Subscribe to RSS
DOI: 10.3415/VCOT-17-03-0047
Single Transsacral Screw and Nut Stabilization of Bilateral Sacroiliac Luxation in 20 Cats
Publication History
30 March 2017
02 October 2017
Publication Date:
11 January 2018 (online)
Abstract
Objective This article aims to describe the use of a single transsacral screw and nut in a cohort of cats with bilateral sacroiliac (SI) luxation and document its radiographic and clinical outcome.
Methods Medical records and radiographic studies of cats with bilateral SI luxation managed with a transsacral screw and nut stabilization were reviewed. Short-term follow-up included clinical examination and radiographs. Long-term follow-up was via owner questionnaire.
Results Twenty consecutive cats with bilateral SI luxation were included. Six cats (35%) had additional musculoskeletal injuries that required stabilization. Luxations were stabilized with a single 2.7 cortical self-tapping transsacral screw and nylon nut (a metallic nut was used in one case). Postoperative radiographs confirmed SI reduction in all cats and a mean pelvic canal width ratio of 1.21 (a ratio of ≥1.1 was considered optimal). All cats available at follow-up examination were able to walk without signs of discomfort. Evaluation of follow-up radiographs showed maintenance of SI reduction and slight reduction of mean pelvic canal width ratio (1.18). Fourteen owner questionnaires were returned (median follow-up time of 40 months): nine cats were deemed to have normal activity and five cats were reported to have slight to mild reduced ability to jump or run.
Clinical Significance The use of transsacral screw and nut stabilization of bilateral SI luxation in cats is a successful, repeatable and safe technique.
-
References
- 1 Bookbinder PF, Flanders JA. Characteristics of pelvic fractures in the cat. Vet Comp Orthop Traumatol 1992; 5: 122-127
- 2 Kaderly RE. Stabilization of bilateral sacroiliac fracture-luxations in small animals with a single transsacral screw. Vet Surg 1991; 20 (02) 91-96
- 3 Bennett D. Orthopaedic disease affecting the pelvic region of the cat. J Small Anim Pract 1975; 16 (11) 723-738
- 4 Piermattei DL, Flo GL, DeCamp CE. Brinker, Piermattei, and Flo's Handbook of Small Animal Orthopedics and Fracture Repair. Forth Edition. Philadelphia, PA: WB Saunders Co; 2006: 436-441
- 5 Averill SM, Johnson AL, Schaeffer DJ. Risk factors associated with development of pelvic canal stenosis secondary to sacroiliac separation: 84 cases (1985-1995). J Am Vet Med Assoc 1997; 211 (01) 75-78
- 6 Fischer A, Binder E, Reif U, Biel M, Bokemeyer J, Kramer M. Closed reduction and percutaneous fixation of sacroiliac luxations in cats using 2.4 mm cannulated screws - a cadaveric study. Vet Comp Orthop Traumatol 2012; 25 (01) 22-27
- 7 Shales C, Moores A, Kulendra E, White C, Toscano M, Langley-Hobbs S. Stabilization of sacroiliac luxation in 40 cats using screws inserted in lag fashion. Vet Surg 2010; 39 (06) 696-700
- 8 Borer LR, Voss K, Montavon PM. Ventral abdominal approach for screw fixation of sacroiliac luxation in clinically affected cats. Am J Vet Res 2008; 69 (04) 549-556
- 9 Raffan PJ, Joly CL, Timm PG, Miles JE. A tension band technique for stabilisation of sacroiliac separations in cats. J Small Anim Pract 2002; 43 (06) 255-260
- 10 Yap FW, Dunn AL, Farrell M, Calvo I. Trans-iliac pin/bolt/screw internal fixation for sacroiliac luxation or separation in cats: six cases. J Feline Med Surg 2014; 16 (04) 354-362
- 11 Parslow A, Simpson DJ. Bilateral sacroiliac luxation fixation using a single transiliosacral pin: surgical technique and clinical outcomes in eight cats. J Small Anim Pract 2017; 58 (06) 330-336
- 12 DeCamp C. Fractures of the pelvis. In: Tobias KM, Johnston SA. , eds., Vol.1. Veterinary Surgery: Small Animal. 1st ed. St Louis, MO: Elsevier Inc.; 2012: 801-815
- 13 Tomlinson JL, Cook JL, Payne JT, Anderson CC, Johnson JC. Closed reduction and lag screw fixation of sacroiliac luxations and fractures. Vet Surg 1999; 28 (03) 188-193
- 14 Tomlinson J. Minimally invasive repair of sacroiliac luxation in small animals. Vet Clin North Am Small Anim Pract 2012; 42 (05) 1069-1077 , viii
- 15 Tonks CA, Tomlinson JL, Cook JL. Evaluation of closed reduction and screw fixation in lag fashion of sacroiliac fracture-luxations. Vet Surg 2008; 37 (07) 603-607
- 16 Silveira F, Quinn R, Adrian A. , et al. Evaluation of the use of intraoperative radiology for open placement of lag screws for the stabilization of sacroiliac luxation in cats. Vet Comp Orthop Traumatol 2017; 30: 69-74
- 17 Déjardin LM, Marturello DM, Guiot LP, Guillou RP, DeCamp CE. Comparison of open reduction versus minimally invasive surgical approaches on screw position in canine sacroiliac lag-screw fixation. Vet Comp Orthop Traumatol 2016; 29 (04) 290-297
- 18 Burger M, Forterre F, Waibl H. , et al. Sacroiliac luxation in the cat Part I: Morphometric data to the position of the screw placement. Kleintierpraxis 2004; 49: 763-772
- 19 Shales CJ, White L, Langley-Hobbs SJ. Sacroiliac luxation in the cat: defining a safe corridor in the dorsoventral plane for screw insertion in lag fashion. Vet Surg 2009; 38 (03) 343-348
- 20 Zamprogno H, Hansen BD, Bondell HD. , et al. Item generation and design testing of a questionnaire to assess degenerative joint disease-associated pain in cats. Am J Vet Res 2010; 71 (12) 1417-1424
- 21 Anderson A, Coughlan AR. Sacral fractures in dogs and cats: a classification scheme and review of 51 cases. J Small Anim Pract 1997; 38 (09) 404-409
- 22 Hamilton MH, Evans DA, Langley-Hobbs SJ. Feline ilial fractures: assessment of screw loosening and pelvic canal narrowing after lateral plating. Vet Surg 2009; 38 (03) 326-333
- 23 Benito J, Hansen B, Depuy V. , et al. Feline musculoskeletal pain index: responsiveness and testing of criterion validity. J Vet Intern Med 2013; 27 (03) 474-482