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Litteratur2018-07-01T16:13:03+00:00
  1. Wess, O.: Physikalische Grundlagen der extrakorporalen Stosswellentherapie, Journal für Mineralstoffwechsel. 4: 7, 2004.
  2. Chaussy, C.; Schmiedt, E.; Brendel, W.: Extracorporeally induced distruction of kidney stones by shock waves. Lancet 2: 1265, 1980.
  3. Chaussy, C.; Schmiedt, E.; Jocham, D.; Brendel, W.; Forssmann, B.; Walther, V.: First clinical experiences with extracorporeally induced destruction of kidney stones by shock waves. Urol.127: 417, 1982.
  4. Valchanov, V.; Michailov, P.: High energy shock waves in the treatment of delayed and non-union of fractures. Int Orthop 15: 181, 1991.
  5. Schaden, W.; Kuderna, H.: Extracorporeal Shock Wave Therapy (ESWT) in 37 Patients with Non-Union or Delayed Osseus Union in Diaphyseal Fractures. In: Chaussy, C., Eisenberger, F., Jocham, D., Wilbert, D. (eds.) High Energy Shock Waves in Medicine. Georg Thieme Verlag, Stuttgart 1997.
  6. Loew, M.; Jurgowski, W.; Thomsen, M.: Die Wirkung extrakorporaler Stosswellen auf die Tendinosis calcarea der Schulter. Urologe (A), 34: 49, 1995.
  7. Dahmen, G. P.; Haupt, G.; Haist, J.; Loew, M.; Rompe, J. D.; Schleberger R.: Die Extrakorporale Stosswellentherapie in der Orthopädie – Empfehlungen zu Indikationen und Techniken. In: Chaussy, Ch., Eisenberger, F., Jocham, D.,Wilbert, D. (eds.). Die Stosswelle – Forschung und Klinik. Tübingen: Attempto Verlag, 1995.
  8. Wess, O.: Physics and technology of shock wave and pressure wave, ISMST Newsletter.
  9. Wess, O.; Ueberle, F.; Dührssen, R. N.; Hilcken, D.; Krauss, W.; Reuner, Th.; Schultheiss, R.; Staudenraus, I.; Rattner, M.; Haaks, W.; Granz, B.: Working Group Technical Developments – Consensus Report. In: Chaussy, C., Eisenberger, F., Jocham, D., Wilbert, D. (eds.) High Energy Shock Waves in Medicine. Georg Thieme Verlag, Stuttgart 1997.
  10. Church, C.: A theoretical study of cavitation generated by an extracorporeal shock wave lithotripter, J.Acoust.Soc.Am. 1989; 86: 215.
  11. Church, C.: The risk of exposure to diagnostic ultrasound in postnatal subjects, J.Ultrasound Med. 2008; 27:565–592.
  12. Delius, M.; Draenert, K.; Al Diek, Y.; Draenert, Y.: Biological effects of shock waves: in vivo effect of high energy pulses on rabbit bone. Ultrasound Med. Biol. 1995; 21: 1219.
  13. Forssman, B.; Hepp, W.: Stosswellen in der Medizin, Medizin in unserer Zeit 4: 10, 1980.
  14. Crum, L. A.: Cavitation on microjets as a contributary mechanism for renal calculi disintegration in ESWL. J. Urol. 140: 1587, 1988.
  15. Coleman, A. J.; Sounder, J.E.: Acoustic cavitation generated by an extracorporeal shockwave lithotriptor. Ultrasound in Med&Biol. 1987; 13(2):69–76.
  16. Byron, C. R.; Benson, B. M.; Stewart, A. S.; Stewart, M. C.: Effects of radial shock waves on membrane permeability and viability of chondrocytes and structure of articular cartilage in equine cartilage explants. Am J Vet Res 66(10): 1757-63, 2005.
  17. Kisch, T.; Wuerfel, W.; Forstmeier, V.; Liodaki, E.; Stang, F. H.; Knobloch, K.; Mailaender, P.; Kraemer, R.: Repetitive shock wave therapy improves muscular microcirculation. J Surg Res. 201(2):440-5, 2016.
  18. Goertz, O.; Hauser, J.; Hirsch, T.; von der Lohe, L.; Kolbenschlag, J.; Stricker, I.; Lehnhardt, M.; Lauer, H.: Short-term effects of extracorporeal shock waves on microcirculation. J Surg Res. 194(1):304-11, 2015.
  19. Maier, M.; Averbeck, B.; Milz, S.; Refior, H. J.; Schmitz, C.: Substance P and prostaglandin E2 release after shock wave application to the rabbit femur. Clin Orthop Relat Res. 406):237-45, 2003.
  20. Klonschinski, T.; Ament, S. J.; Schlereth, T.; Rompe, J. D.; Birklein, F.: Application of local anesthesia inhibits effects of low-energy extracorporeal shock wave treatment (ESWT) on nociceptors. Pain Med. 12(10):1532-7, 2011.
  21. Nishida, T.; Shimokawa, H.; Oi, K.; Tatewaki, H.; Uwatoku, T;, Abe, K.; Matsumoto, Y.; Kajihara, N.; Eto, M.; Matsuda, T.; Yasui, H.; Takeshita, A.; Sunagawa, K.: Extracorporeal cardiac shock wave therapy markedly ameliorates ischemia-induced myocardial dysfunction in pigs in vivo. Circulation: 3055-61, 2004.
  22. Mariotto, S.; Cavalieri, E.; Amelio, E.; Ciampa, A. R.; de Prati, A.C.; Marlinghaus, E.; Russo, S.; Suzuki, H.: Extracorporeal shock waves: From lithotripsy to anti-inflamatory action by NO production. Nitric Oxide 12: 89-96, 2005.
  23. Horn, C.; Mengele, K.; Gerdesmeyer, L.; Gradinger, R.; Gollwitzer, H.: The effect of antibacterial acting extracorporeal shockwaves on bacterial cell integrity. Med Sci Monit. 15(12): 2009.
  24. Chao, Y.-H.; Tsuang, Y.-H.; Sun, J.-S.; Li-Ting Chen, L.-T.; Chiang, Y.-F.; Wang, C.-C.; Chen, M.-H.: Effects Of Shock Waves On Tenocyte Proliferation And Extracellular Matrix Metabolism. Ultrasound In Med. & Biol., 34 (5): 841–852, 2008.
  25. Christ, Ch.; Brenke, R.; Sattler, G.; Siems, W.; Novak, P.; Daser, A.: Improvement in Skin Elasticity in the Treatment of Cellulite and Connective Tissue Weakness by Means of Extracorporeal Pulse Activation Therapy. Aesthetic Sur J 28: 538-44, 2008.
  26. Gollwitzer, H.; Gloeck, T.; Roessner, M.; Langer, R.; Horn, C.; Gerdesmeyer, L.; Diehl, P.: Radial extracorporeal shock wave therapy (rESWT) induces new bone formation in vivo: results of an animal study in rabbits. Ultrasound Med Biol 39(1):126-33, 2013.
  27. Schuh, C. M.; Heher, P.; Weihs, A. M.; Banerjee, A.; Fuchs, C.; Gabriel, C.; Wolbank, S.; Mittermayr, R.; Redl, H.; Rünzler, D.; Teuschl, A. H.: In vitro extracorporeal shock wave treatment enhances stemness and preserve multipotency of rat and human adipose-derived stem cells. Cytotherapy 16(12): 166678, 2014.
  28. Raabe, O.; Shell, K.; Goessl, A.; Crispens, C.; Delhasse, Y.; Eva, A.; Scheiner-Bobis, G.; Wenisch, S.; Arnhold, S.: Effect of extracorporeal shock wave on proliferation and differentiation of equine adipose tissue-derived mesenchymal stem cells in vitro. Am J Stem Cells 2(1): 62-73, 2013.
  29. Auersperg, V.; Buch, M.; Dorfmüller, C.; Gerdesmeyer, L.; Gleitz, M.; Hausdorf, J.; Kuderna, H.; Maier, M.; Neuland, H.; Rädel, R.; Rompe, D.; Schaden, W.; Siebert, W.; Thiele, R.; Thiele, S.; Waubke, A.M.; Wille, G.: DIGEST-Leitlinien zur Extrakorporale Stoßwellentherapie; www.digest-ev.de. 2012.
  30. Cleveland, R. O.; Chitnis, P. V.; Mcclure, S. R.: Acoustic field of a ballistic shock wave therapy device, Ultrasound in Med. & Biol. 2007; Vol. 33 , No. 8: pp. 132 7–1335.
  31. Überle, F.; Rad, A. J.: Ballistic Pain Therapy Devices: Measurement of Pressure Pulse Parameters. Biomed Tech. 2012; 57 (Suppl. 1).
  32. Grecco, M.V.; Brech, G.C.; D’Andrea Grev, J.M.: One-year treatment follow-up of plantar fasciitis: radial shockwaves vs. conventional physiotherapy. Clinics 2013. 68(8): 1089–1095.
  33. Gleitz, M.: Die Bedeutung der Trigger-Stoßwellentherapie in der Behandlung pseudoradikulärer Cervicobrachialgien. Abstracts 53. Jahrestagung der Vereinigung Süddeutscher Orthopäden e.V. April 2005; Nr. 32 8.
  34. Christ, C.; Brenke, R.; Sattler, G.; Siems, W.; Novak, P.; Daser, A.: Improvement in skin elasticity in the treatment of cellulite and connective tissue weakness by means of extracorporal pulse activation therapy, Aesthetic Surg J. 2008; 5: 538–544.
  35. Wess, O.: A neural model for chronic pain and pain relief by extracorporeal shock wave treatment, Urol Res. 2008; 36(6): 327–334
  36. International Society for Medical Shockwave Treatment. https://www.shockwavetherapy.org/home/27. juni 2017
  37. Rompe JD, Kirkpatrick CJ, Kullmer K et al. Dose-related effects of Shockwaves on rabbit tend Achillis. J Bone Joint Surgery Br 1998;80:546-52
  38. Rompe JD, Furia J, Maffulli N. Eccentric loading versus eccentric loading plus shock-wave treatment for mid portion Achilles tendinopathy: a randomized controlled trial. Am J Sports Med 2009;37:463-70.
  39. Costa ML, Sheostone L, Donell ST et al. Shock wave therapy for chronic Achilles tendon pain: a randomized placebo-controlled trial. Clin Other Relat Res 2005;440:199-204.