Surgical Energetics LLC, Covington, Kentucky, USA.
J Orthop Res. 2012 Jul;30(7):1112-7. doi: 10.1002/jor.22043. Epub 2011 Dec 16.
Whenever a tendon or its bone insertion is disrupted or removed, existing surgical techniques provide a temporary connection or scaffolding to promote healing, but the interface of living to non-living materials soon breaks down under the stress of these applications, if it must bear the load more than acutely. Patients are thus disabled whose prostheses, defect size, or mere anatomy limit the availability or outcomes of such treatments. Our group developed the OrthoCoupler™ device to join skeletal muscle to prosthetic or natural structures without this interface breakdown. In this study, the goat knee extensor mechanism (quadriceps tendon, patella, and patellar tendon) was removed from the right hind limb in 16 goats. The device connected the quadriceps muscle to a stainless steel bone plate on the tibia. Mechanical testing and histology specimens were collected from each operated leg and contralateral unoperated control legs at 180 days. Maximum forces in the operated leg (vs. unoperated) were 1,400 ± 93 N (vs. 1,179 ± 61 N), linear stiffnesses were 33 ± 3 N/mm (vs. 37 ± 4 N/mm), and elongations at failure were 92.1 ± 5.3 mm (vs. 68.4 ± 3.8 mm; mean ± SEM). Higher maximum forces (p = 0.02) and elongations at failure (p=0.008) of legs with the device versus unoperated controls were significant; linear stiffnesses were not (p=0.3). We believe this technology will yield improved procedures for clinical challenges in orthopedic oncology, revision arthroplasty, tendon transfer, and tendon injury reconstruction.
无论何时,当肌腱或其骨插入物被破坏或移除时,现有的外科技术都会提供临时的连接或支架来促进愈合,但在这些应用的压力下,活的和非活的材料之间的界面很快就会崩溃,如果它必须承受超过急性的负荷。因此,那些由于假体、缺陷大小或仅仅是解剖结构限制了此类治疗方法的可用性或结果而残疾的患者。我们的研究小组开发了 OrthoCoupler™ 装置,用于将骨骼肌与假体或天然结构连接,而不会出现这种界面断裂。在这项研究中,从 16 只山羊的右后肢中取出膝关节伸肌机制(股四头肌肌腱、髌骨和髌腱)。该装置将股四头肌连接到胫骨上的不锈钢骨板上。在 180 天时,从每个手术肢体和对侧未手术对照肢体上采集机械测试和组织学标本。与未手术肢体相比,手术肢体的最大力为 1400±93N(vs. 1179±61N),线性刚度为 33±3N/mm(vs. 37±4N/mm),失效时的伸长率为 92.1±5.3mm(vs. 68.4±3.8mm;平均值±SEM)。带有装置的肢体的最大力(p=0.02)和失效时的伸长率(p=0.008)明显高于未手术对照肢体;线性刚度没有(p=0.3)。我们相信这项技术将为骨科肿瘤学、翻修关节置换术、肌腱转移和肌腱损伤重建方面的临床挑战提供更好的手术方法。