Department of Physical Therapy, Graduate Institute of Rehabilitation Science, China Medical University, Taichung, Taiwan.
Kao-An Physical Medicine and Rehabilitation Clinic, Taichung, Taiwan.
Life Sci. 2018 Nov 1;212:267-274. doi: 10.1016/j.lfs.2018.10.013. Epub 2018 Oct 7.
The anterior cruciate ligament (ACL) and meniscus injuries often cause post-traumatic knee osteoarthritis (PTOA), which can place great limitations on patients. But to date there is no effective therapy to delay the progression of cartilage destruction in PTOA. This study aimed to compare the effects of early versus delayed swimming exercise on the chondroprotective effects in a rat PTOA model with ACL and meniscus injuries.
Thirty-two adult male Sprague-Dawley rats received unilateral ACL transection and medial meniscectomy (ACLMT). These were randomly allocated to four groups: early swimming (eSW), delayed swimming (dSW), sham-operated early swimming (sham-eSW) and sham-operated delayed swimming (sham-dSW). Swimming (30 min per session) continuing for 28 days was started three days and three months after ACLMT surgery as a protocol for eSW and dSW intervention. Cartilage quality was assessed by Mankin HHGS examination (H&E, Safranin-O stain) and collagen type II (CoII) and matrix metalloproteases-13 (MMP13) immunohistochemistry.
ACLMT induced the PTOA histopathological changes, inhibited CoII and enhanced MMP13 expressions in cartilage for both sham-eSW and sham-dSW groups. eSW intervention significantly enhanced CoII expression and suppressed MMP13 overexpression in superficial and transitional zones of cartilage, as well as better Mankin scores, corresponding to sham-swimming controls (P < 0.05). dSW intervention provided less enhancement of CoII expression and improvement of histopathological scoring, but significantly reduced MMP13 overexpression compared to animals in eSW (P < 0.05).
Early intervention by swimming at very early stages of cartilage damage provides greater benefits than delayed intervention when PTOA has already developed.
前交叉韧带(ACL)和半月板损伤常导致创伤后膝关节骨关节炎(PTOA),这会给患者带来极大的限制。但迄今为止,尚无有效的治疗方法可以延缓 PTOA 中软骨破坏的进展。本研究旨在比较 ACL 和半月板损伤的 PTOA 大鼠模型中早期与延迟游泳运动对软骨保护作用的影响。
32 只成年雄性 Sprague-Dawley 大鼠接受单侧 ACL 切断和内侧半月板切除术(ACLMT)。这些大鼠被随机分配到四组:早期游泳(eSW)、延迟游泳(dSW)、假手术早期游泳(sham-eSW)和假手术延迟游泳(sham-dSW)。ACLMT 手术后三天和三个月开始进行游泳(每次 30 分钟),作为 eSW 和 dSW 干预的方案。通过 Mankin HHGS 检查(H&E、番红 O 染色)和 II 型胶原(CoII)和基质金属蛋白酶-13(MMP13)免疫组织化学评估软骨质量。
ACLMT 诱导 PTOA 组织病理学变化,抑制 sham-eSW 和 sham-dSW 两组软骨中的 CoII 并增强 MMP13 表达。eSW 干预显著增强了软骨浅层和过渡区的 CoII 表达,并抑制了 MMP13 的过表达,与 sham 游泳对照组相比,Mankin 评分也更好(P<0.05)。dSW 干预对 CoII 表达的增强和组织病理学评分的改善作用较小,但与 eSW 组相比,明显减少了 MMP13 的过表达(P<0.05)。
在软骨损伤的早期阶段进行早期游泳干预比 PTOA 已经发展时进行延迟干预提供更大的益处。
