Past > Schools > School of Chemistry, Physics & Mechanical EngineeringĬonsult author(s) regarding copyright matters Past > QUT Faculties & Divisions > Science & Engineering Faculty Past > Institutes > Institute of Health and Biomedical Innovation Conclusion Comparison of the observed trends for vertebral position measured from MRI and 3DSS, suggested the surface markers may provide a useful method for measuring internal changes in sagittal curvature or skeletal changes.ģD surface scanning, fiducial marker, non-contact surface scanning, spinal alignment, surface topography Curvature was well matched for seven of the subjects, with two showing differing curvatures across the lumbar spine due to inconsistent subject positioning. Over the 10 subjects, the mean RMSE between the MRI and 3D scan sagittal profiles for all surface markers was 9.8mm (SD 4.2mm). The MRI fiducial marker location was well aligned with the spinous process profile in the thoracic and upper lumbar spine for nine of the subjects.
Results The RMSE for the polynomials fit to the spinous process, fiducial and surface marker profiles ranged from 0.17–1.15mm for all subjects. 3D coordinates for the markers (surface stickers and MRI oil capsules) and for the spinous processes mapped the spinal column profiles and were compared to assess the quality of fit between the 3DSS and MRI marker positions. MRI stacks were processed to measure the thoracolumbar spinous process locations, providing an anatomical reference. Following 3DSS, oil capsules (fiducial markers) were overlaid on the stickers and the subject underwent MRI.
NON RIGID ALIGNMENT ARTEC STUDIO SKIN
Prior to 3DSS, anatomical landmarks on the spinous processes of each participant were demarcated using stickers attached to the skin surface. Methods 10 healthy female adults with a mean age of 25 years, (standard deviation: 3.6 years) underwent both MRI and 3D surface scanning (3DSS) (Artec Eva, Artec Group Inc., Luxembourg) while lying in the lateral decubitus position on a rigid substrate. This study sought to establish the efficacy and accuracy of using 3D surface scanning to characterise spinal curvature and sagittal plane contour. Introduction 3D non-contact surface scanners capture highly accurate, calibrated images of surface topography for 3D structures.