Scannell Joan P, McGill Stuart M
Faculty of Applied Health Science, University of Waterloo, Ontario, Canada.
Spine (Phila Pa 1976). 2009 Feb 15;34(4):344-50. doi: 10.1097/BRS.0b013e31819712a6.
A basic science study that used a porcine cervical spine model to produce disc prolapse subsequently exposed to an extension protocol.
This study investigated whether extension or combined extension and side flexion could move the displaced portion of nucleus from the anulus towards the nucleus.
Previous research has established that repeated flexion can create disc prolapse, the question here is whether repeated extension can reverse the process.
The C3/4 segments of 18 porcine cervical spines were dissected and potted in cups. Specimens were preloaded, then axially compressed (1472 N), and repeatedly rotated in either pure flexion or combined flexion and side flexion at a rate of 0.5 degrees /s. Specimens that prolapsed were axially compressed and repeatedly and rotated into extension.
Based on a blinded radiologist's review of the radiograph images, all 18 specimens contained healthy discs before testing, but after testing 2 of the 18 specimens had endplate fractures, whereas 11 of the 18 specimens had prolapsed. Prolapsed nucleus was reduced in 5 of the 11 prolapsed specimens after the reversal testing, whereas the remaining 6 did not change. Subclassification analysis revealed that the prolapsed discs that centralized had significantly less disc height loss (P < 0.01). Neither the classification of the herniation (circumferential or radial) nor the angle of lordosis of the specimens was linked to the behavior of the specimens.
This study showed that with repeated flexion, in porcine cervical spines, disc prolapse was initiated and that the displaced portion of nucleus can be directed back towards the center of the disc in response to particular active and passive movements/positions.
一项基础科学研究,使用猪颈椎模型制造椎间盘突出,随后进行伸展方案。
本研究调查伸展或伸展与侧屈联合是否能将髓核移位部分从纤维环移向髓核。
先前的研究已证实反复屈曲可导致椎间盘突出,这里的问题是反复伸展是否能逆转这一过程。
解剖18个猪颈椎的C3/4节段并植入杯中。对标本进行预加载,然后轴向压缩(1472 N),并以0.5度/秒的速度在单纯屈曲或屈曲与侧屈联合状态下反复旋转。出现椎间盘突出的标本进行轴向压缩并反复旋转至伸展状态。
根据一位不知情的放射科医生对X线片图像的评估,所有18个标本在测试前椎间盘均健康,但测试后18个标本中有2个出现终板骨折,而18个标本中有11个出现椎间盘突出。在反向测试后,11个突出的标本中有5个的突出髓核有所减少,而其余6个没有变化。亚分类分析显示,髓核复位的椎间盘其椎间盘高度损失明显较少(P < 0.01)。椎间盘突出的分类(环周型或放射型)以及标本的前凸角度均与标本的表现无关。
本研究表明,在猪颈椎中,反复屈曲会引发椎间盘突出,并且髓核的移位部分可通过特定的主动和被动运动/体位被引导回椎间盘中心。
