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The Bone & Joint Journal
Vol. 106-B, Issue 5 Supple B | Pages 25 - 31
1 May 2024
Yasunaga Y Oshima S Shoji T Adachi N Ochi M

Aims

The objective of this study was to present the outcomes of rotational acetabular osteotomy (RAO) over a 30-year period for osteoarthritis (OA) secondary to dysplasia of the hip in pre- or early-stage OA.

Methods

Between September 1987 and December 1994, we provided treatment to 47 patients (55 hips) with RAO for the management of pre- or early-stage OA due to developmental hip dysplasia. Of those, eight patients (11 hips) with pre-OA (follow-up rate 79%) and 27 patients (32 hips) with early-stage OA (follow-up rate 78%), totalling 35 patients (43 hips) (follow-up rate 78%), were available at a minimum of 28 years after surgery.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_VIII | Pages 22 - 22
1 Mar 2012
Yamasaki T Yasunaga Y Hamaki T Yoshida T Oshima S Hori J Yamasaki K Ochi M
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Introduction

Since 2005, we have performed implantation of bone marrow-derived mononuclear cells for osteonecrosis of the femoral head in order to improve vascularization and bone repair. This study focused on early bone repair of osteonecrosis of the femoral head after transplantation of bone marrow-derived mononuclear cells (BMMNC).

Patients and Methods

Twenty-two patients (30 joints) who had bilateral osteonecrosis followed for more than 2 years after BMMNC implantation were evaluated. Eight women and 14 men were included. Their mean age at surgery was 41 years (range, 18 to 64 years) and the mean follow-up period was 31 months. Pre-operative stage according to the ARCO classification was Stage 2 in 25 joints and Stage 3 in 5 joints. The mean volume ratio of osteonecrosis was 21%. For preparing BMMNC, about 700ml of bone marrow was aspirated from the ilium and centrifuged using a Spectra cell separator (Gambro). The BMMNC were seeded to interconnected porous calcium hydroxyapatite (IP-CHA) and implanted to the osteonecrotic lesion. As a control, cell-free IP-CHA was implanted for 8 patients (9 joints). A woman and 7 men were included. The mean age at surgery was 49 years (range, 28 to 73 years) and the mean follow-up period was 37 months. Preoperative stage was stage 2 in all patients. The mean volume ratio of osteonecrosis was 22%. At post-operative evaluations; progression of collapse, consolidation at reactive zone, post-operative course of volume rate of osteonecrosis, and bone absorption at osteonecrosis was assessed.


Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_II | Pages 149 - 150
1 May 2011
Yasunaga Y Yamasaki T Hamaki T Yoshida T Oshima S Hori J Yamasaki K Ochi M
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Background: A retroverted acetabulum has been hypothesized as a cause of osteoarthritis. This study was performed to evaluate whether radiographical cross-over sign influence the painful femoro-acetabular impingement or the radiographical progression of osteoarhritis after rotational acetabular osteotomy (RAO) for dysplastic hip.

Methods: Between 1987 and 1999, 104 patients (115 hips) who had pre- or early stage osteoarthritis of the hip due to dysplasia underwent a RAO. There were 99 women and five men; their mean age at the time of surgery was 34.7 years. The mean follow-up period was 13 years. Clinical follow-up was performed with use of the system of Merle d’Aubigne and the impingement sign was evaluated. Radiographical analyses included measurements of the center-edge angle, acetabular roof angle, head lateralization index, joint congruency, cross-over sign, posterior wall sign, acetabular index of depth to width, pistol grip deformity and femoral head-femoral neck ratio.

Results: The mean clinical score improved significantly from 14.6 preoperatively to 17.0 at follow-up. The impingement sign at the follow-up was observed in 14 hips (12.2%). The center-edge angle improved significantly from mean −0.6 degrees to a postoperative mean of 34 degrees. The acetabular roof angle improved from 30 degrees to 2.2 degrees, and head lateralization index from 0.64 to 0.60. The cross-over sign was observed in 8 hips (7.0%) preoperatively and in 49 hips (42.6%) postoperatively. The posterior wall sign was observed in 70 hips (60.9%) preoperatively and observed in 73 hips (63.5%) postoperatively. The mean preoperative acetabular index of depth to width was 35.5% and the mean preoperative femoral head to femoral neck ratio was 1.49. The pistol grip deformity was observed in only 4 hips (3.5%) preoperatively. The impingement sign after the RAO was positive significantly in the postoperative cross-over sign positive hips (p=0.0074). Radiographical progression of osteoarthritis was observed in 11 hips (cross over sign positive; 7 hips, cross over sign negative; 4 hips). The Kaplan-Meier survivorship analysis predicted a survival rate of 84.6 % at 15 years. The only factors significantly associated with radiographic signs of progression of osteoarthritis after RAO were fair (rather than excellent and good) postoperative joint congruency (p< 0.0001) and age at surgery (p=0.0042). Presence of postoperative cross-over sign had no effect on the outcome (p=0.2073).

Conclusions: Although there was no significant radiographical progression of osteoarthritis despite a significant retroversion in most cases, the goal of RAO should be a correct alignment of the acetabulum including a correct version with a negative cross-over sign.


The Journal of Bone & Joint Surgery British Volume
Vol. 92-B, Issue 11 | Pages 1606 - 1613
1 Nov 2010
Oshima S Ishikawa M Mochizuki Y Kobayashi T Yasunaga Y Ochi M

We used interconnected porous calcium hydroxyapatite ceramic to bridge a rabbit ulnar defect. Two weeks after inducing the defect we percutaneously injected rabbit bone marrow-derived mesenchymal stromal cells labelled with ferumoxide. The contribution of an external magnetic targeting system to attract these cells into the ceramic and their effect on subsequent bone formation were evaluated.

This technique significantly facilitated the infiltration of ferumoxide-labelled cells into ceramic and significantly contributed to the enhancement of bone formation even in the chronic phase. As such, it is potentially of clinical use to treat fractures, bone defects, delayed union and nonunion.