Side-effect expectations are associated with disability, physical fitness, and somatic symptoms 3 months after post-COVID neurological inpatient rehabilitation.

Introduction: The COVID-19 pandemic, caused by SARS-CoV-2, has led to long-term health issues known as post-COVID-19 condition, including fatigue and cognitive disruptions. Despite its recognition as a public health concern, the efficacy of therapeutic interventions, especially in neurological rehabilitation, remains unclear. This study examines how treatment expectations are associated with psychological and physical outcomes in post-COVID-19 condition neurological rehabilitation.

Immortalised murine R349P desmin knock-in myotubes exhibit a reduced proton leak and decreased ADP/ATP translocase levels in purified mitochondria.

Desmin gene mutations cause myopathies and cardiomyopathies. Our previously characterised R349P desminopathy mice, which carry the ortholog of the common human desmin mutation R350P, showed marked alterations in mitochondrial morphology and function in muscle tissue. By isolating skeletal muscle myoblasts from offspring of R349P desminopathy and p53 knock-out mice, we established an immortalised cellular disease model.

Clinorotation inhibits myotube formation by fluid motion, not by simulated microgravity.

To study processes related to weightlessness in ground-based cell biological research, a theoretically assumed microgravity environment is typically simulated using a clinostat - a small laboratory device that rotates cell culture vessels with the aim of averaging out the vector of gravitational forces. Here, we report that the rotational movement during fast clinorotation induces complex fluid motions in the cell culture vessel, which can trigger unintended cellular responses. Specifically, we demonstrate that suppression of myotube formation by 2D-clinorotation at 60 rpm is not an effect of the assumed microgravity but instead is a consequence of fluid motion.

Effects of long-term immobilisation on endomysium of the soleus muscle in humans.

New Findings: What is the central question of this study? While muscle fibre atrophy in response to immobilisation has been extensively examined, intramuscular connective tissue, particularly endomysium, has been largely neglected: does endomysium content of the soleus muscle increase during bed rest? What is the main finding and its importance? Absolute endomysium content did not change, and previous studies reporting an increase are explicable by muscle fibre atrophy. It must be expected that even a relative connective tissue accumulation will lead to an increase in muscle stiffness.

Abstract: Muscle fibres atrophy during conditions of disuse.