Crynodeb
Background
In adults ageing is accompanied by changes in limb volume and skin biomechanical properties.
Objectives
To explore the relationship between body size, aging, skin biomechanics, and leg volume, VLeg and to define predictive equations linking leg volume with these properties.
Methods
Sixty-two healthy adults (Age 18–80 years, M:F 45:55) were recruited. Anthropomorphic measures were recorded along with VLeg (via circumferential method) and skin tone, stiffness, and elastance (via tonometry). Regression analysis was performed to define relationship between the measured parameters.
Results
In healthy adults bilateral VLeg were the same regardless of leg or sex, 5791 ± 1363 for females and 6151 ± 1203 mls for males. VLeg was positively correlated to body weight, where VLeg (mls) = 1058 + 69 × Wt (kg) for females and VLeg (mls) = 539 + 65 × Wt (Kg) of body weight for males. Skin surface biomechanical properties varied with sex, leg volume, and location on the leg with the malleolus exhibiting the stiffest surface.
Conclusion
The study shows that anthropometric measures change with sex and leg size are multifactorial and body weight, sex, and skin condition as important determinant factors of leg volume.
In adults ageing is accompanied by changes in limb volume and skin biomechanical properties.
Objectives
To explore the relationship between body size, aging, skin biomechanics, and leg volume, VLeg and to define predictive equations linking leg volume with these properties.
Methods
Sixty-two healthy adults (Age 18–80 years, M:F 45:55) were recruited. Anthropomorphic measures were recorded along with VLeg (via circumferential method) and skin tone, stiffness, and elastance (via tonometry). Regression analysis was performed to define relationship between the measured parameters.
Results
In healthy adults bilateral VLeg were the same regardless of leg or sex, 5791 ± 1363 for females and 6151 ± 1203 mls for males. VLeg was positively correlated to body weight, where VLeg (mls) = 1058 + 69 × Wt (kg) for females and VLeg (mls) = 539 + 65 × Wt (Kg) of body weight for males. Skin surface biomechanical properties varied with sex, leg volume, and location on the leg with the malleolus exhibiting the stiffest surface.
Conclusion
The study shows that anthropometric measures change with sex and leg size are multifactorial and body weight, sex, and skin condition as important determinant factors of leg volume.
| Iaith wreiddiol | Saesneg |
|---|---|
| Tudalennau (o-i) | 40-46 |
| Nifer y tudalennau | 7 |
| Cyfnodolyn | Skin Research and Technology |
| Cyfrol | 28 |
| Rhif cyhoeddi | 1 |
| Dynodwyr Gwrthrych Digidol (DOIs) | |
| Statws | Cyhoeddwyd - 29 Awst 2021 |