Popular in Life Sciences

Biology

Plasticity and microevolution of diatoms

University of Technology Sydney Martina Doblin

Biology

Analysis of rare coding variants reveals novel genetic risk factors for type 2 diabetes

University College London David Curtis

Life Sciences

The Mouse Cortical Connectome Maintains Specificity by Distinct Connectivity Profiles

Monash University Răzvan Gămănuţ

Life Sciences

Neural control of three-dimensional gaze shifts

York University

Biology

Quantifying nectar production by flowering plants in urban and rural landscapes

University of Bristol

The neurophysiologic basis of immobilization-induced skeletal muscle decline

Professional - Life Sciences - Medicine - Physiology - Neuroscience November 29, 2021 Lancaster University ·

Short-term limb immobilization results in skeletal muscle decline, but the underlying mechanisms are incompletely understood. Christopher Gaffney discusses the neurophysiologic basis of immobilization-induced skeletal muscle decline, and whether repetitive Transcranial Magnetic Stimulation (rTMS) could prevent any decline.

Read the Study

Image courtesy of interviewee

Skeletal muscle decline

Log-in or Sign-up to Faculti
Currently viewing this subject insight as a guest. You have insight(s) remaining for this month.

Faculti

Search

Popular in Life Sciences

Plasticity and microevolution of diatoms

Analysis of rare coding variants reveals novel genetic risk factors for type 2 diabetes

The Mouse Cortical Connectome Maintains Specificity by Distinct Connectivity Profiles

Neural control of three-dimensional gaze shifts

Quantifying nectar production by flowering plants in urban and rural landscapes

The neurophysiologic basis of immobilization-induced skeletal muscle decline

Leave a Reply Cancel reply