Assessment of Primary Stability and Micromotion of Different Fixation Techniques for Scapular Spine Bone Blocks for the Reconstruction of Critical Bone Loss of the Anterior Glenoid—A Biomechanical Study

Assessment of Primary Stability and Micromotion of Different Fixation Techniques for Scapular Spine Bone Blocks for the Reconstruction of Critical Bone Loss of the Anterior Glenoid—A Biomechanical Study

Anteroinferior shoulder dislocations require surgical intervention when related to critical glenoid bone loss. Scapular spine bone blocks have emerged as a promising alternative to traditional bone augmentation techniques. However, limited data exist on their biomechanical stability when using diffe...

Full description

Saved in:
Bibliographic Details
Main Authors: Anton Brehmer, Yasmin Youssef, Martin Heilemann, Toni Wendler, Jean-Pierre Fischer, Stefan Schleifenbaum, Pierre Hepp, Jan Theopold
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Life
Subjects:
shoulder instability
scapular spine
bone block augmentation
cerclage technique
Latarjet procedure
micromotion
Online Access:https://www.mdpi.com/2075-1729/15/4/658
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Anteroinferior shoulder dislocations require surgical intervention when related to critical glenoid bone loss. Scapular spine bone blocks have emerged as a promising alternative to traditional bone augmentation techniques. However, limited data exist on their biomechanical stability when using different suture-based fixation techniques. This study aimed to evaluate primary stability and micromotion after glenoid augmentation using a scapular spine bone block. A total of 31 fresh-frozen human shoulder specimens underwent bone block augmentation. The specimens were randomized into three groups: double-screw fixation (DSF), single-suture bone block cerclage (SSBBC), and double-suture bone block cerclage (DSBBC). Biomechanical testing was conducted using cyclic loading (5000 cycles at 1 Hz) and micromotion was analyzed using an optical 3D measurement system. Statistical analysis showed that medial irreversible displacement was significantly greater in the SSBBC group compared to DSF (<i>p</i> = 0.0386), and no significant differences were found in anterior or inferior irreversible displacements. A significant difference was noted in posterior reversible displacement (<i>p</i> = 0.0035), while no differences were found in inferior or medial reversible displacements. Between DSF and DSBBC, no significant differences were found in irreversible or reversible displacements in any direction. DSBBC provided stability comparable to DSF while offering a viable metal-free alternative. In contrast, SSBBC displayed inferior biomechanical properties, raising concerns about its clinical reliability.
ISSN:2075-1729

Similar Items