一种使用卡托金处理的自体肌腱移植物进行半月板再生的新方法。
A Novel Approach for Meniscal Regeneration Using Kartogenin-Treated Autologous Tendon Graft.
作者信息
Huang He, Xu Hongyao, Zhao Jianning
机构信息
Department of Orthopaedics, Nanjing First Hospital, Nanjing Medical University, Nanjing, China.
Jinling Hospital, Nanjing University School of Medicine, Nanjing, China.
出版信息
Am J Sports Med. 2017 Dec;45(14):3289-3297. doi: 10.1177/0363546517721192. Epub 2017 Sep 1.
BACKGROUND
The meniscus is one of the most commonly injured parts of the body, and meniscal healing is difficult.
HYPOTHESIS
Kartogenin (KGN) induces tendon stem cells (TSCs) to differentiate into cartilage cells in vitro and form meniscus-like tissue in vivo. A damaged meniscus can be replaced with a KGN-treated autologous tendon graft.
STUDY DESIGN
Controlled laboratory study.
METHODS
In the in vitro experiments, TSCs were isolated from rabbit patellar tendons and cultured with various concentrations of KGN, from 0 to 1000 µM. The effect of KGN on the chondrogenesis of TSCs in vitro was investigated by histochemical staining and quantitative real-time reverse transcription polymerase chain reaction (qRT-PCR). The in vivo experiments were carried out on 6 New Zealand White rabbits by removing a meniscus from the rabbit knee and implanting an autologous tendon graft treated with KGN or saline. The meniscus formation in vivo was examined by histological analysis and immune staining.
RESULTS
The proliferation of TSCs was promoted by KGN in a concentration-dependent manner. Both histochemical staining and qRT-PCR showed that the chondrogenic differentiation of TSCs was increased with KGN concentration. After 3 months of implantation, the tendon graft treated with KGN formed a meniscus-like tissue with a white and glistening appearance, while the saline-treated tendon graft retained tendon-like tissue and appeared yellowish and unhealthy. Histochemical staining showed that after 3 months of implantation, the KGN-treated tendon graft had a structure similar to that of normal meniscus. Many cartilage-like cells and fibrocartilage-like tissues were found in the KGN-treated tendon graft. However, no cartilage-like cells were found in the saline-treated tendon graft after 3 months of implantation. Furthermore, the KGN-treated tendon graft was positively stained by both anti-collagen type I and type II antibodies, but the saline-treated tendon graft was not stained by collagen type II.
CONCLUSION
The findings indicated that KGN can induce the differentiation of TSCs into cartilage-like cells in vitro and in vivo. The results suggest that KGN-treated tendon graft may be a good substitute for meniscal repair and regeneration.
CLINICAL RELEVANCE
This study revealed the direct effects of KGN on the chondrogenic differentiation of TSCs in vitro and in vivo. A KGN-treated autologous tendon graft induced formation of a meniscus-like tissue in vivo. This study provides a new cartilage regenerating technology for the treatment of damaged meniscus.
背景
半月板是人体最常受伤的部位之一,半月板愈合困难。
假设
卡托金(KGN)在体外诱导肌腱干细胞(TSCs)分化为软骨细胞,并在体内形成半月板样组织。受损半月板可用KGN处理的自体肌腱移植物替代。
研究设计
对照实验室研究。
方法
在体外实验中,从兔髌腱中分离出TSCs,并与0至1000μM的不同浓度KGN一起培养。通过组织化学染色和定量实时逆转录聚合酶链反应(qRT-PCR)研究KGN对TSCs体外软骨形成的影响。体内实验在6只新西兰白兔身上进行,通过切除兔膝关节半月板并植入用KGN或生理盐水处理的自体肌腱移植物。通过组织学分析和免疫染色检查体内半月板形成情况。
结果
KGN以浓度依赖方式促进TSCs增殖。组织化学染色和qRT-PCR均显示,TSCs的软骨分化随KGN浓度增加。植入3个月后,用KGN处理的肌腱移植物形成外观白色且有光泽的半月板样组织,而用生理盐水处理的肌腱移植物保留肌腱样组织,外观呈淡黄色且不健康。组织化学染色显示,植入3个月后,用KGN处理的肌腱移植物具有与正常半月板相似的结构。在用KGN处理的肌腱移植物中发现许多软骨样细胞和纤维软骨样组织。然而,植入3个月后,用生理盐水处理的肌腱移植物中未发现软骨样细胞。此外,用KGN处理的肌腱移植物被抗I型和II型胶原抗体均呈阳性染色,但用生理盐水处理的肌腱移植物未被II型胶原染色。
结论
研究结果表明,KGN可在体外和体内诱导TSCs分化为软骨样细胞。结果表明,用KGN处理的肌腱移植物可能是半月板修复和再生的良好替代物。
临床意义
本研究揭示了KGN在体外和体内对TSCs软骨分化的直接作用。用KGN处理的自体肌腱移植物在体内诱导形成半月板样组织。本研究为治疗受损半月板提供了一种新的软骨再生技术。
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