Sakine Shirvalilou, Zahed Tavangari, Mohammad Hossein Parsaei, Saman Sargazi, Roghayeh Sheervalilou, Milad Shirvaliloo, Habib Ghaznavi & Samideh Khoei. (2023) The future opportunities and remaining challenges in the application of nanoparticle‐mediated hyperthermia combined with chemo‐radiotherapy in cancer. WIREs Nanomedicine and Nanobiotechnology 15:6.
Crossref
Amit B. Tewari, Anamika Saini & Deepika Sharma. (2023) Extirpating the cancer stem cell hydra: Differentiation therapy and Hyperthermia therapy for targeting the cancer stem cell hierarchy. Clinical and Experimental Medicine 23:7, pages 3125-3145.
Crossref
Shaonan Hu, Xinrui Zhang, Andreas Melzer & Lisa Landgraf. (2023) Ultrasound-induced cavitation renders prostate cancer cells susceptible to hyperthermia: Analysis of potential cellular and molecular mechanisms. Frontiers in Genetics 14.
Crossref
Ilia D. Shabalkin, Alexey S. Komlev, Sergey A. Tsymbal, Oleg I. Burmistrov, Vladimir I. Zverev & Pavel V. Krivoshapkin. (2023)
Multifunctional tunable ZnFe
2
O
4
@MnFe
2
O
4
nanoparticles for dual-mode MRI and combined magnetic hyperthermia with radiotherapy treatment
. Journal of Materials Chemistry B 11:5, pages 1068-1078.
Crossref
Guanghong Luo, Zihuang Li, Jiezhou Zheng, Hongli Yang, Xianming Li, Xiao Guishan & Yanhong Duo. (2022) Recent progresses on radiotherapeutics-based treatment of cancer with two-dimensional nanomaterials. Applied Materials Today 29, pages 101584.
Crossref
N. Nuñez, M. Raineri, H.E. Troiani, D. Tobia, R.D. Zysler, E. LimaJrJr & E.L. Winkler. (2022) Zinc ferrite nanoparticles embedded in hydroxyapatite for magnetic hyperthermia and sensitive to ionizing radiation. Journal of Alloys and Compounds 920, pages 165887.
Crossref
Hailei Lin, Liangliang Yin, Beidong Chen & Yanqin Ji. (2022) Design of functionalized magnetic silica multi-core composite nanoparticles for synergistic magnetic hyperthermia/radiotherapy in cancer cells. Colloids and Surfaces B: Biointerfaces 219, pages 112814.
Crossref
Soraya Emamgholizadeh Minaei, Samideh Khoei, Sepideh Khoee & Seied Rabi Mahdavi. (2022) Sensitization of glioblastoma cancer cells to radiotherapy and magnetic hyperthermia by targeted temozolomide-loaded magnetite tri-block copolymer nanoparticles as a nanotheranostic agent. Life Sciences 306, pages 120729.
Crossref
Carolina Carrapiço-Seabra, Sergio Curto, Martine Franckena & Gerard C. Van Rhoon. (2022) Avoiding Pitfalls in Thermal Dose Effect Relationship Studies: A Review and Guide Forward. Cancers 14:19, pages 4795.
Crossref
Nathan Farrokhian, Daniel P. Raymond, Graham Schwarz, Dale Shepard, Chirag S. Shah, Nathan Mesko, Jacob G. Scott & Shauna R. Campbell. (2022) Aggressive Multimodality Therapy for Treatment of a Locally Advanced Radiation-Related Chest Wall Sarcoma. Applied Radiation Oncology.
Crossref
Sandeep Nain, Neeraj Kumar & Pramod Kumar Avti. (2022) Computational investigation of the tumor position and ambient conditions on magnetic nanoparticle thermo-therapy. Thermal Science and Engineering Progress 34, pages 101396.
Crossref
Alexander Pattyn, Karl Kratkiewicz, Naser Alijabbari, Paul L. Carson, Peter Littrup, J. Brian Fowlkes, Nebojsa Duric & Mohammad Mehrmohammadi. (2022) Feasibility of ultrasound tomography–guided localized mild hyperthermia using a ring transducer: Ex vivo and in silico studies. Medical Physics 49:9, pages 6120-6136.
Crossref
Teddy Fletcher, Alex J Thompson, Hutan Ashrafian & Ara Darzi. (2022) The measurement and modification of hypoxia in colorectal cancer: overlooked but not forgotten. Gastroenterology Report 10.
Crossref
Matthew M Grabowski, Ethan S Srinivasan, Eugene J Vaios, Eric W Sankey, Balint Otvos, Daria Krivosheya, Alex Scott, Michael Olufawo, Jun Ma, Elena I Fomchenko, James E Herndon, Albert H Kim, Veronica L Chiang, Clark C Chen, Eric C Leuthardt, Gene H Barnett, John P Kirkpatrick, Alireza M Mohammadi & Peter E Fecci. (2022) Combination laser interstitial thermal therapy plus stereotactic radiotherapy increases time to progression for biopsy-proven recurrent brain metastases. Neuro-Oncology Advances 4:1.
Crossref
S. Braude & J. Varghese. (2022) The oncoprotective fever hypothesis: Have antibiotics, antimalarials and antipyrectics contributed to the global rise in cancer over the past century?. Medical Hypotheses 158, pages 110720.
Crossref
Kaitlyn Melnick, David Shin, Farhad Dastmalchi, Zain Kabeer, Maryam Rahman, David Tran & Ashley Ghiaseddin. (2021) Role of Laser Interstitial Thermal Therapy in the Management of Primary and Metastatic Brain Tumors. Current Treatment Options in Oncology 22:12.
Crossref
M.R. Horsman, B.S. Sørensen, M. Busk & D.W. Siemann. (2021) Therapeutic Modification of Hypoxia. Clinical Oncology 33:11, pages e492-e509.
Crossref
Nuria Vilaplana-Lopera, Maxym Besh & Eui Jung Moon. (2021) Targeting Hypoxia: Revival of Old Remedies. Biomolecules 11:11, pages 1604.
Crossref
Shadie Hatamie, Zahra Malaie Balasi, Mohammad Mahdi Ahadian, Tohid Mortezazadeh, Forough Shams & Simzar Hosseinzadeh. (2021) Hyperthermia of breast cancer tumor using graphene oxide-cobalt ferrite magnetic nanoparticles in mice. Journal of Drug Delivery Science and Technology 65, pages 102680.
Crossref
Alexander Pattyn, Karl Kratkiewicz, Naser Alijabbari, Mohammad Mehrmohammadi, Neb Duric & Paul L. Carson. (2021) Mild-Hyperthermia Generation and Control with a Ring-based Ultrasound Tomography. Mild-Hyperthermia Generation and Control with a Ring-based Ultrasound Tomography.
Dasom Kim, Reeju Amatya, Seungmi Hwang, Sumi Lee, Kyoung Ah Min & Meong Cheol Shin. (2021) BSA-Silver Nanoparticles: A Potential Multimodal Therapeutics for Conventional and Photothermal Treatment of Skin Cancer. Pharmaceutics 13:4, pages 575.
Crossref
Adriana M. De Mendoza, Soňa Michlíková, Johann Berger, Jens Karschau, Leoni A. Kunz-Schughart & Damian D. McLeod. (2021) Mathematical model for the thermal enhancement of radiation response: thermodynamic approach. Scientific Reports 11:1.
Crossref
Amira S. Ashour, Yanhui Guo & Waleed S. Mohamed. 2021. Thermal Ablation Therapy. Thermal Ablation Therapy
1
39
.
Raghavv Raghavender Suresh, Priyannth Ramasami Sundhar Baabu, John Bosco Balaguru Rayappan & Arockia Jayalatha JBB. 2021. Biomarkers and Biosensors for Cervical Cancer Diagnosis. Biomarkers and Biosensors for Cervical Cancer Diagnosis
85
115
.
Subin Balachandran. 2021. Magnetic Nanoparticles. Magnetic Nanoparticles
133
147
.
Vandana Singh, Pegah Johansson, Dmitry Torchinsky, Yii-Lih Lin, Robin Öz, Yuval Ebenstein, Ola Hammarsten & Fredrik Westerlund. (2020) Quantifying DNA damage induced by ionizing radiation and hyperthermia using single DNA molecule imaging. Translational Oncology 13:10, pages 100822.
Crossref
Mehri Mirrahimi, Jaber Beik, Mehraban Mirrahimi, Zahra Alamzadeh, Samaneh Teymouri, Vahid Pirhajati Mahabadi, Neda Eslahi, Fatemeh Ebrahimi Tazehmahalleh, Habib Ghaznavi, Ali Shakeri-Zadeh & Christos Moustakis. (2020) Triple combination of heat, drug and radiation using alginate hydrogel co-loaded with gold nanoparticles and cisplatin for locally synergistic cancer therapy. International Journal of Biological Macromolecules 158, pages 617-626.
Crossref
Mousa Tabei, Elham Zeinizade, Jaber Beik, S. Kamran Kamrava, Zahra Nasiri, Habib Ghaznavi & Ali Shakeri-Zadeh. (2020) Insights into Nano-Photo-Thermal Therapy of Cancer: The Kinetics of Cell Death and Effect on Cell Cycle. Anti-Cancer Agents in Medicinal Chemistry 20:5, pages 612-621.
Crossref
Susann Piehler, Heidi Dähring, Julia Grandke, Julia Göring, Pierre Couleaud, Antonio Aires, Aitziber L. Cortajarena, José Courty, Alfonso Latorre, Álvaro Somoza, Ulf Teichgräber & Ingrid Hilger. (2020) Iron Oxide Nanoparticles as Carriers for DOX and Magnetic Hyperthermia after Intratumoral Application into Breast Cancer in Mice: Impact and Future Perspectives. Nanomaterials 10:6, pages 1016.
Crossref
Xionge Mei, Rosemarie ten Cate, Caspar M. van Leeuwen, Hans M. Rodermond, Lidewij de Leeuw, Dionysia Dimitrakopoulou, Lukas J. A. Stalpers, Johannes Crezee, H. Petra Kok, Nicolaas A. P. Franken & Arlene L. Oei. (2020) Radiosensitization by Hyperthermia: The Effects of Temperature, Sequence, and Time Interval in Cervical Cell Lines. Cancers 12:3, pages 582.
Crossref
Pierre Annede, Jean-Marc Cosset, Erik Van Limbergen, Eric Deutsch, Christine Haie-Meder & Cyrus Chargari. (2020) Radiobiology: Foundation and New Insights in Modeling Brachytherapy Effects. Seminars in Radiation Oncology 30:1, pages 4-15.
Crossref
Michael Dunne, Maximilian Regenold & Christine Allen. (2020) Hyperthermia can alter tumor physiology and improve chemo- and radio-therapy efficacy. Advanced Drug Delivery Reviews 163-164, pages 98-124.
Crossref
Costică Caizer, Cristina Dehelean, Dorina Elena Coricovac, Isabela Simona Caizer & Codruta Şoica. 2020. Nanoformulations in Human Health. Nanoformulations in Human Health
503
530
.
Sarah C. Brüningk, Peter Ziegenhein, Ian Rivens, Uwe Oelfke & Gail ter Haar. (2019) A cellular automaton model for spheroid response to radiation and hyperthermia treatments. Scientific Reports 9:1.
Crossref
Katarzyna J. Nytko, Pauline Thumser-Henner, Mathias S. Weyland, Stephan Scheidegger & Carla Rohrer Bley. (2019) Cell line-specific efficacy of thermoradiotherapy in human and canine cancer cells in vitro. PLOS ONE 14:5, pages e0216744.
Crossref
Jaber Beik, Maziar Khateri, Zohreh Khosravi, S. Kamran Kamrava, Siavash Kooranifar, Habib Ghaznavi & Ali Shakeri-Zadeh. (2019) Gold nanoparticles in combinatorial cancer therapy strategies. Coordination Chemistry Reviews 387, pages 299-324.
Crossref
Steen J Madsen & Henry Hirschberg. (2019) Macrophages as delivery vehicles for anticancer agents. Therapeutic Delivery 10:3, pages 189-201.
Crossref
Qingling Li, Wei Li, Shuang Cui, Qianqian Sun, Haibin Si, Zhenzhen Chen, Kehua Xu, Lu Li & Bo Tang. (2019) Dynamic fluorescent imaging analysis of mitochondrial redox in single cells with a microfluidic device. Biosensors and Bioelectronics 129, pages 132-138.
Crossref
Muhammad Raza Shah, Muhammad Imran & Shafi Ullah. 2019. Nanocarriers for Cancer Diagnosis and Targeted Chemotherapy. Nanocarriers for Cancer Diagnosis and Targeted Chemotherapy
247
266
.
Jeremy Vines, Dong-Jin Lim & Hansoo Park. (2018) Contemporary Polymer-Based Nanoparticle Systems for Photothermal Therapy. Polymers 10:12, pages 1357.
Crossref
Houyu Ju, Lu Mao, Liming Zhang, Shuli Liu, Yunteng Wu, Min Ruan, Jingzhou Hu & Guoxin Ren. (2018)
Ultrasound hyperthermia enhances chemo‐sensitivity in oral squamous cell carcinoma by
TRIF
‐mediated pathway
. Journal of Oral Pathology & Medicine 47:10, pages 964-971.
Crossref
Ewa Burchardt & Andrzej Roszak. (2018) Hyperthermia in cervical cancer – current status. Reports of Practical Oncology & Radiotherapy 23:6, pages 595-603.
Crossref
Helena C. Besse, Clemens Bos, Maurice M. J. M. Zandvliet, Kim van der Wurff-Jacobs, Chrit T. W. Moonen & Roel Deckers. (2018) Triggered radiosensitizer delivery using thermosensitive liposomes and hyperthermia improves efficacy of radiotherapy: An in vitro proof of concept study. PLOS ONE 13:9, pages e0204063.
Crossref
Qibin Fu, Jing Wang & Tuchen Huang. (2018) The effect of hyperthermia on the DNA damage response induced by γ-rays, as determined through in situ cell tracking. Journal of Radiation Research 59:5, pages 577-582.
Crossref
Shadie Hatamie, Benymin Parseh, Mohammad Mahdi Ahadian, Fatemeh Naghdabadi, Reza Saber & Masoud Soleimani. (2018) Heat transfer of PEGylated cobalt ferrite nanofluids for magnetic fluid hyperthermia therapy: In vitro cellular study. Journal of Magnetism and Magnetic Materials 462, pages 185-194.
Crossref
David Chang, May Lim, Jeroen A. C. M. Goos, Ruirui Qiao, Yun Yee Ng, Friederike M. Mansfeld, Michael Jackson, Thomas P. Davis & Maria Kavallaris. (2018) Biologically Targeted Magnetic Hyperthermia: Potential and Limitations. Frontiers in Pharmacology 9.
Crossref
Huan Zhang, Xiao Li Liu, Yi Fan Zhang, Fei Gao, Ga Long Li, Yuan He, Ming Li Peng & Hai Ming Fan. (2018) Magnetic nanoparticles based cancer therapy: current status and applications. Science China Life Sciences 61:4, pages 400-414.
Crossref
Ali Neshasteh-Riz, Nazila Eyvazzadeh, Aram Rostami & Elmira Azzizolahi. (2018) Cytogenetic damage from hyperthermia,6 MV X-rays, and topotecan in glioblastoma spheroids, simultaneously, and separately. Journal of Cancer Research and Therapeutics 14:6, pages 1273-1278.
Crossref
S. Brüningk, G. Powathil, P. Ziegenhein, J. Ijaz, I. Rivens, S. Nill, M. Chaplain, U. Oelfke & G. ter Haar. (2018)
Combining radiation with hyperthermia: a multiscale model informed by
in vitro
experiments
. Journal of The Royal Society Interface 15:138, pages 20170681.
Crossref
A. Majid, W. Ahmed, Y. Patil-Sen & T. Sen. 2018. Micro and Nanomanufacturing Volume II. Micro and Nanomanufacturing Volume II
413
442
.
Suriyanto, E. Y. K. Ng & S. D. Kumar. (2017) Physical mechanism and modeling of heat generation and transfer in magnetic fluid hyperthermia through Néelian and Brownian relaxation: a review. BioMedical Engineering OnLine 16:1.
Crossref
Kara L. Watts & Joshua M. Stern. 2017. Management of Urologic Cancer. Management of Urologic Cancer
213
231
.
Nathalie van den Tempel, Charlie Laffeber, Hanny Odijk, Wiggert A. van Cappellen, Gerard C. van Rhoon, Martine Franckena & Roland Kanaar. (2017) The effect of thermal dose on hyperthermia-mediated inhibition of DNA repair through homologous recombination. Oncotarget 8:27, pages 44593-44604.
Crossref
J. van der Zee & G. C. van Rhoon. 2017. Breast Cancer. Breast Cancer
855
862
.
Michael R. Horsman & Jens Overgaard. (2016) The impact of hypoxia and its modification of the outcome of radiotherapy. Journal of Radiation Research 57:S1, pages i90-i98.
Crossref
Theodora Mantso, George Goussetis, Rodrigo Franco, Sotiris Botaitis, Aglaia Pappa & Mihalis Panayiotidis. (2016) Effects of hyperthermia as a mitigation strategy in DNA damage-based cancer therapies. Seminars in Cancer Biology 37-38, pages 96-105.
Crossref
Arafat Mirza & Ananya Choudhury. (2016) Bladder Preservation for Muscle Invasive Bladder Cancer. Bladder Cancer 2:2, pages 151-163.
Crossref
Catherine Christie, Stephanie Molina, Jonathan Gonzales, Kristian Berg, Rohit Kumar Nair, Khoi Huynh, Steen J. Madsen & Henry Hirschberg. (2016) Synergistic chemotherapy by combined moderate hyperthermia and photochemical internalization. Biomedical Optics Express 7:4, pages 1240.
Crossref
R. Venu, H.P. Gurushankara, B.B.D. Khalandar & V. Vasudev. (2016) Inducible protective processes in animal systems XV: Hyperthermia enhances the Ethyl methanesulfonate induced adaptive response in meiotic cells of grasshopper Poecilocerus pictus. Egyptian Journal of Medical Human Genetics 17:2, pages 173-184.
Crossref
Steen J. Madsen, En-Chung Shih, Qian Peng, Catherine Christie, Tatiana Krasieva & Henry Hirschberg. (2016)
Photothermal enhancement of chemotherapy mediated by gold-silica nanoshell-loaded macrophages:
in vitro
squamous cell carcinoma study
. Journal of Biomedical Optics 21:1, pages 018004.
Crossref
Mark Dewhirst, Paul R. Stauffer, Shiva Das, Oana I. Craciunescu & Zeljko Vujaskovic. 2016. Clinical Radiation Oncology. Clinical Radiation Oncology
381
398.e6
.
Akihisa Takahashi. 2016. Hyperthermic Oncology from Bench to Bedside. Hyperthermic Oncology from Bench to Bedside
91
108
.
Kenji Mitsudo & Iwai Tohnai. 2016. Hyperthermic Oncology from Bench to Bedside. Hyperthermic Oncology from Bench to Bedside
177
191
.
Tracy Sherertz & Chris J. Diederich. 2016. Radiation Therapy Techniques and Treatment Planning for Breast Cancer. Radiation Therapy Techniques and Treatment Planning for Breast Cancer
145
158
.
Arlene L. Oei, Lianne E. M. Vriend, Johannes Crezee, Nicolaas A. P. Franken & Przemek M. Krawczyk. (2015) Effects of hyperthermia on DNA repair pathways: one treatment to inhibit them all. Radiation Oncology 10:1.
Crossref
Liang Sun, Susan J. Lamont, Amanda M. Cooksey, Fiona McCarthy, Catalina O. Tudor, K. Vijay-Shanker, Rachael M. DeRita, Max Rothschild, Chris Ashwell, Michael E. Persia & Carl J. Schmidt. (2015) Transcriptome response to heat stress in a chicken hepatocellular carcinoma cell line. Cell Stress and Chaperones 20:6, pages 939-950.
Crossref
Dietmar W. Siemann & Michael R. Horsman. (2015) Modulation of the tumor vasculature and oxygenation to improve therapy. Pharmacology & Therapeutics 153, pages 107-124.
Crossref
Tamer Refaat, Sean Sachdev, Vythialinga Sathiaseelan, Irene Helenowski, Salah Abdelmoneim, Margaret C. Pierce, Gayle Woloschak, William SmallJr.Jr., Bharat Mittal & Krystyna D. Kiel. (2015) Hyperthermia and radiation therapy for locally advanced or recurrent breast cancer. The Breast 24:4, pages 418-425.
Crossref
Jaesook Park, Jin Park, Eun Jin Ju, Seok Soon Park, Jinhyang Choi, Jae Hee Lee, Kyoung Jin Lee, Seol Hwa Shin, Eun Jung Ko, Intae Park, Chulhee Kim, Jung Jin Hwang, Jung Shin Lee, Si Yeol Song, Seong-Yun Jeong & Eun Kyung Choi. (2015) Multifunctional hollow gold nanoparticles designed for triple combination therapy and CT imaging. Journal of Controlled Release 207, pages 77-85.
Crossref
Tatjana Paunesku, Stanley Gutiontov, Koshonna Brown & Gayle E. Woloschak. 2015. Nanotechnology-Based Precision Tools for the Detection and Treatment of Cancer. Nanotechnology-Based Precision Tools for the Detection and Treatment of Cancer
151
171
.
Mark Hurwitz & Paul Stauffer. (2014) Hyperthermia, Radiation and Chemotherapy: The Role of Heat in Multidisciplinary Cancer Care. Seminars in Oncology 41:6, pages 714-729.
Crossref
Seog-Young Kim, Dae-Hee Lee, Xinxin Song, David L. Bartlett, Yong Tae Kwon & Yong J. Lee. (2014) Role of Bcl-xL/Beclin-1 in synergistic apoptotic effects of secretory TRAIL-armed adenovirus in combination with mitomycin C and hyperthermia on colon cancer cells. Apoptosis 19:11, pages 1603-1615.
Crossref
Xin Li, Goutam Ghoshal, Roberto J. Lavarello & Michael L. Oelze. (2014) Exploring potential mechanisms responsible for observed changes of ultrasonic backscattered energy with temperature variations. Medical Physics 41:5, pages 052901.
Crossref
Jae Myoung NohHye Young KimHee Chul ParkSo Hyang LeeYoung-sun KimSaet-Byul HongJi Hyun ParkSang Hoon JungYoungyih Han. (2014)
In vivo
verification of regional hyperthermia in the liver
. Radiation Oncology Journal 32:4, pages 256.
Crossref
M. Nordsmark, M. Busk, J.B. Petersen, J. Alsner, J. Overgaard & M.R. Horsman. 2014. Comprehensive Biomedical Physics. Comprehensive Biomedical Physics
205
222
.
Dušan Milanović, Elke Firat, Anca Ligia Grosu & Gabriele Niedermann. (2013) Increased radiosensitivity and radiothermosensitivity of human pancreatic MIAPaCa-2 and U251 glioblastoma cell lines treated with the novel Hsp90 inhibitorNVP-HSP990. Radiation Oncology 8:1.
Crossref
Kazumasa Sekihara, Nanae Harashima, Miki Tongu, Yukihisa Tamaki, Nobue Uchida, Taisuke Inomata & Mamoru Harada. (2013) Pifithrin-μ, an Inhibitor of Heat-Shock Protein 70, Can Increase the Antitumor Effects of Hyperthermia Against Human Prostate Cancer Cells. PLoS ONE 8:11, pages e78772.
Crossref
Ling-Yun Zhao, Jia-Yi Liu, Wei-Wei Ouyang, Dan-Ye Li, Li Li, Li-Ya Li & Jin-Tian Tang. (2013) Magnetic-mediated hyperthermia for cancer treatment: Research progress and clinical trials. Chinese Physics B 22:10, pages 108104.
Crossref
David Schlesinger, Stanley Benedict, Chris Diederich, Wladyslaw Gedroyc, Alexander Klibanov & James Larner. (2013) MR-guided focused ultrasound surgery, present and future. Medical Physics 40:8, pages 080901.
Crossref
James MooreJrJr & Duncan MaitlandRobert Staruch, Kullervo Hynynen & Rajiv Chopra. 2013. Biomedical Technology and Devices, Second Edition. Biomedical Technology and Devices, Second Edition
689
726
.
NICOLAAS A.P. FRANKEN, ARLENE L. OEI, H. PETRA KOK, HANS M. RODERMOND, PETER SMINIA, JOHANNES CREZEE, LUKAS J.A. STALPERS & GERRIT W. BARENDSEN. (2013) Cell survival and radiosensitisation: Modulation of the linear and quadratic parameters of the LQ model. International Journal of Oncology 42:5, pages 1501-1515.
Crossref
Munkhbold Tuul, Hiroyuki Kitao, Makoto Iimori, Kazuaki Matsuoka, Shinichi Kiyonari, Hiroshi Saeki, Eiji Oki, Masaru Morita & Yoshihiko Maehara. (2013) Rad9, Rad17, TopBP1 and Claspin Play Essential Roles in Heat-Induced Activation of ATR Kinase and Heat Tolerance. PLoS ONE 8:2, pages e55361.
Crossref
N. M. Ryabchenko, N. K. Rodionova, I. S. Sychevska, I. I. Muzalev, V. M. Mykhailenko & M. O. Druzhina. (2013) Genotoxic effects of radiation and hyperthermia in linear mice with different radiation sensitivity. Cytology and Genetics 47:1, pages 39-43.
Crossref
S. E. Combs. 2013. Strahlentherapie. Strahlentherapie
225
248
.
Daigo Yamamoto, Toshio Inui, Yu Tsubota, Noriko Sueoka, Chizuko Yamamoto, Kayoko Kuwana & Mitsuo Yamamoto. (2012) The utility of hyperthermia for local recurrence of breast cancer. World Journal of Surgical Oncology 10:1.
Crossref
Kenji Mitsudo, Toshiyuki Koizumi, Masaki Iida, Toshinori Iwai, Senri Oguri, Noriyuki Yamamoto, Yoshiyuki Itoh, Mitomu Kioi, Makoto Hirota & Iwai Tohnai. (2012) Thermochemoradiation Therapy Using Superselective Intra-arterial Infusion via Superficial Temporal and Occipital Arteries for Oral Cancer With N3 Cervical Lymph Node Metastases. International Journal of Radiation Oncology*Biology*Physics 83:5, pages e639-e645.
Crossref
KENJI MITSUDO, TOSHIYUKI KOIZUMI, MASAKI IIDA, SACHIYO MITSUNAGA & IWAI TOHNAI. (2012) Thermochemoradiotherapy for Oral Cancer with N2, 3 Cervical Lymph Node Metastases using Retrograde Superselective Intra-arterial Infusion. Thermal Medicine 28:2, pages 23-28.
Crossref
SAIJI OHGA, KATSUMASA NAKAMURA, TADAMASA YOSHITAKE, YOSHIYUKI SHIOYAMA, TAKEFUMI OHGA, TOMONARI SASAKI, TAKESHI NONOSHITA, KAORI ASAI, MASARU MORITA, YOSHIHIRO KAKEJI, HIDEKI HIRATA & HIROSHI HONDA. (2012) A Case of Recurrent Esophageal Cancer Treated with Chemoradiation Combined with Long-term Hyperthermia Treatment. Thermal Medicine 28:1, pages 17-22.
Crossref
Mark Dewhirst, Shiva Das, Paul Stauffer, Oana Craciunescu, Zeljko Vujaskovic & Donald Thrall. 2012. Clinical Radiation Oncology. Clinical Radiation Oncology
385
403
.
Pablo del Pino & Beatriz Pelaz. 2012. Nanobiotechnology - Inorganic Nanoparticles vs Organic Nanoparticles. Nanobiotechnology - Inorganic Nanoparticles vs Organic Nanoparticles
309
335
.
Marianne Linthorst, Tomas Drizdal, Hans Joosten, Gerard C. van Rhoon & Jacoba van der Zee. (2011) Procedure for creating a three-dimensional (3D) model for superficial hyperthermia treatment planningVerfahren zur Erstellung eines dreidimensionalen (3D) Patientenmodells für die Planung der Oberflächenhyperthermiebehandlung. Strahlentherapie und Onkologie 187:12, pages 835-841.
Crossref
Simon N. Powell & Lisa A. Kachnic. (2011) Homologous recombination research is heating up and ready for therapy. Proceedings of the National Academy of Sciences 108:24, pages 9731-9732.
Crossref
Przemek M. KrawczykBerina EppinkJeroen Essers, Jan StapHans RodermondHanny OdijkAlex ZelenskyChris van BreeLukas J. Stalpers, Marrije R. BuistThomas Soullié, Joost Rens, Hence J. M. Verhagen, Mark J. O'Connor, Nicolaas A. P. Franken, Timo L. M. ten Hagen, Roland KanaarJacob A. Aten. (2011) Mild hyperthermia inhibits homologous recombination, induces BRCA2 degradation, and sensitizes cancer cells to poly (ADP-ribose) polymerase-1 inhibition. Proceedings of the National Academy of Sciences 108:24, pages 9851-9856.
Crossref
Marco A. Alcala, Shu Ying Kwan, Chad M. Shade, Megan Lang, Hyounsoo Uh, Manyan Wang, Stephen G. Weber, David L. Bartlett, Stéphane Petoud & Yong J. Lee. (2011) Luminescence targeting and imaging using a nanoscale generation 3 dendrimer in an in vivo colorectal metastatic rat model. Nanomedicine: Nanotechnology, Biology and Medicine 7:3, pages 249-258.
Crossref
Seulki Lee, Ick Chan Kwon & Kwangmeyung Kim. 2011. Nanoplatform‐Based Molecular Imaging. Nanoplatform‐Based Molecular Imaging
541
563
.
Lars H. Lindner & Rolf D. Issels. (2011) Hyperthermia in soft tissue sarcoma. Current Treatment Options in Oncology 12:1, pages 12-20.
Crossref
Peter M. Schlag, Jörg T. Hartmann & Volker BudachRolf D. Issels & Lars H. Lindner. 2011. Weichgewebetumoren. Weichgewebetumoren
265
272
.
Joseph L. Roti Roti, Robert P. VanderWaal & Andrei Laszlo. 2011. Molecular Determinants of Radiation Response. Molecular Determinants of Radiation Response
227
249
.
Guruprasad Kalthur Uma Devi Pathirissery. (2010) Enhancement of the Response of B16F1 Melanoma to Fractionated Radiotherapy and Prolongation of Survival by Withaferin A and/or Hyperthermia. Integrative Cancer Therapies 9:4, pages 370-377.
Crossref
Timothy M. Zagar, Kristin A. Higgins, Edward F. Miles, Zeljko Vujaskovic, Mark W. Dewhirst, Robert W. Clough, Leonard R. Prosnitz & Ellen L. Jones. (2010) Durable palliation of breast cancer chest wall recurrence with radiation therapy, hyperthermia, and chemotherapy. Radiotherapy and Oncology 97:3, pages 535-540.
Crossref
Michael R. Horsman, Jens Overgaard & Dietmar W. Siemann. 2010. Tumor Microenvironment. Tumor Microenvironment
353
376
.
Rory Pruitt, Nidhish Sasi, Michael L. Freeman & Konjeti R. Sekhar. (2010) Radiosensitization of cancer cells by hydroxychalcones. Bioorganic & Medicinal Chemistry Letters 20:20, pages 5997-6000.
Crossref
ANDREW J. GIUSTINI, ALICIA A. PETRYK, SHIRAZ M. CASSIM, JENNIFER A. TATE, IAN BAKER & P. JACK HOOPES. (2012) MAGNETIC NANOPARTICLE HYPERTHERMIA IN CANCER TREATMENT. Nano LIFE 01:01n02, pages 17-32.
Crossref
Sachiyo Mitsunaga, Kenji Mitsudo, Toshinori Iwai, Yasuharu Yajima, Maiko Shibasaki, Takashi Ohya, Yoshihito Ohhara, Makoto Hirota & Iwai Tohnai. (2010) . Journal of Japan Society for Oral Tumors 22:4, pages 157-163.
Crossref
KOHEI INOUE, TETSUYA KAWATA, MASAYOSHI SAITO, CUIHUA LIU, TAKASHI UNO, KOUICHI ISOBE & HISAO ITO. (2010) Effect of an ATM Kinase Inhibitor on Thermo- and/or Radio-sensitization in Non-proliferating Normal Human Fibroblasts and Osteosarcoma Cells. Thermal Medicine 26:3, pages 97-107.
Crossref
Y. Thirupathi Reddy, Konjeti R. Sekhar, Nidhish Sasi, P. Narsimha Reddy, Michael L. Freeman & Peter A. Crooks. (2010) 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. Bioorganic & Medicinal Chemistry Letters 20:2, pages 600-602.
Crossref
Michael Wittlinger, Claus M. Rödel, Christian Weiss, Steffen F. Krause, Reinhard Kühn, Rainer Fietkau, Rolf Sauer & Oliver J. Ott. (2009) Quadrimodal treatment of high-risk T1 and T2 bladder cancer: Transurethral tumor resection followed by concurrent radiochemotherapy and regional deep hyperthermia. Radiotherapy and Oncology 93:2, pages 358-363.
Crossref
Robert P. Vanderwaal, Leonard B. MaggiJr.Jr., Jason D. Weber, Clayton R. Hunt & Joseph L. Roti Roti. (2009) Nucleophosmin Redistribution following Heat Shock: A Role in Heat-Induced Radiosensitization. Cancer Research 69:16, pages 6454-6462.
Crossref
Kyeongsoon Park, Seulki Lee, Eunah Kang, Kwangmeyung Kim, Kuiwon Choi & Ick Chan Kwon. (2009) New Generation of Multifunctional Nanoparticles for Cancer Imaging and Therapy. Advanced Functional Materials 19:10, pages 1553-1566.
Crossref
Reda A. Hemida. (2009) A Proposal to Improve Treatment of Patients with Gynecologic Cancer in Developing Countries. Clinical Ovarian Cancer 2:1, pages 38-43.
Crossref
George A. Plataniotis & Roger G. Dale. (2009) Use of the Concept of Equivalent Biologically Effective Dose (BED) to Quantify the Contribution of Hyperthermia to Local Tumor Control in Radiohyperthermia Cervical Cancer Trials, and Comparison With Radiochemotherapy Results. International Journal of Radiation Oncology*Biology*Physics 73:5, pages 1538-1544.
Crossref
J. G. Xing, W. El-Sweisi, L. E. J. Lee, P. Collodi, C. Seymour, C. Mothersill & N. C. Bols. (2008) Development of a zebrafish spleen cell line, ZSSJ, and its growth arrest by gamma irradiation and capacity to act as feeder cells. In Vitro Cellular & Developmental Biology - Animal 45:3-4, pages 163-174.
Crossref
Andrei Laszlo & Ilona Fleischer. (2009) Heat-Induced Perturbations of DNA Damage Signaling Pathways are Modulated by Molecular Chaperones. Cancer Research 69:5, pages 2042-2049.
Crossref
Melissa J. Grimm, Evan R. Zynda & Elizabeth A. Repasky. 2010. Prokaryotic and Eukaryotic Heat Shock Proteins in Infectious Disease. Prokaryotic and Eukaryotic Heat Shock Proteins in Infectious Disease
267
306
.
Michael R. Horsman & Dietmar W. Siemann. 2009. Cancer Microenvironment and Therapeutic Implications. Cancer Microenvironment and Therapeutic Implications
137
156
.
Rolf D. Issels. (2008) Hyperthermia adds to chemotherapy. European Journal of Cancer 44:17, pages 2546-2554.
Crossref
Sun Joo Lee, Eun Sun Yang, Sun Yee Kim, Sung Youl Kim, Seoung Woo Shin & Jeen-Woo Park. (2008) Regulation of heat shock-induced apoptosis by sensitive to apoptosis gene protein. Free Radical Biology and Medicine 45:2, pages 167-176.
Crossref
Ping Chen, Ling-lin Yang, Han-shuo Yang, Yong-sheng Wang, Gang Li, Yang Wu, Fang Fang, Kang Liu, Jie Li, Xia Zhao, Huo-zhen Hu & Yu-quan Wei. (2007) Synergistic antitumor effect of CXCL10 with hyperthermia. Journal of Cancer Research and Clinical Oncology 134:6, pages 679-687.
Crossref
Akihisa Takahashi, Nobuhiro Yamakawa, Eiichiro Mori, Ken Ohnishi, Shin-ichi Yokota, Noriyuki Sugo, Yasuaki Aratani, Hideki Koyama & Takeo Ohnishi. (2008) Development of thermotolerance requires interaction between polymerase-β and heat shock proteins. Cancer Science 99:5, pages 973-978.
Crossref
Parmeswaran Diagaradjane, Anil Shetty, James C. Wang, Andrew M. Elliott, Jon Schwartz, Shujun Shentu, Hee C. Park, Amit Deorukhkar, R. Jason Stafford, Sang H. Cho, James W. Tunnell, John D. Hazle & Sunil Krishnan. (2008) Modulation of in Vivo Tumor Radiation Response via Gold Nanoshell-Mediated Vascular-Focused Hyperthermia: Characterizing an Integrated Antihypoxic and Localized Vascular Disrupting Targeting Strategy. Nano Letters 8:5, pages 1492-1500.
Crossref
Martine Franckena, Lukas J.A. Stalpers, Peter C.M. Koper, Ruud G.J. Wiggenraad, Wim J. Hoogenraad, Jan D.P. van Dijk, Carla C. Wárlám-Rodenhuis, Jan J. Jobsen, Gerard C. van Rhoon & Jacoba van der Zee. (2008) Long-Term Improvement in Treatment Outcome After Radiotherapy and Hyperthermia in Locoregionally Advanced Cervix Cancer: An Update of the Dutch Deep Hyperthermia Trial. International Journal of Radiation Oncology*Biology*Physics 70:4, pages 1176-1182.
Crossref
Seoung Woo Shin, In Sup Kil & Jeen-Woo Park. (2008) Silencing of mitochondrial NADP+-dependent isocitrate dehydrogenase by small interfering RNA enhances heat shock-induced apoptosis. Biochemical and Biophysical Research Communications 366:4, pages 1012-1018.
Crossref
KANWAL AHMED, TAKESHI HORI, DA-YONG YU, ZHENG-LI WEI, QING-LI ZHAO, MASAO NAKASHIMA, MARIAME ALI HASSAN & TAKASHI KONDO. (2008) Hyperthermia Chemo-sensitization, Chemical Thermo-sensitization and Apoptosis. Thermal Medicine 24:1, pages 1-12.
Crossref
Jinsang Yoo & Yong J. Lee. (2008) Effect of hyperthermia and chemotherapeutic agents on TRAIL-induced cell death in human colon cancer cells. Journal of Cellular Biochemistry 103:1, pages 98-109.
Crossref
Vijayakumar N. Sonar, Y. Thirupathi Reddy, Konjeti R. Sekhar, Soumya Sasi, Michael L. Freeman & Peter A. Crooks. (2007) 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. Bioorganic & Medicinal Chemistry Letters 17:24, pages 6821-6824.
Crossref
Riadh Habash. 2007. Bioeffects and Therapeutic Applications of Electromagnetic Energy. Bioeffects and Therapeutic Applications of Electromagnetic Energy
221
263
.
Abeer M. Al-Ghananeem, Zaineb F. Albayati, Ahmad Malkawi, Vijayakumar N. Sonar, Michael L. Freeman & Peter A. Crooks. (2007) A pharmacokinetic study on Z-(±)-2-(1-benzylindole-3-yl-methylene)azabicyclo[2.2.2]octane-3-ol; a novel radio-sensitization agent. Cancer Chemotherapy and Pharmacology 60:6, pages 915-919.
Crossref
M.R. Horsman & J. Overgaard. (2007) Hyperthermia: a Potent Enhancer of Radiotherapy. Clinical Oncology 19:6, pages 418-426.
Crossref
Jinsang Yoo & Yong J. Lee. (2007) Effect of hyperthermia on TRAIL‐induced apoptotic death in human colon cancer cells: Development of a novel strategy for regional therapy. Journal of Cellular Biochemistry 101:3, pages 619-630.
Crossref
Clayton R. Hunt, Raj K. Pandita, Andrei Laszlo, Ryuji Higashikubo, Manjula Agarwal, Tetsuya Kitamura, Arun Gupta, Nicole Rief, Nobuo Horikoshi, Rajeskaran Baskaran, Ji-Hoon Lee, Markus Löbrich, Tanya T. Paull, Joseph L. Roti Roti & Tej K. Pandita. (2007) Hyperthermia Activates a Subset of Ataxia-Telangiectasia Mutated Effectors Independent of DNA Strand Breaks and Heat Shock Protein 70 Status. Cancer Research 67:7, pages 3010-3017.
Crossref
Konjeti R. Sekhar, Vijayakumar N. Sonar, Venkatraj Muthusamy, Soumya Sasi, Andrei Laszlo, Jamil Sawani, Nobuo Horikoshi, Ryuji Higashikubo, Robert G. Bristow, Michael J. Borrelli, Peter A. Crooks, James R. Lepock, Joseph L. Roti Roti & Michael L. Freeman. (2007) Novel Chemical Enhancers of Heat Shock Increase Thermal Radiosensitization through a Mitotic Catastrophe Pathway. Cancer Research 67:2, pages 695-701.
Crossref
Akihisa Takahashi, Eiichiro Mori & Takeo Ohnishi. (2007) Phospho-Nbs1 and Mre11 proteins which recognize DSBs co-localize with γH2AX in the nucleus after heat treatment. Annals of Cancer Research and Therapy 15:2, pages 50-53.
Crossref
Manfred Johannsen, Uwe Gneveckow, Kasra Taymoorian, Chie Hee Cho, Burghard Thiesen, Regina Scholz, Norbert Waldöfner, A. Loening Stefan, Peter Wust & Andreas Jordan. (2007) Termoterapia en cáncer de próstata mediante el uso de nanopartículas magnéticas. Actas Urológicas Españolas 31:6, pages 660-667.
Crossref
Jacoba van der Zee & Gerard C. van Rhoon. (2006) Hyperthermia is effective in improving clinical radiotherapy results. International Journal of Radiation Oncology*Biology*Physics 66:2, pages 633-634.
Crossref
Valeria Milani & Elfriede Noessner. (2005) Effects of thermal stress on tumor antigenicity and recognition by immune effector cells. Cancer Immunology, Immunotherapy 55:3, pages 312-319.
Crossref
AKIHISA TAKAHASHI & TAKEO OHNISHI. (2006) What is the Critical Hyperthermia Target in Cancer Cells?. Thermal Medicine 22:4, pages 229-237.
Crossref
S. E. Combs. 2006. Strahlentherapie. Strahlentherapie
177
196
.
Pietro Gabriele & Cristina Roca. 2006. Hyperthermia in Cancer Treatment: A Primer. Hyperthermia in Cancer Treatment: A Primer
119
127
.
Debra K. Kelleher & Peter Vaupel. 2006. Hyperthermia in Cancer Treatment: A Primer. Hyperthermia in Cancer Treatment: A Primer
99
109
.
Gian Franco Baronzio, Alberto Gramaglia, Attilio Baronzio & Isabel Freitas. 2006. Hyperthermia in Cancer Treatment: A Primer. Hyperthermia in Cancer Treatment: A Primer
67
91
.
Gian Franco Baronzio, Vincenzo Cerreta, Attilio Baronzio, Isabel Freitas, Marco Mapelli & Alberto Gramaglia. 2006. Hyperthermia in Cancer Treatment: A Primer. Hyperthermia in Cancer Treatment: A Primer
128
155
.
Harm H. Kampinga & Andrei Laszlo. (2005) DNA Double Strand Breaks Do Not Play a Role in Heat-Induced Cell Killing. Cancer Research 65:22, pages 10632-10633.
Crossref
Frank Pajonk, Arndt van Ophoven & William H. McBride. (2005) Hyperthermia-Induced Proteasome Inhibition and Loss of Androgen Receptor Expression in Human Prostate Cancer Cells. Cancer Research 65:11, pages 4836-4843.
Crossref
Bradford J Wood, Ziv Neeman & Anthony Kam. 2005. Tumor Ablation. Tumor Ablation
285
300
.
Akihisa Takahashi, Hideki Matsumoto, Kosuke Nagayama, Mutsuko Kitano, Sayako Hirose, Hidenori Tanaka, Eiichiro Mori, Nobuhiro Yamakawa, Jun-ichi Yasumoto, Kazue Yuki, Ken Ohnishi & Takeo Ohnishi. (2004) Evidence for the Involvement of Double-Strand Breaks in Heat-Induced Cell Killing. Cancer Research 64:24, pages 8839-8845.
Crossref
Marc A. Friedman, Rosemary Altemus & Bradford J. Wood. (2003) Radiofrequency Ablation in a Previously Irradiated Liver. Journal of Vascular and Interventional Radiology 14:10, pages 1345-1348.
Crossref
Floris M Wachters, John W.G van Putten, Jan G Maring, Malgorzata Z Zdzienicka, Harry J.M Groen & Harm H Kampinga. (2003) Selective targeting of homologous DNA recombination repair by gemcitabine. International Journal of Radiation Oncology*Biology*Physics 57:2, pages 553-562.
Crossref
Joseph R. Dynlacht, M. Eric Bittner, Jody A. Bethel & Brian D. Beck. (2003) The non‐homologous end‐joining pathway is not involved in the radiosensitization of mammalian cells by heat shock. Journal of Cellular Physiology 196:3, pages 557-564.
Crossref
D. R. Boreham, J-A. Dolling, J. Misonoh & R. E J. Mitchel. (2002)
Radiation-Induced Teratogenic Effects in Fetal Mice with Varying
Trp53
Function: Influence of Prior Heat Stress
. Radiation Research 158:4, pages 449-457.
Crossref
J. van der Zee. (2002) Heating the patient: a promising approach?. Annals of Oncology 13:8, pages 1173-1184.
Crossref
Zhao-Chong Zeng. (2002) DNA-PKcs subunits in radiosensitization by hyperthermia on hepatocellular carcinoma hepG2 cell line. World Journal of Gastroenterology 8:5, pages 797.
Crossref
Michael L. Freeman, Kurt J. Henle & Mark W. Dewhirst. 2002. Encyclopedia of Cancer. Encyclopedia of Cancer
447
459
.
O.S Nielsen, M Horsman & J Overgaard. (2001) A future for hyperthermia in cancer treatment?. European Journal of Cancer 37:13, pages 1587-1589.
Crossref
Nahuel Nuñez, Mariana Raineri, Horacio E. Troiani, Dina Tobia, Roberto D. Zysler, Enio Lima & Elin Lilian Winkler. (2021) Magnetic Hydroxyapatite for Magnetic Hyperthermia and Sensitive to Ionizing Radiation. SSRN Electronic Journal.
Crossref