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Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_IV | Pages 423 - 423
1 Nov 2011
Bae DK Yoon KH Song SJ Shin M Noh J Park M Cho H Choi I
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In conventional high tibial osteotomy it is difficult to obtain the ideal correction angle consistently and there is high variability of postoperative alignment. We assessed the reliability, accuracy and variability of closed wedge high tibial osteotomy using computer-assisted surgery compared to the conventional technique. Fifty closed wedge HTO procedures were performed and analysed between July 2005 and July 2006, using the CT-free navigation system(Vector Vision® version 1.1, Brain-LAB, Heimstetten, Germany) for medial compartment osteoarthritis of the knee and fifty knee operations using conventional closed-wedge HTO, performed between 1994 and 2006, were retrospectively reviewed as a control group. The mean age was 59.4 years for the navigation group and 60.7 years for the conventional group. In the navigation group, the mean mechanical axis (MA) before osteotomy was varus 8.2°, and the mean MA after the fixation was valgus 3.6°. On the radiographs, the mean preoperative MA was varus 7.3°, and the mean postoperative MA was valgus 2.1°. In the conventional group, the mean MA was varus 10.6° preoperatively and valgus 0.1° postoperatively via the radiograph. The mean preoperative posterior slope angle (PSA) was 11.0°, which decreased to 9.0° in the navigation group. The mean preoperative PSA was 10.4°, which decreased to 6.4° in the conventional group(p = 0.000). There was a positive correlation between measured data taken under navigation and by radiographs(r > 0.3, P < 0.05). The mean correction angle was significantly more accurate in the navigation group(p < 0.002). The variability of the correction was significantly lower in the navigation group (2.3° versus 3.7°, p = 0.012), and the distribution of MA was also narrower in the navigated group.

We concluded that navigation provides reliable real-time intraoperative information and may increase accuracy, and improve the precision of closed-wedge HTO.


Orthopaedic Proceedings
Vol. 92-B, Issue SUPP_I | Pages 123 - 123
1 Mar 2010
Bae DK Song SJ Yoon KH Shin SM
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In the anatomical studies for Caucasian, it has been reported that the center of plateau tends to be located central or lateral from the tibial canal axis. However, in the three dimensional analysis of author, the center of plateau was located on average 4.4 mm medial from the point of tibial canal axis passing through the plateau. The purpose of this study is to examine the placement of the tibial component in relation to the anatomical axis of the tibia in total knee arthroplasties for Korean patients and to identify this mismatch affecting the measurement of postoperative mechanical axis.

Measurements were performed on the pre- and postoperative radiographs of 60 osteoarthritic knees with varus deformity replaced between October 2005 and May 2008 using PFC. The inclusion criteria was the cases with the accurate coronal alignment of component, in which α angle ranged from 94 to 96° and β angle ranged from 89 to 91°. The mean age was 66.6 years (range, 54 to 79), and the body mass index was 27.0 kg/m2 (range, 20.7 to 37.7). Radiological measurements were performed using an orthoreontgenogram. Preoperatively, 30 patients with varus deformity lesser than vaurs 10° were classified to group A and 30 patients greater than vaurs 10° were classified to group B. Post-operatively, the distance between the midline of the tibial stem and anatomical axis (medial offset) was measured at the level of tibial resection. These distances were compared between the group A and B. The postoperative mechanical axes were compared between the group A and B. The intra- and inter-observer reliabilities were assessed. In this study, intraclass correlation coefficient values of all measurements were greater than 0.8.

The mean preoperative mechanical axes were varus 7.4±2.3° in group A and varus 16.9±4.0° in group B (p=0.000). The mean medial offsets were 2.5±1.9mm (range, −3.6 to 5.9) in group A and 3.9±2.7mm (range, −1.1 to 10.2) in group B (p=0.021). The tibial stems were located medial to anatomical axis in 22 knees (73.3%) of group A and 26 knees (86.7%) of group B. The mean postoperative mechanical axis were varus 1.3± 1.2° (range, varus 3.6 to valugs 1.6°) in group A and varus 2.5± 2.0° (range, varus 5.9 to valugs 2.1°) in group B (p=0.004).

In this study of TKA, the tibial component in relation to anatomical axis tends to be located medial. The postoperative mechanical axis remained more varus in spite of the accurate coronal alignment of the component as the preoperative varus deformity was more severe. This study suggests that the radiographic measurement of postoperative mechanical axis using a line passing the component center has the limitation.


The Journal of Bone & Joint Surgery British Volume
Vol. 91-B, Issue 9 | Pages 1164 - 1171
1 Sep 2009
Bae DK Song SJ Yoon KH

We assessed the reliability, accuracy and variability of closed-wedge high tibial osteotomy (HTO) using computer-assisted surgery compared to the conventional technique. A total of 50 closed-wedge HTO procedures were performed using the navigation system, and compared with 50 HTOs that had been performed with the conventional technique. In the navigation group, the mean mechanical axis prior to osteotomy was varus 8.2°, and the mean mechanical axis following fixation was valgus 3.6°. On the radiographs the mean pre-operative mechanical axis was varus 7.3°, and the mean post-operative mechanical axis was valgus 2.1°. There was a positive correlation between the measured data taken under navigation and by radiographs (r > 0.3, p < 0.05). The mean correction angle was significantly more accurate in the navigation group (p < 0.002). The variability of the correction was significantly lower in the navigation group (2.3° vs 3.7°, p = 0,012). We conclude that navigation provides reliable real-time intra-operative information, may increase accuracy, and improves the precision of a closed-wedge HTO.


The Journal of Bone & Joint Surgery British Volume
Vol. 87-B, Issue 3 | Pages 333 - 336
1 Mar 2005
Bae DK Yoon KH Kim HS Song SJ

Between July 1986 and August 1996, we performed 32 total knee arthroplasties (TKA) on 32 patients with partially or completely ankylosed knees secondary to infection. Their mean age at surgery was 40 years (20 to 63) and the mean follow-up was ten years (5 to 13). The mean post-operative range of movement was 75.3° (30 to 115) in those with complete and 98.7° (60 to 130) in those with partial ankylosis. The mean Hospital for Special Surgery knee score increased from 57 to 86 points post-operatively. There were complications in four knees (12.5%), which included superficial infection (one), deep infection (one), supracondylar femoral fracture (one) and transient palsy of the common peroneal nerve (one). Although TKA in the ankylosed knee is technically demanding and has a considerable rate of complications, reasonable restoration of function can be obtained by careful selection of patients, meticulous surgical technique, and aggressive rehabilitation.


Orthopaedic Proceedings
Vol. 84-B, Issue SUPP_III | Pages 244 - 244
1 Nov 2002
Bae DK
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Introduction: There has been a lack of general agreement on how successful unicompartmental knee arthroplasty has been. The purpose of this study is to report the results of revision total knee arthroplasties performed for failure of unicompartmental knee arthroplasty and to determine the factors that led to failure of the unicompartmental knee arthroplasty.

Materials and method: Between September 1992 and June 1999, 12 knees(10 patients) among 106 primary unicompartmental knee arthroplasties, had revision of a failed unicompartmental knee arthroplasty. The average age of the patients was 61 years(range, 43 to 73 years). The average follow-up period was 3.6 years. Diagnosis before initial unicompartmental knee arthroplasty included osteoarthritis in eight patients and osteonecrosis in two patients. The medial compartment was involved in all knees. The type of prosthesis used in the 12 knees before revision was one Modular II, seven Microlocs and four Allegrettoes. The initial unicompartmental knee prosthetic components had been in place for an average of 4.3 years(range, 1, 2 to 7.5 years). The clinical findings were assessed using the Hospital for Special Surgery scoring system. Radiographic measurements were done with Bauer’s method. ANOVA test was used for statistical analysis.

Results: The cause of revision was wear in six, loosening in five and one deep infection. The implant type used for revison was posterior stabilized type of Press Fit Condylar prosthesis. Eight knees had a bone defect at revision. Bone defects were filled with autogenous bone graft in six knees and metal wedges were used in two knees. At the last follow-up after revision, the average HSS knee score significantly improved from 58 to 83. And the Bauer’s angle was corrected from preoperative varus 6.3 degrees to valgus 6 degrees after revision. Radiographically, three knees had partial radiolucency. There was no complication such as postoperative hematoma, deep or superficial infection and peroneal nerve palsy.

Conclusion: Good or excellent results were achieved in all of the knees after revision. Successful salvage of the failed UKA could be achieved by revision arthroplasty. The design of prosthesis, proper selection of patients, and surgical technique were important factors for succes of unicompartmental knee arthroplasty.