STAPP: Spatiotemporal analysis of plantar pressure measurements using statistical parametric mapping

• Published in: Gait & posture Vol. 63; no. NA; pp. 268 - 275
• Main Authors: Booth, Brian G., Keijsers, Noël L.W., Sijbers, Jan, Huysmans, Toon
• Format: Journal Article
• Language: English
• Published: England Elsevier B.V 01.06.2018
• Subjects: Pedobarography; Spatiotemporal analysis; Statistical parametric mapping; Walking speed; Pedobarography; Statistical parametric mapping; Walking speed; Spatiotemporal analysis
• ISSN: 0966-6362; 1879-2219; 1879-2219
• DOI: 10.1016/j.gaitpost.2018.04.029

•Hypothesis: subsampling plantar pressure video leads to loss of gait information.•Thus, we introduce STAPP as a methodology to analyze full plantar pressure videos.•Comparison of STAPP with pSPM and COP analysis (all fit the SPM framework).•Evaluation of plantar pressure differences due to changes in walking speed.•Subsampling in pSPM and COP led to under-reporting of pressure differences. Pedobarography produces large sets of plantar pressure samples that are routinely subsampled (e.g. using regions of interest) or aggregated (e.g. center of pressure trajectories, peak pressure images) in order to simplify statistical analysis and provide intuitive clinical measures. We hypothesize that these data reductions discard gait information that can be used to differentiate between groups or conditions. To test the hypothesis of null information loss, we created an implementation of statistical parametric mapping (SPM) for dynamic plantar pressure datasets (i.e. plantar pressure videos). Our SPM software framework brings all plantar pressure videos into anatomical and temporal correspondence, then performs statistical tests at each sampling location in space and time. Novelly, we introduce non-linear temporal registration into the framework in order to normalize for timing differences within the stance phase. We refer to our software framework as STAPP: spatiotemporal analysis of plantar pressure measurements. Using STAPP, we tested our hypothesis on plantar pressure videos from 33 healthy subjects walking at different speeds. As walking speed increased, STAPP was able to identify significant decreases in plantar pressure at mid-stance from the heel through the lateral forefoot. The extent of these plantar pressure decreases has not previously been observed using existing plantar pressure analysis techniques. We therefore conclude that the subsampling of plantar pressure videos – a task which led to the discarding of gait information in our study – can be avoided using STAPP.