Yuanxing Yuan; Lei Wan; Yikai LI; Jing Chen

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"Digital anatomical position of the ""point"" in cervical vertebra fixed-point rotatory technique"

VernacularTitle:"颈椎定点旋转手法""点""的数字化解剖"
Author: Yuanxing YUAN ; Lei WAN ; Yikai LI ; Jing CHEN
Publication Type:Journal Article
From: Chinese Journal of Tissue Engineering Research 2011;15(22):4155-4159
CountryChina
Language:Chinese
Abstract: BACKGROUND: Although the fixed-point cervical vertebra rotating reduction has a notable treatment effect, yet it has not been deeply studied in the medical field. Some clinical surgeons feel difficult to make an accurate control on the power and rotatory joint position while operating, even results in iatrogenic injury. OBJECTIVE: To discuss the action mechanism of rotatory technique based on the central rotatory point of cervical vertebra fixed-point rotatory technique. METHODS: Samples were scanned through a 64-row spiral CT working platform at 1-mm layer distance. The picture's profilogram data were extracted from the image processing functional module in PHILIPS MEDICAL SYSTEMS, and then the three-dimensional structure of the upper cervical vertebra was reconstructed and displayed. Taking the axis spinous process peak (point A), odontoid process vertical axes (point B), and the midpoint (point C) of their link as the rotating axes (the rotating central point in simulation), spherical system on each point was set up. The intersection angle of the links between the axis' spinous process peak and the lower jaw, and between the odontoid process vertical axes and the lower jaw before and after rotation were all measured. RESULTS AND CONCLUSION: While applying fixed-point rotation of the cervical spine, the rotatory centre is the vertical axle center of the odontoid process, rather than the handy axis spinous process peak. The rotatory angle of the axle centre is larger than the observation angle. A new concept of fixed-axis rotation should be accepted and its principle should be comprehended in order to appropriately apply the cervical rotatory technique.