SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4378714746> ?p ?o ?g. }

Showing items 1 to 100 of ±150 with 100 items per page.

W4378714746 endingPage "1502" @default.
W4378714746 startingPage "1502" @default.
W4378714746 abstract "Amyotrophic lateral sclerosis (ALS) is a devastating motoneuron disease characterized by sustained loss of neuromuscular junctions, degenerating corticospinal motoneurons and rapidly progressing muscle paralysis. Motoneurons have unique features, essentially a highly polarized, lengthy architecture of axons, posing a considerable challenge for maintaining long-range trafficking routes for organelles, cargo, mRNA and secretion with a high energy effort to serve crucial neuronal functions. Impaired intracellular pathways implicated in ALS pathology comprise RNA metabolism, cytoplasmic protein aggregation, cytoskeletal integrity for organelle trafficking and maintenance of mitochondrial morphology and function, cumulatively leading to neurodegeneration. Current drug treatments only have marginal effects on survival, thereby calling for alternative ALS therapies. Exposure to magnetic fields, e.g., transcranial magnetic stimulations (TMS) on the central nervous system (CNS), has been broadly explored over the past 20 years to investigate and improve physical and mental activities through stimulated excitability as well as neuronal plasticity. However, studies of magnetic treatments on the peripheral nervous system are still scarce. Thus, we investigated the therapeutic potential of low frequency alternating current magnetic fields on cultured spinal motoneurons derived from induced pluripotent stem cells of FUS-ALS patients and healthy persons. We report a remarkable restoration induced by magnetic stimulation on axonal trafficking of mitochondria and lysosomes and axonal regenerative sprouting after axotomy in FUS-ALS in vitro without obvious harmful effects on diseased and healthy neurons. These beneficial effects seem to derive from improved microtubule integrity. Thus, our study suggests the therapeutic potential of magnetic stimulations in ALS, which awaits further exploration and validation in future long-term in vivo studies." @default.
W4378714746 created "2023-05-30" @default.
W4378714746 creator A5005603622 @default.
W4378714746 creator A5010195640 @default.
W4378714746 creator A5038861892 @default.
W4378714746 creator A5057361513 @default.
W4378714746 creator A5059063089 @default.
W4378714746 creator A5059133881 @default.
W4378714746 creator A5067791805 @default.
W4378714746 creator A5085287885 @default.
W4378714746 creator A5086741053 @default.
W4378714746 creator A5092047172 @default.
W4378714746 date "2023-05-29" @default.
W4378714746 modified "2023-09-25" @default.
W4378714746 title "Restoring Axonal Organelle Motility and Regeneration in Cultured FUS-ALS Motoneurons through Magnetic Field Stimulation Suggests an Alternative Therapeutic Approach" @default.
W4378714746 cites W1046033385 @default.
W4378714746 cites W1837966190 @default.
W4378714746 cites W1963793175 @default.
W4378714746 cites W1973311433 @default.
W4378714746 cites W1974151854 @default.
W4378714746 cites W1983952932 @default.
W4378714746 cites W1991660507 @default.
W4378714746 cites W1995860253 @default.
W4378714746 cites W2006524711 @default.
W4378714746 cites W2007297803 @default.
W4378714746 cites W2011750425 @default.
W4378714746 cites W2029478071 @default.
W4378714746 cites W2030775222 @default.
W4378714746 cites W2034859720 @default.
W4378714746 cites W2036564583 @default.
W4378714746 cites W2040773899 @default.
W4378714746 cites W2049924082 @default.
W4378714746 cites W2075552892 @default.
W4378714746 cites W2087644813 @default.
W4378714746 cites W2112507261 @default.
W4378714746 cites W2129291496 @default.
W4378714746 cites W2131436209 @default.
W4378714746 cites W2131951074 @default.
W4378714746 cites W2166585705 @default.
W4378714746 cites W2170980702 @default.
W4378714746 cites W2315593976 @default.
W4378714746 cites W2345502205 @default.
W4378714746 cites W2530167760 @default.
W4378714746 cites W2556818673 @default.
W4378714746 cites W2561412528 @default.
W4378714746 cites W2562417922 @default.
W4378714746 cites W2606253816 @default.
W4378714746 cites W2616124858 @default.
W4378714746 cites W2762659278 @default.
W4378714746 cites W2763212735 @default.
W4378714746 cites W2768121321 @default.
W4378714746 cites W2775650492 @default.
W4378714746 cites W2779632257 @default.
W4378714746 cites W2785225651 @default.
W4378714746 cites W2884314832 @default.
W4378714746 cites W2893679917 @default.
W4378714746 cites W2901055252 @default.
W4378714746 cites W2906711699 @default.
W4378714746 cites W2912043444 @default.
W4378714746 cites W2916213022 @default.
W4378714746 cites W2919254540 @default.
W4378714746 cites W2923484387 @default.
W4378714746 cites W2952309189 @default.
W4378714746 cites W2952461797 @default.
W4378714746 cites W2954478536 @default.
W4378714746 cites W2972352852 @default.
W4378714746 cites W2984234275 @default.
W4378714746 cites W3010113402 @default.
W4378714746 cites W3022660570 @default.
W4378714746 cites W3131414944 @default.
W4378714746 cites W3170485863 @default.
W4378714746 cites W3174363935 @default.
W4378714746 cites W3197155010 @default.
W4378714746 cites W4205651323 @default.
W4378714746 cites W4245870441 @default.
W4378714746 cites W4295900572 @default.
W4378714746 cites W4319728675 @default.
W4378714746 cites W4362606591 @default.
W4378714746 doi "https://doi.org/10.3390/cells12111502" @default.
W4378714746 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37296623" @default.
W4378714746 hasPublicationYear "2023" @default.
W4378714746 type Work @default.
W4378714746 citedByCount "0" @default.
W4378714746 crossrefType "journal-article" @default.
W4378714746 hasAuthorship W4378714746A5005603622 @default.
W4378714746 hasAuthorship W4378714746A5010195640 @default.
W4378714746 hasAuthorship W4378714746A5038861892 @default.
W4378714746 hasAuthorship W4378714746A5057361513 @default.
W4378714746 hasAuthorship W4378714746A5059063089 @default.
W4378714746 hasAuthorship W4378714746A5059133881 @default.
W4378714746 hasAuthorship W4378714746A5067791805 @default.
W4378714746 hasAuthorship W4378714746A5085287885 @default.
W4378714746 hasAuthorship W4378714746A5086741053 @default.
W4378714746 hasAuthorship W4378714746A5092047172 @default.
W4378714746 hasBestOaLocation W43787147461 @default.
W4378714746 hasConcept C104317684 @default.
W4378714746 hasConcept C107459253 @default.
W4378714746 hasConcept C142724271 @default.