[新型人工椎板预防颈椎后路椎板切除术后硬膜外粘连]

Lü Chaoliang, Song Yueming, Liu Hao, Liu Limin, Gong Quan, Li Tao, Zeng Jiancheng, Kong Qingquan, Pei Fuxing, Tu Chongqi, Duan Hong

Department of Orthopedics, West China Hospital, Sichuan University, Chengdu Sichuan, 610041, P.R. China.

Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi. 2013 Jul;27(7):829-35.

OBJECTIVE

To evaluate the application of artificial lamina of multi-amino-acid copolymer (MAACP)/nano-hydroxyapatite (n-HA) in prevention of epidural adhesion and compression of scar tissue after posterior cervical laminectomy.

METHODS

Fifteen 2-year-old male goats [weighing, (30 +/- 2) kg] were randomly divided into experimental group (n=9) and control group (n=6). In the experimental group, C4 laminectomy was performed, followed by MAACP/n-HA artificial lamina implantations; in the control group, only C4 laminectomy was performed. At 4, 12, and 24 weeks after operation, 2, 2, and 5 goats in the experimental group and 2, 2, and 2 goats in the control group were selected for observation of wound infection, artificial laminar fragmentation and displacement, and its shape; Rydell's degree of adhesion criteria was used to evaluate the adhesion degree between 2 groups. X-ray and CT images were observed; at 24 weeks after operation, CT scan was used to measure the spinal canal area and the sagittal diameter of C3, C4, and C5 vertebrea, 2 normal goats served as normal group; and MRI was used to assess adhesion and compression of scar tissue on the dura and the nerve root. Then goats were sacrificed and histological observation was carried out.

RESULTS

After operation, the wound healed well; no toxicity or elimination reaction was observed. According to Rydell's degree of adhesion criteria, adhesion in the experimental group was significantly slighter than that in the control group (Z= -2.52, P=0.00). X-ray and CT scan showed that no dislocation of artificial lamina occurred, new cervical bone formed in the defect, and bony spinal canal was rebuilt in the experimental group. Defects of C4 vertebral plate and spinous process were observed in the control group. At 24 weeks, the spinal canal area and sagittal diameter of C4 in the experimental group and normal group were significantly larger than those in the control group (P < 0.05), but no significant difference was found between experimental group and normal group (P > 0.05). MRI showed cerebrospinal fluid signal was unobstructed and no soft tissue projected into the spinal canal in the experimental group; scar tissue projected into the spinal canal and the dura were compressed by scar tissue in the control group. HE staining and Masson trichrome staining showed that artificial lamina had no obvious degradation with high integrity, some new bone formed at interface between the artificial material and bone in the experimental group; fibrous tissue grew into defect in the control group.

CONCLUSION

The MAACP/n-HA artificial lamina could maintaine good biomechanical properties for a long time in vivo and could effectively prevent the epidural scar from growing in the lamina defect area.

目的

评估多氨基酸共聚物（MAACP）/纳米羟基磷灰石（n-HA）人工椎板在预防颈椎后路椎板切除术后硬膜外粘连及瘢痕组织压迫中的应用。

方法

选取15只2岁雄性山羊[体重（30±2）kg]，随机分为实验组（n=9）和对照组（n=6）。实验组行C4椎板切除术，随后植入MAACP/n-HA人工椎板；对照组仅行C4椎板切除术。术后4周、12周和24周，分别从实验组选取2只、2只和5只山羊，从对照组选取2只、2只和2只山羊，观察伤口感染情况、人工椎板碎裂及移位情况及其形态；采用Rydell粘连程度标准评估两组间的粘连程度。观察X线和CT图像；术后24周，采用CT扫描测量C3、C4和C5椎体的椎管面积和矢状径，选取2只正常山羊作为正常组；采用MRI评估硬膜和神经根上瘢痕组织的粘连及压迫情况。然后处死山羊并进行组织学观察。

结果

术后伤口愈合良好；未观察到毒性或排斥反应。根据Rydell粘连程度标准，实验组的粘连明显轻于对照组（Z=-2.52，P=0.00）。X线和CT扫描显示实验组人工椎板未发生移位，缺损处形成了新的颈椎骨，重建了骨性椎管。对照组观察到C4椎板和棘突缺损。术后24周，实验组和正常组C4的椎管面积和矢状径明显大于对照组（P<0.05），但实验组与正常组之间无显著差异（P>0.05）。MRI显示实验组脑脊液信号通畅，无软组织突入椎管；对照组有瘢痕组织突入椎管，硬膜被瘢痕组织压迫。HE染色和Masson三色染色显示人工椎板无明显降解，完整性高，实验组人工材料与骨界面处有一些新骨形成；对照组纤维组织长入缺损处。