Summary
The treatment of delayed and nonunion of fractures by a single extracorporeal dose of high energy shock waves generated in a water medium and focused on the fracture site is reported. The shock waves break up sclerotic bone by producing microfissures and numerous bony fragments because of the difference in impedance between bone (and calculi) and soft tissues. Osteogenesis is stimulated and contributed to union in 70 out of 82 fractures within a reasonable time. Treatment was given as an outpatient with regional anaesthesia; there were no side effects or complications.
Résumé
Présentation d'une méthode nouvelle de traitement des pseudarthroses et des retards de consolidation, non invasive, non chirurgicale et pouvant être réalisée en une seule séance, sous anesthésie régionale, sans hospitalisation. Les auteurs utilisent des ondes de choc de haute énergie, générées en milieu aqueux, qui traversent les parties molles et atteignent le foyer de fracture. Du fait de la différence d'impédance entre l'os (ou les calculs) et les tissus mous, le choc brise les extrémités osseuses sclérosées, produisant des micro-fissures et de multiples petits fragments osseux, ce qui stimule l'ostéogénèse. La consolidation a été obtenue dans des délais raisonnables dans 70 cas sur 82. Il n'y a eu ni effets indésirables, ni complications.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Chaussy CH, Brendel M, Shmiedt E (1980) Extracorporeally induced destruction of kidney stones by shock waves. Lancet 2: 1265–1268
Chaussy CH (1986) Extracorporeal shockwave lithotripsy. Karger 5–19
Eisenberger F, Muller K (1987) Urologische Steintherapie. Thieme, Stuttgart New York, pp 26–30
Graff J, Pastor J, Richter KD (1987) Effect of high energy shock waves on bony tissues. 5th world congress on endurology and ESWL, Cairo, November 1–4, p 260
Habermann (1987) Urologische Steintherapie. Thieme, Stuttgart New York, p 30
Holevich Y (1973) Operative Surgery. Suppl 1: 250–252
Karpmann RR, Nagee FP, Gruen TWS, Mobley T (1987) Work in progress — the lithotriptor and its potential use in the revision of total hip arthroplasty. Orth Rev 26: 38–42
Judet R (1965) Decortication osteomusculaire. Act Chir Hop Poincare 5: 193–196
Kopchev IK (1976) Traumatology of locomotor system. Meditzina Phizkultura Publ, p 129–135, 137
Newman RC, Blackmore J, Hachett L, Ballinger WE, Brock KA, Feldman J, Sosnowski J, Finlayson B (1986) ESWL effect on canine spinal cord. 4th world congress on endurology and ESWL, Madrid 152
Kishimoto T, Yamamoto K, Sugimoto T, Yoshihara, Maekawa M (1986) Side effects of extracorporeal shockwave exposures in patients treated by extracorporeal shock-wave lithotripsy for upper urinary tract stone. Eur Urol 12: 308–313
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Valchanou, V.D., Michailov, P. High energy shock waves in the treatment of delayed and nonunion of fractures. International Orthopaedics 15, 181–184 (1991). https://doi.org/10.1007/BF00192289
Issue Date:
DOI: https://doi.org/10.1007/BF00192289