Oncothermie – Referenzen zur Studien-Sammlung

hier die Referenzen zum Artikel Oncothermie – Wissenschaftlicher Hintergrund und Ergebnisse in Studien

die Referenzen konnten aus Speicher-Platzgründen nicht auf der Artikelseite gelistet werden.


die lesenswerten Studien halte ich oben, die mit wenig Aussage oder ohne Abstrakt hab ich –> UNTEN angefügt.


durch KLICK auf die Referenz-NMummer springen sie wieder auf die übergeordnete Studien-Seite zurück an die korrekte Position


[3]      Fiorentini G, Giovanis P, Rossi S, Dentico P, Paola R, Turrisi G, Bernardeschi P (2006) A phase II clinical study on relapsed malignant gliomas treated with electro-hyperthermia. In Vivo 20(6A):721–724, | FulltextPDF

die Studie zeigt Ansprechen bei 25% der Glioblastom-Patienten, die Remission war 10 Monate andauernd.


[4]      Mambrini A, Del Freo A, Pacetti P, Orlandi M, Torri T, Fiorentini G, Cantore M (2007) Intra-arterial and systemic chemotherapy plus external hyperthermia in unresectable biliary cancer. Clin Oncol (R coll Radiol) 19(10):808-806, 

[5]      Hager ED, Dziambor H, Höhmann D, Gallenbeck D, Stephan M, Popa C (1999) Deep hyperthermia with radiofrequencies in patients with liver metastases from colorectal cancer. Anticancer Res 19(4C):3403–3408, http://www.ncbi.nlm.nih.gov/pubmed/10629627 

[6]      Gadaleta-Caldarola G, Infusino S, Galise I, Ranieri G, Vinciarelly G, Fazio V, Divella R, Daniele A, Filippelli G, Gadaleta CD (2014) Sorafenib and locoregional deep electro-hyperthermia in advanced hepatocellular carcinoma. A phase II study. Oncol Lett, 2014 Oct,8(4):1783-1787, http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4156230/ 

[7]      Szasz A (2014) Current status of oncothermia therapy for lung cancer. Korean J Thorac Cardiovasc Surg 47:77-93, http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4000888 

[8]      Seung-Gu Yeo (2015) Definitive radiotherapy with concurrent oncothermia for stage IIIB non-small-cell lung cancer: A case report. Experimental and Therapeutic Medicine pp. 1-4, http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4509030/ 

[9]      Douwes F, BogoviC J, Douwes O, Migeod F, Grote C. (2004) Whole-body hyperthermia in combination with platinum containing drugs in patients with recurrent ovarian cancer; Int J Clin Oncol. 2004 Apr;9(2):85-91, http://www.ncbi.nlm.nih.gov/pubmed/15108039 

[10]      Kleef R, Kekic S, Ludwig N (2012) Successful treatment of advanced ovarian cancer with thermochemotherapy and adjuvant immune therapy. Case Rep Oncol 5:212-215, http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3369243/ 

[11]      Bogovic J, Douwes F, Muravjov G, Istomin J, (2001) Posttreatment histology and microcirculation status of osteogenic sarcoma after a neoadjuvant chemo- and radiotherapy in combination with local electromagnetic hyperthermia, Onkologie 24(1):55-58, http://www.ncbi.nlm.nih.gov/pubmed/11441282 

[12]      Rubovszky G, Nagy T, Godeny M, Szasz A, Lang I (2013) Successful treatment of solitary bone metastasis of non-small cell lung cancer with combination of bevacizumab and hyperthermia. Pathol Oncol Res. 2013 Jan;19(1):119-22, http://www.ncbi.nlm.nih.gov/pubmed/22752712 

[13]      Volker Schrrmacher, Akos-Sigmund Bihari, Wilfried Stücker, Tobias Sprenger (2014) Long-term remission of prostate cancer with extensive bone metastses upon immuno- and virotherapy: A case report. Oncology Letters 8:2403-2406, http://www.ncbi.nlm.nih.gov/pubmed/25364402 

[14]    Pang CLK, Xinting Z, Zhen W, Junwen O, Yimin L, Roussakow R, et.al. (2016) Local mEHT + TCM Versus Intraperitoneal Chemoinfusion in Treatment of Malignant Ascites: Phase II RCT (OTMA-RII), ClinicalTrials.gov, https://clinicaltrials.gov/ct2/show/NCT02638051 

[15]      Lee SY, Kim M-G (2015) The effect of modulated electro-hyperthermia on the pharmacokinetic properties of nefopam in healthy volunteers: A randomised, single-dose, crossover open-label study, Int J Hyp, Early Online: 1-6, http://www.ncbi.nlm.nih.gov/pubmed/26507458 

[16]      Doo Yun Lee, Joon Seok Park, Hae Chul Jung, Eun Seol Byun, Seok Jin Haam, Sung Soo Lee (2015) The Outcome of the Chemotherapy and Oncothermia for Far Advanced Adenocarcinoma of the Lung: Case reports of four patients. Advances in Lung Cancer 4:1-7, http://www.scirp.org/journal/PaperInformation.aspx?PaperID=54620 

[17]      Doo Yun Lee, Seok Jin Haam, Tae Hoon Kim, Jae Yoon Lim, Eun Jung Kim, and Na Young Kim (2013) Oncothermia with chemotherapy in the patients with Small Cell Lung Cancer. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 910363, http://www.hindawi.com/archive/2013/910363/ 

[18]      Dani A, Varkonyi A, Magyar T, Szasz A (2009) Clinical study for advanced non-small-cell lung-cancer treated by oncothermia. Forum Hyperthermie; DGHT, 2009

[19]      Tae Sig Jeung, Sun Young Ma, JiHoon Choi, Jeasang Yu, Su Yong Lee, Sangwook Lim (2015) Results of oncothermia combined with operation, chemotherapy and radiation therapy for primary, recurrent and metastatic sarcoma. Case Reports in Clinical Medicine 4:157-168, http://www.scirp.org/journal/PaperInformation.aspx?PaperID=56280 

[20]      Volovat C, Volovat SR, Scripcaru V, Miron L, Lupascu C (2014) The results of combination of ifosfamid and locoregional hyperthermia (EHY 2000) in patients with advanced abdominal soft-tissue sarcoma after relapse of first line chemotherapy. Romanian Reports in Physics, Vol. 66, No. 1, p. 175-181. Romanian Reports in Physics, Vol. 66, No. 1, p. 175-181, https://www.researchgate.net/publication/273968670_The_results_of_combination_of_ifosfamid_and_


[21]      Volovat C, Volovat SR, Scripcaru V, Miron L (2014) Second-line chemotherapy with gemcitabine and oxaliplatin in combination with loco-regional hyperthermia (EHY-2000) in patients with refrctory metastatic pancreatic cancer – preliminary results of a prospective trial. Romanian Reports in Physics 66(1):166-174, http://www.rrp.infim.ro/2014_66_1/A18.pdf 

[22]      Dani A, Varkonyi A, Magyar T, Szasz A (2008) Clinical study for advanced pancreas cancer treated by oncothermia. Forum Hyperthermie 1:13–20, http://www.pyatthealth.com/wp-content/uploads/2015/03/Hyperthermia-Pancreatic-Cancer.pdf 

[23]      Douwes F, Migeod F, Grote C (2006) Behandlung des fortgeschrittenen Pankreaskarzinoms mit regionaler Hyperthermie und einer Zytostase mit Mitomycin- C und 5-Fluorouracil/ Folinsäure. Onkologische Fachklinik St. Georg, Bad Aibling, 



[24]      Douwes FR (2006) Thermochemotherapy of the advanced pancreas carcinoma. Biologische Medizin 35:126–130,


[25]      Douwes FR (2004) Thermo-Chemotherapie des fortgeschrittenen Pankreaskarzinoms. Ergebnisseeiner klinischen Anwendungsstudie. Onkologische Fachklinik St. Georg, Bad Aibling

[26]      Hager ED, Süsse B, Popa C, Schritttwieser G, Heise A, Kleef R (1994) Complex therapy of the not in sano respectable carcinoma of the pancreas – a pilot study. J Cancer Res Clin Oncol 120:R47,P1

[27]      Ballerini M, Baronzio G F, Capito G, Szasz O, Cassutti V (2013) Androtherm application for the Peyronie’s Disease. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 962349, http://www.hindawi.com/archive/2013/962349/ 

[28]  Douwes FR (2008) Prostatakarzinom: Neue Aspekte für Diagnostik und Therapie. Facharzt Gynakologie/Urologie, 2:23-29 

[29]      Douwes FR (2011) Für und Wider des Prostata-Karzinom-Screenings. Prostata Newsletter (PNL) Ausgabe August 2011

[30]      Douwes FR (2011) Neue Studie heizt Diskussion über den Wert von PSA-Tests an. Prostata Newsletter (PNL) Ausgabe August 2011

[31]      Douwes FR (2008) Prostatakarzinom: Neue Aspekte für Diagnostik und Therapie. Facharzt Gynakologie/Urologie, 2:23-29

[32]      Douwes FR (2008) Sanfte Hilfen für die Prostata. CO’Med, 4:1-2

[33]      Douwes FR (2005) Bestrahlung der Prostata erhöht Rektum-Ca-Risiko. Klinik St. Georg

[34]      Maar K (2004) Rebell gegen den Krebs. Bioogische Intersivtherapie – Neue Hoffnung für Patienten? Neomedica GmbH, Klosterneuburg

[35]      Douwes FR, Lieberman S (2002) Radiofrequency Transurethral Hyperthermia and complete Androgen Blockade. A Nonsurgical Approach to Treating Prostate Cancer. Alternative & Complementary Therapies, 8(3):149-156, 



[36]      Douwes FR (2002) Diagnostik hyperthermia in early stage prostate cancer. Focus Alternat Complement Ther 6(1):77-78

[37]      Douwes FR (2001) Adjuvante Radiotherapie: Welcher Patient mit Prostatakarzinom profitiert? Prostata Newsletter (PNL), Ausgabe August 2011

[38]      Douwes F, Sillner L, Köhnlechner M (1999) Hoffnung bei Porstata-Beschwerden. Die neue Therapie ohne Messer. Herbig Verlagsbuchhandlung GmbH, http://www.zvab.com/9783776620863/Hoffnung-Prostata-Beschwerden-neue-Therapie-Messer-3776620862/plp 

[39]      Szasz A (2003) Malignus és belignus prosztatadaganatok hyperthermiája. Magyar Urológia 15:87-88

[40]      Hegyi G (2014) Synergy between Oncothermia and Traditional Chinese Medicine. EANU Special pp. 1-25, http://www.maot.hu/wp-content/uploads/2014/09/Heft_SPECIAL_eng.pdf 

[41]      Hegyi G, Jian Li (2013) Low back pain – complex approach of treatment by different CAM modalities (Acupuncture and other type of dry-needling, “Targeted RF non invasive physiotherapy” for low back pain). Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 326595, http://www.hindawi.com/archive/2013/326595/ 

[42]      Zais O (2013) Lyme Disease and Oncothermia. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 275013, http://www.hindawi.com/archive/2013/275013/ 

[43]      Youngsuk Lee (2013) Oncothermia Application for Various Malignant Diseases. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 245156, http://www.hindawi.com/archive/2013/245156/ 

[44]      Marwan Akasheh (2010) Oncothermia: Emerging Therapy in Oncology. J Med J 44(4):456-465, http://journals.ju.edu.jo/JMJ/article/view/2088 

[45]      Carrie Strauss, Jeffrey Kotzen, Ans Baeyens, Irma Maré (2013) Oncothermia in HIV positive and negative locally advanced cervical cancer patients in South Africa. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 293968, http://www.hindawi.com/archive/2013/293968/ 

[46]      Lajos Pesti, Zsófia Dankovics, Péter Lorencz, and András Csejtei (2013) Treatment of advanced cervical cancer with complex chemoradio – hyperthermia. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 192435, http://www.hindawi.com/archive/2013/192435/ 

[47]      Hager ED, Birkenmeier J. (2006) Glioblastoma multiforme Grad IV: Regionale Tiefenhyperthermie, Antiangiogenese mit Thalidomid, Hochdosis-Ascorbinsäureinfusionen und komplementäre Therapie, Deutsche Zeitschrift für Onkologie 38(3):133-135, DOI: 10.1055/s-2006-952050, https://www.thieme-connect.com/products/ejournals/abstract/10.1055/s-2006-952050 

[48]      Hager ED, Sahinbas H, Groenemeyer DH, Migeod F (2008) Prospective phase II trial for recurrent high-grade malignant gliomas with capacitive coupled low radiofrequency (LRF) deep hyperthermia. ASCO, J Clin Oncol, Annual Meeting Proceedings (Post-Meeting Edition) 26:2047, 



[49]      Sahinbas H, Groenemeyer DHW, Boecher E, Szasz A (2007) Retrospective clinical study of adjuvant electro-hyperthermia treatment for advanced brain-gliomas. Deutsche Zeitschrift fuer Onkologie 39:154–160, https://www.thieme-connect.com/products/ejournals/abstract/10.1055/s-2007-986020 

[50]      Douwes F, Douwes O, Migeod F, Grote C, Bogovic J (2006) Hyperthermia in combination with ACNU chemotherapy in the treatment of recurrent glioblastoma. St. Georg Klinik, Germany

[51]      Hager ED, Dziambor H, App EM, Popa C, Popa O, Hertlein M (2003) The treatment of patients with high-grade malignant gliomas with RF-hyperthermia. Proc ASCO 22:118, #47;Proc Am Soc Clin Oncol 22: 2003

[52]      Hager ED. (2004) Lebermetastasen bei kolorektalen Karzinomen, Deutsche Zeitschrift für Onkologie, 36:132-134

[53]      Ferrari VD, De Ponti S, Valcamonico F, Amoroso V, Grisanti S, Rangoni G, Marpicati P, Vassalli L, Simoncini E, Marini G (2007) Deep electro-hyperthermia (EHY) with or without thermo-active agents in patients with advanced hepatic cell carcinoma: phase II study. J Clin Oncol 25:18S, 15168, http://meeting.ascopubs.org/cgi/content/short/25/18_suppl/15168 

[54]  Hager ED, Birkenmeier J. (2006) Malignes Melanom Stadium IV: Anwendung von regionaler Tiefenhyperthermie, Tamoxifen, Interferon-α und komplementären Therapien, Deutsche Zeitschrift für Onkologie, 38(1):32-34, https://www.thieme-connect.com/products/ejournals/abstract/10.1055/s-2006-932313 

[55]      Jihye Cha, Tae-Won Jeon, Chang Geol Lee, Sang Taek Oh, Hee-Beom Yang,Kyung-Ju Choi, Daekwan Seo, Ina Yun, In Hye Baik, Kyung Ran Park,Young Nyun Park, Yun-Han Lee; (2015) Electro-hyperthermia inhibits glioma tumorigenicity through the induction of E2F1-mediated apoptosis, Int. Journal Hyperthermia, 31(7):784-792, http://www.ncbi.nlm.nih.gov/pubmed/26367194 

[56]      Meggyeshazi N, Andocs G, Krenacs T (2013) Programmed cell death induced by modulated electro-hyperthermia. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 187835, http://www.hindawi.com/archive/2013/187835/ 

[57]      Andocs G, Balogh L, Meggyeshazi N, Jakab Cs, Krenacs T, Szasz A (2010) A modulált rádiófrekvenciás (RF) hyperthermia (oncothermia) apoptózis-indukáló hatása immunhiányos egér xenograft tumorokban [The apoptosis-inducing effect of modulated radio-frequency (RF) hyperthermia (oncothermia) on immun deficient mouse xenograft tumors]. Orvostovábbképző Szemle 2010. november különszám pp. 24-25.

[58]      Meggyeshazi N, Krenacs T, Szasz A (2010) Klinikai vizsgálatok és evidenciák a modulált vezetéses rádiófrekvenciás hyperthermia (oncothermia) alkalmazásában [Clinical trials and evidences of the application of modulated radio-frequency hyperthermia]. Orvostovábbképző Szemle 2010. november különszám pp. 25-26.

[59]      Meggyeshazi N, Andocs G, Spisak S, Kiszner G, Balla P, Balogh L, Krenacs T (2013) Modulated electrohyperthermia causes caspase independent programmed cell death in HT29 colon cancer xenografts. Virchows Arch 463(2):329, 

[60]      Meggyeshazi N, Andocs G, Krenacs T (2012) Modulated electro-hyperthermia induced programmed cell death in HT29 colorectal carcinoma xenograft. Virchows Arch 461 (Suppl 1):S131–S132

[61]      Meggyeshazi N, Andocs G, Balogh L, Krenacs T (2011) DNA fragmentation-driven tumor cell degradation induced by modulated electro-hyperthermia. Virchows Arch 459 (Suppl 1):S204-205

[62]      Meggyeshazi N, Andocs G, Balogh L, Balla P, Kiszner G, Teleki I, Jeney A, Krenacs T (2014) DNA fragmentation and caspase-independent programmed cell death by modulated electrohyperthermia. Strahlenther Onkol 190:815-822, http://www.ncbi.nlm.nih.gov/pubmed/24562547 

[63]      Andocs G, Meggyeshazi N, Balogh L, Spisak S, Maros ME, Balla P, Kiszner G, Teleki I, Kovago Cs, Krenacs T (2014) Upregulation of heat shock proteins and the promotion of damage-associated molecular pattern signals in a colorectal cancer model by modualted electrohyperthermia. Cell Stress and Chaperones 20(1):37-46, http://www.ncbi.nlm.nih.gov/pubmed/24973890 

[64]      Qin W, Akutsu Y, Andocs G, Sugnami A, Hu X, Yusup G, Komatsu-Akimoto A, Hoshino I, Hanari N, Mori M, Isozaki Y, Akanuma N, Tamura Y, Matsubara H (2014) Modulated electro-hyperthermia enhances dendritic cell therapy through an abscopal effect in mice. Oncol Rep 32(6):2373-2379, http://www.ncbi.nlm.nih.gov/pubmed/25242303 

[65]      Yuk-Wah Tsang, Cheng-Chung Huang, Kai-Lin Yang, Mau-Shin Chi, Hsin-Chien Chiang, Yu-Shan Wang, Gabor Andocs, Andras Szasz, Wen-Tyng Li, Kwan-Hwa Chi. (2015) Improving immunological tumor microenvironment using electro-hyperthermia followed by dendritic cell immunotherapy, BMC Cancer 15:708, http://www.ncbi.nlm.nih.gov/pubmed/26472466 

[66]      Andocs G, Renner H, Balogh L, Fonyad L, Jakab C, Szasz A (2009) Strong synergy of heat and modulated electro- magnetic field in tumor cell killing, Study of HT29 xenograft tumors in a nude mice model. Strahlentherapie und Onkologie 185:120–126, http://www.ncbi.nlm.nih.gov/pubmed/19240999 

[67]    Andocs G, Rehman MU, Zhao Q-L, Tabuchi Y, Kanamori M, Kondo T. (2016) Comparison of biological effects of modulated electro-hyperthermia and conventional heat treatment in human lymphoma U937 cell, Cell Death Discovery (Nature Publishing Group), 2, 16039, http://www.nature.com/articles/cddiscovery201639

[68]    Jeon T-W, Yang H, Lee CG, O ST, et.al. (2016) Electro-hyperthermia up-regulates tumour suppressor Septin 4 to induce apoptotic cell death in hepatocellular carcinoma, Int. J. Hyp., 7:1-9, http://dx.doi.org/10.1080/02656736.2016.1186290 

[69]    Yang K-L, Huang C-C, Chi M-S, Chiang H-C, Wang Y-S, Andocs G, et.al. (2016) In vitro comparison of conventional hyperthermia and modulated electro-hyperthermia, Oncotarget,  oi: 10.18632/oncotarget.11444, http://www.ncbi.nlm.nih.gov/pubmed/27556507 

[70]      Herzog A (2008) Messung der Temperaturverteilung am Modell der nicht perfundierten Schweineleber bei lokaler Hyperthermie mit Kurzwellen mit 13,56 MHz, Forum Hyperthermie, 1/10, 30-34

[71]      Nagy G, Meggyeshazi N, Szasz O (2013) Deep temperature measurements in oncothermia processes. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 685264, http://www.hindawi.com/archive/2013/685264/ 

[72]      Herzog A (2008) Messung der Temperoturverteilung om Modell der nicht perfundierten Schweineleber bei lokoler Hyperthermie mit Kurzwellen mit l3.56 MHz; Forum Medicine, pp.30-36, http://www.oalib.com/references/13334237 

[73]      Meggyeshazi N, Andocs G, Spisak S, Krenacs T (2013) Early changes in mRNA and protein expression related to cancer treatment by modulated electro-hyperthermia. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 249563, http://www.hindawi.com/archive/2013/249563/ 

[74]      Szasz O, Andocs G, Meggyeshazi N (2013) Modulation effect in oncothermia. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 395678, http://www.hindawi.com/archive/2013/398678/ 

[75]      Andocs G, Osaki T, Tsuka T, Imagawa T, Minami S, Balogh L, Meggyeshazi N, Szasz O, Okamoto Y (2013) Oncothermia research at preclinical level. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 272467, http://www.hindawi.com/archive/2013/272467/ 

[76]      Kovago Cs, Meggyeshazi N, Andocs G, Szasz A (2013) Report of the pilot-study done for the proposed investigation on the possible synergic effect between high dose ascorbic acid application and oncothermia treatment. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 386913, http://www.hindawi.com/archive/2013/386913/ 

[77]      Andocs G, Okamoto Y, Kawamoto K, Osaki T, Tsuka T, Imagawa T, Minami S, Balogh L, Meggyeshazi N, Szasz O (2013) Oncothermia basic research at in vivo level. The first results in Japan. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 197328, http://www.hindawi.com/archive/2013/197328/ 

[78]      Andocs G, Rehman MU, Zhao QL, Papp E, Kondo T, Szasz A. (2015) Nanoheating without Artificial Nanoparticles Part II. Experimental support of the nanoheating concept of the modulated electro-hyperthermia method, using U937 cell suspension model, Biology and Medicine 7(4):1-9, 



[79] Dank M, Meggyeshazi N, Szigeti Gy, Andocs G. (2016) Immune effects by selective heating of membrane rafts of cancer-cells, ASCO Annual Meeting, abstr: e14571, http://meetinglibrary.asco.org/content/169500-176 

[80]  Szasz O, Andocs G, Kondo T, et.al. (2015) Heating of membrane raft of cancer-cells, ASCO Annual Meeting, J Clin Oncol 33, (suppl, abstr e22176), http://meetinglibrary.asco.org/content/151213-156 

[81]      Vincze Gy, Szigeti Gy, Andocs G, Szasz A. (2015) Nanoheating without Artificial Nanoparticles, Biology and Medicine 7(4):249, http://www.omicsonline.com/open-access/nanoheating-without-artificial-nanoparticles-0974-8369-1000249.php?aid=61783 

[82]      Szasz A (2013) Electromagnetic effects in nanoscale range. Cellular Response to Physical Stress and Therapeutic Applications (eds. Tadamichi Shimizu, Takashi Kondo), chapter 4. Nova Science Publishers, Inc 

[83]    Jeung TS, Ma SY, Yu J, Lim S. (2013) Cases that respond to oncothermia monotherapy, Conf. Papers in Medicine, Vol. 2013, Article ID 392480, Hindawi, http://dx.doi.org/10.1155/2003/392480 

[84]      Zaffaroni N, Fiorentini G, De Giorgi U, (2001) Hyperthermia and hypoxia: new developments in anticancer chemotherapy; Eur J Surg Oncol 27:340-342, http://www.ncbi.nlm.nih.gov/pubmed/11417976 

[85]      Szasz A, Vincze Gy, Andocs G, Szasz O (2009) Do Field-Free Electromagnetic Potentials Play a Role in Biology?. Electromagn Biol Med 28(2):135–147, http://www.ncbi.nlm.nih.gov/pubmed/19811396 

[86]      Szasz A, Vincze Gy, Andocs G, Szasz O (2009) Effect of Curl-Free Potentials on Water. I Electromagn Biol Med 28(2):166–181, http://www.ncbi.nlm.nih.gov/pubmed/19811398 

[87]      Hegyi G, Vincze Gy, Szasz A (2007) Axial vector interaction with bio-systems. Electr Biol Med 26(2):107–118, http://www.ncbi.nlm.nih.gov/pubmed/17613038 

[88]      Andocs G, Szasz O, Szasz A (2009) Oncothermia treatment of cancer: from the laboratory to clinic. Electromagn Biol Med 28(2):148–165, http://www.ncbi.nlm.nih.gov/pubmed/19811397 

[89]      Hegyi G, Szigeti GP, Szasz A (2013) Hyperthermia versus oncothermia: Cellular effects in complementary cancer therapy. Evid Based Complement Alternat Med 2013:672873, http://www.hindawi.com/journals/ecam/2013/672873/ 

[90]      Hegyi G, Szasz O, Szasz A (2013) Oncothermia: A new paradigm and promising method in cancer therapies. Acupuncture and Electro-Therapeutics Res. Int. J. 38:161-197, http://www.ncbi.nlm.nih.gov/pubmed/24494322 

[91]      Baronzio G, Parmar G, Ballerini M, Szasz A, Baronzio M, Cassutti V (2014) A brief overview of hyperthermia in cancer treatment. Journal of Integrative Oncology, 3:1

[92]      Szasz O, Szasz A (2014) Oncothermia – Nano-heating paradigm. J Cancer Sci Ther 6:4, http://www.omicsonline.org/open-access/oncothermia-nanoheating-paradigm-1948-5956.1000259.pdf 

[93]      Baronzio G, Gramaglia A, Fiorentini G. (2009) Review. Current role and future perspectives of hyperthermia for prostate cancer treatment. In Vivo. 2009 Jan-Feb;23(1):143-6, http://www.ncbi.nlm.nih.gov/pubmed/19368139 

[94]      Baronzio G, Gramaglia A, Fiorentini G (2006) Hyperthermia and immunity. A brief overview. In Vivo 20(6A):689-695, http://www.ncbi.nlm.nih.gov/pubmed/17203747 

[95]      Vincze Gy, Szasz A, Szasz N (2005) On the thermal noise limit of cellular membranes. Bioelectromagnetics 26(1):28–35, http://www.ncbi.nlm.nih.gov/pubmed/15605404 

[96]      Szendro P, Vincze G, Szasz A (2001) Pink noise behaviour of the bio-systems. Eur Biophys J 30(3):227–231, http://www.ncbi.nlm.nih.gov/pubmed/11508842 

[97]      Szendro P, Vincze G, Szasz A (2001) Bio-response to White Noise Excitation. Electro- and Magnetobiology 20(2):215-229, http://www.tandfonline.com/doi/abs/10.1081/JBC-100104145?journalCode=iebm19 

[98]      Szasz A (1991) An electrically driven instability: the living-state (Does the room temperature superconductivity exist?). Physiol Chem Phys Med NMR 23:43–50, http://real.mtak.hu/6379/1/1184363.pdf 

[99]      Vincze Gy, Szasz A, Liboff AR (2008) New Theoretical Treatment of Ion Resonance Biological Phenomena. Bioelectromagnetics 29(5):380-386, http://www.ncbi.nlm.nih.gov/pubmed/18288680 

[100]      Szasz A, Vincze Gy, Szasz O, Szasz N (2003) An energy analysis of extracellular hyperthermia. Magneto- and electro-biology 22(2):103–115, http://www.tandfonline.com/doi/abs/10.1081/JBC-120024620 

[101]      Szasz A, D van Noort, Scheller A, Douwes F, (1994) Water states in living systems. I. Structural aspects, Physiol. Chem. Phys. 26(4), 299–322, http://www.ncbi.nlm.nih.gov/pubmed/7700980 

[102]      Szasz A, Vincze Gy (2006) Dose concept of oncological hyperthermia: Heat-equation considering the cell destruction. J Cancer Res Ther 2(4):171–181, http://www.ncbi.nlm.nih.gov/pubmed/17998700 

[103]      Szasz A (2007) Hyperthermia, a Modality in the Wings. J Cancer Res Ther 3(1):56–66, http://www.ncbi.nlm.nih.gov/pubmed/17998724 

[104]      Marjan M, Kikineshi A, Szendro P, Szasz A (2001) Modelling of the dissipative structure of water. Acta Technologica Agriculturae 4:(3)77-80

[105]      Maryan M, Kurik M, Kikineshy A, Watson LM, Szasz A (1999) A synergetic representation for the double-structure model of liquid water. Ukrainskii Fizicheskii Zhurnal 44:1227-1232, http://real.mtak.hu/6591/ 

[106]      Maryan M, Kurik M, Kikineshy A, Watson LM, Szasz A (1999) Two-structure model of liquid water. Modelling and Simulation in Materials Science and Engineering 7:321-331, http://real.mtak.hu/6575/ 

[107]      Maryan MI, Kikineshi AA, Szasz A (2001) Self-organizing processes and dissipative structure formation in the non-crystalline materials. Phys Chem Stat Sol 2(4):585–593, http://www.pu.if.ua/inst/phys_che/start/pcss/vol2/number2/0204-07.pdf 

[108]      Zsoldos I, Szendro P, Watson L, Szasz A (2001) Topological Correlation in amorphous structures. Comp Mater Sci 20(1):28–36, http://www.sciencedirect.com/science/article/pii/S0927025600001208 

[109]      Zsoldos I, Szasz A (1999) Appearance of collectivity in two-dimensional cellular structures. Comp Material Science 15(4):441–448, http://www.sciencedirect.com/science/article/pii/S0927025699000312 

[110]      Zsoldos I, Szasz A (1999) From Random Cellular Structure to the Honeycomb Pattern. J Hungarian Agricultural Research 3:9-11

[111]      Zsoldos I, Szasz A (1999) From two dimensional cellular structures to the honeycomb pattern. Hungarian Agricultural Research 3:9-14

[112]      Zsoldos I, Szasz A (1999) Háromdimenziós sejtrendszerek topológiai összefüggései. Gépgyártástechnológia 1:27-35, http://real.mtak.hu/6576/ 

[113]      Zsoldos I, Janik J, Szasz A (1999) Topologigal aspects of ordering: Proceeding of the 7th Seminar of IFHT Heat Treatment Surface Engineering of Light Alloys. Engineering of Light Alloys pp. 343-343.

[114]      Joo E, Szasz A, Szendro P (2005) A mobiltelefonokból származó elektromágneses expozíció alakulása 900/1800/2100 MHz frekvencián. Munkavédelem és Biztonságtechnika 17:(1)44-50

[115]      Joo E, Szendro P, Vincze Gy, Szasz A (2004) Assessment of electromagnetically treated wheat kernel at 120Hz using the FDTD method. Acta Technologica Agriculturae 7:101-105

[116]      Joo E, Szasz A, Szendro P (2006) Metal-framed spectacles and implants and specific absorption rate among adults and children using mobile phones at 900/1800/2100 MHz. Electromagn Biol Med 25(2):103–112, http://www.ncbi.nlm.nih.gov/pubmed/16771299 

[117]      Vincze Gy, Szigeti GyP, Szasz O (2016) Negative impedance interval of blood flow in capillary bed. Journal of Advances in Physics, 11(6):3482-3487, http://cirworld.com/index.php/jap/article/view/2762 

[118]      Vincze Gy, Szigeti GyP, Szasz O (2016) Non-Newtonian analysis of blood-flow. Journal of Advances in Physics, 11(6):3470-3481, http://cirworld.com/index.php/jap/article/view/2760 

[119]      Szasz A, Szasz O, Szasz N (2001) Hyperthermic radiology. Why to combine? Strahlentherapie und Onkologie 177:110-110, http://real.mtak.hu/6605/ 

[120]      Szasz A, Szasz O, Vincze Gy, Szendro P (2009) Non-Mechanical Energy Transfer of Electrically Neutral Electrolytes. Mechanical Enginnering Letters 3:180-187

[121]      Andocs G (2008) Front page illustration of Forum Medizine. Forum Hyperthermia, 1/10, Forum Medizin

[122]      Vincze Gy, Szasz A (2016) Onsagerian quantum mechanics. Journal of Advances in Physics, 11(6):3353-3373, http://cirworld.com/index.php/jap/article/view/2719 

[123]      Vincze Gy, Szasz A. (2015) Nonequilibrium thermodynamic and quantum model of a damped oscillator. In: Mofid Gorji-Bandpy (ed) Recent advances in thermo and fluid dynamics. Chapter 3, In Tech, 



[124]      Vincze Gy, Szasz A (2014) Rosen-Chambers variation theory of linearly-damped classic and quantum oscillator. Journal of Advances in Physics 4(1):405-426, http://cirworld.com/index.php/jap/article/view/1200/pdf_34 

[125]      Szasz O, Szasz A (2016) Heating, efficacy and dose of local hyperthermia. Open Journal of Biophysics, 6:10-18, http://www.scirp.org/journal/PaperInformation.aspx?paperID=62874 

[126]      Vincze Gy, Szasz O, Szasz A. (2015) Generalization of the thermal dose of hyperthermia in oncology, Open Journal of Biophysics 5(4):97-114, http://www.scirp.org/journal/PaperInformation.aspx?PaperID=60654 

[127]      Vincze Gy, Szasz A (2015) Critical analysis of the thermodynamics of reaction kinetics. Journal of Advances in Physics 10(1):2538-2559, http://cirworld.com/index.php/jap/article/view/3203/pdf_198 

[128]      Szasz O, Andocs G, Meggyeshazi N (2013) Oncothermia as personalized treatment option. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 2941364, http://www.hindawi.com/archive/2013/941364/ 

[129]  Szasz A (2013) Electromagnetic effects in nanoscale range. Cellular Response to Physical Stress and Therapeutic Applications (eds. Tadamichi Shimizu, Takashi Kondo), chapter 4. Nova Science Publishers, Inc 

[130]      Pang CLK (2015) Hyperthermia in oncology, CRC Press, https://www.crcpress.com/Hyperthermia-in-Oncology/Pang/p/book/9781498714464 

[131]      Szasz A, Morita T (2012) Heat Therapy in oncology, New paradigm in Hyperthermia. Nippon Hvoronsha, Tokyo, Japan BOOK

[132]      Szasz A, Iluri N, Szasz O (2013) Local hyperthermia in Oncology – To Choose or not to Choose? A chapter in book: Hyperthermia, Ed: Huilgol N, ISBN 980-953-307-019-8, InTech, http://www.intechopen.com/books/hyperthermia/local-hyperthermia-in-oncology-to-choose-or-not-to-choose- 

[133]      Szasz A, Szasz N, Szasz O (2010) Oncothermia – Principles and practices. Springer Science, Heidelberg, http://www.springer.com/gp/book/9789048194971 

[134]      Szasz A, Szasz O, Szasz N (2006) Physical background and technical realization of hyperthermia. In: Baronzio GF, Hager ED (eds) Locoregional Radiofrequency-Perfusional- and Wholebody- Hyperthermia in Cancer Treatment: New clinical aspects, Ch. 3., Springer, New York, NY, pp 27–59

[135]      Szasz A (2015) Bioelectromagnetic Paradigm of Cancer Treatment Oncothermia. In: Paul J. Rosch (ed) Bioelectromagnetic and subtle energy medicine, pp. 323-336, CRC Press, Taylor & Francis Group

[136]      Vincze Gy, Szasz A. (2015) Effect of cellular membrane resistivity inhomogeneity on the thermal noise-limit, Journal of Advances in Physics, Vol. 11, No. 4, 3170-3183, http://cirworld.com/index.php/jap/article/view/2660 

[137]      Vincze Gy, Szendro P, Szasz A, Marjan M, Kikineshi A (2003) Heat penetration into the cell wall. Acta Technologica Agriculturae 6:(3)68-72

[138]      Szendro P, Vincze Gy, Szasz A (1999) Response of bio-systems on white noise excitation. Hungarian Agricultural Engineering 12:31-32

[139]      Szendro P, Vincze Gy, Szasz A (1998) Origin of pink-noise in bio-systems. Hungarian Agricultural Engineering 11: 42-43

[140]      Vincze Gy, Szasz A. (2015) Reorganization of actin filaments and microtubules by outside electric field, Journal of Advances in Biology 8(1):1514-1518, http://cirworld.com/index.php/jab/article/view/4042 

[141]      Szendro P, Szasz A (2005) Bioelectromagnetic interactions in agriculture: Controversial positions. Bulletin of the Szent István University – Gödöllő 2:173-206

[142]      Szasz N, Szasz O (2005) Device and procedure for measuring and examining the signal of systems releasing measurable signal during operation or in response to external excitation. Forum Komplementaire Onkologie 4:3-9

[143]      Szasz N (2003) Electric field regulation of chondrocyte proliferation, biosynthesis and cellular signaling. PhD Theses, MIT, Cambridge, http://www.oncotherm.com/web/cus/(06)%20Electric%20field%20regulation%20MIT%20thesis.pdf 

[144]      Szendro P, Koltay J, Vincze Gy, Szasz A, Hentz K (1999) Industrial device for stimulating seeds. Hungarian Agricultural Engineering 12:51-52

[145]      Szendro P, Koltay J, Szasz A, Vincze Gy (1999) Is the structure of the water convertible in physical way? Hungarian Agricultural Engineering 12:43-45

[146]      Szendro P, Koltay J, Vincze Gy, Szasz A, Hentz K (1999) Üzemi berendezés vetőmagvak stimulációjára. Mezőgazdasági Technika 40:(9)10-12

[147]      Hegyi G, Vincze Gy, Szasz A (2012) On the Dynamic Equilibrium in Homeostasis. Open Journal of Biophysics 2:64-71, http://file.scirp.org/pdf/OJBIPHY20120300001_81525786.pdf 

[148]      Szasz A, Szendro P, Vincze Gy, Bense L, Szabo I (2007) Study of the oxygen mass transfer in a gas-dispersing apparatus. Hungarian Agricultural Engineering &: 23-25

[149]      Vincze Gy, Zsoldos I, Szasz A (2004) On the Aboav-Weaire law. J Geomet Phys 51(1):1–12, http://www.sciencedirect.com/science/article/pii/S0393044003001335 

[150]      Szasz A (2013) Challenges and Solutions in Oncological Hyperthermia. Thermal Med 29(1):1-23, https://www.jstage.jst.go.jp/article/thermalmed/29/1/29_1/_article 

[151]      Douwes FR (2006) Hyperthermie in der Tumortherapie. Natum, Mitteilungen 6, 2006 

[152]      Douwes FR (2000) Too hot for cancer. Alternative Medicine 37:1-2 

[153]      Hager ED, Birkenmeier J, Popa C. (2006) Hyperthermia in oncology: A promising new method?, Translation of publication of Deutsche Zeitschrift für Onkologie, 38:100-107, http://biomedhospital.de/sites/default/files/artikel-eng-hyperthermie.pdf 

[154]      Fiorentini G, Szasz A (2006) Hyperthermia today: electric energy, a new opportunity in cancer treatment. J Cancer Res Ther 2(2):41–46, http://www.ncbi.nlm.nih.gov/pubmed/17998673 

[155]      Douwes FR (2006) Hyperthermie in der Tumortherapie. Natum, Mitteilungen 6, 2006

[156]      Hager ED (1998) Stellenwert der Hyperthermie in der Onkotherapie. Forschung und Praxis, Gesundes Leben 1/98, http://dinutra.com/documents/Stellenwert%20der%20Hyperthermie%20in%20der%20Onkotherapie.pdf 

[157]      Hager ED (1997) Formen der Hyperthermie und klinische Ergebnisse. Z. Onkol. / J. of Oncol. 29(3):78-83

[158]      Szasz A (2013) „Quo vadis“ oncologic hyperthermia?. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 201671, http://www.hindawi.com/archive/2013/201671/ 

[159]      Sergey Roussakow (2013) Critical Analysis Of Electromagnetic Hyperthermia Randomized Trials: Dubious Effect And Multiple Biases. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 412186, http://www.hindawi.com/archive/2013/412186/ 

[160]      Szasz O (2013) Essentials of oncothermia. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 159570, http://www.hindawi.com/archive/2013/159570/ 

[161]      Szigeti GP, Hegyi G, Szasz O (2013) Hyperthermia versus oncothermia: Cellular effects in cancer therapy. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 274687, http://www.hindawi.com/journals/ecam/2013/672873/ 

[162]      Szasz O (2013) Renewing Oncological Hyperthermia-Oncothermia. Open Journal of Biophysics, 3:245-252, http://www.scirp.org/journal/PaperInformation.aspx?PaperID=38154 

[163]      Sergey Roussakow (2013) The History Of Hyperthermia Rise And Decline. Hindawi Publishing Corporation Conference Papers in Medicine, Volume 2013, Article ID 428027, http://www.hindawi.com/archive/2013/428027/ 

[164]      Szasz A (2008) Oncothermie. OM & Ernährung Fachinformation, Nr.123, F22-F23

[165]      Szasz A (2008) Traditionen und Reformen in der onkologischen Hyperthermie. Forum Hyperthermie 3:20-21, http://www.oncotherm.com/web/cus/(90)%20Oncotherm_Firmenportrait%2008.pdf 

[166]      Szasz A (2007) What is against the acceptance of hyperthermia treatment? Forum Hyperthermie 144:3-7

[167]      Szasz A (2006) What is against the acceptance of hyperthermia? Die Naturheilkunde Forum-Medizine 83:3–7

[168]      Szasz A, Szasz N, Szasz O (2004) Hyperthermie in der Onkologie: eine aktuell beforschte Behandlungsmethode. Integrative onkologie 1: 19-27

[169]      Szasz A, Szasz O, Szasz N (2004) New Results, New Hopes. Indian Association for Hyperthermic Oncology and Medicine 2. pp. 1-5.

[170]      Szasz A (2003) Elektromagnetische Hyperthermieverfahren: die kapazitive Kopplung. Forum Komplementare Onkologie Hyperthermie, 4:III–IX, http://www.oncotherm.com/web/cus/(37)%20Elektromagnetische%20Hyperthermieverfahren-die%20


[171]      Szasz A, Szasz N, Szasz O (2003) Hyperthermia for Oncology: An effective new treatment modality. Integrative onkologie 1: 1-13

[172]      Szasz A, Szasz N, Szasz O (2003) Hyperthermie in der Onkologie mit einem historischen Überblick. Deutche zeitschrift für onkologie 35: 140-154, https://www.thieme-connect.com/products/ejournals/abstract/10.1055/s-2003-43178 

[173]      Szasz A, Szasz O, Szasz N (2002) Onkotermia fizika a rák ellen. Fizikai szemle 52(2):45-52

[174]      Szasz A, Szasz O, Szasz N (2001) Electro-hyperthermia: a new paradigm in cancer therapy. Deutsche Zeitschrift fur Onkologie 33:91–99, http://real.mtak.hu/6593/ 

[175]      Szasz A, Szasz O, Szasz N (2001) Hipertermia az onkológiában: onkotermia. Medius Anonymus 11(9):32-33, http://real.mtak.hu/6594/ 

[176]      Szasz A (1999) Komparative, retrospektive klinische Studie in Bezug auf mit Onkothermie behandelten. Bauchspeicheldrüsenkrebs. pp. 1-7

[177]      Szendro P, Szasz A, Szoke Sz (1998) Az ezerarcú víz. Öntözés Gazdálkodás 36:3-10

[178]      Szendro P, Szasz A, Szoke Sz (1998) The myriad-minded water. Hungarian Agricultural Engineering 11:17-20


UNTEN – Studien mit wenig conclusivem Inhalt oder ohne Abstract

[1]      Wismeth C, Dudel C, Pascher C, Ramm P, Pietsch T, Hirschmann B, Reinert C, Proescholdt M, Rümmele P, Schuierer G, Bogdahn U, Hau P (2010) Transcranial electro-hyperthermia combined with alkylating chemotherapy in patients with relapsed high-grade gliomas – Phase I clinical results. J Neurooncol 98(3):395–405,

[2]      Cremona F, Pignata A, Izzo F, Ruffolo F, Delrio P, Fiore F, D’Angelo R, Palaia R, Daniele B, Grazano F, Puppio B, Guidetti GM, Parisi V, (2003) Tolerability of external electro-hyperthermia in the treatment of solid tumors; Tumori 2003 Jul-Aug;89(4 Suppl):239-40, Tumori 2003 Jul-Aug;89(4 Suppl):239-40, http://www.ncbi.nlm.nih.gov/pubmed/12903605 


(Visited 49 times, 1 visits today)
Arzt für Allgemeinmedizin, multiple präventivmedizinische und komplementäre Zusatzausbildungen. Wissenschaftliche Arbeit und Forschungs-Beiträge. Zahlreiche Artikel und Vorträge. Umfangreiche Recherchen aus der aktuellen medizinischen Forschung. Mässige Legasthenie, daher Rechtschreib- und Beistrichfehler

Schreibe einen Kommentar

Deine E-Mail-Adresse wird nicht veröffentlicht. Erforderliche Felder sind mit * markiert.

Schlagwörter: ,