The Kouvalchouk Procedure versus Distal Tibial Allograft for Treatment of Posterior Shoulder Instability: The Deltoid "Hammock" Effect Exists

Ryan Gao; Cole T Fleet; Winston Jin; James A Johnson; Kenneth J Faber; George S Athwal

doi:10.1016/j.jse.2024.03.047

The Kouvalchouk Procedure versus Distal Tibial Allograft for Treatment of Posterior Shoulder Instability: The Deltoid "Hammock" Effect Exists

J Shoulder Elbow Surg. 2024 May 13:S1058-2746(24)00346-X. doi: 10.1016/j.jse.2024.03.047. Online ahead of print.

Authors

Ryan Gao¹, Cole T Fleet², Winston Jin³, James A Johnson², Kenneth J Faber⁴, George S Athwal⁴

Affiliations

¹ Roth | McFarlane Hand and Upper Limb Centre, St Joseph's Health Care, London, Canada. Electronic address: ygao921@gmail.com.
² Roth | McFarlane Hand and Upper Limb Centre, St Joseph's Health Care, London, Canada; Department of Mechanical and Materials Engineering, Western University, London, Canada.
³ Roth | McFarlane Hand and Upper Limb Centre, St Joseph's Health Care, London, Canada.
⁴ Roth | McFarlane Hand and Upper Limb Centre, St Joseph's Health Care, London, Canada; Department of Surgery, Western University, London, Canada.

PMID: 38750787
DOI: 10.1016/j.jse.2024.03.047

Abstract

Background: In 1993, Kouvalchouk described an acromial bone block with a pedicled deltoid flap for the treatment of posterior shoulder instability. This procedure provides a "double blocking" effect in that the acromial autograft restores posterior glenoid bone loss and the deltoid flap functions as a muscular "hammock" resembling the sling effect of the conjoint in the Latarjet procedure. The primary aim of this study was to compare the Kouvalchouk procedure to distal tibial allograft (DTA) reconstruction for the management of posterior shoulder instability with associated bone loss, while the secondary aim was to evaluate the deltoid hammock effect. s METHODS: Ten upper extremity cadavers were evaluated using a validated shoulder testing apparatus in 0° and 60° of glenohumeral abduction in the scapular plane. Testing was first performed on the normal shoulder state and was followed by the creation of a 20% posterior glenoid defect. Subsequently, the Kouvalchouk and DTA procedures were conducted. Forces of 0N, 5N, 10N and 15N were applied to the posterior deltoid tendinous insertion on the Kouvalchouk graft along the physiological muscle line-of-action to evaluate the 'hammock" effect of this procedure. Testing was additionally performed on the Kouvalchouk bone graft with the deltoid muscle sectioned from its bony attachment. For all test states, a posteriorly directed force was applied to the humeral head perpendicular to the direction of the glenoid bone defect, with the associated translation quantified using an optical tracking system. The outcome variable was posterior translation of the humeral head at an applied force magnitude of 30N.

Results: The Kouvalchouk procedure with the loaded deltoid flap (10N: P=0.039 and 15N: P<0.001) was significantly better at reducing posterior humeral head translation than the DTA. Overall, increased glenohumeral stability was observed with increased force applied to the posterior deltoid flap in the Kouvalchouk procedure. The 15N Kouvalchouk was most effective at preventing posterior humeral translation, and the difference was statistically significant compared with the 20% glenoid defect (P=0.003), detached Kouvalchouk (P<0.001), and 0N Kouvalchouk (P<0.001). The 15N Kouvalchouk procedure restored posterior shoulder joint stability to near normal levels, such that it was not significantly different from the intact state (P=0.203).

Conclusions: The Kouvalchouk procedure with load applied to the deltoid was found to be biomechanically superior to the DTA for the management of posterior shoulder instability with associated bone loss. Additionally, the results confirmed the presence and effectiveness of the deltoid "hammock" effect.

Keywords: Kouvalchouk; Posterior shoulder instability; dislocation; distal tibial allograft; humeral head translation; instability; shoulder.