在马全层软骨缺损模型中,与单纯微骨折相比,生物软骨可改善软骨修复。
BioCartilage Improves Cartilage Repair Compared With Microfracture Alone in an Equine Model of Full-Thickness Cartilage Loss.
作者信息
Fortier Lisa A, Chapman Hannah S, Pownder Sarah L, Roller Brandon L, Cross Jessica A, Cook James L, Cole Brian J
机构信息
Department of Clinical Sciences, Cornell University, Ithaca, New York, USA.
MRI Laboratory, Hospital for Special Surgery, New York, New York, USA.
出版信息
Am J Sports Med. 2016 Sep;44(9):2366-74. doi: 10.1177/0363546516648644. Epub 2016 Jun 13.
BACKGROUND
Microfracture (MFx) remains a dominant treatment strategy for symptomatic articular cartilage defects. Biologic scaffold adjuncts, such as particulated allograft articular cartilage (BioCartilage) combined with platelet-rich plasma (PRP), offer promise in improving clinical outcomes as an adjunct to MFx.
PURPOSE
To evaluate the safety, biocompatibility, and efficacy of BioCartilage and PRP for cartilage repair in a preclinical equine model of full-thickness articular cartilage loss.
STUDY DESIGN
Controlled laboratory study.
METHODS
Two 10-mm-diameter full-thickness cartilage defects were created in 5 horses in the trochlear ridge of both knees: one proximal (high load) and another distal (low load). Complete blood counts were performed on each peripheral blood and resultant PRP sample. In each horse, one knee received MFx with BioCartilage + PRP, and the other knee received MFx alone. Horses were euthanized at 13 months. Outcomes were assessed with serial arthroscopy, magnetic resonance imaging (MRI), micro-computed tomography (micro-CT), and histology. Statistics were performed using a mixed-effects model with response variable contrasts.
RESULTS
No complications occurred. PRP generated in all subjects yielded an increase in platelet fold of 3.8 ± 4.7. Leukocyte concentration decreased in PRP samples by an average fold change of 5 ± 0.1. The overall International Cartilage Repair Society repair score in both the proximal and distal defects was significantly higher (better) in the BioCartilage group compared with MFx (proximal BioCartilage: 7.4 ± 0.51, MFx 4.8 ± 0.1, P = .041; distal BioCartilage: 5.6 ± 0.98, MFx 2.6 ± 1.5, P = .022). BioCartilage-treated proximal defects demonstrated improved histologic scores for repair-host integration (BioCartilage, 96 ± 9; MFx, 68 ± 18; P = .02), base integration (BioCartilage, 100 ± 0; MFx, 70 ± 37; P = .04), and formation of collagen type II (BioCartilage, 82 ± 8; MFx, 58 ± 11; P = .05) compared with the positive control. On MRI, T2 relaxation time was significantly shorter (better) in the superficial region of BioCartilage-treated distal defects compared with MFx (P = .05). There were no significant differences between BioCartilage and MFx on micro-CT analysis.
CONCLUSION
BioCartilage with PRP safely improved cartilage repair compared with MFx alone in an equine model of articular cartilage defects up to 13 months after implantation.
CLINICAL RELEVANCE
The 1-year results of BioCartilage + PRP suggest that homologous allograft tissue provides a safe and effective augmentation of traditional MFx.
背景
微骨折术(MFx)仍是有症状的关节软骨缺损的主要治疗策略。生物支架辅助材料,如颗粒状同种异体关节软骨(生物软骨)联合富血小板血浆(PRP),有望作为MFx的辅助手段改善临床疗效。
目的
在全层关节软骨缺损的临床前马模型中评估生物软骨和PRP用于软骨修复的安全性、生物相容性和疗效。
研究设计
对照实验室研究。
方法
在5匹马的双膝滑车嵴处制造两个直径10毫米的全层软骨缺损:一个近端缺损(高负荷)和另一个远端缺损(低负荷)。对每匹马的外周血和由此获得的PRP样本进行全血细胞计数。每匹马的一侧膝关节接受MFx联合生物软骨+PRP治疗,另一侧膝关节仅接受MFx治疗。在13个月时对马实施安乐死。通过连续关节镜检查、磁共振成像(MRI)、微型计算机断层扫描(微型CT)和组织学评估结果。使用具有反应变量对比的混合效应模型进行统计学分析。
结果
未发生并发症。所有受试者制备的PRP血小板倍数增加3.8±4.7。PRP样本中白细胞浓度平均倍数变化降低5±0.1。与MFx相比,生物软骨组近端和远端缺损的国际软骨修复协会总体修复评分显著更高(更好)(近端生物软骨:7.4±0.51,MFx 4.8±0.1,P = 0.041;远端生物软骨:5.6±0.98,MFx 2.6±1.5,P = 0.022)。与阳性对照相比,生物软骨治疗的近端缺损在修复-宿主整合(生物软骨,96±9;MFx,68±18;P = 0.02)、基底整合(生物软骨,100±0;MFx,70±37;P = 0.04)和II型胶原形成(生物软骨,82±8;MFx,58±11;P = 0.05)方面组织学评分改善。在MRI上,与MFx相比,生物软骨治疗的远端缺损表层区域的T2弛豫时间显著更短(更好)(P = 0.05)。在微型CT分析中,生物软骨和MFx之间无显著差异。
结论
在关节软骨缺损的马模型中,植入后长达13个月,与单独MFx相比,生物软骨联合PRP安全地改善了软骨修复。
临床意义
生物软骨+PRP的1年结果表明,同种异体移植组织为传统MFx提供了一种安全有效的增强方法。
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