SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3094890561> ?p ?o ?g. }

Showing items 1 to 100 of ±176 with 100 items per page.

W3094890561 endingPage "204512532096833" @default.
W3094890561 startingPage "204512532096833" @default.
W3094890561 abstract "Approximately 30% of Major Depressive Disorder (MDD) patients develop treatment-resistant depression (TRD). Among the different causes that make TRD so challenging in both clinical and research contexts, major roles are played by the inadequate understanding of MDD pathophysiology and the limitations of current pharmacological treatments. Nevertheless, the field of psychiatry is facing exciting times. Combined with recent advances in genome editing techniques, human induced pluripotent stem cell (hiPSC) technology is offering novel and unique opportunities in both disease modelling and drug discovery. This technology has allowed innovative disease-relevant patient-specific in vitro models to be set up for many psychiatric disorders. Such models hold great potential in enhancing our understanding of MDD pathophysiology and overcoming many of the well-known practical limitations inherent to animal and post-mortem models. Moreover, the field is approaching the advent of (es)ketamine, a glutamate N-methyl-d-aspartate (NMDA) receptor antagonist, claimed as one of the first and exemplary agents with rapid (in hours) antidepressant effects, even in TRD patients. Although ketamine seems poised to transform the treatment of depression, its exact mechanisms of action are still unclear but greatly demanded, as the resulting knowledge may provide a model to understand the mechanisms behind rapid-acting antidepressants, which may lead to the discovery of novel compounds for the treatment of depression. After reviewing insights into ketamine’s mechanisms of action (derived from preclinical animal studies) and depicting the current state of the art of hiPSC technology below, we will consider the implementation of an hiPSC technology-based TRD model for the study of ketamine’s fast acting antidepressant mechanisms of action." @default.
W3094890561 created "2020-11-09" @default.
W3094890561 creator A5011452662 @default.
W3094890561 creator A5017240100 @default.
W3094890561 creator A5025533887 @default.
W3094890561 creator A5030480720 @default.
W3094890561 creator A5040591643 @default.
W3094890561 creator A5046041776 @default.
W3094890561 creator A5047383675 @default.
W3094890561 creator A5054062963 @default.
W3094890561 creator A5054989793 @default.
W3094890561 creator A5064949711 @default.
W3094890561 date "2020-01-01" @default.
W3094890561 modified "2023-10-16" @default.
W3094890561 title "Human induced pluripotent stem cells technology in treatment resistant depression: novel strategies and opportunities to unravel ketamine’s fast-acting antidepressant mechanisms" @default.
W3094890561 cites W1914381346 @default.
W3094890561 cites W1995630439 @default.
W3094890561 cites W2003982930 @default.
W3094890561 cites W2007816528 @default.
W3094890561 cites W2011526626 @default.
W3094890561 cites W2013514700 @default.
W3094890561 cites W2015458228 @default.
W3094890561 cites W2016036141 @default.
W3094890561 cites W2023081218 @default.
W3094890561 cites W2027590847 @default.
W3094890561 cites W2046536676 @default.
W3094890561 cites W2051187163 @default.
W3094890561 cites W2060801754 @default.
W3094890561 cites W2061711185 @default.
W3094890561 cites W2068026567 @default.
W3094890561 cites W2074838566 @default.
W3094890561 cites W2089351762 @default.
W3094890561 cites W2091194550 @default.
W3094890561 cites W2108344016 @default.
W3094890561 cites W2109334244 @default.
W3094890561 cites W2111118992 @default.
W3094890561 cites W2111728433 @default.
W3094890561 cites W2125987139 @default.
W3094890561 cites W2132324173 @default.
W3094890561 cites W2136929119 @default.
W3094890561 cites W2138977668 @default.
W3094890561 cites W2139372806 @default.
W3094890561 cites W2159124083 @default.
W3094890561 cites W2168927779 @default.
W3094890561 cites W2173821398 @default.
W3094890561 cites W2256943445 @default.
W3094890561 cites W2273958019 @default.
W3094890561 cites W2295989183 @default.
W3094890561 cites W2328324756 @default.
W3094890561 cites W2336977282 @default.
W3094890561 cites W2337400527 @default.
W3094890561 cites W2340656051 @default.
W3094890561 cites W2461476914 @default.
W3094890561 cites W2550729917 @default.
W3094890561 cites W2552432680 @default.
W3094890561 cites W2599049865 @default.
W3094890561 cites W2605542437 @default.
W3094890561 cites W2738082385 @default.
W3094890561 cites W2768304164 @default.
W3094890561 cites W2792879830 @default.
W3094890561 cites W2795140951 @default.
W3094890561 cites W2799977282 @default.
W3094890561 cites W2800752789 @default.
W3094890561 cites W2804669221 @default.
W3094890561 cites W2805668200 @default.
W3094890561 cites W2809404352 @default.
W3094890561 cites W2811499691 @default.
W3094890561 cites W2889166554 @default.
W3094890561 cites W2895043322 @default.
W3094890561 cites W2895197076 @default.
W3094890561 cites W2895589451 @default.
W3094890561 cites W2908214697 @default.
W3094890561 cites W2912102328 @default.
W3094890561 cites W2912514057 @default.
W3094890561 cites W2919957599 @default.
W3094890561 cites W2921561928 @default.
W3094890561 cites W2924802475 @default.
W3094890561 cites W2933363539 @default.
W3094890561 cites W2947572868 @default.
W3094890561 cites W2981767691 @default.
W3094890561 cites W2982460272 @default.
W3094890561 cites W2994805672 @default.
W3094890561 doi "https://doi.org/10.1177/2045125320968331" @default.
W3094890561 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7649879" @default.
W3094890561 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33224469" @default.
W3094890561 hasPublicationYear "2020" @default.
W3094890561 type Work @default.
W3094890561 sameAs 3094890561 @default.
W3094890561 citedByCount "4" @default.
W3094890561 countsByYear W30948905612021 @default.
W3094890561 countsByYear W30948905612022 @default.
W3094890561 countsByYear W30948905612023 @default.
W3094890561 crossrefType "journal-article" @default.
W3094890561 hasAuthorship W3094890561A5011452662 @default.
W3094890561 hasAuthorship W3094890561A5017240100 @default.
W3094890561 hasAuthorship W3094890561A5025533887 @default.
W3094890561 hasAuthorship W3094890561A5030480720 @default.
W3094890561 hasAuthorship W3094890561A5040591643 @default.