Comparative Analysis of Pressure Platform and Insole Devices for Plantar Pressure Assessment

Comparative Analysis of Pressure Platform and Insole Devices for Plantar Pressure Assessment

Foot plantar pressure refers to the pressure or force that the foot generates in contact with the ground, varying across different regions of the foot. This parameter is essential in static and dynamic analyses to access accurate diagnoses, study the human body biomechanics, create functional footwe...

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Bibliographic Details
Main Authors: Catarina M. Amaro, Maria F. Paulino, Sara Valvez, Luis Roseiro, Maria António Castro, Ana M. Amaro
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Applied Sciences
Subjects:
plantar pressure
pressure platform
Pedar<sup>®</sup> system
Physiosensing<sup>®</sup> system
Online Access:https://www.mdpi.com/2076-3417/15/13/7575
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Summary:Foot plantar pressure refers to the pressure or force that the foot generates in contact with the ground, varying across different regions of the foot. This parameter is essential in static and dynamic analyses to access accurate diagnoses, study the human body biomechanics, create functional footwear designs, aid in rehabilitation and physiotherapy, and prevent injuries in athletes during sports practice. This study presents an experimental comparison between two different plantar pressure measurement devices, Pedar<sup>®</sup> (sensorized insoles) and Physiosensing<sup>®</sup> (pressure platform). The devices were selected based on their capacity to measure contact area and peak pressure points. Results showed that Physiosensing<sup>®</sup> provided a more uniform measurement of the contact area, proving its efficiency for weight distribution and stability analysis applications, particularly in posture assessment and balance studies. The Pedar<sup>®</sup> system showed higher capacity in peak pressure point detection. Therefore, the insole system is more suitable for applications requiring precise high-pressure zone localization. Comparative analysis highlights the strengths and limitations of each device and offers insights regarding its optimal usage in clinical, sports, and research settings.
ISSN:2076-3417

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