Feline talocrural luxation: A cadaveric study of repair using ligament prostheses

I. Nicholson; S. Langley-Hobbs; M. Sutcliffe; N. Jeffery; H. Radke

doi:10.3415/VCOT-10-11-0151

Feline talocrural luxation: A cadaveric study of repair using ligament prostheses

I. Nicholson^*, S. Langley-Hobbs, M. Sutcliffe, N. Jeffery, H. Radke

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

13 Citations (Scopus)

Abstract

Currently recommended surgical techniques to treat severe biaxial feline talocrural soft-tissue injuries commonly lead to unsatisfactory outcome. Data relating to canine talocrural stabilisation may not be useful in cats due to major differences in tarsal anatomy between the species. This experimental biomechanical cadaveric study used specimens (n = 10) prepared from the distal pelvic limbs of five adult cats. The aim was to design a technique for treating talocrural luxation using suture prostheses and bone tunnels, and to investigate its suitability for use in clinical cases. Four prosthetic ligaments were placed through a series of five 1.5 mm bone tunnels. Two prostheses, the caudoproximal pair, were taut in talocrural flexion and two prostheses, the craniodistal pair, were taut in extension. The intact specimens had their range-of-motion (ROM) and stability tested, after which they were transected at the talocrural joint (simulated luxation) and repaired using the technique described. The ROM and stability of the repaired specimens were tested and compared to the intact specimens. The repaired specimens had comparable stability to the intact specimens, although the ROM was different (p

Original language	English
Pages (from-to)	116-125
Number of pages	10
Journal	Veterinary and Comparative Orthopaedics and Traumatology
Volume	25
Issue number	2
DOIs	https://doi.org/10.3415/VCOT-10-11-0151
Publication status	Published - 2012

Keywords

Cat
talocrural joint
trauma
reconstruction
MEDIAL COLLATERAL LIGAMENT
TARSOCRURAL JOINT
FUNCTIONAL-ANATOMY
SHEARING INJURIES
CLINICAL ASPECTS
CATS
REPLACEMENT
TARSUS
DOGS
STABILIZATION

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@article{01565faaf1e2460d911457808b321ba1,

title = "Feline talocrural luxation: A cadaveric study of repair using ligament prostheses",

abstract = "Currently recommended surgical techniques to treat severe biaxial feline talocrural soft-tissue injuries commonly lead to unsatisfactory outcome. Data relating to canine talocrural stabilisation may not be useful in cats due to major differences in tarsal anatomy between the species. This experimental biomechanical cadaveric study used specimens (n = 10) prepared from the distal pelvic limbs of five adult cats. The aim was to design a technique for treating talocrural luxation using suture prostheses and bone tunnels, and to investigate its suitability for use in clinical cases. Four prosthetic ligaments were placed through a series of five 1.5 mm bone tunnels. Two prostheses, the caudoproximal pair, were taut in talocrural flexion and two prostheses, the craniodistal pair, were taut in extension. The intact specimens had their range-of-motion (ROM) and stability tested, after which they were transected at the talocrural joint (simulated luxation) and repaired using the technique described. The ROM and stability of the repaired specimens were tested and compared to the intact specimens. The repaired specimens had comparable stability to the intact specimens, although the ROM was different (p",

keywords = "Cat, talocrural joint, trauma, reconstruction, MEDIAL COLLATERAL LIGAMENT, TARSOCRURAL JOINT, FUNCTIONAL-ANATOMY, SHEARING INJURIES, CLINICAL ASPECTS, CATS, REPLACEMENT, TARSUS, DOGS, STABILIZATION",

author = "I. Nicholson and S. Langley-Hobbs and M. Sutcliffe and N. Jeffery and H. Radke",

year = "2012",

doi = "10.3415/VCOT-10-11-0151",

language = "English",

volume = "25",

pages = "116--125",

journal = "Veterinary and Comparative Orthopaedics and Traumatology",

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publisher = "Georg Thieme Verlag",

number = "2",

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TY - JOUR

T1 - Feline talocrural luxation

T2 - A cadaveric study of repair using ligament prostheses

AU - Nicholson, I.

AU - Langley-Hobbs, S.

AU - Sutcliffe, M.

AU - Jeffery, N.

AU - Radke, H.

PY - 2012

Y1 - 2012

N2 - Currently recommended surgical techniques to treat severe biaxial feline talocrural soft-tissue injuries commonly lead to unsatisfactory outcome. Data relating to canine talocrural stabilisation may not be useful in cats due to major differences in tarsal anatomy between the species. This experimental biomechanical cadaveric study used specimens (n = 10) prepared from the distal pelvic limbs of five adult cats. The aim was to design a technique for treating talocrural luxation using suture prostheses and bone tunnels, and to investigate its suitability for use in clinical cases. Four prosthetic ligaments were placed through a series of five 1.5 mm bone tunnels. Two prostheses, the caudoproximal pair, were taut in talocrural flexion and two prostheses, the craniodistal pair, were taut in extension. The intact specimens had their range-of-motion (ROM) and stability tested, after which they were transected at the talocrural joint (simulated luxation) and repaired using the technique described. The ROM and stability of the repaired specimens were tested and compared to the intact specimens. The repaired specimens had comparable stability to the intact specimens, although the ROM was different (p

AB - Currently recommended surgical techniques to treat severe biaxial feline talocrural soft-tissue injuries commonly lead to unsatisfactory outcome. Data relating to canine talocrural stabilisation may not be useful in cats due to major differences in tarsal anatomy between the species. This experimental biomechanical cadaveric study used specimens (n = 10) prepared from the distal pelvic limbs of five adult cats. The aim was to design a technique for treating talocrural luxation using suture prostheses and bone tunnels, and to investigate its suitability for use in clinical cases. Four prosthetic ligaments were placed through a series of five 1.5 mm bone tunnels. Two prostheses, the caudoproximal pair, were taut in talocrural flexion and two prostheses, the craniodistal pair, were taut in extension. The intact specimens had their range-of-motion (ROM) and stability tested, after which they were transected at the talocrural joint (simulated luxation) and repaired using the technique described. The ROM and stability of the repaired specimens were tested and compared to the intact specimens. The repaired specimens had comparable stability to the intact specimens, although the ROM was different (p

KW - Cat

KW - talocrural joint

KW - trauma

KW - reconstruction

KW - MEDIAL COLLATERAL LIGAMENT

KW - TARSOCRURAL JOINT

KW - FUNCTIONAL-ANATOMY

KW - SHEARING INJURIES

KW - CLINICAL ASPECTS

KW - CATS

KW - REPLACEMENT

KW - TARSUS

KW - DOGS

KW - STABILIZATION

U2 - 10.3415/VCOT-10-11-0151

DO - 10.3415/VCOT-10-11-0151

M3 - Article (Academic Journal)

C2 - 22286859

SN - 0932-0814

VL - 25

SP - 116

EP - 125

JO - Veterinary and Comparative Orthopaedics and Traumatology

JF - Veterinary and Comparative Orthopaedics and Traumatology

IS - 2

ER -

Feline talocrural luxation: A cadaveric study of repair using ligament prostheses

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Keywords

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