- VernacularTitle:下颈椎椎弓根的显微形态学特征
- Author:
Kun LI
1
,
2
;
Shaojie ZHANG
;
Jun SHI
;
Jian WANG
;
Yanan LIU
;
Lan DUO
;
Yang YANG
;
Yunteng HAO
;
Zhijun LI
;
Xing WANG
Author Information
- Keywords: spinal column; lower cervical vertebra; pedicle; Micro-CT; microscopic morphology; bone trabeculae
- From: Chinese Journal of Tissue Engineering Research 2024;28(12):1890-1894
- CountryChina
- Language:Chinese
- Abstract: BACKGROUND:The lower cervical vertebral pedicle is the main stress site of the posterior column of the spine,which is of great significance for the maintenance of the stability of the human center of gravity and the reduction of shock.At present,there are few reports on the characteristics of the internal bone trabeculae,and the characteristics of the joint site of the vertebral pedicle with the articular process and the vertebral body.It is urgent to understand the fine anatomical structure of the vertebral pedicle and the relationship and function of each part. OBJECTIVE:To observe the microanatomical morphology of the vertebral pedicle by Micro-CT scanning of cervical vertebra specimens,and to measure and analyze the microstructure and morphometric parameters of the bone trabecula in the cervical pedicle under normal conditions to evaluate the safety performance of the cervical spine. METHODS:Micro-CT scanning was performed on 31 sets of cervical vertebrae C3-C7.By checking and reconstructing the areas of interest in the bone trabecular within the vertebral pedicle,the morphological characteristics and distribution direction of the bone trabecular within the cervical pedicle were observed,and the bone microstructure parameters were detected,and the differences in the bone microstructure of the C3-C7 vertebral pedicle were analyzed and compared. RESULTS AND CONCLUSION:(1)The Micro-CT images showed that the honeycomb bone trabeculae of the pedicle of the lower cervical spine presented a complex network of microstructures.The trabeculae near the cortical bone were lamellar and relatively compact,extending forward toward the vertebral body and backward toward the articular process lamina.Abatoid bone trabeculae extended into the medullary cavity and transformed into a network structure,and then into rod-shaped bone trabeculae.The rod-shaped bone trabeculae were sparsely distributed in the medullary cavity.(2)Statistical results of morphological parameters of bone trabeculae showed that bone volume fraction values in C4 and C5 were higher than that in C7(P<0.05).The bone surface/bone volume value in C7 was higher than that in C3,C4 and C6(P<0.05).The bone surface density of bone trabeculae in C7 was higher than that in C3,C4,C5 and C6(P<0.05).Trabecular thickness in C7 was higher than that in C3,C4 and C5(P<0.05).Bone surface/bone volume and bone surface density of the left pedicle bone trabecular were greater than those on the right side(P<0.05).(3)The microstructural changes of C3-C7 were summarized,in which the load capacity and stress of the C7 pedicle were poor,and the risk of injury was high in this area.