Measuring plantar load with STAMPS3D: a preliminary study on the impact of contoured orthoses.
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All Authors
Sairally, F.
Russell, DA.
Siddle, HJ.
Chauhan, K.
Trinca, D.
Brockett, C.
Culmer, P.
LTHT Author
Russell, David
Chauhan, Kate
Trinca, Daniele
Chauhan, Kate
Trinca, Daniele
LTHT Department
Trauma & Related Services
Leeds Vascular Institute
Vascular Surgery
Adult Therapies
Prosthetics,Orthotics & Wheelchair Services
Oncology
Medical Physics & Engineering
Leeds Vascular Institute
Vascular Surgery
Adult Therapies
Prosthetics,Orthotics & Wheelchair Services
Oncology
Medical Physics & Engineering
Non Medic
Orthotist
Senior Rehabilitation Engineer
Senior Rehabilitation Engineer
Publication Date
2025
Item Type
Journal Article
Language
Subject
Subject Headings
Abstract
Introduction: Diabetes-related foot disease including foot ulcers (DFU) are a growing concern with a huge associated socio-economic impact. Bespoke contoured orthoses are a common clinical intervention used to help prevent DFU formation in regions at risk through offloading, by implementing various design features such as arch support, cuts-outs, metatarsal pads and variable density materials. Research surrounding contoured orthoses has been limited to measuring plantar pressure to assess effectiveness and guide insole modifications necessary for individual patients. However, there is currently no in-shoe measurement tool capable of measuring all components of plantar load (plantar pressure and shear stresses).
Methods: The STAMPS3D system has been developed to address this gap and has been successfully shown to measure the cumulative effect of plantar strain indicative of pressure and shear stresses that arise at the plantar interface. In this work, the STAMPS3D system has been used in a proof-of-concept study to explore the efficacy of capturing 3D strain data across a non-planar surface of different contoured orthoses.
Results: Plantar strain patterns were shown to vary across anatomical regions of the foot, with statistically significant increases in plantar strain found for contoured conditions across the midfoot due to offloading associated with contoured orthoses. Differences in plantar strain were also observed across the toe and forefoot regions as a result of changing the material stiffness of the orthoses.
Discussion: This work demonstrates the utility of employing 3D measurement to improve our understanding of plantar load under the influence of design features implemented in contoured orthoses and their ability to offload regions at risk of DFU formation. In doing so, improvements in management and prevention of diabetes-related ulceration can be made, tackling the social and financial costs associated.
Journal
Frontiers in Bioengineering & Biotechnology