Morphological Design and Study of a 3D Printed Integrated Fusion Device Based on CT Measurement Data Assisted Anterior Lumbosacral Spine /Diseno Morfoldgico y Estudio de un Dispositivo de Fusion Integrado Impreso en 3D Basado en Datos de Medicion de TC Asistida de Columna Lumbosacra Anterior

Morphological Design and Study of a 3D Printed Integrated Fusion Device Based on CT Measurement Data Assisted Anterior Lumbosacral Spine /Diseno Morfoldgico y Estudio de un Dispositivo de Fusion Integrado Impreso en 3D Basado en Datos de Medicion de TC Asistida de Columna Lumbosacra Anterior

To measure and study the anatomical morphological data of the lumbar 5 to sacral 1 intervertebral space with the aid of CT and design an anatomical anterior lumbosacral 3D printed integrated interbody fusion for the treatment of degenerative lumbosacral spine diseases. 100 adults (50 of each sex) wh...

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Bibliographic Details
Published in:International journal of morphology Vol. 42; no. 3; p. 692
Main Authors: Wang, Xin, Liu, Quanxiang, Qi, Mingyu, Xiong, Jing
Format: Journal Article
Language:Spanish
Published: Universidad de La Frontera, Facultad de Medicina 01-05-2024
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Summary:To measure and study the anatomical morphological data of the lumbar 5 to sacral 1 intervertebral space with the aid of CT and design an anatomical anterior lumbosacral 3D printed integrated interbody fusion for the treatment of degenerative lumbosacral spine diseases. 100 adults (50 of each sex) who underwent CT examination of the lumbar spine in our hospital were selected, and their lumbar 5 to sacral 1 intervertebral space anatomical data were measured, including the anterior lumbar convexity angle, different sagittal and coronal heights, and the sagittal and coronal diameters of the superior and inferior endplates. The measured data were also statistically analyzed, and morphological design and study of the 3D printed integrated fusion device in the anterior lumbosacral spine was performed by applying computer software. When comparing the coronal and sagittal diameters of the superior and inferior endplates from lumbar 5 to sacral 1, the differences were statistically greater in men than in women (P<0.001). The differences were not statistically significant when comparing the anterior convexity angle of the lumbosacral space (P>0.001). When comparing the height at different positions in the median sagittal plane, both males and females showed an anterior high and posterior low pattern. In the coronal plane, both males and females showed the highest height in the middle position (P<0.001), and there was no statistically significant difference between the left and the right height (P>0.001). CT can measure the anatomical data of the lumbosacral spinal hiatus more accurately. The 3D-printed anterior integrated fusion device of the lumbosacral spine designed according to the analysis of the data results is more in line with the anatomical structure of the lumbosacral spine, fits well with the superior and inferior endplates, and effectively restores the height and anterior convexity angle of the lumbosacral space. KEY WORDS: Lumbosacral spine; Intervertebral fusion; 3D printing.
ISSN:0717-9367