Hong Xia scite author profile

The heights of the C1 pedicle, the posterior arch under the groove and the posterior lamina at the screw entry point are the major determinants for the possibility of placing pedicle screws in C1 of a given patient. This study indicates that it is feasible to place a 3.5-mm pedicle screw safely in C1 in most patients, and the lateral mass of C2 is a reliable anatomic landmark that can be easily identified to help the surgeon determine the optimal screw entry portal conveniently during surgery.

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3D-printed guiding templates for improved osteosarcoma resection

Zhu

et al. 2016

Sci Rep

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Osteosarcoma resection is challenging due to the variable location of tumors and their proximity with surrounding tissues. It also carries a high risk of postoperative complications. To overcome the challenge in precise osteosarcoma resection, computer-aided design (CAD) was used to design patient-specific guiding templates for osteosarcoma resection on the basis of the computer tomography (CT) scan and magnetic resonance imaging (MRI) of the osteosarcoma of human patients. Then 3D printing technique was used to fabricate the guiding templates. The guiding templates were used to guide the osteosarcoma surgery, leading to more precise resection of the tumorous bone and the implantation of the bone implants, less blood loss, shorter operation time and reduced radiation exposure during the operation. Follow-up studies show that the patients recovered well to reach a mean Musculoskeletal Tumor Society score of 27.125.

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Posterior Screw Placement on the Lateral Mass of Atlas

Xia¹,

Yin²,

Yun-bing³

et al. 2004

Spine

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The width and height of the atlas lateral mass were larger than that of the C2 pedicle, and there was enough space to insert a 3.5-mm diameter screw in the atlas lateral mass over the C2 nerve. The pullout force of the screw on the lateral mass of the atlas was the same as that of the C2 pedicle screw. It is possible toinsert a 3.5-mm screw in the lateral mass of the atlas. The direction of the screw should be about 20 degrees anterosuperior in the vertical plane and 15 degrees inward in the horizontal plane. The suitable length of the screw should be approximately 22 mm inside the lateral mass.

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Motion analysis of Chinese normal knees during gait based on a novel portable system

Zhang¹,

Yao²,

Wang³

et al. 2015

Gait & Posture

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C2 Anatomy and Dimensions Relative to Translaminar Screw Placement in an Asian Population

Ma¹,

Yin²,

Wu³

et al. 2010

Spine

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A large percentages of C2 laminae are of sufficient size to safely accommodate a bicortical 3.5-mm diameter screw. The thickness of the lamina and the height of the spinous process are the 2 limiting factors for safe translaminar screws placement. Using a bicortical technique confirms the position of the screw and thereby helps to decrease the risk of neurologic injury from screw penetration of the inner cortex of the lamina.

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Hong Xia

Anatomic Considerations for the Pedicle Screw Placement in the First Cervical Vertebra

3D-printed guiding templates for improved osteosarcoma resection

Posterior Screw Placement on the Lateral Mass of Atlas

Motion analysis of Chinese normal knees during gait based on a novel portable system

C2 Anatomy and Dimensions Relative to Translaminar Screw Placement in an Asian Population

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