Development of a novel method to measure the elastic properties of skin including subcutaneous tissue: New age-related parameters and scope of application

Purpose Longitudinal population-based cohort data were used to develop a standardized classification system for age-related hearing impairment using thresholds for frequencies (0.5–8 kHz) typically measured in cohort studies. Method Audiometric testing data collected in the Epidemiology of Hearing Loss Study from participants ( n = 1,369) with four visits (1993–1995, 1998–2000, 2003–2005, and 2009–2010) were included (10,952 audiograms). Cluster analyses (Wald's method) were used to identify audiometric patterns. Maximum allowable threshold values were defined for each cluster to create an ordered scale. Progression was defined as a two-step change. Results An eight-step scale was developed to capture audiogram shape and severity of hearing impairment. Of the 1,094 participants classified as having normal hearing based on a pure-tone average, only 25% ( n = 277) were classified as Level 1 (all thresholds ≤ 20 dB HL) on the new scale, whereas 17% ( n = 182) were Levels 4–6. During the 16-year follow-up, 64.9% of those at Level 1 progressed. There was little regression using this scale. Conclusions This is the first scale developed from population-based longitudinal cohort data to capture audiogram shape across time. This simple, standardized scale is easy to apply, reduces misclassification of normal hearing, and may be a useful method for identifying risk factors for early, preclinical, age-related changes in hearing.

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A novel method for biomaterial scaffold internal architecture design to match bone elastic properties with desired porosity

Journal of Biomechanics ◽

10.1016/j.jbiomech.2003.09.029 ◽

2004 ◽

Vol 37 (5) ◽

pp. 623-636 ◽

Cited By ~ 246

Author(s):

Cheng Yu Lin ◽

Noboru Kikuchi ◽

Scott J. Hollister

Keyword(s):

Elastic Properties ◽

Architecture Design ◽

Biomaterial Scaffold ◽

Novel Method ◽

Internal Architecture

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Simultaneous determination of the nonlinear-elastic properties of skin and subcutaneous tissue in unconfined compression tests

Skin Research and Technology ◽

10.1111/j.1600-0846.2007.00182.x ◽

2007 ◽

Vol 13 (1) ◽

pp. 34-42 ◽

Cited By ~ 32

Author(s):

John Z. Wu ◽

Robert G. Cutlip ◽

Michael E. Andrew ◽

Ren G. Dong

Keyword(s):

Simultaneous Determination ◽

Elastic Properties ◽

Subcutaneous Tissue ◽

Compression Tests ◽

Unconfined Compression ◽

Nonlinear Elastic

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443 Adipogenesis activation to limit age-related subcutaneous tissue atrophy

Journal of Investigative Dermatology ◽

10.1016/j.jid.2016.02.478 ◽

2016 ◽

Vol 136 (5) ◽

pp. S78

Author(s):

M. Mollet ◽

B. Morand ◽

M. Fréchet ◽

J. Nicolay

Keyword(s):

Subcutaneous Tissue ◽

Age Related

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Comparison of Mixed and Kinematic Uniform Boundary Conditions in Homogenized Elasticity of Femoral Trabecular Bone Using Microfinite Element Analyses

Journal of Biomechanical Engineering ◽

10.1115/1.4028968 ◽

2015 ◽

Vol 137 (1) ◽

Cited By ~ 14

Author(s):

Jarunan Panyasantisuk ◽

Dieter H. Pahr ◽

Thomas Gross ◽

Philippe K. Zysset

Keyword(s):

Boundary Conditions ◽

Trabecular Bone ◽

Elastic Properties ◽

Elastic Constants ◽

Volume Fraction ◽

Bone Fragility ◽

Model Parameters ◽

Bone Volume Fraction ◽

Age Related ◽

Future Work

Mechanical properties of human trabecular bone play an important role in age-related bone fragility and implant stability. Microfinite element (μFE) analysis allows computing the apparent elastic properties of trabecular bone for use in homogenized FE (hFE) analysis, but the results depend unfortunately on the type of applied boundary conditions (BCs). In this study, 167 human femoral trabecular cubic regions with a side length of 5.3 mm were extracted from three proximal femora and analyzed using μFE analysis to compare systematically their stiffness with kinematic uniform BCs (KUBCs) and periodicity-compatible mixed uniform BCs (PMUBCs). The obtained elastic constants were then used in the volume fraction and fabric-based orthotropic Zysset–Curnier model to identify their respective model parameters. As expected, PMUBCs lead to more compliant apparent elastic properties than KUBCs, especially in shear. The differences in stiffness decreased with bone volume fraction and mean intercept length (MIL). Unlike KUBCs, PMUBCs were sensitive to heterogeneity of the biopsies. The Zysset–Curnier model fitted the apparent elastic constants successfully in both cases with adjusted coefficients of determination (radj2) of 0.986 for KUBCs and 0.975 for PMUBCs. The proper use of these BCs for hFE analysis of whole bones will need to be investigated in future work.

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