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DOI: 10.1055/s-0038-1632954
The evaluation of extracorporeal shockwave therapy in naturally occurring osteoarthritis of the stifle joint in dogs
Publication History
Received
10 February 2005
Accepted
05 May 2005
Publication Date:
22 February 2018 (online)
Summary
Extracorporeal shockwave therapy (ESWT) has expanded from the original uses of human urinary calculi treatment to veterinary orthopaedic applications. This paper investigates the feasibility and efficacy of treating dogs with osteoarthritis of the stifle joint with ESWT. In this study, dogs with persistent stifle lameness despite previous surgical or medical treatment were either treated with ESWT or served as untreated controls. The more lame rear limb of each dog was determined by force platform analysis. The range of motion (ROM) of the stifle joints was assessed by goniometry. Force platform gait analysis and goniometry were performed on both groups for four visits at threeweek intervals and a final examination four weeks later. Shock wave therapy was performed three times on the treated dogs, once at each of the first three examinations. A placebo treatment consisting of clipping and wetting the hair was performed on the control dogs. The vertical forces were evaluated for objective analysis of treatment response. For peak vertical force (PVF), four of seven treated dogs improved, while only one of five of control dogs improved. The PVF for the within group analysis did not show any significant change for the treated group, however, the control group has a significant decrease (p=0.05) in PVF consistent with an increase in lameness. The range of motion (ROM) of the stifle joint improved in five of seven treated dogs and three of five controls. Dogs in the treated group had a trend toward increased ROM (p=0.07) and a ‘positive slope’ when compared to dogs in the control group which did not have a significant change (p=0.78) and had a negative slope indicating the dogs were developing a decrease in ROM. The subjective data provided by client questionnaire did not show significant difference between groups.
* Dr. Fitch's current address is West Wind Veterinary Hospital, Alberta, Canada.
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References
- 1 Budsberg SC. Long-term temporal evaluation of ground reaction forces during development of experimentally induced osteoarthritis in dogs. Am J VetRes 2001; 62 (8) 1207-11.
- 2 Dvorak LD, Cook JL, Kreeger JM. et al. Effects of carprofen and dexamethasone on canine chondrocytes in a three-dimensional culture model of osteoarthritis. Am J Vet Res 2002; Oct 63 (10) 1363-9.
- 3 Francis DA, Millis DL, Evans M. et al. Clinical evaluation of extracorporeal shock wave therapy for management of canine osteoarthritis of the elbow and hip joint. University of Tennessee, Department of Small Animal Clinical Sciences, Veterinary Teaching Hospital, Knoxville, TN. Proceedings of the 31st Annual Conference Veterinary Orthopedic Society Big Sky. Montana: February 22-7 2004
- 4 Fuchs GJ, Patel A. Treatment of renal calculi. In: Smith's textbook of endourology. Smith A, Badlani GH, Bagley DH. et al. eds. St Louis: Quality Medical Publishing Inc,; 1996: 590-621.
- 5 Gordon WJ, Conzemius MG, Riedesel E. et al. The relationship between limb function and radiographic osteoarthrosis in dogs with stifle osteoarthrosis. Vet Surg 2003; 32: 451-4.
- 6 Haupt G. Use of extracorporeal shock waves in the treatment of pseudoarthrosis, tendinopathy, and other orthopedic diseases. J Urol 1997; 158: 4-11.
- 7 Hotz-Behofsits CM, Walley MJ, Simpson R. et al. COX-1, COX-2 and the topical effect in NSAID-induced enteropathy. Inflammopharmacology 2003; 11 (4) 363-70.
- 8 Johannes EJ, Kaulesar Sukul DMKS, Matura E. High-energy shock waves for the treatment of nonunions: An experiment in dogs. J Surg Res 1994; 57: 246-52.
- 9 Korvick DL, Johnson AL, Schaeffer DJ. Surgeons' preferences in treating cranial cruciate ligament ruptures in dogs. J Am Vet Med Assoc 1994; 205 (9) 1318-24.
- 10 Laverty PH, McClure SR. Initial experience with extracorporeal shock wave therapy in six dogs – part 1. Vet Comp Orthop Traumatol 2002; 15: 177-83.
- 11 Loew M, Daeke W, Kusnierczak D. et al. Shockwave therapy is effective for chronic calcifying tendonitis ofthe shoulder. J Bone Joint Surg 1999; 81-B: 863-967.
- 12 McCarroll GD, McClure SR. Initial experiences with extracorporeal shock wave therapy for treatment of bone spavin in horses – part II. Vet Comp Orthop Traumatol 2002; 15: 184-6.
- 13 McClure SR, Maier M, Schmitz C. Extracorporeal shock wave therapy. In: Current Therapy in Equine Medicine, vol 5. Robinson NE. WB Saunders 2002; 562-6.
- 14 McClure SR, VanSickle D, Evans R. et al. The effects of extracorporeal shock-wave therapy on the ultrasonographic and histologic appearance of collagenase-induced equine forelimb suspensory ligament desmitis. Ultrasound Med Biol 2004; 30 (4) 461-7.
- 15 McIlwraith CW, Firsbie DD, Park RD. et al. Evaluation of extracorporeal shockwave therapy for osteoarthritis using an equine model. Proceeding European College of Veterinary Surgeons 2004; 257-8.
- 16 Moreau M, Dupuis J, Bonneau NH. et al. Clinical evaluation of a nutraceutical, carprofen and meloxicam for the treatment of dogs with osteoarthritis. Vet Rec 2003; 152 (11) 323-9.
- 17 Plaiser PW, Van Der Hul RL, Terpstra OT. et al. Current role of extracorporeal shockwave therapy in surgery. Br J ofSurg 1994; 81: 174-81.
- 18 Rompe JD, Hopf C, Kullmer K. et al. Analgesic effects of extracorporeal shockwave therapy of chronic tennis elbow. J Bone Joint Surg 1999; 78-BL: 233-7.
- 19 Rompe JD, Rumler F, Hopf C. et al. Extracorporeal shockwave therapy for calcifying tendonitis of the shoulder. Clin Ortho Rel Res 1995; 321: 196-201.
- 20 Rumph PF, Steiss JE, West MS. Interday variation in vertical ground reaction force in clinically normal Greyhounds at the trot. Am J Vet Res 1999; 60: 679-83. Erratum in: Am J Vet Res 1999; 60:985.
- 21 Russo S, Galasso O, Caretta A. et al. The management of osteonecrosis by shock wave treatment. In: Proceedings of 3rd Congress of the International Society for Musculoskeletal Shockwave Therapy. 2000: 92.
- 22 Sisterman R, Katthager BD. Complications, side effects and contraindications in the use of medium and high energy extracorporeal shock waves in orthopedics. Z Orthop Ihre Grenzgeg 1998; 136: 175-81.
- 23 Wang CJ, Huang Hy, Pai HC. Shock wave-enhanced neovascularization at the Tendon-Bone junction an experiment in dogs. J Foot Ankle Surgery 14: 17-21 2001;