Effects of short‐term unloading and active recovery on human motor unit properties, neuromuscular junction transmission and transcriptomic profile - Sarto - 2022 - The Journal of Physiology - Wiley Online Library
Histone deacetylase 4 protects from denervation and skeletal muscle atrophy in a murine model of amyotrophic lateral sclerosis - eBioMedicine
Using and interpreting electrodiagnostic tests | Cleveland Clinic Journal of Medicine
Muscle-nerve communication and the molecular assessment of human skeletal muscle denervation with aging | American Journal of Physiology-Cell Physiology
Tinospora cordifolia protects from skeletal muscle atrophy by alleviating oxidative stress and inflammation induced by sciatic denervation - ScienceDirect
Muscle Denervation - an overview | ScienceDirect Topics
Frontiers | Delayed denervation-induced muscle atrophy in Opg knockout mice
Diagnostic sensitivities of active denervation in limb muscles* | Download Table
Mononeuropathies of the Upper Extremities | Clinical Gate
Selective Renal Denervation Guided by Renal Nerve Stimulation in Canine | Hypertension
How to Denervate With Current Renal Denervation Device Iterations - Cardiac Interventions Today
Muscle-nerve communication and the molecular assessment of human skeletal muscle denervation with aging | American Journal of Physiology-Cell Physiology
Myogenin and Class II HDACs Control Neurogenic Muscle Atrophy by Inducing E3 Ubiquitin Ligases: Cell
Frontiers | Denervation-Related Neuromuscular Junction Changes: From Degeneration to Regeneration
Renal Denervation for Patients With Heart Failure | Circulation: Heart Failure
mTORC1 and PKB/Akt control the muscle response to denervation by regulating autophagy and HDAC4 | Nature Communications
Electromyography shows spontaneous activity and active denervation in... | Download Scientific Diagram
Quantification of Renal Sympathetic Vasomotion as a Novel End Point for Renal Denervation | Hypertension