C Roscop1, P Mathio2, L Gajny3, P Kouyoumdjian4, W Skalli3, O Gille2. 1. Spine Surgery Department, University Hospital, Bordeaux, France. roscop.cecile@gmail.com. 2. Spine Surgery Department, University Hospital, Bordeaux, France. 3. Laboratoire de Biomécanique, Ecole Nationale Supérieure D'Arts Et Métiers (ENSAM), Paris, France. 4. Spine Surgery Department, University Hospital, Nîmes, France.
Abstract
OBJECTIVE: To identify the different apex and transitional vertebra according to the shape of the pelvis of individuals despite their difference in sagittal alignment using our measurement system. METHODS: Full-spine X-rays using EOS in standard stand-position of 99 volunteers were selected (47 women, 52 men, mean age 31 years old). Validated 3D reconstruction technique allows extraction of spinopelvic parameters, and position and rotation of each vertebra and lumbar disks. Subjects were divided into three groups: low PI (lowPI, n = 37), moderate PI (midPI, n = 52), high PI (highPI, n = 10), with, respectively, a PI below 45°, between 45° and 60° and above 60°. Occurrence of specific position and rotation values of apex and transitional vertebra were assessed in each group. RESULTS: Frequency curves tend to move cranially when the incidence increases except in cervicothoracic where T1 is a constant for all shapes of spine with occurrence approaching 90%. Angulation value of relevant vertebra and lumbar lordosis are significantly positively correlated for the whole population. CONCLUSIONS: Our study allowed the assessment of the distribution of spine curvatures according to the pelvic incidence. It describes the occurrence of localization of the apex and transitional vertebrae according to pelvic incidence. These results should be taken into account during the analysis of the sagittal balance, especially when planning deformity surgery in adults.
OBJECTIVE: To identify the different apex and transitional vertebra according to the shape of the pelvis of individuals despite their difference in sagittal alignment using our measurement system. METHODS: Full-spine X-rays using EOS in standard stand-position of 99 volunteers were selected (47 women, 52 men, mean age 31 years old). Validated 3D reconstruction technique allows extraction of spinopelvic parameters, and position and rotation of each vertebra and lumbar disks. Subjects were divided into three groups: low PI (lowPI, n = 37), moderate PI (midPI, n = 52), high PI (highPI, n = 10), with, respectively, a PI below 45°, between 45° and 60° and above 60°. Occurrence of specific position and rotation values of apex and transitional vertebra were assessed in each group. RESULTS: Frequency curves tend to move cranially when the incidence increases except in cervicothoracic where T1 is a constant for all shapes of spine with occurrence approaching 90%. Angulation value of relevant vertebra and lumbar lordosis are significantly positively correlated for the whole population. CONCLUSIONS: Our study allowed the assessment of the distribution of spine curvatures according to the pelvic incidence. It describes the occurrence of localization of the apex and transitional vertebrae according to pelvic incidence. These results should be taken into account during the analysis of the sagittal balance, especially when planning deformity surgery in adults.
Authors: Renaud Lafage; Breton G Line; Sachin Gupta; Barthelemy Liabaud; Frank Schwab; Justin S Smith; Jeffrey L Gum; Christopher P Ames; Richard Hostin; Gregory M Mundis; Han Jo Kim; Shay Bess; Eric Klineberg; Virginie Lafage Journal: Spine (Phila Pa 1976) Date: 2017-10-15 Impact factor: 3.468
Authors: Steven D Glassman; Keith Bridwell; John R Dimar; William Horton; Sigurd Berven; Frank Schwab Journal: Spine (Phila Pa 1976) Date: 2005-09-15 Impact factor: 3.468