Clinical and radiological outcomes of treatment of avascular necrosis of the femoral head using autologous osteochondral transfer (mosaicplasty). Preliminary report
verfasst von:
Jacek Gagala, Marta Tarczyńska, Krzysztof Gawęda
The purpose of this study was to evaluate clinical and radiological outcomes of autologous osteochondral transfer (OATS) for femoral head osteonecrosis.
Methods
Twenty-one hips in 20 patients (one woman and 19 men), average patients' age at the time of surgery of 35.4 (range 20–56) years, were treated with OATS for osteonecrosis of the femoral head (ONFH). Seven patients at pre-collapse ARCO stages IIA and IIB were treated with OATS alone. Thirteen patients with large pre-collapse ARCO IIC and post-collapse ARCO III and IV were treated with OATS and morselised bone allografts (OATS/allograft). Harris hip score (HHS) was used for clinical evaluation of outcomes; X-rays were performed to examine the evolution of the disease. Kaplan-Meier survival curves were used to determine the failure of the procedures with conversion to THR defined as endpoint.
Results
Follow-up of patients treated with OATS alone was 46.14 (range 18–75) months with HHS improvement from a preoperative mean of 42 to 87.85 points at the latest follow-up examination. Only one patient in this group needed a revision operation with THR. The survival for this group of patients was 85.71 % at four years. Follow-up of patients treated with AOTS/allograft was 32.7 (range 7–84) months with HHS improvement from a preoperative mean of 35.2 to 65.7 points at the latest follow-up examination. One patient died six months after the surgery. There were five conversions to THR because of femoral head collapse in this group of patients with survival of 61.54 % at three years.
Conclusion
The use of osteochondral grafts offers the possibility of successful treatment for ONFH at small and medium pre-collapse stages. The outcomes of large pre-collapse and post-collapse stages were below our expectations. OATS is a time buying procedure for young patients as it may defer total hip replacement.
Introduction
The prevalence of osteonecrosis of femoral head (ONFH) is not well known. It is assumed that from 10,000 to 20,000 new cases of ONFH are identified annually in the United States [1]. ONFH is a multi-aetiological disease with the death of osteocytes as the end stage of different pathological processes [2]. ONFH occurs mainly in young and active patients, usually between 30 and 50 years old [3, 4]. ONFH is a cause of 10 % of total hip arthroplasties performed every year in the United States and Western Europe and from 50 % to 65 % in Korea and Japan [1, 5, 6]. Despite advances in total hip replacement (THR) fixation techniques and improved durability of bearing surfaces [7, 8], there remains a risk of multiple revision arthroplasties due to osteolysis and loosening in high activity young patients [9]. That is why hip joint preserving procedures are treatment options of first choice as they may, at least, defer arthroplasty [10‐16]. Autologus osteochondral transfer (OATS) or mosaicplasty is a well established method of treatment of focal cartilage lesions about the knee, talus and humeral capitellum which uses bone plugs covered with healthy hyaline cartilage [17]. Osteochondral plugs integrate with recipient tissues, thus restoring cartilage and healing bone defects. We present the results of treatment of ONFH with OATS performed via surgical hip joint dislocation.
Material and methods
This study presents an evaluation of treatment outcomes of OATS in 20 ONFH patients (21 hips). One woman and 19 men were treated. The average age was 35.4 (range 20–56) years. The diagnosis of ONFH was based on clinical and radiological examination. ARCO classification was used for radiological staging of ONFH [18, 19]. Operations were performed between June 2005 and May 2010. Patients without femoral head collapse (seven patients, seven hips) and with small or medium necrotic changes (ARCO IIA or IIB) were treated with OATS alone. Patients without collapse but with large necrotic involvement (ARCO IIC), with crescent sign (ARCO III) and patients with collapse, but without acetabular involvement (ARCO IV) (13 patients/14 hips) were treated with AOTS combined with reconstruction using morselised bone allografts (OATS/allograft). Exclusion criteria were age above 60 years and osteoarthritic changes in hip joint (ARCO V).
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Operative technique
Surgical hip dislocation according to Ganz et al. [20] was performed with the patient placed in a lateral position. The femoral head was dislocated, and the part of the femoral head surface with an underlying necrotic lesion was identified. Mosaicplasty tools (Smith & Nephew, Andover, Massachusetts) were used to harvest and transfer osteochondral grafts. Osteochondral cylindrical donor grafts 8.5 mm in diameter and 25 mm in length were harvested from the non-weightbearing area of the proximal lateral femoral condyle of the ipsilateral knee through a small lateral parapatellar arthrotomy. Drill bits of the same diameter were used to make from three to five tunnels through articular cartilage into the necrotic portion of the femoral head. Care was taken to place drill bits perpendicular to the femoral head surface. In the cases in pre-collapse stage, the cylinders were transplanted and press-fitted through the necrotic lesion into the healthy recipient bone. Care was taken to recreate the curvature of femoral head. In the hips with large pre-collapse lesions or with collapse, necrotic bone was removed through cylindrical windows made in cartilage. The removal was performed using burrs, gouges and curettes until vital bleeding bone was reached, taking care not to damage the surrounding cartilage (Fig. 1). The bone defect was tightly packed with morselised allogenic bone grafts until the normal spherical shape of the femoral head was reconstructed. Drill bits were used once again to recreate tunnels in bone grafts. Osteochondral autografts were transplanted and press-fitted through the bone grafts into the healthy recipient bone. The hip was reduced and the capsule closed. The greater trochanter osteotomy was fixed with two cortical screws. Subtrochanteric derotational osteotomy was performed simultaneously in one patient during the OATS procedure. The patients used two crutches with partial weightbearing for 12 weeks after surgery. Partial weightbearing with at least one crutch was advised for the following nine months.
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Clinical follow-up
The following parameters were documented for the follow-up evaluation: age at surgery, gender, ONFH risk factors, preoperative Harris hip score (HHS) [21], postoperative HHS, postoperative complications, follow-up duration.
Radiological evaluation
The radiological evaluation included: preoperative, immediate postoperative and follow-up X-ray (anteroposterior and axial) examinations. X-rays were compared in order to analyse the outcome of the treatment.
Statistical analysis
Kaplan-Meier survival curves were used to determine the failure of the procedures. Conversion of the hip joint to THR was defined as a failure of the procedure.
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Results
No patient was lost to follow-up. One patient from the OATS/allograft group died six months after the surgery of a cause unrelated to treatment and was excluded from the follow-up evaluation. Follow-up of patients treated with OATS alone was 46.14 (range 18–75) months. Follow-up of patients treated with AOTS/allograft was 32.7 (range 7–84) months.
Survival analysis
One conversion to THR in patients treated with OATS alone was performed 18 months after the surgery because of persistent pain. The survival rate for this group of patients was 85.71 %. There were five conversions to THR in the OATS/allograft group. Femoral head collapse was the cause of all THR in this group of patients. Survival of the OATS/allograft group was 61.54 % (Fig. 2).
×
Harris hip score
The mean HHS of patients treated with OATS alone increased from a mean 42 (range 40–44) points to 87.85 (range 42–98) points at the latest follow-up examination. The mean HHS in the OATS/allograft group increased from a mean of 35.2 (range 28–40) points to 65.7 (range 38–96) points at the latest follow-up examination.
Radiological examination
No signs of disease radiological progression were observed in the group treated with OATS alone (Table 1). Collapse of the femoral head occurred in seven hips (53.8 %) treated with OATS/allograft. Five of these hips had been previously reconstructed because of ARCO IV, one because of ARCO IIC and one because of ARCO III (Table 2).
Table 1
Characteristics of OATS alone group
Patient
Gender
Age at surgery (years)
Risk factors
ARCO stage
Preoperative HHS (points)
Follow up (months)
Postoperative HHS (points)
End point
1
Male
40
IIA
40
73
96
2
Male
32
Smoking
IIA
42
18
42
THR
3
Male
20
IIA
42
60
98
4
Male
30
Corticosteroids
IIB
44
75
92
5
Male
28
Smoking
IIB
42
32
95
6
Male
22
Post-traumatic
IIA
44
31
96
7
Female
46
IIB
40
34
96
Mean value
31.14
42
46.14
87.85
Table 2
Characteristics of OATS/allograft group
Patient
Gender
Age at surgery (years)
Risk factors
ARCO stage
Preoperative HHS (points)
Follow up (months)
Complications
Postoperative HHS (points)
End point
1
Male
32
Corticosteroids
IVC
38
12
Collapse
38
THR
2
Male
48
Diabetes, hepatitis C
IVC
28
12
collapse
42
THR
3
Male
32
Alcohol, smoking
IVB
28
9
Collapse
56
4
Male
33
Gout
IVB
30
7
Collapse
48
THR
5
Male
40
Alcohol
IIIC
32
12
Collapse
48
6
Male
36
Alcohol, smoking
IIC
30
65
85
7
Male
56
Corticosteroids
IVC
36
84
90
8
Male
41
Gout
IVC
36
9
Collapse
42
THR
9
Male
42
Alcohol
IIC
40
63
96
10
Male
27
Smoking
IVC
38
53
87
11
Male
27
Smoking
IVC
40
50
90
12
Male
40
Alcohol
IIC
40
11
Collapse
40
THR
13
Male
26
Corticosteroids
IIIB
39
65
92
Mean value
37.7
35.2
32.7
65.7
Complications
There were no cases of infection, thrombosis or embolism in the entire OATS group of patients. No patient complained of donor site numbness in the harvested knee. No cases of greater trochanter osteotomy non-union were reported.
Conversion to THR
No complications during conversion to THR were reported. All revision operations were performed in our department. Screws fixing the osteotomy of the greater trochanter were removed during these operations.
Discussion
The natural history of ONFH leads to progression of radiological changes even in asymptomatic cases. Non-operative treatment with rest and partial weight bearing is only indicated in early and small lesions, but is ineffective in 80–90 % of cases [22]. Core decompression is one of the most frequently used procedures to prevent progression of the disease [16]. It has been revealed that core decompression is effective in pre-collapse and small lesions [16, 23]. The treatment of large pre-collapse and post-collapse femoral heads consists of removing the necrotic bone and reconstruction with bone grafts. This procedure can be performed through a core decompression tract [24], trapdoor in the articular surface [25] or window made in femoral neck/head junction [26].
Resurfacing of the femoral head in avascular necrosis with fresh osteochondral allografts was introduced by Meyers in the 1970s and 80s [27, 28]. Patients were treated according to a protocol in which the choice of treatment depended on the results of athroscopic examination of the articular surface. Osteochondral allografting of the femoral head was only indicated in patients with early degenerative changes, e.g., fibrillation, discoloration, or fissures in the cartilage. Meyers reported on the results of allogenic osteochondral transplantations of 25 femoral heads in 21 patients [29]. Twenty of his patients were treated because of ONFH and one because of Pipkin type II fracture dislocation. The procedure was bilateral in four patients. Eight hips (32 %) failed within the first year after the surgery and one failed after 18 months. Fifty percent of the transplants failed in the groups that had been operated upon for steroid-induced ONFH and femoral neck fractures. The rate of success in non-steroid induced ONFH was 80 % after follow-up of nine to 63 months. Meyers did not report any cases of rejection of the allografts.
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Only a few papers discuss the results of autologous osteochondral transplantations in the treatment of articular defects of the femoral head. In 2008, Hangody et al. [17] reported the long-term results of 1,097 mosaicplasties performed at their institution, of which 11 were done on femoral heads. Those authors, however, did not review the indications or the operative technique, only mentioning in passing that the patients with femoral head mosaicplasties were followed up regularly. Sotereanos et al. [30] described a case of a patient treated with mosaicplasty because of a subchondral cyst formed after previous treatment for ONFH with a free vascularised autograft. Osteochondral autografts were harvested from the femoral head–neck junction. After a follow-up of 66 months, the femoral head did not deteriorate, and the Harris hip score improved from 45 to 96 points. Cases of successful treatment of late sequelae of the Legg-Calvé-Perthes disease with OATS have also been reported [31, 32].
To the best of our knowledge, only one paper presenting the outcomes of ONFH reconstruction with autologous osteochondroplasty has been published so far. Rittmeister et al. [33] reported on five-year results of osteochondral transplantation in the treatment of ONFH in five patients. All hips had preoperative collapse. From one to three osteochondral grafts of nine to 13 mm in diameter were used. The grafts were used only for hyaline cartilage resurfacing. The result was unsatisfactory in four hips. These hips underwent total hip arthroplasty after a mean of 49 months. The authors concluded that femoral head osteochondral grafting had proven technically possible in restoring the articular surface. Our study evaluated the clinical and radiological outcome of ONFH treatment with OATS in 20 hips. Seven patients treated with OATS alone for small and medium pre-collapse ARCO II lesions had a survival of 85.71 %. Thirteen hips treated with OATS/allograft for large pre-collapse ARCO IIC lesions and ARCO III and IV had a survival of 61.54 %. It is difficult to compare our results with those of Rittmeister and colleagues because of the small number of patients in both papers. We can only speculate that our patients with more advanced ONFH had better outcomes because necrotic changes had been debrided and reconstructed with bone grafts in their entirety, thus preventing collapse in some cases. The OATS/allograft group had more ONFH risk factors than the patients treated with OATS alone, which may influence graft incorporation. The outcomes of OATS did not differ from those of other treatments for ONFH. A meta-analysis of the literature performed by Lieberman et al. [16] revealed that 15 % of pre-collapse and 50 % of post-collapse hips had radiographic progression of the disease despite operative treatment. The authors concluded that no procedure was superior to others in preventing ONFH progression. The bone graft healing process can be enhanced with ancillary growth and differentiation factors [34]. Seyler et al. [35] evaluated 39 hips treated by nonvascularised bone grafting with supplemental OP-1 (BMP-7). After a mean follow-up of 36 months they reported a survival of 80 % in small and medium lesions, but only 22 % in large lesions.
An obvious disadvantage of autologous osteochondral transfer is the necessity to expose the knee joint. It has been reported that some patients complain of knee pain or functional problems. Reddy et al. [36] reported on morbidity associated with osteochondral harvesting from asymptomatic knees in the treatment of OCD of the talus. Out of a group of 11 patients, six complained of knee joint instability in daily activities. On the other hand Hangody [17] stated that knee complaints were relatively rare in the group of patients in which grafts were transferred outside the knee joint. In 98 % of these patients, knee complaints resolved completely within one year. Restoration of donor sites depends on their peripheral placement, small sizing and proper spacing of the individual grafts. None of our patients complained of knee pain.
OATS is a technically demanding procedure especially as regards the perpendicular placement of instruments towards the donor site during graft harvesting, which may influence the proper shape of the reconstructed articular surface and the congruity of the operated joint.
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In conclusion, treatment of ONFH with OATS is neither better nor worse than other joint preserving procedures. The use of osteochondral grafts offers the possibility of successful treatment for ONFH at small and medium pre-collapse stages. The outcomes of large pre-collapse and post-collapse stages were lower than our expectations. A limitation of this study is the relatively small number of patients with different aetiologies of ONFH. OATS of the femoral head is a time-buying procedure for young patients suffering from ONFH, as it may defer THR. Conversion to THR after OATS proceeded without any complications.
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Clinical and radiological outcomes of treatment of avascular necrosis of the femoral head using autologous osteochondral transfer (mosaicplasty). Preliminary report