STUDY DESIGN: The early and late development of the neurocentral junction between the vertebral arch and the vertebral body was studied, and this structure was related to spinal surgery. OBJECTIVES: Because of its strategic position within the vertebral body, its structure could be of relevance for spinal surgery. During the positioning of cannulated pedicle screws and before penetration into the cancellous bone of the vertebral body, resistance had to be overcome inside the "pedicle" of the vertebral arch. Was this point of resistance related to the neurocentral joint? SUMMARY OF BACKGROUND DATA: Data on the fate of this developmental structure after age 3-6 years, the age at which it fuses, appeared to be missing in literature. METHODS: We examined dry bone and "fresh" vertebrae from individuals ranging in age from 0 to 75 years. Observations were recorded by means of gross anatomic photographs, micrographs, radiographs, and computed tomography scans. RESULTS: After fusion of the junction at age 3-6 years, its structure persists through life as a bilateral plate of bone extending from the cranial to the caudal anular epiphyses inside the dorsolateral parts of the definitive body. CONCLUSIONS: This plate may function as a support for pedicle screw fixation. Its form explains typical burst fractures of the vertebral body. Spondylolysis at this site is unknown.
STUDY DESIGN: The early and late development of the neurocentral junction between the vertebral arch and the vertebral body was studied, and this structure was related to spinal surgery. OBJECTIVES: Because of its strategic position within the vertebral body, its structure could be of relevance for spinal surgery. During the positioning of cannulated pedicle screws and before penetration into the cancellous bone of the vertebral body, resistance had to be overcome inside the "pedicle" of the vertebral arch. Was this point of resistance related to the neurocentral joint? SUMMARY OF BACKGROUND DATA: Data on the fate of this developmental structure after age 3-6 years, the age at which it fuses, appeared to be missing in literature. METHODS: We examined dry bone and "fresh" vertebrae from individuals ranging in age from 0 to 75 years. Observations were recorded by means of gross anatomic photographs, micrographs, radiographs, and computed tomography scans. RESULTS: After fusion of the junction at age 3-6 years, its structure persists through life as a bilateral plate of bone extending from the cranial to the caudal anular epiphyses inside the dorsolateral parts of the definitive body. CONCLUSIONS: This plate may function as a support for pedicle screw fixation. Its form explains typical burst fractures of the vertebral body. Spondylolysis at this site is unknown.
Authors: Tamás Fülöp Fekete; Frank S Kleinstück; Anne F Mannion; Zsolt S Kendik; Dezso J Jeszenszky Journal: Eur Spine J Date: 2011-07-16 Impact factor: 3.134
Authors: Takehiko Matsushita; William R Wilcox; Yuk Yu Chan; Aya Kawanami; Hülya Bükülmez; Gener Balmes; Pavel Krejci; Pertchoui B Mekikian; Kazuyuki Otani; Isakichi Yamaura; Matthew L Warman; David Givol; Shunichi Murakami Journal: Hum Mol Genet Date: 2008-10-15 Impact factor: 6.150