A better understanding of the permittivity property of skeletal muscle is essential for the development of new diagnostic tools and approaches for neuromuscular evaluation. However, there remain important knowledge gaps… Click to show full abstract
A better understanding of the permittivity property of skeletal muscle is essential for the development of new diagnostic tools and approaches for neuromuscular evaluation. However, there remain important knowledge gaps in our understanding of this property in healthy and diseased skeletal muscle, which hinder its translation into clinical application. Here, we report the permittivity of gastrocnemius muscle in healthy wild type mice and murine models of spinal muscular atrophy, muscular dystrophy, diabetes, amyotrophic lateral sclerosis and in a model of myofiber hypertrophy. Data were measured ex vivo from 10 kHz to 1 MHz using the four-electrode impedance technique. Additional quantitative histology information were obtained. Ultimately, the normative data reported will offer the scientific community the opportunity to develop more accurate models for the validation and prediction of experimental observations in both pre-clinical and clinical neuromuscular disease research.Design Type(s)physiological data analysis objective • strain comparison design • ex vivo designMeasurement Type(s)permittivity propertyTechnology Type(s)impedance analyzerFactor Type(s)temporal_instant • frequency • Mouse Model • experimental conditionSample Characteristic(s)Mus musculus • skeletal muscle tissueMachine-accessible metadata file describing the reported data (ISA-Tab format)
               
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