Anterior cruciate ligament reconstruction in a rabbit model using silk-collagen scaffold and comparison with autograft.

Fanggang Bi,Shigui Yan,Zhongli Shi,An Liu,Peng Guo,Xiaohua Liu

doi:10.1371/journal.pone.0125900

Fanggang Bi, Shigui Yan + Show 4 more

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https://doi.org/10.1371/journal.pone.0125900

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Journal: PloS one	Publication Date: May 4, 2015
Citations: 63	License type: CC BY 4.0

Affiliation: Second Affiliated Hospital of Zhejiang University

Abstract

The objective of the present study was to perform an in vivo assessment of a novel silk-collagen scaffold for anterior cruciate ligament (ACL) reconstruction. First, a silk-collagen scaffold was fabricated by combining sericin-extracted knitted silk fibroin mesh and type I collagen to mimic the components of the ligament. Scaffolds were electron-beam sterilized and rolled up to replace the ACL in 20 rabbits in the scaffold group, and autologous semitendinosus tendons were used to reconstruct the ACL in the autograft control group. At 4 and 16 weeks after surgery, grafts were retrieved and analyzed for neoligament regeneration and tendon-bone healing. To evaluate neoligament regeneration, H&E and immunohistochemical staining was performed, and to assess tendon-bone healing, micro-CT, biomechanical test, H&E and Russell-Movat pentachrome staining were performed. Cell infiltration increased over time in the scaffold group, and abundant fibroblast-like cells were found in the core of the scaffold graft at 16 weeks postoperatively. Tenascin-C was strongly positive in newly regenerated tissue at 4 and 16 weeks postoperatively in the scaffold group, similar to observations in the autograft group. Compared with the autograft group, tendon-bone healing was better in the scaffold group with trabecular bone growth into the scaffold. The results indicate that the silk-collagen scaffold has considerable potential for clinical application.

Highlights

The anterior cruciate ligament (ACL) plays a major role in the stability and normal kinematics of the knee joint [1]
The collagen sponge was distributed over the surface, and it penetrated into the loops of the knitted silk fibroin mesh
The regenerated ligament was infiltrated by a large number of fibroblast-like cells, which were similar to those found in the autograft group

Summary

Introduction

The anterior cruciate ligament (ACL) plays a major role in the stability and normal kinematics of the knee joint [1]. Rupturing or tearing of the ACL can cause instability of the knee joint, leading to dislocation, injury to other ligaments, or osteoarthritis [2, 3]. Due to its limited capacity for regeneration, the ACL heals poorly when the ruptured ends are sutured back together [4]. It is estimated that more than 100,000 cases of ACL reconstruction are performed in the United States each year [5]. Grafts are needed for ACL reconstruction in clinical settings. Current graft types include autografts, allografts, and synthetic grafts. ACL reconstruction with autografts is the current gold standard, but it has considerable drawbacks, such as prolonged

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