Literature DB >> 25279336

Convergence of nanotechnology with radiation therapy-insights and implications for clinical translation.

Dev Kumar Chatterjee1, Tatiana Wolfe1, Jihyoun Lee2, Aaron P Brown1, Pankaj Kumar Singh1, Shanta Raj Bhattarai1, Parmeswaran Diagaradjane1, Sunil Krishnan1.   

Abstract

Improvements in accuracy and efficacy in treating tumors with radiation therapy (RT) over the years have been fueled by parallel technological and conceptual advances in imaging and image-guidance techniques, radiation treatment machines, computational methods, and the understanding of the biology of tumor response to RT. Recent advances in our understanding of the hallmarks of cancer and the emergence of strategies to combat these traits of cancer have resulted in an expanding repertoire of targeted therapeutics, many of which can be exploited for enhancing the efficacy of RT. Complementing this advent of new treatment options is the evolution of our knowledge of the interaction between nanoscale materials and human tissues (nanomedicine). As with the changes in RT paradigms when the field has encountered newer and maturing disciplines, the incorporation of nanotechnology innovations into radiation oncology has the potential to refine or redefine its principles and revolutionize its practice. This review provides a summary of the principles, applications, challenges and outlook for the use of metallic nanoparticles in RT.

Entities:  

Keywords:  Cancer; nanoparticles; nanotechnology; radiation therapy (RT); review

Year:  2013        PMID: 25279336      PMCID: PMC4179207          DOI: 10.3978/j.issn.2218-676X.2013.08.10

Source DB:  PubMed          Journal:  Transl Cancer Res        ISSN: 2218-676X            Impact factor:   1.241


  74 in total

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Journal:  Int J Hyperthermia       Date:  2004-03       Impact factor: 3.914

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Review 3.  Physical basis and biological mechanisms of gold nanoparticle radiosensitization.

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Journal:  Nanoscale       Date:  2012-07-06       Impact factor: 7.790

Review 4.  A new era for cancer treatment: gold-nanoparticle-mediated thermal therapies.

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Journal:  Small       Date:  2010-12-14       Impact factor: 13.281

5.  Photothermal response of superparamagnetic iron oxide nanoparticles.

Authors:  Jihoon Kim; Junghwan Oh; Hyun Wook Kang; Marc D Feldman; Thomas E Milner
Journal:  Lasers Surg Med       Date:  2008-08       Impact factor: 4.025

Review 6.  Nanoparticles in photodynamic therapy: an emerging paradigm.

Authors:  Dev Kumar Chatterjee; Li Shan Fong; Yong Zhang
Journal:  Adv Drug Deliv Rev       Date:  2008-09-20       Impact factor: 15.470

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Journal:  Annu Rev Med       Date:  2011-09-01       Impact factor: 13.739

8.  Tumor radiosensitization by sustained intratumoral release of bromodeoxyuridine.

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Journal:  Cancer Res       Date:  1999-08-01       Impact factor: 12.701

9.  Synthetic, implantable polymers for local delivery of IUdR to experimental human malignant glioma.

Authors:  J A Williams; X Yuan; L E Dillehay; V R Shastri; H Brem; J R Williams
Journal:  Int J Radiat Oncol Biol Phys       Date:  1998-10-01       Impact factor: 7.038

10.  Cerium oxide nanoparticles protect gastrointestinal epithelium from radiation-induced damage by reduction of reactive oxygen species and upregulation of superoxide dismutase 2.

Authors:  Jimmie Colon; Nelson Hsieh; Amber Ferguson; Patrick Kupelian; Sudipta Seal; D Wayne Jenkins; Cheryl H Baker
Journal:  Nanomedicine       Date:  2010-02-18       Impact factor: 5.307
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  8 in total

1.  Low Z target switching to increase tumor endothelial cell dose enhancement during gold nanoparticle-aided radiation therapy.

Authors:  Ross I Berbeco; Alexandre Detappe; Panogiotis Tsiamas; David Parsons; Mammo Yewondwossen; James Robar
Journal:  Med Phys       Date:  2016-01       Impact factor: 4.071

2.  Endobronchial ultrasound-guided transbronchial needle aspiration: a maturing technique.

Authors:  Jianjun Zhang; Yangang Ren
Journal:  J Thorac Dis       Date:  2014-12       Impact factor: 2.895

Review 3.  Hyperthermia using nanoparticles--Promises and pitfalls.

Authors:  Punit Kaur; Maureen L Aliru; Awalpreet S Chadha; Alexzander Asea; Sunil Krishnan
Journal:  Int J Hyperthermia       Date:  2016-01-12       Impact factor: 3.914

4.  Technology for Innovation in Radiation Oncology.

Authors:  Indrin J Chetty; Mary K Martel; David A Jaffray; Stanley H Benedict; Stephen M Hahn; Ross Berbeco; James Deye; Robert Jeraj; Brian Kavanagh; Sunil Krishnan; Nancy Lee; Daniel A Low; David Mankoff; Lawrence B Marks; Daniel Ollendorf; Harald Paganetti; Brian Ross; Ramon Alfredo C Siochi; Robert D Timmerman; John W Wong
Journal:  Int J Radiat Oncol Biol Phys       Date:  2015-07-11       Impact factor: 7.038

Review 5.  Nanotechnology Strategies To Advance Outcomes in Clinical Cancer Care.

Authors:  Christopher M Hartshorn; Michelle S Bradbury; Gregory M Lanza; Andre E Nel; Jianghong Rao; Andrew Z Wang; Ulrich B Wiesner; Lily Yang; Piotr Grodzinski
Journal:  ACS Nano       Date:  2017-12-22       Impact factor: 15.881

Review 6.  Integrating nanomedicine into clinical radiotherapy regimens.

Authors:  Allison N DuRoss; Megan J Neufeld; Shushan Rana; Charles R Thomas; Conroy Sun
Journal:  Adv Drug Deliv Rev       Date:  2019-07-04       Impact factor: 15.470

Review 7.  Therapeutic Advancements in Metal and Metal Oxide Nanoparticle-Based Radiosensitization for Head and Neck Cancer Therapy.

Authors:  Poornima Dubey; Mathieu Sertorio; Vinita Takiar
Journal:  Cancers (Basel)       Date:  2022-01-20       Impact factor: 6.639

8.  Gold nanoparticle mediated radiation response among key cell components of the tumour microenvironment for the advancement of cancer nanotechnology.

Authors:  Kyle Bromma; Leah Cicon; Wayne Beckham; Devika B Chithrani
Journal:  Sci Rep       Date:  2020-07-21       Impact factor: 4.379
  8 in total

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