Positioning errors of anatomical landmarks identified by fixed vertices in homologous meshes

Ana V Ruescas-Nicolau; Helios De Rosario; Eduardo Parrilla Bernabé; M-Carmen Juan

doi:10.1016/j.gaitpost.2023.11.024

Positioning errors of anatomical landmarks identified by fixed vertices in homologous meshes

Gait Posture. 2024 Feb:108:215-221. doi: 10.1016/j.gaitpost.2023.11.024. Epub 2023 Dec 1.

Authors

Ana V Ruescas-Nicolau¹, Helios De Rosario², Eduardo Parrilla Bernabé², M-Carmen Juan³

Affiliations

¹ Instituto de Biomecánica - IBV. Universitat Politècnica de València, edifici 9C. Camí de Vera, s/n 46022 València, Spain. Electronic address: ana.ruescas@ibv.org.
² Instituto de Biomecánica - IBV. Universitat Politècnica de València, edifici 9C. Camí de Vera, s/n 46022 València, Spain.
³ Instituto Universitario de Automática e Informática Industrial. Universitat Politècnica de València, edifici 1F. Camí de Vera, s/n 46022 València, Spain.

PMID: 38118225
DOI: 10.1016/j.gaitpost.2023.11.024

Abstract

Background: Human movement analysis is usually achieved by tracking markers attached to anatomical landmarks with photogrammetry. Such marker-based systems have disadvantages that have led to the development of markerless procedures, although their accuracy is not usually comparable to that of manual palpation procedures. New motion acquisition systems, such as 3D temporal scanners, provide homologous meshes that can be exploited for this purpose.

Research question: Can fixed vertices of a homologous mesh be used to identify anatomical landmarks with an accuracy equivalent to that of manual palpation?

Methods: We used 3165 human shape scans from the CAESAR dataset, with labelled locations of anatomical landmarks. First, we fitted a template mesh to the scans, and assigned a vertex of that mesh to 53 anatomical landmarks in all subjects. Then we defined a nominal vertex for each landmark, as the more centred vertex out of the set assigned for that landmark. We calculated the errors of the template-fitting and the nominal vertex determination procedures, and analysed their relationship to subject's sex, height and body mass index, as well as their size compared to manual palpation errors.

Results: The template-fitting errors were below 5 mm, and the nominal vertex determination errors reached maximum values of 24 mm. Except for the trochanter, those errors were the same order of magnitude or smaller than inter-examiner errors of lower limb landmarks. Errors increased with height and body mass index, and were smaller for men than for women of the same height and body mass index.

Significance: We defined a set of vertices for 53 anatomical landmarks in a homologous mesh, which yields location errors comparable to those obtained by manual palpation for the majority of landmarks. We also quantified how the subject's sex and anthropometric features can affect the size of those errors.

Keywords: 3D scanning; Landmark position errors; Markerless motion capture.

MeSH terms

Anatomic Landmarks
Anthropometry
Body Mass Index
Female
Femur
Head*
Humans
Imaging, Three-Dimensional
Lower Extremity*
Male