Conclusion. Surgical correction of both the frontal and sagittal plane deformity are comparable to anterior instrumentation.
结论:后路矫形在纠正冠状位和矢状位的畸形的效果上与前路矫形是相似的。
Realtime correction method is mainly used in radio wave refraction error correction to improve radio instrumentation accuracy in engineering applications.
在实际工程应用中,为了提高雷达测量精度,电波折射误差的修正主要采用实时修正方法。
Objectives. To determine if thoracoscopic anterior scoliosis correction with instrumentation affected pulmonary function less than open thoracotomy approaches at 2 years follow-up.
目的。研究是否前方的胸腔镜脊柱侧突矫正手术影响肺组织的功能较传统的开胸手术较小。
Conclusion The intervertebral Angle is much improved after anterior correction and instrumentation surgery, but it increases gradually at follow up.
结论特发性脊柱侧凸前路矫形内固定术后椎间角较术前明显改善,但在随访时椎间角又逐渐增大。
The type of instrumentation system did not differ significantly in terms of kyphotic deformity correction rates, correction losses, PFA scores, and SRS-22 scores.
在驼背畸形矫正率、矫正丢失、PF A评分和SRS - 22评分等方面,不同类型内固定系统之间的差异没有统计学意义。
This paper proposes a formula fitting method for realtime correction of radio wave refraction errors for fast determination of the refraction error and improvement of radio instrumentation accuracy.
本文给出了电波折射误差实时修正的公式拟合方法,该方法在实际应用中能够快速得到折射误差,从而提高了雷达测量精度。
There was no instrumentation failure or loss of sagittal curve and vertebral height correction.
本组病例中未出现内固定物失败或矢状位曲度及椎体高度的丧失。
Conclusion. Anterior thoracoscopic instrumentation is comparable in terms of curve correction to anterior or posterior procedures.
结论:前路胸腔镜器械固定在侧弯矫正效果上能够比得上前路或后路手术。
Conclusion. Anterior thoracoscopic instrumentation is comparable in terms of curve correction to anterior or posterior procedures.
结论:前路胸腔镜器械固定在侧弯矫正效果上能够比得上前路或后路手术。
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