Successful Arthroplasty Using Cadaveric Meniscus for Osteochondral Defects in the Wrist and Hand Joints.

BACKGROUND:Osteochondral defects of the radiocarpal, metacarpophalangeal (MCP), and proximal interphalangeal (PIP) joints often necessitate joint arthrodesis or mechanical arthroplasty, which has a limited lifespan. In severely arthritic wrist and finger joints, we propose a novel adjunct for joint salvage using cadaveric meniscus for joint resurfacing as an off-the-shelf alternative to address osteochondral defects and restore normal intraarticular contact stress. METHODS:A total of 14 patients with osteochondral defects in 5 radiocapitate, 5 MCP, 3 PIP, and 1 carpometacarpal joints received cadaveric meniscus to facilitate arthroplasty. Patient demographic, perioperative pain, range of motion, and complications were examined. RESULTS:Patients aged 17 to 73 years old (average, 54.6 years old) underwent joint reconstruction for scaphoid nonunion (n = 1), scaphoid-lunate advanced collapse (n = 4), or osteoarthritis of MCP/carpometacarpal (n = 6) or PIP (n = 3) joints. Successful arthroplasty with joint space preservation occurred in all joints. Patients had a significant reduction in average pain scale score (P < 0.01) and improved average range of active motion degrees of flexion (P < 0.01) and degrees of extension (P < 0.05). No complications resulted; only a revision tenolysis and capsulotomy were required for PIP and MCP arthroplasties. Postoperative films reveal preservation of arthroplasty joint space after an average 19.7-month follow-up (range, 8-54). CONCLUSIONS:We believe that meniscus is a viable joint salvage option or adjunct to preserve pain-free motion and avoid total joint arthrodesis. In this series of 14 patients, we demonstrate the successful use of cadaver meniscus in hand joint arthroplasty, such that it advantageously maintains a low metabolic demand, is biointegratable, and is surgically malleable.