L. ...
  • Cui L, Tse K, Zahedi P, et al. Hypoxia and ...
  • Khosravi H, Ghazikhanlousani K, Rahimi A. Use of gold nanoparticles ...
  • Her S, Cui L, Bristow RG, Allen C. Dual action ...
  • Smith CL, Ackerly T, Best SP, et al. Determination of ...
  • Roeske JC, Nunez L, Hoggarth M, Labay E, Weichselbaum RR. ...
  • Chithrani DB, Jelveh S, Jalali F, et al. Gold nanoparticles ...
  • Geng F, Song K, Xing JZ, et al. Thio-glucose bound ...
  • Brivio D, Zygmanski P, Arnoldussen M, et al. Kilovoltage radiosurgery ...
  • Gadoue SM, Toomeh D. Radio-sensitization efficacy of gold nanoparticles in ...
  • Ghorbani M, Bakhshabadi M, Golshan A, Knaup C. Dose enhancement ...
  • Koger B, Kirkby C. Dosimetric effects of polyethylene glycol surface ...
  • Zhang XJ, Xing JZ, Chen J, et al. Enhanced radiation ...
  • Zhang AW, Guo WH, Qi YF, Wang JZ, Ma XX, ...
  • Hainfeld JF, Dilmanian FA, Slatkin DN, Smilowitz HM. Radiotherapy enhancement ...
  • Zhang Z, Niu N, Gao X, et al. A new ...
  • Vieira L, Castilho ML, Ferreira I, Ferreira-Strixino J, Hewitt KC, ...
  • Tentor FR, de Oliveira JH, Scariot DB, et al. Scaffolds ...
  • Roa W, Zhang X, Guo L, et al. Gold nanoparticle ...
  • Movahedi MM, Mehdizadeh A, Koosha F, et al. Investigating the ...
  • S R Bhattarai , Derry P, Aziz K, et al. ...
  • Miladi I, Alric C, Dufort S, et al. The in ...
  • Atkinson RL, Zhang M, Diagaradjane P, et al. Thermal enhancement ...
  • Chattopadhyay N, Cai Z, Kwon YL, Lechtman E, Pignol JP, ...
  • Liu CJ, Wang CH, Chen ST, et al. Enhancement of ...
  • Vlastou E, Pantelis E, Efstathopoulos EP, Karaiskos P, Kouloulias V, ...
  • Han O, Bromma K, Palmerley N,et al. Nanotechnology driven cancer ...
  • Yogo K, Misawa M, Shimizu H, et al. Radiosensitization effect ...
  • Janic B, Brown SL, Neff R, et al. Therapeutic enhancement ...
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