Skin indentation firmness and tissue dielectric constant assessed in face, neck, and arm skin of young healthy women

Harvey N. Mayrovitz; Kelly Corbitt; Alexandra Grammenos; Allen Abello; Jason Mammino

doi:10.1111/srt.12310

FACTORS AFFECTING INTERPRETATION OF TISSUE DIELECTRIC CONSTANT (TDC) IN ASSESSING BREAST CANCER TREATMENT RELATED LYMPHEDEMA (BCRL)

Lymphology ◽

10.2458/lymph.4630 ◽

2019 ◽

Vol 52 (2) ◽

Author(s):

HN Mayrovitz ◽

E Arzanova ◽

S Somarriba ◽

S Eisa

Keyword(s):

Dielectric Constant ◽

Inverse Correlation ◽

Breast Cancer Treatment ◽

Significant Inverse Correlation ◽

Factors Affecting ◽

Indentation Force ◽

Significant Difference ◽

Total Body ◽

Skin Indentation ◽

Measurement Depth

Tissue dielectric constant (TDC) measurements are increasingly used as quantitative adjunctive tools to detect and assess lymphedema. Various factors affect measured TDC values that may impact clinical interpretations. Our goal was to investigate possible impacts of: 1) anterior vs. medial arm measures, 2) total body water (TBW%) and arm fat percentages (AF%), 3) measurement depth, and 4) skin firmness. In 40 healthy women (24.5±2.5 years), TDC was measured bilaterally on anterior forearm to 0.5, 1.5, 2.5, and 5.0 mm depths using a multiprobe device and on anterior and medial aspects using a compact device. TBW% and AF% were measured at 50KHz and skin firmness measured by skin indentation force (SIF). Results showed: 1) No statistically significant difference in TDC values between anterior and medial arm, 2) a moderate direct correlation between TDC and TBW% (r=0.512, p=0.001), 3) an inverse correlation between TDC and AF% (r= -0.494, p<0.001) with correlations greatest at the deepest depth, and 4) a slight but statistically significant inverse correlation between TDC and SIF (r= -0.354, p=0.001). TDC values with compact vs. multiprobe were within 6% of each other with interarm (dominant/nondominant) ratios not significantly different. The findings provide a framework to help interpret TDC values among divergent conditions.

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Validity and interobserver agreement of lower extremity local tissue water measurements in healthy women using tissue dielectric constant

Clinical Physiology and Functional Imaging ◽

10.1111/j.1475-097x.2012.01129.x ◽

2012 ◽

Vol 32 (4) ◽

pp. 317-322 ◽

Cited By ~ 16

Author(s):

Mads R. Jensen ◽

Susanne Birkballe ◽

Susan Nørregaard ◽

Tonny Karlsmark

Keyword(s):

Dielectric Constant ◽

Lower Extremity ◽

Interobserver Agreement ◽

Tissue Water ◽

Local Tissue ◽

Healthy Women

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FOREARM AND BICEPS CIRCUMFERENTIAL VARIATIONS IN SKIN TISSUE DIELECTRIC CONSTANT AND FIRMNESS

Lymphology ◽

10.2458/lymph.4672 ◽

2021 ◽

Vol 53 (4) ◽

Author(s):

HN Mayrovitz ◽

C Lorenzo-Valido ◽

E Pieper ◽

A Thomas

Keyword(s):

Dielectric Constant ◽

Reference Values ◽

Skin Tissue ◽

Need For Care ◽

Indentation Force ◽

Healthy Women

Tissue dielectric constant (TDC) and skin firmness assessed via indentation force (FORCE) help quantify lymphedema and track changes. We sought to determine potential differences in these parameters dependent on arm circumferential locations. Thus, TDC and FORCE were measured in 40 healthy women at medial, anterior and lateral locations on forearm and biceps. In five other women with unilateral lymphedema (68.6±7.6 years), TDC was measured at corresponding circumferential forearm positions. Measurements were done in triplicate using compact noninvasive devices. Results for healthy women (23.8±2.7 years) showed forearm medial TDC values (26.7±2.2) were less than anterior (28.0±2.4) or lateral (28.0±2.5) positions (p<0.001). Lymphedema patients had elevated values but similar medial-anterior-lateral patterns (33.7±8.0, 39.8±10.2 and 42.9±10.0). Biceps medial TDC values (24.1±2.2) were also less than either anterior (27.0±2.1) or lateral (28.2±3.3). Contrastingly, medial FORCE values at forearm and biceps were less than at anterior and lateral locations (p<0.001) and increased in the order of medial-anterior-lateral on forearm (p<0.001). The present findings provide reference values for both TDC and FORCE of commonly measured arm sites with specificity as to circumferential variations. This observed variation indicates the need for care in locating measurement positions for tracking patients with lymphedema.

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Microstructural characterization of YBaCuO Films on LaAlO3 substrates

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100152872 ◽

1989 ◽

Vol 47 ◽

pp. 180-181

Author(s):

E. L. Hall ◽

A. Mogro-Campero ◽

N. Lewis ◽

L. G. Turner

Keyword(s):

Dielectric Constant ◽

Single Crystal ◽

Film Growth ◽

Microstructural Characterization ◽

Lattice Parameter ◽

Film Plane ◽

Substrate Material ◽

High Loss ◽

Amorphous Substrates ◽

High Dielectric

There have been a large number of recent studies of the growth of Y-Ba-Cu-O thin films, and these studies have employed a variety of substrates and growth techniques. To date, the highest values of Tc and Jc have been found for films grown by sputtering or coevaporation on single-crystal SrTiO3 substrates, which produces a uniaxially-aligned film with the YBa2Cu3Ox c-axis normal to the film plane. Multilayer growth of films on the same substrate produces a triaxially-aligned film (regions of the film have their c-axis parallel to each of the three substrate <100> directions) with lower values of Jc. Growth of films on a variety of other polycrystalline or amorphous substrates produces randomly-oriented polycrystalline films with low Jc. Although single-crystal SrTiO3 thus produces the best results, this substrate material has a number of undesireable characteristics relative to electronic applications, including very high dielectric constant and a high loss tangent at microwave frequencies. Recently, Simon et al. have shown that LaAlO3 could be used as a substrate for YBaCuO film growth. This substrate is essentially a cubic perovskite with a lattice parameter of 0.3792nm (it has a slight rhombohedral distortion at room temperature) and this material exhibits much lower dielectric constant and microwave loss tangents than SrTiO3. It is also interesting from a film growth standpoint since it has a slightly smaller lattice parameter than YBa2Cu3Ox (a=0.382nm, b=c/3=0.389nm), while SrTiO3 is slightly larger (a=0.3905nm).

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Enhanced performance of supercapacitors by constructing a “mini parallel-plate capacitor” in an electrode with high dielectric constant materials

Journal of Materials Chemistry A ◽

10.1039/d0ta04364h ◽

2020 ◽

Vol 8 (32) ◽

pp. 16661-16668

Author(s):

Huayao Tu ◽

Shouzhi Wang ◽

Hehe Jiang ◽

Zhenyan Liang ◽

Dong Shi ◽

...

Keyword(s):

Dielectric Constant ◽

Carbon Fiber ◽

Parallel Plate ◽

Sandwich Structure ◽

High Dielectric Constant ◽

Parallel Plate Capacitor ◽

Plate Capacitor ◽

Fiber Metal ◽

High Dielectric ◽

Mini Plate

The carbon fiber/metal oxide/metal oxynitride layer sandwich structure is constructed in the electrode to form a mini-plate capacitor. High dielectric constant metal oxides act as dielectric to increase their capacitance.

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Ultrahigh Energy Storage Performances of Polymer-based Nanocomposite via Interfaces Engneering

Journal of Materials Chemistry A ◽

10.1039/d0ta10044g ◽

2020 ◽

Author(s):

Peng Wang ◽

Zhongbin Pan ◽

Weilin Wang ◽

Jianxu Hu ◽

Jinjun Liu ◽

...

Keyword(s):

Dielectric Constant ◽

Energy Storage ◽

High Performance ◽

Breakdown Strength ◽

Composite Films ◽

Power Electronic ◽

Ultrahigh Energy

High-performance electrostatic capacitors are in urgent demand owing to the rapidly development of advanced power electronic applications. However, polymer-based composite films with both high breakdown strength (Eb) and dielectric constant...

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