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Literature DB >> 17493790

Hyperthermia: a potent enhancer of radiotherapy.

Abstract

Hyperthermia is generally regarded as an experimental treatment with no realistic future in clinical cancer therapy. This is totally wrong. Although the role of hyperthermia alone as a cancer treatment may be limited, there is extensive pre-clinical data showing that in combination with radiation it is one of the most effective radiation sensitisers known. Moreover, there are a number of large randomised clinical trials in a variety of tumour types that clearly show the potential of hyperthermia to significantly improve both local tumour control and survival after radiation therapy, without a significant increase in side-effects. Here we review the pre-clinical rationale for combining hyperthermia with radiation, and summarise the clinical data showing its efficacy.

Entities: Disease

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Year: 2007 PMID： 17493790 DOI： 10.1016/j.clon.2007.03.015

Source DB: PubMed Journal: Clin Oncol (R Coll Radiol) ISSN： 0936-6555 Impact factor: 4.126

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Cited

110 in total

1. Mitigation of eddy current heating during magnetic nanoparticle hyperthermia therapy.

Authors: Robert V Stigliano; Fridon Shubitidze; James D Petryk; Levan Shoshiashvili; Alicia A Petryk; P Jack Hoopes
Journal: Int J Hyperthermia Date: 2016-07-20 Impact factor: 3.914

Review 2. Risks and safety aspects related to PET/MR examinations.

Authors: Gunnar Brix; Elke A Nekolla; Dietmar Nosske; Jürgen Griebel
Journal: Eur J Nucl Med Mol Imaging Date: 2009-03 Impact factor: 9.236

Review 3. Cancer therapy with iron oxide nanoparticles: Agents of thermal and immune therapies.

Authors: Frederik Soetaert; Preethi Korangath; David Serantes; Steven Fiering; Robert Ivkov
Journal: Adv Drug Deliv Rev Date: 2020-06-27 Impact factor: 15.470

Review 4. Review: the role of hyperthermia in treating pancreatic tumors.

Authors: Martin Roesch; Boris Mueller-Huebenthal
Journal: Indian J Surg Oncol Date: 2014-05-31

Review 5. Hyperthermia: How Can It Be Used?

Authors: Zhaleh Behrouzkia; Zahra Joveini; Behnaz Keshavarzi; Nazila Eyvazzadeh; Reza Zohdi Aghdam
Journal: Oman Med J Date: 2016-03

Review 6. Ultrasound Hyperthermia Technology for Radiosensitization.

Authors: Lifei Zhu; Michael B Altman; Andrei Laszlo; William Straube; Imran Zoberi; Dennis E Hallahan; Hong Chen
Journal: Ultrasound Med Biol Date: 2019-02-14 Impact factor: 2.998

7. Single agent nanoparticle for radiotherapy and radio-photothermal therapy in anaplastic thyroid cancer.

Authors: Min Zhou; Yunyun Chen; Makoto Adachi; Xiaoxia Wen; Bill Erwin; Osama Mawlawi; Stephen Y Lai; Chun Li
Journal: Biomaterials Date: 2015-04-24 Impact factor: 12.479

8. Novel substituted (Z)-5-((N-benzyl-1H-indol-3-yl)methylene)imidazolidine-2,4-diones and 5-((N-benzyl-1H-indol-3-yl)methylene)pyrimidine-2,4,6(1H,3H,5H)-triones as potent radio-sensitizing agents.

Authors: Y Thirupathi Reddy; Konjeti R Sekhar; Nidhish Sasi; P Narsimha Reddy; Michael L Freeman; Peter A Crooks
Journal: Bioorg Med Chem Lett Date: 2009-11-22 Impact factor: 2.823

9. Novel substituted (Z)-2-(N-benzylindol-3-ylmethylene)quinuclidin-3-one and (Z)-(+/-)-2-(N-benzylindol-3-ylmethylene)quinuclidin-3-ol derivatives as potent thermal sensitizing agents.

Authors: Vijayakumar N Sonar; Y Thirupathi Reddy; Konjeti R Sekhar; Soumya Sasi; Michael L Freeman; Peter A Crooks
Journal: Bioorg Med Chem Lett Date: 2007-10-17 Impact factor: 2.823

10. Time and dose dependence of pluronic bioactivity in hyperthermia-induced tumor cell death.

Authors: Tianyi M Krupka; David Dremann; Agata A Exner
Journal: Exp Biol Med (Maywood) Date: 2008-11-07