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Peer-reviewed veterinary case report

Meniscal load in dog knees after tibial tuberosity advancement surgery

By Schmutterer, Johannes Maximilian et al.·Published in Veterinary and comparative orthopaedics and traumatology : V.C.O.T·2023·Clinic for Small Animal Surgery and Reproduction, Germany·View original on PubMed

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Original publication title: Meniscal Load and Load Distribution in the Canine Stifle after Modified Tibial Tuberosity Advancement with 9 mm and 12 mm Cranialization of the Tibial Tuberosity in Different Standing Angles.

Species:
dog

Plain-English summary

A study looked at how a surgical procedure called tibial tuberosity advancement (TTA) affects the knee joint in dogs, particularly after the cranial cruciate ligament (CCL) is damaged. The researchers found that a 12mm advancement helped restore normal movement in the knee, while a 9mm advancement did not work as well. After the surgery, there was less pressure on the knee's menisci (the cartilage pads), which could help reduce pain and improve function. This suggests that the right surgical approach can make a significant difference in recovery for dogs with CCL injuries.

People also search for: dog knee surgery recovery · tibial tuberosity advancement for dogs · CCL injury treatment in dogs

Abstract

OBJECTIVES:  The aim of this study was to investigate the kinetic and kinematic changes in the stifle after a modified tibial tuberosity advancement (TTA) with 9 and 12 mm cranialization of the tibial tuberosity in different standing angles. STUDY DESIGN:  Biomechanical ex vivo study using seven unpaired canine cadaver hindlimbs. Sham TTA surgery was performed. Motion sensors were fixed to the tibia and the femur for kinematic data acquisition. Pressure mapping sensors were placed between femur and both menisci. Thirty percent body weight was applied to the limbs with the stifle in 135 or 145 degrees of extension. Each knee was tested in 135 degrees with intact cranial cruciate ligament (CCL) and deficient CCL with 12 mm cranialization of the tibial tuberosity in 135 and 145 degrees of extension. The last two tests were repeated with 9 mm. RESULTS:  Transection of the CCL altered kinematics and kinetics. Tibial tuberosity advancement with 12 mm cranialization sufficiently restored stifle kinematics in 135 and 145 degrees but 9 mm TTA failed to do so in 135 degrees. The same effects were seen for internal rotation of the tibia. After TTA, a significant reduction in the force acting on both menisci was detected. CONCLUSION:  Tibial tuberosity advancement could restore stifle kinematics and meniscal kinetics after transection of the CCLin the present study. Tibial tuberosity advancement reduced the contact force ratio on both menisci significantly. No changes of peak pressure and peak pressure location occurred following TTA under any of the tested experimental settings. Increased stifle extension (145 degrees) might lead to more stability, contradictory to biomechanical theory.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/37160259/