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Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_11 | Pages 25 - 25
1 Jul 2014
Takeuchi H Enomoto H Matsunari H Umeyama K Nagashima H Yoshikawa T Okada Y Toyama Y Suda Y
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Summary

A novel in vivo animal model to establish new surgical interventions for patients with ACL insufficiency.

Introduction

After ACL reconstruction, recruited cells from surrounding tissues play crucial roles in ligamentization to obtain adequate structural properties. To allow athletes to return sports activity sooner, these remodeling processes should be elucidated and be accelerated. However, in conventional animal models, it has been difficult to differentiate donor and recipient cells. Here we introduce the transgenic Kusabira-Orange pigs, in which cells produce fluorescence systemically, as in vivo model to trace cell recruitment after ACL reconstruction.


Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_IV | Pages 563 - 563
1 Nov 2011
Mwale F Epure LM Yoshikawa T Hemmad A Bokar M Masuda K Roughley PJ Antoniou J
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Purpose: Intervertebral disc (IVD) degeneration is associated with proteolytic degradation of proteoglycan aggregates present within the extracellular matrix of the disc. Link-N peptide is the N-terminal peptide of link protein, which stabilizes the proteoglycan aggregates. It is generated in vivo by proteolytic degradation during tissue turnover. We have previously shown that this peptide can stimulate the synthesis of proteoglycans and collagens by IVD cells in vitro. However, to date, there have been no reports on the effect of Link-N on the IVD in vivo. The purpose of the present study was to determine the effect of intradiscally administration of Link-N peptide on disc cell survival and extracellular matrix synthesis using a rabbit annular needle puncture model of IVD degeneration.

Method: Twelve New Zealand white rabbits (~3.5 kg; 5–6 months old) received an annular puncture with an 18-gauge needle on 2 non-contiguous discs (L2–L3 and L4–L5). The disc (L3–L4) between the punctured discs and that above (L5–L6) was left intact as internal controls. Two weeks after the initial puncture, the anterior surfaces of the previously punctured discs (L2–L3 and L4–L5) were injected with either saline (10 μl/disc) or Link-N (100 μg in 10μl saline/disc) into the center of the NP. Disc height was radiographically monitored biweekly. After 12 weeks post-injection, all the rabbits were euthanized and the IVDs from both experimental groups were removed from each lumbar spine for biochemical analysis. The nucleus pulposus (NP) was separated from the annulus fibrosus (AF), the specimens weighed (wet weight), the content of DNA measured using PicoGreen, and the total contents of sulfated glycosaminoglycans (GAG) measured by the 1,9-dimethylmethylene blue (DMMB) assay.

Results: Following needle puncture that initiates disc degeneration, the disc height index (DHI) decreased by about 25%. By 6 weeks after Link-N injection, the mean percent DHI of injected discs in the Link-N group was higher than in the saline group. This difference in mean percent DHI was maintained during the rest of the follow-up. Puncturing the IVD also led to a decrease in proteoglycan content in both the NP and the AF in saline-treated discs. Treatment with Link-N stimulated proteoglycan synthesis (GAG) in both the NP and AF by about 20%. Link-N did not cause an increase in the DNA content of the discs.

Conclusion: Results of the present study show that Link-N can stimulate proteoglycan production in vivo when administered to degenerate disc. This stimulation occurs in both the NP and AF of the disc and in the absence of any effect on cell division. The changes observed with Link-N on proteoglycan synthesis are similar to those reported after injection of osteogenic protein-1 (OP-1) Thus, Link-N appears to be equally effective at stimulating repair of the IVD in vivo. One major advantage of Link-N over OP-1 for therapeutic use is the large saving in cost, Link-N being about 400 times cheaper than OP-1.