AI Article Synopsis
- This study introduces a new wearable insole pressure sensor (IPS) made from a carbon nanotube composite, designed to measure ground reaction forces (GRFs) during walking.
- In the test, seven healthy participants walked on a treadmill at different speeds, and the IPS measurements were compared to those from a force plate (FP) using two specific assessments: peak forces at weight acceptance and push-off, and absolute maximum forces during gait cycles.
- Results indicated that the IPS can provide accurate GRF measurements with minimal calibration, suggesting its potential for use in real-world settings beyond laboratory conditions.
Article Abstract
This study presents a new wearable insole pressure sensor (IPS), composed of fabric coated in a carbon nanotube-based composite thin film, and validates its use for quantifying ground reaction forces (GRFs) during human walking. Healthy young adults ( = 7) walked on a treadmill at three different speeds while data were recorded simultaneously from the IPS and a force plate (FP). The IPS was compared against the FP by evaluating differences between the two instruments under two different assessments: (1) comparing the two peak forces at weight acceptance and push-off (2PK) and (2) comparing the absolute maximum (MAX) of each gait cycle. Agreement between the two systems was evaluated using the Bland-Altman method. For the 2PK assessment, the group mean of differences (MoD) was -1.3 ± 4.3% body weight (BW) and the distance between the MoD and the limits of agreement (2S) was 25.4 ± 11.1% BW. For the MAX assessment, the average MoD across subjects was 1.9 ± 3.0% BW, and 2S was 15.8 ± 9.3% BW. The results of this study show that this sensor technology can be used to obtain accurate measurements of peak walking forces with a basic calibration and consequently open new opportunities to monitor GRF outside of the laboratory.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10062471 | PMC |
| http://dx.doi.org/10.1017/wtc.2023.2 | DOI Listing |
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