Bio‐Compositional and Microstructural Changes in Rabbit Knee Collateral Ligaments Eight Weeks After Anterior Cruciate Ligament Transection
Anahita Gheisari, Ville‐Pauli Karjalainen, Lassi Rieppo, Sami Kauppinen, Andrew Sawatsky, Rami K. Korhonen, Walter Herzog, Simo Saarakkalaa, Mikko A.J. Finnilä, Shuvashis Das Gupta

TL;DR
This study examines how ACL injury affects the composition and structure of rabbit knee collateral ligaments eight weeks post-injury.
Contribution
The study reveals novel bio-compositional and microstructural changes in collateral ligaments following ACL injury.
Findings
ACL-transected ligaments showed lower collagen and higher proteoglycan content.
Collagen fiber matrix became more disorganized with increased crimp angles and lengths.
Findings highlight structural-function changes in collateral ligaments after ACL injury.
Abstract
Injury to the anterior cruciate ligament (ACL) is common in young, active individuals. It has the potential to lead to post‐traumatic osteoarthritis. However, the effects of ACL injury on the bio‐composition and microstructure of the knee's collateral ligaments have been poorly explored. In this study, Fourier transform infrared (FTIR) imaging and quantitative polarized light microscopy (qPLM) were used to identify the respective changes in bio‐composition and collagen fiber arrangements of the knee's collateral ligaments. To mimic an ACL trauma, unilateral ACL transection surgery was performed on either the left or right knee of 6 mature New Zealand white rabbits. Lateral and medial collateral ligaments were harvested from the transected and contralateral knees 8 weeks after the ACL transection surgery. At the same time, collateral ligaments of 4 age‐matched, healthy rabbits were…
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Taxonomy
TopicsKnee injuries and reconstruction techniques · Osteoarthritis Treatment and Mechanisms · Tendon Structure and Treatment
