Anterior Glenoid Reconstruction With Distal Tibial Allograft: Biomechanical Impact of Fixation and Presence of a Retained Lateral Cortex

BACKGROUND: Glenoid reconstruction with distal tibial allograft (DTA) is a known surgical option for treating recurrent glenohumeral instability with anterior glenoid bone loss; however, biomechanical analysis has yet to determine how graft variability and fixation options alter the torque of screw...

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Autores principales: Parada, Stephen A., Shaw, K. Aaron, McGee-Lawrence, Meghan E., Kyrkos, Judith G., Paré, Daniel W., Amero, Jessica, Going, James W., Morpeth, Brice, Shelley, Robert, Eichinger, Josef K., Provencher, Matthew T.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: SAGE Publications 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8581783/
https://www.ncbi.nlm.nih.gov/pubmed/34778476
http://dx.doi.org/10.1177/23259671211050435
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author Parada, Stephen A.
Shaw, K. Aaron
McGee-Lawrence, Meghan E.
Kyrkos, Judith G.
Paré, Daniel W.
Amero, Jessica
Going, James W.
Morpeth, Brice
Shelley, Robert
Eichinger, Josef K.
Provencher, Matthew T.
author_facet Parada, Stephen A.
Shaw, K. Aaron
McGee-Lawrence, Meghan E.
Kyrkos, Judith G.
Paré, Daniel W.
Amero, Jessica
Going, James W.
Morpeth, Brice
Shelley, Robert
Eichinger, Josef K.
Provencher, Matthew T.
author_sort Parada, Stephen A.
collection PubMed
description BACKGROUND: Glenoid reconstruction with distal tibial allograft (DTA) is a known surgical option for treating recurrent glenohumeral instability with anterior glenoid bone loss; however, biomechanical analysis has yet to determine how graft variability and fixation options alter the torque of screw insertion and load to failure. HYPOTHESIS: It was hypothesized that retention of the lateral cortex of the DTA graft and the presence of a washer with the screw will significantly increase the maximum screw placement torque as well as the load to failure. STUDY DESIGN: Controlled laboratory study. METHODS: Whole, fresh distal tibias were used to harvest 28 DTA grafts, half of which had the lateral cortex removed and half of which had the lateral cortex intact. The grafts were secured to polyurethane solid foam blocks with a 2-mm epoxy laminate to simulate a glenoid with an intact posterior glenoid cortex. Grafts underwent fixation with 4.0-mm cannulated drills, and screws and washers were used for half of each group of grafts while screws alone were used for the other half, creating 4 equal groups of 7 samples each. A digital torque-measuring screwdriver recorded peak torque for screw insertion. Constructs were then tested in compression with a uniaxial materials testing system and loaded in displacement control at 100 mm/min until at least 3 mm of displacement occurred. Ultimate load was defined as the load sustained at clinical failure. RESULTS: The use of a washer significantly improved the ultimate torque that could be applied to the screws (+cortex and +washer = 12.42 N·m [SE, 0.82]; –cortex and +washer = 10.54 N·m [SE, 0.59]) (P < .0001), whereas the presence of the native bone cortex did not have a significant effect (+cortex and –washer = 7.83 N·m [SE, 0.40]; –cortex and –washer = 8.03 N·m [SE, 0.56]) (P = .181). CONCLUSION: In a hybrid construct of fresh cadaveric DTA grafts secured to a foam block glenoid model, the addition of washers was more effective than the retention of the lateral distal tibial cortex for both load to failure and peak torque during screw insertion. CLINICAL RELEVANCE: This biomechanical study is relevant to the surgeon when choosing a graft and selecting fixation options during glenoid reconstruction with a DTA graft.
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spelling pubmed-85817832021-11-12 Anterior Glenoid Reconstruction With Distal Tibial Allograft: Biomechanical Impact of Fixation and Presence of a Retained Lateral Cortex Parada, Stephen A. Shaw, K. Aaron McGee-Lawrence, Meghan E. Kyrkos, Judith G. Paré, Daniel W. Amero, Jessica Going, James W. Morpeth, Brice Shelley, Robert Eichinger, Josef K. Provencher, Matthew T. Orthop J Sports Med Article BACKGROUND: Glenoid reconstruction with distal tibial allograft (DTA) is a known surgical option for treating recurrent glenohumeral instability with anterior glenoid bone loss; however, biomechanical analysis has yet to determine how graft variability and fixation options alter the torque of screw insertion and load to failure. HYPOTHESIS: It was hypothesized that retention of the lateral cortex of the DTA graft and the presence of a washer with the screw will significantly increase the maximum screw placement torque as well as the load to failure. STUDY DESIGN: Controlled laboratory study. METHODS: Whole, fresh distal tibias were used to harvest 28 DTA grafts, half of which had the lateral cortex removed and half of which had the lateral cortex intact. The grafts were secured to polyurethane solid foam blocks with a 2-mm epoxy laminate to simulate a glenoid with an intact posterior glenoid cortex. Grafts underwent fixation with 4.0-mm cannulated drills, and screws and washers were used for half of each group of grafts while screws alone were used for the other half, creating 4 equal groups of 7 samples each. A digital torque-measuring screwdriver recorded peak torque for screw insertion. Constructs were then tested in compression with a uniaxial materials testing system and loaded in displacement control at 100 mm/min until at least 3 mm of displacement occurred. Ultimate load was defined as the load sustained at clinical failure. RESULTS: The use of a washer significantly improved the ultimate torque that could be applied to the screws (+cortex and +washer = 12.42 N·m [SE, 0.82]; –cortex and +washer = 10.54 N·m [SE, 0.59]) (P < .0001), whereas the presence of the native bone cortex did not have a significant effect (+cortex and –washer = 7.83 N·m [SE, 0.40]; –cortex and –washer = 8.03 N·m [SE, 0.56]) (P = .181). CONCLUSION: In a hybrid construct of fresh cadaveric DTA grafts secured to a foam block glenoid model, the addition of washers was more effective than the retention of the lateral distal tibial cortex for both load to failure and peak torque during screw insertion. CLINICAL RELEVANCE: This biomechanical study is relevant to the surgeon when choosing a graft and selecting fixation options during glenoid reconstruction with a DTA graft. SAGE Publications 2021-11-09 /pmc/articles/PMC8581783/ /pubmed/34778476 http://dx.doi.org/10.1177/23259671211050435 Text en © The Author(s) 2021 https://creativecommons.org/licenses/by-nc-nd/4.0/This article is distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 License (https://creativecommons.org/licenses/by-nc-nd/4.0/) which permits non-commercial use, reproduction and distribution of the work as published without adaptation or alteration, without further permission provided the original work is attributed as specified on the SAGE and Open Access pages (https://us.sagepub.com/en-us/nam/open-access-at-sage).
spellingShingle Article
Parada, Stephen A.
Shaw, K. Aaron
McGee-Lawrence, Meghan E.
Kyrkos, Judith G.
Paré, Daniel W.
Amero, Jessica
Going, James W.
Morpeth, Brice
Shelley, Robert
Eichinger, Josef K.
Provencher, Matthew T.
Anterior Glenoid Reconstruction With Distal Tibial Allograft: Biomechanical Impact of Fixation and Presence of a Retained Lateral Cortex
title Anterior Glenoid Reconstruction With Distal Tibial Allograft: Biomechanical Impact of Fixation and Presence of a Retained Lateral Cortex
title_full Anterior Glenoid Reconstruction With Distal Tibial Allograft: Biomechanical Impact of Fixation and Presence of a Retained Lateral Cortex
title_fullStr Anterior Glenoid Reconstruction With Distal Tibial Allograft: Biomechanical Impact of Fixation and Presence of a Retained Lateral Cortex
title_full_unstemmed Anterior Glenoid Reconstruction With Distal Tibial Allograft: Biomechanical Impact of Fixation and Presence of a Retained Lateral Cortex
title_short Anterior Glenoid Reconstruction With Distal Tibial Allograft: Biomechanical Impact of Fixation and Presence of a Retained Lateral Cortex
title_sort anterior glenoid reconstruction with distal tibial allograft: biomechanical impact of fixation and presence of a retained lateral cortex
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8581783/
https://www.ncbi.nlm.nih.gov/pubmed/34778476
http://dx.doi.org/10.1177/23259671211050435
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