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Use of Extracorporeal Shock Waves in the Treatment of Pseudarthrosis, Tendinopathy and Other Orthopedic Diseases

1997; Lippincott Williams & Wilkins; Volume: 158; Issue: 1 Linguagem: Inglês

10.1097/00005392-199707000-00003

1527-3792

Gerald Haupt,

Kidney Stones and Urolithiasis Treatments

No AccessJournal of UrologyClinical Urology: Review Article1 Jul 1997Use of Extracorporeal Shock Waves in the Treatment of Pseudarthrosis, Tendinopathy and Other Orthopedic Diseases Gerald Haupt Gerald HauptGerald Haupt View All Author Informationhttps://doi.org/10.1097/00005392-199707000-00003AboutFull TextPDF ToolsAdd to favoritesDownload CitationsTrack CitationsPermissionsReprints ShareFacebookLinked InTwitterEmail Abstract Purpose: The use of shock waves in orthopedic diseases was reviewed with special regard to the clinical applications. Materials and Methods: Findings in the literature and results from our own studies were analyzed and summarized. Results: Extracorporeal shock waves induced osteoneogenesis in animal models with intact and fractured bones. Based on these findings shock waves were used for the treatment of pseudarthrosis in humans. Most patients had at least 1 unsuccessful operation before shock wave therapy. Complete reunion was noted in 62 to 91% of cases and shock waves are recommended by some as the first choice of treatment for hypertrophic pseudarthrosis. After failed nonoperative therapy shock waves were used for the treatment of patients with various diseases as secondary treatment. The success rate for treatment of tendinopathies, such as tennis elbow, periarthritis humeroscapularis or calcaneal spur, was approximately 80%. For calcific tendinitis shock wave therapy seems to be superior to all other minimal or noninvasive techniques without compromising a potential later operation. Conclusions: Shock waves have changed medical therapy substantially. According for the epidemiology of the treated diseases, this new change may equal or even surpass the impact of extracorporeal shock wave lithotripsy. References 1 : The use of shock waves for the destruction of renal calculi without direct contact.. Urol. Res.1976; 4: 181. Google Scholar 2 : First clinical experiences with extracorporeally induced destruction of kidney stones by shock waves.. J. Urol.1982; 127: 417. Abstract, Google Scholar 3 : Anregung von StoBwellen in Flussigkeiten durch Hochgeschwindigkeitswassertropfen.. Verhand. Dtsch. Physikal. Gesellsch.1971; 6: 786. Google Scholar 4 : Eine Methode zur beruhrungsfreien Zertrummerung von Nierensteinen durch StoBwellen.. Biomed. Tech.1977; 22: 164. Google Scholar 5 : Extracorporeal shock wave lithotripsy. New Aspects in the Treatment of Kidney Stone Disease. Basel: S. Karger1982. Google Scholar 6 : Extracorporeally induced destruction of kidney stones by shock waves.. Lancet1980; 2: 1265. Google Scholar 7 : A review of the physical properties and biological effects of the high amplitude acoustic field used in extracorporeal lithotripsy.. Ultrasonics1993; 31: 75. Google Scholar 8 : ESWL and the future of stone management.. World J. Urol.1993; 11: 2. Google Scholar 9 : Stellenwert und kunftige Entwicklung in der nichtinvasiven Behandlung von Harnsteinen mit der extrakorporalen StoBwellenlithotripsie (ESWL).. Wien. Med. Wochenschr.1995; 145: 254. Google Scholar 10 : Short-term changes of laboratory values after extracorporeal shock wave lithotripsy: a comparative study.. J. Urol.1989; 142: 259. Abstract, Google Scholar 11 : Fragmentation of gallstones by extracorporeal shock waves.. New Engl. J. Med.1986; 314: 818. Google Scholar 12 : Disintegration of a pancreatic duct stone with extracorporeal shock waves in a patient with chronic pancreatitis.. Endoscopy1987; 19: 207. Google Scholar 13 : Shockwave lithotripsy of salivary gland stones.. Lancet1992; 339: 1333. Google Scholar 14 : Histopathology of shock wave treated tumor cell suspensions and multicell tumor spheroids.. Ultrasound Med. Biol.1989; 15: 451. Google Scholar 15 : Biological effects of shock waves. In: Stone Therapy in Urology. Edited by . New York: Georg Thieme Verlag1991: 50. chapt. 39. Google Scholar 16 : Cavitation-generated free radicals during shock wave exposure: investigations with cell-free solutions and suspended cells.. Ultrasound Med. Biol.1991; 17: 761. Google Scholar 17 Irmer U. Untersuchung der Leistungsfahigkeit verschiedener Lithotripter-Unterwasserfunkenstrecken mittels zweier in-vitro Modelle. Diplomarbeit, Universitat Stuttgart, Biologisches Institut, Abt. Biophysik, 1991. Google Scholar 18 : Enhanced adriamycin uptake by neutrophils exposed to shock waves. J. Urol., part 21988; 139: 304A. abstract 566. Google Scholar 19 : Transient increase in membrane permeability of L1210 cells upon exposure to lithotripter shock waves in vitro.. Naturwissenschaften1992; 79: 328. Google Scholar 20 : Zell- und Gewebeveranderungen durch StoBwellenbehandlung.. Biomedizinische Technik1988; 33: 7. Google Scholar 21 : Histopathologic and ultrastructural correlates of tumor growth suppression by high energy shock waves.. J. Urol.1987; 137: 338. Abstract, Google Scholar 22 : In vitro investigations on cellular damage induced by high energy shock waves.. Ultrasound Med. Biol.1992; 18: 691. Google Scholar 23 : Cavitation effects: possible cause of tissue injury during extracorporeal shock wave lithotripsy.. J. Endourol.1988; 2: 215. Google Scholar 24 : A theoretical study of cavitation generated by an extracorporeal shock wave lithotripter.. J. Acoust. Soc. Amer.1989; 86: 215. Google Scholar 25 : A comparison of PVDF hydrophone measurements in the acoustic field of a shock wave source. In: Extra- und Intrakorporale Lithotripsie bei Harn-, Gallen-, Pankreas- und Speichelsteinen. Edited by . New York: Georg Thieme Verlag1990: 104. Google Scholar 26 : On the mechanism of kidney stone disintegration by acoustic shock waves.. Ultrasound Med. Biol.1991; 17: 479. Google Scholar 27 : Free radical production by high energy shock waves-comparison with ionizing irradiations.. J. Urol.1988; 139: 186. Abstract, Google Scholar 28 : Acoustic emission and sonoluminescence due to cavitation at the beam focus of an electrohydraulic shock wave lithotriper.. Ultrasound Med. Biol.1992; 18: 267. Google Scholar 29 : Mechanisms of action in extracorporeal shock wave lithotripsy: experimental studies. In: Biliary Lithotripsy. Edited by . Chicago: Year Book Medical1989: 31. Google Scholar 30 : Cavitation effects during lithotripsy: part II.. Clinical observations. Radiology1990; 177: 163. Google Scholar 31 : Cavitation effects during lithotripsy: part I.. Results of in vitro experiments. Radiology1990; 177: 157. Google Scholar 32 : Investigation of cavitation in flowing media by lithotripter shock waves both in vitro and in vivo.. Ultrasound Med. Biol.1989; 15: 53. Google Scholar 33 : Acoustic cavitation generated by an extracorporeal shockwave lithotripter.. Ultrasound Med. Biol1987; 13: 69. Google Scholar 34 : Biologische Strahlenwirkung. Berlin: Springer Verlag1981. Google Scholar 35 : Fibre-optic probe hydrophone for ultrasonic and shock wave measurements in water.. Ultrasonics1993; 31: 267. Google Scholar 36 : In vivo detection of ultrasonically induced cavitation by a fibre-optic technique.. Ultrasound Med. Biol.1994; 20: 811. Google Scholar 37 : Schadigungen und Wirkmechanismen klinisch relevanter StoBwellen aufgezeigt anhand von in-vitro-Untersuchungen. In: StoBwellenlithotripse, Aspekte und Prognosen. Edited by . Tubingen: Attempto Verlag1992: 110. Google Scholar 38 : Die Behandlung von Knochen mit extrakorporalen StoBwellen-Entwicklung einer neuen Therapie. In: StoBwellenlithotripse, Aspekte und Prognosen. Edited by . Tubingen: Attempto Verlag1993: 120. Google Scholar 39 : Effect of shock waves on the healing of partial-thickness wounds in piglets.. J. Surg. Res.1990; 49: 45. Google Scholar 40 : Wound and fracture healing: new indication for extracorporeal shock waves?. J. Endourol.1990; 4: S54. abstract A-4. Google Scholar 41 : Extrakorporale StoBwellen in der Therapie von Wund- und Frakturheilung?. Urologe A1990; 29: A72. Google Scholar 42 : Electrical bone-growth stimulation in an experimental model of delayed union.. Lancet1977; 1: 1278. Google Scholar 43 : Effects of electric currents on bone in vivo.. Nature1964; 204: 643. Google Scholar 44 : The development and application of pulsed electromagnetic fields (PEMFs) for ununited fractures and arthrodeses.. Orthop. Clin. N. Amer.1984; 15: 61. Google Scholar 45 : On the piezoelectric effects of bone.. J. Phys. Soc. Jap.1957; 12: 1158. Google Scholar 46 : Stimulation of bone growth by implanted FEP electrets and PVDF piezoelectric films. Proc. Int. Symp. Electric1985; : 813. Google Scholar 47 : Stimulation of bone repair by ultrasound. Ultrasound Med. Biol.1983; 2: 61. Google Scholar 48 : The stimulation of bone growth by ultrasound.. Arch. Orthop. Trauma Surg.1983; 101: 153. Google Scholar 49 : Is there a Wolff's law for connective tissue? Surg.. Forum1974; 25: 512. Google Scholar 50 : Effects of stress on healing wounds: I.. Intermittent noncyclical tension. J. Surg. Res.1976; 20: 93. Google Scholar 51 : A comparison of the effects of immobilization and continuous passive motion on surgical wound healing in major rabbits.. Plast. Reconstr. Surg.1986; 78: 360. Google Scholar 52 : The influence of induced micromovement upon the healing of experimental tibial fractures.. J. Bone Joint Surg.-Brit. Vol.1985; 67: 650. Google Scholar 53 : Effect of controlled axial micromovement on the healing of tibial fractures.. Lancet1986; 2: 1185. Google Scholar 54 : Enhancement of fracture healing with extracorporeal shock waves. J. Urol., part 21990; 143: 230A. abstract 109. Google Scholar 55 : Influence of shock waves on fracture healing.. Urology1992; 39: 529. Google Scholar 56 : Der EinfluB extrakorporaler StoBwellen auf die Knochenbruchheilung.. Hefte Unfallheik1991; 220: 524. Google Scholar 57 Graff J., Die Wirkung hochenergetischer StoBwellen auf Knochen und Weichteilgewebe. Bochum, Habilitationsschrift, Ruhr-Universitat Bochum, 1989 Google Scholar 58 : Transmission of shock waves through bone: Is it possible to treat iliac ureteral stones with patient in supine position?. In: Shock Wave Lithotripsy: State of the Art. Edited by . New York: Plenum Press1989: 115. Google Scholar 59 : Effect of high energy shock waves on bony tissue. Urol. Res.1988; 16: 252. abstract E12. Google Scholar 60 : Wirkung von hochenergetischen StoBwellen auf Knochengewebe.. Verh. Ber. Dt. Ges. Urol.1987; 39: 76. Google Scholar 61 : Non-operative treatment of non-unions in bone with extracorporeal shock waves. Eur. Surg. Res.1992; 24: 24. Google Scholar 62 : High-energy shock waves for the treatment of nonunions: an experiment on dogs.. J. Surg. Res.1994; 57: 246. Google Scholar 63 : The effect of high energy shock waves focused on cortical bone: an in vitro study.. J. Surg. Res.1993; 54: 46. Google Scholar 64 : Effect of extracorporeal shock waves on the stability of the interface between bone and polymethylenmethacrylate: an in vitro study on human femoral segments.. Clin. Biomech.1992; 7: 47. Google Scholar 65 : Untersuchungen zur Wirksamkeit von StoBwellen auf die Festigkeit des Verbundes von Knochen und Polymethyl-Methacrylat.. Eine in vitro Studie an menschlichen Femursegmenten. Z. Orthop.1992; 130: 236. Google Scholar 66 : Effects of extracorporeal shock waves on standardized fractures in sheep. J. Urol., part 21991; 145: 257A. abstract 178. Google Scholar 67 : Die Wirkung extrakorporaler StoBwellen auf die Frakturheilung. Bochum, Habilitationsschrift: Ruhr-Universitat Bochum1992. Google Scholar 68 : Der EinfluB der extrakorporalen StoBwellen auf die standardisierte Tibiafraktur am Schaf. In: Aktuelle Aspekte der Osteologie. Edited by . New York: Springer Verlag1992: 307. Google Scholar 69 : EinfluB extrakorporal erzeugter StoBwellen auf standardisierte Tibiafrakturen im Schafmodell. Urologe A1992; 31: A43. Google Scholar 70 : Effects of shock waves on the structure and growth of the immature rat epiphysis.. J. Urol.1989; 141: 670. Abstract, Google Scholar 71 : Effect of lithotripsy on immature rabbit bone and kidney development.. J. Urol.1991; 146: 213. Abstract, Google Scholar 72 : Effect of low-dose shock wave energy on fracture healing: an experimental study.. J. Endourol.1992; 6: 219. Google Scholar 73 : Pseudarthrosen. In: Praxis der Orthopadie. New York: Georg Thieme Verlag1986: 338. Google Scholar 74 : Frakturen. In: Praxis der Orthopadie. Edited by . New York: Georg Thieme Verlag1986: 338. Google Scholar 75 : Probleme der Behandlung angeborener Unterschenkelpseudarthrosen.. Z. Orthop.1989; 127: 3. Google Scholar 76 : Anwendung der extrakorporalen StoBwelle a Stutz- und Bewegungsapparat im mittelenergetischen Bereich. In: Die StoBwelle-Forschung und Klinik. Edited by . Tubingen: Attempto Verlag1995: 166. Google Scholar 77 Valchanow, V., Michailow, P. and Patrashkov, T.: New possibilities of HM-3 lithotriptor for treatment of disturbed bone union. Read at World Congress on ESWL and Endourology, Kyoto, Japan. November 27-30, 1989 Google Scholar 78 : High energy shock waves in the treatment of delayed and nonunion fractures.. Int. Orthopaed.1991; 15: 181. Google Scholar 79 : Extrakorporale StoBwellenbehandlung bei Pseudarthrose und aseptischer Knochennekrose. Urologe A1991; 30: A48. Google Scholar 80 : Extracorporeal shock wave therapy of pseudo-arthrosis and aseptic osteonecrosis. J. Endourol.1991; 5: S48. abstract A-24. Google Scholar 81 : Extracorporeal shock wave therapy of pseudarthrosis. J. Urol., part 21992; 147: 260A. abstract 185. Google Scholar 82 : Die extrakorporale StoBwellentherapie-eine neue Moglichkeit zur Behandlung von Pseudarthrosen. In: StoBwellenlithotripse, Aspekte und Prognosen. Edited by . Tubingen: Attempto Verlag1993: 127. Google Scholar 83 : Hochenergie-StoBwellenbehandlung-eine Methode zur Therapie von Pseudarthrosen. Urologe A1992; 31: A43. Google Scholar 84 : Die Osteorestauration via StoBwellenanwendung. Eine neue Moglichkeit zur Therapie der gestorten knochernen Konsolidierung. In: Die StoBwelle-Forschung und Klinik. Edited by . Tubingen: Attempto Verlag1995: 157. Google Scholar 85 : Nicht-invasive Behandlung nach Versagen der Frakturheilung durch StoBwellen. In: Aktuelle Aspekte der Osteologie. Edited by . New York: Springer-Verlag1991. Google Scholar 86 : Non-invasive treatment of longbone pseudarthrosis by shock waves (ESWL).. Arch. Orthop. Trauma Surg.1992; 111: 224. Google Scholar 87 : StoBwellentherapie knochennaher Weichteilschmerzen-Ein neues Behandlungskonzept. In: Die StoBwelle-Forschung und Klinik. Edited by . Tubingen: Attempto Verlag1995: 162. Google Scholar 88 : Anwendung der hochenergetischen extrakorporalen StoBwellentherapie bei Pseudarthrosen, Tendinosis calcarea der Schulter und Ansatztendinosen (Fersensporn, Epicondylitis). In: Die StoBwelle-Forschung und Klinik. Edited by . Tubingen: Attempto Verlag1995: 143. Google Scholar 89 : The extracorporeal shockwave therapy in the treatment of disturbed bone union. Int. Conf. Biomed. Eng.1992; : 222. Google Scholar 90 : Anasthesie und ESWL: Bestandsaufnahme in Deutschland. Dtsch. Gesell. StoBwellenlithotripsie1994; . Google Scholar 91 : Prognosis of total hip replacement. A Swedish multicenter study of 4,664 revisions. Acta Orthop. Scand.1990; 238: 1. Google Scholar 92 : Work-in-progress. The lithotripter and its potential use in the revision of total hip arthroplasty. Orthop. Rev.1987; 16: 38. Google Scholar 93 : The effect of the extracorporeal shock wave lithotriptor in the bone-cement interface in dogs.. Clin. Orthopaed. Rel. Res.1988; 235: 261. Google Scholar 94 : Effect of lithotripter treatment on the fracture toughness of acrylic bone cement.. Biomaterials1992; 13: 225. Google Scholar 95 : Use of high-energy shock waves for bone cement removal.. J. Arthroplasty1990; 5: 19. Google Scholar 96 : The effect of the extracorporeal shock wave lithotriptor on bone cement.. J. Biomed. Material Res.1991; 25: 157. Google Scholar 97 : Would revision arthroplasty be facilitated by extracorporeal shock wave lithotripsy? An evaluation including whole bone strength in dogs.. Clin. Orthop. Res.1993; 287: 252. Google Scholar 98 : Effect of shock wave treatment on femoral prosthesis and cement removal.. Biomed. Mat. Eng.1994; 4: 451. Google Scholar 99 : Biologische Wirkung von StoBwellen-mehr als "nur" Steinzertrummerung? Zentralbl.. Chir.1995; 120: 259. Google Scholar 100 : Use of extracorporeal shock waves outside urology-new concepts emerging. J. Urol., part 21994; 151: 281A. abstract 216. Google Scholar 101 : Zur Genese und Behandlung des Schreibkrampfes.. Berl. Klin. Wochenschr.1873; 10: 245. Google Scholar 102 : Uber die Periarthritis humero scapularis und die daraus entstehende Schultersteife.. Arch. Gen. Med.1892; 2: 513. Google Scholar 103 : Analyse des Sammelbegriffes "Periarthritis humeroscapularis". Akt. Traumatol.1991; 21: 49. Google Scholar 104 : Humeroscapular periarthrosis.. Ugeskr. Laeger1991; 153: 170. Google Scholar 105 : Occupational risk factors associated with soft tissue disorders of the shoulder: a review of recent investigations in the literature.. Ergonomics1993; 36: 697. Google Scholar 106 : Periarthritis humeroscapularis (PHS). Indikationen, Technik und Ergebnisse der Radiotherapie. Strahlenther. Onkol.1995; 171: 379. Google Scholar 107 : Riders sprain.. Lancet1882; 2: 557. Google Scholar 108 : Prevalence, incidence, and remission rates of some common rheumatic diseases or syndromes.. Scand. J. Rheumatol.1974; 3: 145. Google Scholar 109 : Tennis elbow. Anatomical, epidemiological and therapeutic aspects. Int. Orthopaed.1994; 18: 263. Google Scholar 110 : Medial epicondylitis of the elbow.. Int. Orthopaed.1995; 19: 69. Google Scholar 111 : Corticosteroid injections in the treatment of tennis elbow.. Practitioner1978; 220: 459. Google Scholar 112 : Epitrochleite. Causes, diagnostic, modalites therapeutiques. Z. Unfallchir. Versicherungsmed.1993; 86: 145. Google Scholar 113 : Tennis elbow (lateral epicondylitis).. Orthop. Clin. N. Amer.1992; 23: 75. Google Scholar 114 : Die Langzeitergebnisse der Epicondylitis humeri ulnaris ("Golferellbogen") nach Behandlung analog der Hohmann sschen Einkerbung bei der Epicondylitis humeri radialis ("Tennisellbogen").. Z. Orthop. Ihre Grenzgeb.1992; 130: 399. Google Scholar 115 : Haufigkeit, Altersabhangigkeit und Geschlechtsverteilung des Fersensporns.. Analyse der Rontgenmorphologie bei 1027 Patienten der mitteleuropaischen Population. Rofo Fortschr. Geb. Rontgenstr. Neuen Bildgeb. Verfahr.1995; 162: 502. Google Scholar 116 : Calcaneal spurs in a black African population.. Foot Ankle1992; 13: 352. Google Scholar 117 : Heel spur (calcaneal spur).. A.M.A. Arch. Surg.1957; 74: 536. Google Scholar 118 : Plantar fasciitis: the painful heel syndrome.. J. Bone Joint Surg.1975; 57: 672. Google Scholar 119 : Heel pain-operative results.. Foot Ankle1984; 5: 16. Google Scholar 120 : Surgical treatment of persistent elbow epicondylitis.. Clin. Orthop.1992; 278: 73. Google Scholar 121 : Lateral extensor release for tennis elbow.. A prospective long-term follow-up study. J. Bone Joint Surg.1993; 75: 1034. Google Scholar 122 : Lack of scientific evidence for the treatment of lateral epicondylitis of the elbow. An attempted meta-analysis.. J. Bone. Joint. Surg.-Brit. Vol.1992; 74: 646. Google Scholar 123 : The evaluation of phonophoresis and friction massage as treatments for extensor carpi radialis tendinitis: a randomized controlled trial.. Physiother. Canada1989; 41: 93. Google Scholar 124 : Kritische uberprufung des therapeutischen Ultraschalls.. Wien. Med. Wochenschr.1994; 144: 51. Google Scholar 125 : NSAID ionisation in the management of soft-tissue rheumatism: role played by the drug, electrical stimulation and suggestion.. Clin. Exp. Rheumatol.1986; 4: 265. Google Scholar 126 : Low-dose Lasertherapie: eine kritische Prufung der klinischen Wirksamkeit.. Schweiz. Med. Wochenschr.1993; 123: 949. Google Scholar 127 : Operative treatment of subcalcaneal pain.. Foot Ankle1989; 9: 317. Google Scholar 128 : Extrakorporale StoBwellentherapie (ESWT) im knochennahen Weichteilbereich an der Schulter.. Erste Therapieergebnisse. Ext. Orthopaed.1992; 15: 25. Google Scholar 129 : Die Behandlung knochennaher Weichteilschmerzen mit Extrakorporaler StoBwellentherapie (ESWT), Indikation, Technik und bisherige Ergebnisse. In: Die StoBwelle-Forschung und Klinik. Edited by . Tubingen: Attempto Verlag1995: 175. Google Scholar 130 : Shock wave therapy in the treatment of near to bone soft tissue pain in sportsmen. Int. J. Sports Med.1996; 17: S79. Google Scholar 131 : Extrakorporale StoBwellentherapie des therapieresistenten Tennisellbogens-erste Erfahrungen von 150 Patienten. In: Die StoBwelle-Forschung und Klinik. Edited by . Tubingen: Attempto Verlag1995: 147. Google Scholar 132 : Die extrakorporale StoBwellentherapie-ein alternatives Konzept zur Behandlung der Epicondylitis humeri radialis.. Orthopade1995; 24: 303. Google Scholar 133 : Niedrigenergetische extrakorporale StoBwellentherapie ESWT beim plantaren Fersensporn.. Orthop. Praxis1996; 32: 271. Google Scholar 134 : Extracorporeal shock wave lithotripsy induced stimulation of the obturator nerve.. J. Urol.1994; 151: 144. Abstract, Google Scholar 135 : Extracorporeal shock waves stimulate frog sciatic nerves indirectly via a cavitation-mediated mechanism.. Biophys. J.1994; 1994: 133. Google Scholar 136 : Calcium deposits in the shoulder and subacromial bursitis: a survey of 12,122 shoulders.. J.A.M.A.1941; 116: 2477. Google Scholar 137 : Long-term study of shoulder joints afflicted with and treated for calcific tendinitis.. Clin. Orthop.1961; 20: 61. Google Scholar 138 : Tendinosis calcarea-Behandlungsergebnisse mit dem Needling.. Z. Orthop.1993; 131: 461. Google Scholar 139 : Methods and results in the treatment of 2580 painful shoulders with special reference to calcific tendinitis and the frozen shoulder.. Amer. J. Surg.1958; 95: 527. Google Scholar 140 : Die Wirkung extrakorporaler StoBwellen auf die Tendinosis calcarea der Schulter.. Urologe A1995; 34: 49. Google Scholar 141 : Calcifying tendonitis of shoulder; critical study of value of x-ray therapy.. Radiology1952; 59: 384. Google Scholar 142 : Arthroscopic treatment of calcific tendinitis of the shoulder.. Arthroscopy1992; 8: 183. Google Scholar 143 : Erste Erfahrungen mit der Extrakorporalen StoBwellen-Lithotripsie (ESWL) ind der Behandlung der Tendinosis calcarea der Schulter.. Z. Orthop.1993; 131: 470. Google Scholar 144 : Extracorporeal shock wave treatment of calcareous tendinitis of the shoulder. J. Endourol.1993; 7: S193. abstract P.XXI-11. Google Scholar 145 : A clinical method of functional assessment of the shoulder.. Clin. Orthop. Rel. Res.1987; 214: 160. Google Scholar 146 : Treatment of calcifying tendinitis of rotator cuff by extracorporeal shock waves: a preliminary report.. J. Shoulder Elbow Surg.1995; 4: 101. Google Scholar 147 : Extracorporeal shock wave therapy for the calcifying tendinitis of the shoulder.. Clin. Orthop. Rel. Res.1995; 321: 196. Google Scholar 148 : Analgesic effects of extracorporeal shock-wave therapy on chronic tennis elbow.. J. Bone Joint Surg. Brit. Vol.1996; 78: 233. Google Scholar 149 : Die Wirkung extrakorporal erzeugter hochenergetischer StoBwellen auf den klinischen, rontgenologischen undhistologischen Verlauf der Tendinosis calcarea der Schulter-eine prospektive Studie. In: Die StoBwelle-Forschung und Klinik. Edited by . Tubingen: Attempto Verlag1995: 153. Google Scholar 150 : Standortbestimmung der Arbeitsgruppe "Orthopadische StoBwellenbehandlungen". In: Die StoBwelle-Forschung und Klinik. Edited by . Tubingen: Attempto Verlag1995: 137. Google Scholar 151 : Bericht mobile Lithotripsie. Dtsch. Gesell. StoBwellenlithotripsie1996; . Google Scholar From the Department of Urology, Ruhr-University Bochum, Germany.© 1997 by American Urological Association, Inc.FiguresReferencesRelatedDetailsCited byHAUCK E, HAUPTMANN A, BSCHLEIPFER T, SCHMELZ H, ALTINKILIC B and WEIDNER W (2018) Questionable Efficacy of Extracorporeal Shock Wave Therapy for Peyronie's Disease:: Results of a Prospective ApproachJournal of Urology, VOL. 171, NO. 1, (296-299), Online publication date: 1-Jan-2004. Volume 158Issue 1July 1997Page: 4-11 Advertisement Copyright & Permissions© 1997 by American Urological Association, Inc.MetricsAuthor Information Gerald Haupt More articles by this author Expand All Advertisement PDF downloadLoading ...