Project description:Bulk RNAseq of human skeletal muscle RNAseq of FACS sorted human skeletal muscle cells scRNAseq of human skeletal muscle

Project description:Human muscle RNA sequencing

Project description:Skeletal muscle fiber type distribution has implications for human health, muscle function and performance. This knowledge has been gathered using labor intensive and costly methodology that limited these studies. This data was used to present a new method based on muscle tissue RNA sequencing data to estimate the distribution of skeletal muscle fiber types from frozen human samples, allowing for larger number of individuals to be tested in a cost and labor efficient way. Muscle biopsies were taken from the vastus lateralis muscle of 23 human subjects from Japan. Samples were sequenced on the NextSeq® 500/550 (Illumina).

Project description:Skeletal muscle fiber type distribution has implications for human health, muscle function and performance. This knowledge has been gathered using labor-intensive and costly methodology that limited these studies. This data was used to present a new method based on muscle tissue RNA sequencing data to estimate the distribution of skeletal muscle fiber types from frozen human samples, allowing for larger number of individuals to be tested in a cost and labor efficient way. Muscle biopsies were taken from the vastus lateralis muscle of 39 Swedish male subjects. Samples were sequenced on the NextSeq® 500/550 (Illumina).

Project description:Malnutrition and low muscle mass (sarcopenia) are common problems in patients with cancer. However, a low muscle mass is associated with negative clinical outcomes in patients with cancer. Therefore, it is very important to maintain muscle mass in this population. This study aims to investigate the effect of an oral nutritional supplement on skeletal muscle mass during anti-cancer treatment.

Project description:Skeletal muscle atrophy is a serious and highly prevalent condition that remains poorly understood at the molecular level. Previous work found that skeletal muscle atrophy involves an increase in skeletal muscle Gadd45a expression, which is necessary and sufficient for skeletal muscle fiber atrophy. However, the direct mechanism by which Gadd45a promotes skeletal muscle atrophy was unknown. To address this question, we biochemically isolated skeletal muscle fiber proteins that associate with Gadd45a as it induces skeletal muscle atrophy in living mice. We found that Gadd45a interacts with multiple proteins in skeletal muscle fibers, including, most prominently, the MAP kinase kinase kinase MEKK4. Furthermore, by forming a complex with MEKK4 in skeletal muscle fibers, Gadd45a increases MEKK4 protein kinase activity, which is sufficient to induce skeletal muscle fiber atrophy and required for Gadd45a-mediated skeletal muscle fiber atrophy. Together, these results identify a direct biochemical mechanism by which Gadd45a induces skeletal muscle atrophy and provide new insight into way that skeletal muscle atrophy occurs at the molecular level.

Project description:This RNA-sequencing cohort includes 52 Non-muscle Invasive Bladder cancer (NMIBC) samples and 6 Muscle Invasive Bladder cancer (MIBC) samples.

Project description:Fecal incontinence is common in patients with rectal cancer after surgery. Previous studies showed that pelvic floor muscle and external sphincter muscle training after stoma closure could improve the severity of incontinence and other fecal symptoms, but there is no study about the effects of pelvic floor muscle exercise intervention before stoma closure. We are wondering would the symptom of fecal incontinence recover sooner and better if we give the pelvic floor muscle exercise intervention before the stoma closure. This article aims at comparing the effects of pelvic floor muscle training before stoma closure on fecal incontinence (pre-intervention group) with pelvic floor muscle training after stoma closure (post-intervention group), and we hypothesise that the severity of fecal incontinence will improve sooner and better in pre-intervention group.

Project description:Influence of muscle activity on paralyzed muscle

Project description:Muscle is lost as part of the rectal cancer disease process. Surgery to treat rectal cancer and its subsequent immobility leads to increased muscle loss. Neuromuscular electrical stimulation (NMES) has been shown in previous studies in the critically ill to maintain muscle mass. The investigators aim to examine whether NMES use in the pre and postoperative setting preserves muscle mass, speeds up recovery and improves outcomes in advanced rectal cancer patients undergoing curative surgery. This is a phase II double blind randomised controlled clinical trial.