Histologic evaluation of osteochondral loose bodies and repaired tissues after fixation

[Osteochondral fractures in childhood and adolescence]

BACKGROUND

Osteochondral fractures (OCF) are traumatic shearing injuries to portions of cartilage and bone. The most common cause is patellar dislocation, with the main localisation being the medial patellar facet and the lateral femoral condyle. They can occur in all age groups.

DIAGNOSIS

Clinically, there is a painful knee joint effusion (haemarthrosis) with a "dancing patella". This is usually accompanied by restricted movement and/or a locking phenomenon. In addition to the standard X‑ray of the knee in three planes (lateral, anterior-posterior and tangential patella), an MRI should be performed promptly in the case of haemarthrosis and suspicious symptoms, as concomitant injuries are present in up to 70% of cases.

TREATMENT

The aim of treatment is to restore joint congruence in order to prevent the risk of secondary osteoarthritis. Small chondral and stable osteochondral fractures can be treated conservatively. Surgery is indicated for all other OCFs. In addition to refixation with various materials (bioresorbable screws, bone plugs, suture material and Kirschner wires), cartilage regeneration procedures (AMIC, MACI, OAT, etc.) are available for late diagnosed or non-refixable fragments. However, the number of cases is small.

CONCLUSION

Osteochondral fractures are rare injuries in children and adolescents. Prompt MRI is recommended for diagnosis in cases of suspected OCF. Refixation is the preferred treatment method, with bioresorbable implants showing promising results in reducing the need for additional surgery. The risk of secondary osteoarthritis can be reduced with regular treatment.

Hybrid Treatment of Osteochondral Fracture of the Patella With Particulated Juvenile Cartilage and Fragment Fixation

Acute patellar dislocation can result in osteochondral fracture of the patella, resulting in multiple osteochondral fragments, with only one fragment able to be fixated into the defect effectively. In these cases, we propose a hybrid procedure to repair the defect using the fixation of one of the osteochondral fragments and particulated juvenile articulate cartilage to fill the remaining defect in the patella. This technique maximizes the amount of native articular surface that we can preserve on the patella. The use of fragment fixation in combination with particulated juvenile articulate cartilage will help prevent further articular damage to the patella and reduce the risk of developing osteoarthritis in patients suffering from an osteochondral fracture as a result of acute patellar dislocation.

[Refixation of osteochondral fragments with resorbable polylactid implants : Long-term clincal and MRI results]

BACKGROUND

Refixation with resorbable implants is a common surgical treatment in patients who suffer an injury with shearing of an osteochondral flake due to trauma of the knee or the upper ankle joint. To date there are no studies which outline long-term outcomes for this procedure. The aim of this study was to evaluate long-term clinical and magnetic resonance imaging (MRI) results after refixation with resorbable polylactide (PLLA) implants.

MATERIAL AND METHODS

In this retrospective study 12 patients with 13 injuries were examined 13.9 years (±1.2 years) after refixation of an osteochondral fragment of the knee (10 patients) and the upper ankle joint (2 patients) with a mean size of 3.33 cm² (±2.33) by resorbable polylactide (PLLA) implants (nails, pins, screws, Bionx, Tampere, Finland). To objectify the clinical results eight established clinical scores (VASS, Tegner, Lysholm, McDermott, KSS, WOMAC, AOFAS, FADI+Sports) were used. Furthermore, the morphological integration of bone and cartilage was assessed by MRI (3 T) using proton-weighted and cartilage-sensitive 3D double-echo steady-state (DESS) sequences. The morphological results were objectified with a modified MRI score according to Henderson et al.

RESULTS

After 13.9 years (±1.2) the patients with an injury of the knee as well as of the upper ankle joint showed good to excellent results (knee: VASS 1.2 (±1.7), Tegner 4.4 (±1.3), Lysholm 85.7 (±12.2), McDermott 90.7 (±8.6), KSS 189 (±14.2), WOMAC (6.16% (±8.45)) (upper ankle joint: VASS 2.5 (±2.5), Tegner 5.5 (±1.5), Lysholm 87 (±13), McDermott 88 (±12); WOMAC (8.54% (±8.54), AOFAS 75.5 (±24.5), FADI+Sports 118 (±18)). In all cases there was evidence of good integration of the osteochondral fragment in MRI. In five patients there was moderate subchondral cyst formation (∅ ≤1 mm); however, mild changes of the cartilage contour were found in all patients. The mean modified Henderson score achieved was 14.4 (±2.0, best 8, worst 32), which corresponds to a good morphological result.

CONCLUSION

Because of good clinical and morphological results shown by MRI, refixation through resorbable implants (PLLA) can be recommended for treatment of traumatic osteochondral flakes.

Osteochondral Fracture Fixation With Fragment Preserving Suture Technique

Osteochondral fractures are relatively uncommon injuries that typically present after an acute or subacute traumatic injury. Osteochondral fracture fixation is traditionally performed in the acute setting with internal fixation procedures using pins or compression screws through the fragment. Outcomes have generally been good, but cartilage thinning, subchondral remodeling, and tissue reactions can occur after internal fixation through the fragment. This article describes osteochondral fracture fragment fixation with a fragment-preserving technique that does not violate the articular cartilage of the fragment. This technique minimizes risk to articular cartilage that has already sustained injury and also provides superior fixation.

Viability of Pathologic Cartilage Fragments as a Source for Autologous Chondrocyte Cultures

OBJECTIVE

To study if a culture of chondrocytes can be obtained from pathologic hyaline cartilage (PHC) fragments.

DESIGN

Twenty-five men and 9 women with osteochondritis dissecans (OCD) in 11 cases, arthrosis in 13 patients, and trauma in the remaining 10 cases were included. The PHC fragments and a small sample of the next healthy cartilage were extracted by arthroscopy. According to the appearance, the PHC samples were divided into fixed (3 cases), flapped (6 patients), or loose bodies (25 cases), depending on the attachment degree of the cartilage to the subchondral bone. Approximately half of each pathologic sample and the whole healthy one were digested to isolate the cells trying to establish the cell culture.

RESULTS

We were able to establish a cell culture in 7 out of 34 (20.6%) PHC samples (positive samples), whereas in the remaining 27 (79.4%) no cell growth was observed (negative samples). Most of the negative samples were loose bodies (P = 0.005) taken from patients with OCD or arthrosis (P = 0.001) with an evolution time of more than 1 year (P < 0.001). The best binary logistic regression model (P < 0.001) showed that the only factor affecting the establishment of cell culture was the evolution time (P = 0.044).

CONCLUSION

It is possible to culture chondrocytes from osteochondral fragments if they are traumatic, within a year of injury and not from fragments due to arthrosis or OCD.

[Acute osteochondral lesions after patella dislocation]

Acute osteochondral lesions of the knee are injuries often caused by patella dislocations. In cases of negative standard x-rays magnetic resonance imaging (MRI) scans should be used to exclude these injuries, as even large fragments can escape visualization with x-rays. These lesions are strong indications for surgical intervention especially if refixation is considered. The intra-articular defect is visualized using arthroscopy and the dislocated fragment is retrieved entirely. Inspection of the fragment is performed ex situ to determine whether or not refixation should be performed. The refixation technique to be used for lesions in the femoro-patellar joint depends on fragment size and defect site. Current biodegradable implants have demonstrated good clinical results without the need for implant removal. The rehabilitation protocol should be individualized to the patient, size and site of the defect.

Evaluation and management of osteochondral lesions of the knee

Osteochondral lesions of the knee is a common disorder in adolescents, although it may present in children and adults. Despite the fact that the disorder was discovered more than a century ago, no specific causes have been identified, although relationships with ischemia, irregular ossification of epiphyseal cartilage, genetic influences, trauma, and endocrine disorders have been postulated. Taking a thorough history and performing a thorough physical examination will facilitate diagnosis of this condition. Radiographic and magnetic resonance imaging are useful diagnostic tools that aid in the evaluation. A comprehensive knowledge of the relevant anatomy and clinical progression of osteochondral lesions allows for a better understanding of the classification systems and, ultimately management of this disorder. The size, location, and stability of the lesion, as well as the patient's age, are crucial in determining optimal treatment. The spectrum of injury ranges from small, stable lesions, which can be treated nonoperatively, to unstable or displaced lesions, which may require surgical management. Surgical options include drilling of subchondral bone, curettage and microfracture, refixation of detached lesions, autologous osteochondral autograft procedures (eg, mosaicplasty, osteochondral autograft transfer system), autologous chondrocyte implantation, and osteochondral allograft resurfacing. This article provides a basic approach to the evaluation and management of osteochondral lesions, as well as indications for surgery.

Viability of loose body fragments in osteochondritis dissecans of the knee. A series of cases

The purpose of this study was to determine if the cartilage from loose osteochondral fragments remains viable. Five patients with OCD of the knee who had undergone surgical treatment (arthroscopic reduction and internal fixation of the loose body) were included. The average age of patients was 13 years (range 10-14 years). Cartilage samples were obtained from the loose body fragments before reattachment was performed (study group) and from the healthy native cartilage (intercondyle area, control group) from each of the five patients. Tissue viability was assessed using live-dead assay in both groups. All five loose osteochondral fragments showed similar viability to the healthy native cartilage group, with 88% cell viability (95% CI 50-100) in loose body fragments versus 92% viability (95% CI 50-100) from healthy cartilage. This study showed that cartilage from detached OCD fragments remains viable before reattachment is performed.

Histological evaluation of internally-fixed osteochondral lesions of the knee

We evaluated the histological changes before and after fixation in ten knees of ten patients with osteochondritis dissecans who had undergone fixation of the unstable lesions. There were seven males and three females with a mean age of 15 years (11 to 22). The procedure was performed either using bio-absorbable pins only or in combination with an autologous osteochondral plug. A needle biopsy was done at the time of fixation and at the time of a second-look arthroscopy at a mean of 7.8 months (6 to 9) after surgery. The biopsy specimens at the second-look arthroscopy showed significant improvement in the histological grading score compared with the pre-fixation scores (p < 0.01). In the specimens at the second-look arthroscopy, the extracellular matrix was stained more densely than at the time of fixation, especially in the middle to deep layers of the articular cartilage. Our findings show that articular cartilage regenerates after fixation of an unstable lesion in osteochondritis dissecans.

Fixação interna de fragmento osteocondral originado de osteocondrite dissecante do joelho

O tratamento da osteocondrite dissecante do joelho com lesão tipo cratera associada a corpo livre intra-articular pode ser realizado pela fixação do fragmento osteocondral no seu local de origem. No entanto, existem controvérsias quanto à indicação e eficácia deste procedimento, principalmente quando o corpo livre está solto por tempo prolongado, já que existem relatos na literatura demonstrando deterioração do revestimento condral do mesmo diretamente relacionado com o intervalo decorrente de sua soltura. Relatamos um caso em que, apesar do fragmento osteocondral estar livre na articulação por aproximadamente cinco semanas, a sua fixação não trouxe complicações e resultou em cicatrização completa da lesão. Nós concluímos que, principalmente nos casos onde a lesão osteocondral no côndilo femoral envolve a superfície de carga, quando então o descarte do fragmento geralmente resultaria em mau prognóstico, as possíveis complicações da fixação tardia são compensadas pelos benefícios obtidos pela redução do fragmento osteocondral no local de origem, resultando na recuperação da congruência articular e possivelmente evitando um processo degenerativo articular precoce.