Foot & Ankle Orthopaedics (Sep 2024)

Effect of Height and Weight on Heel Fat Pad Movements Between Microchamber and Macrochamber Layers in Loading and Unloading

  • Toshihiro Maemichi PhD, JSPO-AT,
  • Masatomo Matsumoto MS, RPT,
  • Toshiharu Tsutsui PhD, RPT, JSPO-AT,
  • Shota Ichikawa PhD, MD,
  • Takumi Okunuki PhD, RPT,
  • Hirofumi Tanaka MS, MD,
  • Tsukasa Kumai PhD, MD

DOI
https://doi.org/10.1177/24730114241278927
Journal volume & issue
Vol. 9

Abstract

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Background: The purpose of this study was to clarify the differences in the movement of the superficial microchambers and deep macrochambers of the heel fat pad during loading and unloading movements, and to clarify the influence of height and weight on this movement. Methods: The subjects were 21 healthy adults. The right foot was placed on an evaluation instrument stand made of polymethylpentene (PMP) resin plate, and the left foot was placed on a scale stand used to adjust the amount of load. When measuring, the heel fat pad is divided into the superficial microchamber layer and the deep macrochamber layer, and the thickness due to loading from 0% to 100% of the body weight and unloading from 100% to 0% is measured. Measurement was performed every 20% using an ultrasound imaging device. We also examined the rate of change in the thickness of the superficial and deep layers of the heel fat pad when applying 100% load (end load) from 0% load (unload). Results: No changes were observed in the superficial layer of the heel fat pad during unloading, but significant changes were observed in the deeper layers. Additionally, the thickness of the microchamber and macrochamber layers tended to increase under each loading condition as the height and weight increased. On the other hand, the rate of change in the thickness of the macrochamber layer tended to decrease. Conclusion: The microchamber layer and the macrochamber layer of the heel fat pad may have different functions. As height and weight increase, the thickness of the microchamber and macrochamber layers may increase, and the rate of change in the thickness of the macrochamber layer appears to decrease. Although the thickness increases as the load increases, we found that the related elasticity decreases. Level of Evidence: Level Ⅳ, cross-sectional survey study.