Treatment options include modified activity with or without weight bearing; immobilization;
cryotherapy;
anti-inflammatory medication; drilling of subchondral bone;
microfracture; removal or reattachment of loose bodies; mosaicplasty and osteoarticular transfer system (OATS) procedures. The primary goals of treatment are: • Enhance the healing potential of subchondral bone; • Fix unstable fragments while maintaining joint congruity; and • Replace damaged bone and cartilage with implanted tissues or cells that can grow cartilage. The articular cartilage's capacity for repair is limited: partial-thickness defects in the articular cartilage do not heal spontaneously, and injuries of the articular cartilage that fail to penetrate subchondral bone tend to lead to deterioration of the articular surface. As a result, surgery is often required in even moderate cases where the osteochondral fragment has not detached from the bone (Anderson Stage II, III). They are permitted to walk with weight bearing as tolerated. X-rays are usually taken three months after the start of non-operative therapy; if they reveal that the lesion has healed, a gradual return to activities is instituted. Those demonstrating healing by increased
radiodensity in the subchondral region, or those whose lesions are unchanged, are candidates to repeat the above described three-month protocol until healing is noted. Consequently, the type and extent of surgery necessary varies based on patient age, severity of the lesion, and personal bias of the treating surgeon—entailing an exhaustive list of suggested treatments. A variety of surgical options exist for the treatment of persistently symptomatic, intact, partially detached, and completely detached OCD lesions. Post-surgery reparative cartilage is inferior to healthy
hyaline cartilage in
glycosaminoglycan concentration,
histological, and
immunohistochemical appearance. As a result, surgery is often avoided if non-operative treatment is viable.
Intact lesions If non-surgical measures are unsuccessful, drilling may be considered to stimulate healing of the subchondral bone.
Arthroscopic drilling may be performed by using an antegrade (from the front) approach from the joint space through the articular cartilage, or by using a retrograde (from behind) approach through the bone outside of the joint to avoid penetration of the articular cartilage. This has proven successful with positive results at one-year follow-up with antegrade drilling in nine out of eleven teenagers with the juvenile form of OCD, and in 18 of 20 skeletally immature people (follow-up of five years) who had failed prior conservative programs.
Hinged lesions Pins and screws can be used to secure flap (sometimes referred to as hinged) lesions. Bone pegs, metallic pins and screws, and other bioresorbable screws may be used to secure these types of lesions.
Full thickness lesions The three methods most commonly used in treating full thickness lesions are arthroscopic drilling, abrasion, and microfracturing. In 1946, Magnusson established the use of stem cells from
bone marrow with the first surgical
debridement of an OCD lesion. These cells typically differentiate into
fibrocartilage and rarely form hyaline cartilage. While small lesions can be resurfaced using this form of surgery, the repair tissue tends to have less strength than normal
hyaline cartilage and must be protected for 6 to 12 months. Results for large lesions tend to diminish over time; this can be attributed to the decreased resilience and poor wear characteristics of the fibrocartilage. In attempts to address the weaker structure of the reparative fibrocartilage, new techniques have been designed to fill the defect with tissue that more closely simulates normal hyaline articular cartilage. One such technique is
autologous chondrocyte implantation (ACI), which is useful for large, isolated
femoral defects in younger people. In this surgery, chondrocytes are arthroscopically extracted from the
intercondylar notch of the articular surface. The chondrocytes are grown and injected into the defect under a periosteal patch. ACI surgery has reported good to excellent results for reduced swelling, pain and locking in clinical follow-up examinations. Some physicians preferred to use undifferentiated pluripotential cells, such as periosteal cells and bone marrow stem cells, as opposed to chondrocytes. These too have demonstrated the ability to regenerate both the cartilage and the underlying subchondral bone. Similar to OATS, arthroscopic articular cartilage paste grafting is a surgical procedure offering cost-effective, long-lasting results for stage IV lesions. A bone and cartilage paste derived from crushed plugs of the non-weight-bearing intercondylar notch can achieve pain relief, repair damaged tissue, and restore function.
Unstable lesions Some methods of fixation for unstable lesions include countersunk compression screws and
Herbert screws or pins made of stainless steel or materials that can be absorbed by the body. If loose bodies are found, they are removed. Although each case is unique and treatment is chosen on an individual basis, ACI is generally performed on large defects in skeletally mature people.
Rehabilitation Continuous passive motion (CPM) has been used to improve healing of the articular surface during the postoperative period for people with full-thickness lesions. It has been shown to promote articular cartilage healing for small (< 3 mm in diameter) lesions in rabbits. Similarly, Rodrigo and Steadman reported that CPM for six hours per day for eight weeks produced an improved clinical outcome in humans. A rehabilitation program often involves protection of the compromised articular surface and underlying subchondral bone combined with maintenance of strength and range of motion. Post-operative
analgesics, namely a mix of
opioids and
NSAIDs, are usually required to control pain, inflammation and swelling. Straight leg raising and other
isometric exercises are encouraged during the post-operative or immobilization period. A six to eight-week home or formal
physical therapy program is usually instituted once the immobilization period has ended, incorporating range of motion, stretching, progressive strengthening, and functional or sport-specific training. During this time, patients are advised to avoid running and jumping, but are permitted to perform low impact activities, such as walking or swimming. If patients return to activity before the cartilage has become firm, they will typically complain of pain during maneuvers such as squatting or jumping. ==Prognosis==