J Shanghai Jiaotong Univ Sci ›› 2021, Vol. 26 ›› Issue (3): 325-333.doi: 10.1007/s12204-021-2300-x

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Technique Note for Staged Resection of Giant Invasive High-Cervical Schwannoma and Reconstruction of C2—C4 with 3D Printing Technique

SUN Xiaojianga,c‡ (孙晓江), ZHAO Changqinga,c‡ (赵长清), YANG Erzhua,c‡ (杨二柱), LI Huaa,c (李华), ZHANG Kaia,c (张凯), CHENG Xiaofeia,c (程晓非), JIANG Wenboa,c (姜闻博), CHENG Zhihuab (程志华), GUO Zhilinb (郭智霖), DAI Keronga,c (戴尅戎), ZHAO Jiea,c (赵杰)   

  1. (a. Department of Orthopaedic Surgery; b. Department of Neurosurgery; c. Shanghai Key Laboratory of Orthopaedic
    Implants, Shanghai Ninth People’s Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai 200011, China)
  • 出版日期:2021-06-28 发布日期:2021-06-02
  • 通讯作者: DAI Kerong(戴尅戎), ZHAO Jie(赵杰) E-mail:krdai@163.com, profzhaojie@126.com
  • 基金资助:
    the National Key Research and Development
    Program of China (No. 2017YFB1104104),
    and the Special Foundation for Innovation of Science
    and Technology of Shanghai Jiao Tong University
    (Nos. GXQ201810 and GXQ202003)

Technique Note for Staged Resection of Giant Invasive High-Cervical Schwannoma and Reconstruction of  C2—C4 with 3D Printing Technique

SUN Xiaojianga,c‡ (孙晓江), ZHAO Changqinga,c‡ (赵长清), YANG Erzhua,c‡ (杨二柱), LI Huaa,c (李华), ZHANG Kaia,c (张凯), CHENG Xiaofeia,c (程晓非), JIANG Wenboa,c (姜闻博), CHENG Zhihuab (程志华), GUO Zhilinb (郭智霖), DAI Keronga,c (戴尅戎), ZHAO Jiea,c (赵杰)   

  1. (a. Department of Orthopaedic Surgery; b. Department of Neurosurgery; c. Shanghai Key Laboratory of Orthopaedic
    Implants, Shanghai Ninth People’s Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai 200011, China)
  • Online:2021-06-28 Published:2021-06-02
  • Contact: DAI Kerong(戴尅戎), ZHAO Jie(赵杰) E-mail:krdai@163.com, profzhaojie@126.com
  • Supported by:
    the National Key Research and Development
    Program of China (No. 2017YFB1104104),
    and the Special Foundation for Innovation of Science
    and Technology of Shanghai Jiao Tong University
    (Nos. GXQ201810 and GXQ202003)

摘要: A schwannoma is a relatively common benign spinal cord tumour; however, giant schwannomas with  extensive cervical vertebral erosion are rare, and the treatment strategy, especially the reconstruction of the upper  cervical vertebra, remains a challenge for spine surgeons. Here, we present a rare case of giant invasive highcervical  schwannoma with extensive erosion of the C2—C4 vertebral bodies and tumour-encased left vertebral  artery. The surgical strategy and the reconstruction of C2—C4 with 3D printing techniques were discussed and  performed. A 32-year-old man presented to our department with complaints of gait disturbance and weakness in  both upper and lower extremities. His limb muscle strength was grade 2 or 3/5, and he exhibited severe bladder  and bowel dysfunction on admission. X-ray and computed tomography of the cervical spine showed an extremely  large erosive lesion at the C2—C4 vertebral bodies and lateral masses. Magnetic resonance imaging of the cervical  spine showed a large soft-tissue mass on the left aspect of the C2—C5 vertebra and in the spinal canal at the  C3—C4 level. A staged schwannoma resection, instrumented fixation, and reconstruction of C2—C4 with 3D  metal printing technique were performed. The patient achieved good postoperative outcomes and returned to  normal daily life with no recurrence of schwannoma during follow-up for four and a half years. The 3D-printed  implant achieved solid fusion with the remaining cervical spine. We performed staged resection of the giant  invasive high-cervical schwannoma and reconstructed the erosive C2—C4 vertebra with the assistance of a 3D  printing technique. 3D printing technology has facilitated the design and manufacture of customised implants for  complex surgical procedures.

Abstract: A schwannoma is a relatively common benign spinal cord tumour; however, giant schwannomas with  extensive cervical vertebral erosion are rare, and the treatment strategy, especially the reconstruction of the upper  cervical vertebra, remains a challenge for spine surgeons. Here, we present a rare case of giant invasive highcervical  schwannoma with extensive erosion of the C2—C4 vertebral bodies and tumour-encased left vertebral  artery. The surgical strategy and the reconstruction of C2—C4 with 3D printing techniques were discussed and  performed. A 32-year-old man presented to our department with complaints of gait disturbance and weakness in  both upper and lower extremities. His limb muscle strength was grade 2 or 3/5, and he exhibited severe bladder  and bowel dysfunction on admission. X-ray and computed tomography of the cervical spine showed an extremely  large erosive lesion at the C2—C4 vertebral bodies and lateral masses. Magnetic resonance imaging of the cervical  spine showed a large soft-tissue mass on the left aspect of the C2—C5 vertebra and in the spinal canal at the  C3—C4 level. A staged schwannoma resection, instrumented fixation, and reconstruction of C2—C4 with 3D  metal printing technique were performed. The patient achieved good postoperative outcomes and returned to  normal daily life with no recurrence of schwannoma during follow-up for four and a half years. The 3D-printed  implant achieved solid fusion with the remaining cervical spine. We performed staged resection of the giant  invasive high-cervical schwannoma and reconstructed the erosive C2—C4 vertebra with the assistance of a 3D  printing technique. 3D printing technology has facilitated the design and manufacture of customised implants for  complex surgical procedures.

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