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• W2466678444 abstract "In this issue, members of the Physics editorial team introduce articles promoting alternatives to traditional radiation oncology procedures or devices. Recently, an electronically published article looked at tumor treatment fields (TFF), which use alternative electric fields of low intensity and intermediate frequency to disrupt cell division ( 1 Wenger C. Salvador R. Basser P.J. et al. Improving Tumor Treating Fields treatment efficacy in patients with glioblastoma using personalized array layouts. Int J Radiat Oncol Biol Phys. 2016; 94: 1137-1143 Abstract Full Text Full Text PDF PubMed Scopus (35) Google Scholar ). This article examined the active and potential use of TTF for treating glioblastoma multiforme. The Physics team's aim is to promote new solutions to solve problems for which traditional radiation oncology solutions have either stagnated or plateaued. In this particular issue, in contrast to our approach in previous issues ( 2 Klein E.E. El Naqa I. Langen K. et al. Physics: The use of magnetic resonance imaging for radiation therapy is accelerating in utility and novelty. Int J Radiat Oncol Biol Phys. 2015; 93: 953-956 Abstract Full Text Full Text PDF PubMed Google Scholar , 3 Klein E.E. Dong L. Paganetti H. et al. The far-reaching subject matter of medical physics in radiation oncology. Int J Radiat Oncol Biol Phys. 2015; 91: 697-700 Abstract Full Text Full Text PDF PubMed Scopus (3) Google Scholar , 4 Klein E.E. Brock K.K. Fontenot J.D. et al. Oncology scan—Bringing rapid learning and adaptive techniques into clinical physics. Int J Radiat Oncol Biol Phys. 2014; 90: 243-245 Abstract Full Text Full Text PDF PubMed Google Scholar ), we examined a few such articles from renowned journals outside of the typical realm of radiation oncology or medical physics publications. One such article, published in Biomaterials, examines stem cell–based gene therapy using magnetic hyperthermia to enhance treatment ( 5 Yin P.T. Shah S. Pasquale N.J. et al. Stem cell-based gene therapy activated using magnetic hyperthermia to enhance the treatment of cancer. Biomaterials. 2016; 81: 46-57 Crossref PubMed Scopus (80) Google Scholar ). Another article examines a phase 1 study for photodynamic therapy for lung cancer ( 6 Dhillon S.S. Demmy D.L. Yendamuri S. et al. A phase I study of light dose for photodynamic therapy using 2-[1-hexyloxyethyl]-2 devinyl pyropheophorbide-a for the treatment of non-small cell carcinoma in situ (CIS) or non-small cell microinvasive bronchogenic carcinoma (MIC): A dose ranging study. J Thorac Oncol. 2016; 11: 234-241 Abstract Full Text Full Text PDF PubMed Scopus (22) Google Scholar ) and is published in the Journal of Thoracic Surgery, and a third article proposes ultrasound-guided delivery of microRNA-loaded nanoparticles for cancer treatment and is published in the Journal of Controlled Release ( 7 Wang T.Y. Choe J.W. Pu K. et al. Ultrasound-guided delivery of microRNA loaded nanoparticles into cancer. J Control Release. 2015; 203: 99-108 Crossref PubMed Scopus (107) Google Scholar )." @default.
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• W2466678444 date "2016-08-01" @default.
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• W2466678444 title "Technical Advances in Oncology Outside of Radiation Medicine" @default.
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• W2466678444 doi "https://doi.org/10.1016/j.ijrobp.2016.02.066" @default.
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