Fol. Biol. 2011, 57, 255-260

https://doi.org/10.14712/fb2011057060255

Effects of Tandem Shock Waves Combined with Photosan and Cytostatics on the Growth of Tumours

J. Beneš1, P. Poučková1, Jan Zeman1, M. Zadinová1, P. Šunka2, P. Lukeš2, H. Kolářová3

1Institute of Biophysics and Informatics, First Faculty of Medicine, Charles University in Prague, Prague, Czech Republic
2Institute of Plasma Physics AS CR, v. v. i., Prague, Czech Republic
3Department of Medical Biophysics, Faculty of Medicine, Palacky University, Olomouc, Czech Republic

Received May 2011
Accepted May 2011

References

1. Beneš, J., Šunka, P., Kordač, V., Jirsa, M., Štuka, C., Mirejovský, P. (1987) Preclinical verification of possible extracorporeal lithotripsy of gall stones in experimental animals. Sb. Lek. 89, 129-133. (in Czech)
2. Beneš, J., Stuka, C., Chmel, J., Kordač, V., Šunka, P., Simon, V., Jansta, J., Zabka, J., Rychlik, I., Tluchoř, Z. (1989) First experience with a Czechoslovak device for the treatment of renal concrements by lithotripsis with shock waves. Prakt. Lek. 69, 884-887. (in Czech)
3. Beneš, J., Štuka, Č., Fořtová, H., Chmel, J., Šunka, P., Klener, P. (1997) Biological effects of interacting shock waves. A model study of effects of Irv with the use of the determination of the erythrocyte haemolysis. Sb. Lek. 98, 277-282. (in Czech)
4. Beneš, J. (2000) Introduction of a New Lithotriptor in Clinical Practice and Unusual Applications of Shock Waves. Habilitation Thesis. First Faculty of Medicine, Charles University in Prague, Prague. (in Czech)
5. Beneš, J., Šunka, P., Hani, A. B. (2001) Study of haemolysis after action of shock wave produced by a new multichannel discharge method. Sb. Lek. 102, 29-35. (in Czech)
6. Beneš, J., Šunka, P., Králová, J., Kašpar, J., Poučková, P. (2007) Biological effects of two successive shock waves focused on liver tissues and melanoma cells. Physiol. Res. 56, S1-S4. <https://doi.org/10.33549/physiolres.931295>
7. Chaussy, C., Schmiedt, E., Jocham, D., Brendel, W., Forssmann, B., Walther, V. (1982) First clinical experience with extracorporeally induced destruction of kidney stones by shock waves. J. Urol. 127, 417-420. <https://doi.org/10.1016/S0022-5347(17)53841-0>
8. Coleman, A. J., Saunders, J. E. (1993) A review of the physical properties and biological effects of the high amplitude acoustic fields used in extracorporeal lithotripsy. Ultrasonics 31, 75-89. <https://doi.org/10.1016/0041-624X(93)90037-Z>
9. Delius, M. (2002) Twenty years of shock wave research at the Institute for Surgical Research. Eur. Surg. Res. 34, 30-36. <https://doi.org/10.1159/000048884>
10. Loske, A. M., Prieto, F. E., Fernandez, F., van Cauwelaert, J. (2002) Tandem shock wave cavitation enhancement for extracorporeal lithotripsy. Phys. Med. Biol. 47, 3945-3957. <https://doi.org/10.1088/0031-9155/47/22/303>
11. Shrivastava, S. K., Kailash. (2005) Shock wave treatment in medicine. J. Biosci. 30, 269-275. <https://doi.org/10.1007/BF02703708>
12. Stelmashuk, V., Šunka, P. (2006) Mutual interaction of two shock waves with a different time delay. Czech. J. Phys. 56, B396-B400. <https://doi.org/10.1007/s10582-006-0228-x>
13. Šunka, P., Babicky, V. (1997) Method of generating espacious corona discharge in water and apparatus for making the same. CZ9601596. Czech Republic. Patent Document 1997-08-13.
14. Šunka, P., Babicky, V. (2002) Generation method of focused shock wave by electric discharge in a liquid and apparatus for making the same. CZ20001513. Czech Republic. Patent Document 2002-08-14.
15. Šunka, P., Babicky, V., Člupek, M., Fuciman, M., Lukeš, P., Šimek, M., Beneš, J., Locke, B., Majcherova, Z. (2004) Potential applications of pulse electrical discharges in water. Acta Phys. Slovaca 54, 135-145.
16. Wilbert, D. M. (2002) A comparative review of extracorporeal shock wave generation. BJU. Int. 90, 5, 507-511. <https://doi.org/10.1046/j.1464-410X.2002.02961.x>
front cover

ISSN 0015-5500 (Print) ISSN 2533-7602 (Online)

Open access journal

Submissions

Archive