Posterior vertebral column resection osteotomy combined with step correction in treatment of stiff angular kyphosis:a biomechanical analysis
10.3969/j.issn.2095-4344.2014.35.013
- VernacularTitle:后路全脊椎切除截骨联合阶梯矫形治疗僵硬性角状后凸:生物力学分析
- Author:
Huasong MA
;
Xiaoping WANG
;
Rong TAN
;
Zhiming CHEN
;
Ming LU
;
Wei YUAN
;
Qiming XU
;
Dongyun REN
;
Wei MA
;
Long LI
;
Jing ZHANG
;
Rui ZHENG
;
Xin XIN
- Publication Type:Journal Article
- Keywords:
kyphosis;
internal fixators;
osteotomy;
biomechanics
- From:
Chinese Journal of Tissue Engineering Research
2014;(35):5647-5653
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND:Severe spinal angular kyphosis aggravated spinal cord injury and early degeneration, even caused incomplete paralysis or complete paralysis. Surgical treatment is the only solving approaches and method, but it is difficult, exhibits high risk, and easily affects postoperative complications. OBJECTIVE:To analyze the science and effectiveness of posterior vertebral column resection osteotomy combined with step correction in treatment of stiff angular kyphosis based on biomechanical principle. METHODS:A total of 90 cases underwent posterior vertebral column resection osteotomy combined with bilateral pedicle screw spinal cord gradual y shortening echelon tight closure and orthopedic fixation were selected, including 37 males and 52 females, at the average age of 47 years. Kyphotic angle, spinal sagittal imbalance, trunk side offset rate, operation time, intraoperative blood loss were compared and analyzed before and after treatment. RESULTS AND CONCLUSION:The kyphotic angles were 31°-138° (averagely 90.1°) preoperatively and 10°-90° (averagely 41.6°) postoperatively, with an improvement rate of 65%. The distance from C 7 plumb line to the S 1 upper edge was averagely 5.2 mm, with a correction rate of 73%. Intraoperative blood loss was 1 200-6 000 mL, averagely 2 089 mL. Operation time was 212-470 minutes, averagely 326 minutes. The patients were fol owed up for 20 to 35 months after the surgery. Osteotomy segments had achieved bone fusion in al patients, and no complications of spinal cord injury or orthopedic angle loss appeared. These data verified that in the accordance with cellbiomechanics and spinal biomechanical principles, bilateral pedicle screw spinal cord gradual y shortening echelon tight closure and orthopedic fixation protected utmost spinal cord cells against injury in the correction of thoracolumbar angular kyphosis. There is sufficient basis for cellphysiology and it accorded biomechanical and physiological characteristics. During the surgery, we should pay attention to protection and release of nerve root and avoid postoperative corresponding nerve root irritation. Ful fusion ensures kyphosis correction and avoids spine lateral offset, is an effective safeguard for the recovery of spinal function and postoperative orthopedic effect.
