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find Author "MATong" 3 results
  • LATERAL UNICOMPARTMENTAL KNEE ARTHROPLASTY THROUGH A LATERAL PARAPATELLAR APPROACH FOR LATERAL COMPARTMENTAL OSTEOARTHRITIS

    ObjectiveTo explore the feasibility and short-term effectiveness of lateral unicompartmental knee arthroplasty (LUKA) through a lateral parapatellar approach for lateral compartmental osteoarthritis (LCOA). MethodsBetween November 2010 and August 2012, 15 consecutive patients (15 knees) with LCOA were treated with LUKA. There were 7 men and 8 women with a mean age of 67.3 years (range, 51-82 years). The mean duration of disease was 5.4 years (range, 3-15 years). The left knee was involved in 6 cases and the right knee in 9 cases. According to Ahlback rating, there were 2 cases (2 knees) of grade I, 8 cases (8 knees) of grade Ⅱ, and 5 cases (5 knees) of grade Ⅲ. The incision length, operation time, blood loss, drainage, and complication were recorded. The pre- and post-operative knee function was evaluated by Hospital for Special Surgery (HSS) score system. The pre- and post-operative range of motion (ROM) and alignment of the lower limbs (hip-knee-ankle angle) were measured and compared. ResultsACL rupture or medial compartmental osteoarthritis occurred in 2 patients (2 knees) who changed to total knee arthroplasty (TKA); 1 case (1 knee) failed to follow up. The other 12 cases (12 knees) were followed up 32.5 months on average (range, 26- 45 months). The mean length of incision was 6.9 cm (range, 6-8 cm); the mean operation time was 115.8 minutes (range,90-155 minutes); the mean blood loss volume during operation was 152.2 mL (range, 105-250 mL); and mean drainage was 145.6 mL (range, 50-300 mL). At last follow-up, the average HSS score was significantly improved from 73.4±4.6 preoperatively to 94.6±2.1 postoperatively (t=14.240, P=0.000). The results were excellent in 9 cases, good in 2 cases, and fair in 1 case, with an excellent and good rate of 91.7%. The hip-knee-ankle angle was significantly decreased from valgus angle of (10.08±1.38)° preoperatively to valgus angle of (5.17±0.94)° postoperatively (t=14.626, P=0.000). Postoperative ROM was significantly improved to (123.75±4.09)° from (108.67±5.10)° preoperatively (t=8.998, P=0.000). Two patients developed superficial skin infection, which was managed with anti-inflammatory therapy and dressing. No patient had complication of deep vein thrombosis, prosthesis dislocation and loosing, or development of medial osteoarthritis. ConclusionLUKA through a lateral approach has the advantages of rapid recovery of joint function, less complication, and small trauma in the treatment of LCOA. Correct patient selection and further mid- and long-term studies, however, are essential.

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  • Construction and Analysis of a Finite Element Model of Human L4-5 Lumbar Segment

    In the present study, a finite element model of L4-5 lumbar motion segment was established based on the CT images and a combination with image processing software, and the analysis of lumbar biomechanical characteristics was conducted on the proposed model according to different cases of flexion, extension, lateral bending and axial rotation. Firstly, the CT images of lumbar segment L4 to L5 from a healthy volunteer were selected for a three dimensional model establishment which was consisted of cortical bone, cancellous bone, posterior structure, annulus, nucleus pulposus, cartilage endplate, ligament and facet joint. The biomechanical analysis was then conducted according to different cases of flexion, extension, lateral bending and axial rotation. The results showed that the established finite element model of L4-5 lumbar segment was realistic and effective. The axial displacement of the proposed model was 0.23, 0.47, 0.76 and 1.02 mm, respectively under the pressure of 500, 1 000, 1 500 and 2 000 N, which was similar to the previous studies in vitro experiments and finite element analysis of other people under the same condition. The stress distribution of the lumbar spine and intervertebral disc accorded with the biomechanical properties of the lumbar spine under various conditions. The established finite element model has been proved to be effective in simulating the biomechanical properties of lumbar spine, and therefore laid a good foundation for the research of the implants of biomechanical properties of lumbar spine.

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  • Biomechanical Research of Transforaminal Lumbar Interbody Fusion Model

    Based on the surgical model using transforaminal lumbar interbody fusion (TLIF) to treat lumbar spondylolisthesis, this paper presents the investigations of the biomechanical characteristics of cage and pedicle screw in lumbar spinal fusion implant fixed system under different combinations with finite element method. Firstly, combining the CT images with finite element pretreatment software, we established three dimensional nonlinear finite element model of human lumbar L4-L5 segmental slight slippage and implant under different fixed combinations. We then made a comparison analysis between the biomechanical characteristics of lumbar motion range, stress distribution of cage and pedicle screw under six status of each model which were flexion, extension, left lateral bending, right lateral bending, left axial rotation and right axial rotation. The results showed that the motion ranges of this model under different operations were reduced above 84% compared with those of the intact model, and the stability of the former was improved significantly. The stress values of cage and pedicle screw were relatively larger when they were fixed by single fusion device additional unilateral pedicle screw, but there was no statistically significant difference. The above research results would provide reference and confirmation for further biomechanics research of TLIF extracorporal specimens, and finally provide biomechanical basis for the feasibility of unilateral internal fixed diagonal intervertebral fusion TLIF surgery.

    Release date:2021-06-24 10:16 Export PDF Favorites Scan
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