Fischenich K M, Pauly H M, Button K D, Fajardo R S, DeCamp C E, Haut R C, Haut Donahue T L
School of Biomedical Engineering, Colorado Sate University, Fort Collins, CO, USA.
Orthopaedic Biomechanics Laboratories, College of Osteopathic Medicine, Michigan State University, East Lansing, MI, USA.
Osteoarthritis Cartilage. 2017 Apr;25(4):561-569. doi: 10.1016/j.joca.2016.10.010. Epub 2016 Oct 15.
The objective of this study was to monitor the progression of joint damage in two animal models of knee joint trauma using two non-invasive, clinically available imaging modalities.
A 3-T clinical magnet and micro-computed tomography (μCT) was used to document changes immediately following injury (acute) and post-injury (chronic) at time points of 4, 8, or 12 weeks. Joint damage was recorded at dissection and compared to the chronic magnetic resonance imaging (MRI) record. Fifteen Flemish Giant rabbits were subjected to a single tibiofemoral compressive impact (ACLF), and 18 underwent a combination of anterior cruciate ligament (ACL) and meniscal transection (mACLT).
All ACLF animals experienced ACL rupture, and 13 also experienced acute meniscal damage. All ACLF and mACLT animals showed meniscal and articular cartilage damages at dissection. Meniscal damage was documented as early as 4 weeks and worsened in 87% of the ACLF animals and 71% of the mACLT animals. Acute cartilage damage also developed further and increased in occurrence with time in both models. A progressive decrease in bone quantity and quality was documented in both models. The MRI data closely aligned with dissection notes suggesting this clinical tool may be a non-invasive method for documenting joint damage in lapine models of knee joint trauma.
The study investigates the acute to chronic progression of meniscal and cartilage damage at various time points, and chronic changes to the underlying bone in two models of posttraumatic osteoarthritis (PTOA), and highlights the dependency of the model on the location, type, and progression of damage over time.
本研究的目的是使用两种非侵入性的、临床可用的成像方式,监测两种膝关节创伤动物模型中关节损伤的进展情况。
使用一台3-T临床磁共振成像仪和微型计算机断层扫描(μCT),在损伤后即刻(急性)以及损伤后4周、8周或12周的时间点记录变化情况。在解剖时记录关节损伤情况,并与慢性磁共振成像(MRI)记录进行比较。15只弗拉芒巨兔接受了单次胫股压缩撞击(ACLF),18只接受了前交叉韧带(ACL)切断术和半月板横断术的联合手术(mACLT)。
所有ACLF动物均发生了ACL断裂,13只还发生了急性半月板损伤。所有ACLF和mACLT动物在解剖时均显示有半月板和关节软骨损伤。半月板损伤最早在4周时就有记录,在87%的ACLF动物和71%的mACLT动物中病情加重。在两个模型中,急性软骨损伤也进一步发展,且发生率随时间增加。两个模型均记录到骨量和骨质量的逐渐下降。MRI数据与解剖记录密切吻合,表明这种临床工具可能是一种用于记录膝关节创伤兔模型中关节损伤的非侵入性方法。
本研究调查了两种创伤后骨关节炎(PTOA)模型中半月板和软骨损伤从急性到慢性的进展情况,以及基础骨的慢性变化,并强调了模型对损伤位置、类型和随时间进展情况的依赖性。