SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2890670997> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W2890670997 abstract "Background: Cardiac alternans is an important precursor to arrhythmia, facilitating formation of conduction block, and re-entry. Diseased hearts were observed to be particularly vulnerable to alternans, mainly in heart failure or after myocardial infarction. Alternans is typically linked to oscillation of calcium cycling, particularly in the sarcoplasmic reticulum (SR). While the role of SR calcium reuptake in alternans is well established, the role of altered calcium release by ryanodine receptors has not yet been studied extensively. At the same time, there is strong evidence that calcium release is abnormal in heart failure and other heart diseases, suggesting that these changes might play a pro-alternans role. Aims: To demonstrate how changes to intracellular calcium release dynamics and magnitude affect alternans vulnerability. Methods: We used the state-of-the-art Heijman-Rudy and O'Hara-Rudy computer models of ventricular myocyte, given their detailed representation of calcium handling and their previous utility in alternans research. We modified the models to obtain precise control over SR release dynamics and magnitude, allowing for the evaluation of these properties in alternans formation and suppression. Results: Shorter time to peak SR release and shorter release duration decrease alternans vulnerability by improved refilling of releasable calcium within junctional SR; conversely, slow release promotes alternans. Modulating the total amount of calcium released, we show that sufficiently increased calcium release may surprisingly prevent alternans via a mechanism linked to the functional depletion of junctional SR during release. We show that this mechanism underlies differences between eye-type and fork-type alternans, which were observed in human in vivo and in silico. We also provide a detailed explanation of alternans formation in the given computer models, termed sarcoplasmic reticulum calcium cycling refractoriness. The mechanism relies on the steep SR load-release relationship, combined with relatively limited rate of junctional SR refilling. Conclusion: Both altered dynamics and magnitude of SR calcium release modulate alternans vulnerability. In particular, slow dynamics of SR release, such as those observed in heart failure, promote alternans. Therefore, acceleration of intracellular calcium release, e.g., via synchronization of calcium sparks, may inhibit alternans in failing hearts and reduce arrhythmia occurrence." @default.
W2890670997 created "2018-09-27" @default.
W2890670997 creator A5010242386 @default.
W2890670997 creator A5064490330 @default.
W2890670997 creator A5076859183 @default.
W2890670997 creator A5083528942 @default.
W2890670997 creator A5084645060 @default.
W2890670997 date "2018-09-19" @default.
W2890670997 modified "2023-10-17" @default.
W2890670997 title "Modulation of Cardiac Alternans by Altered Sarcoplasmic Reticulum Calcium Release: A Simulation Study" @default.
W2890670997 cites W1967379349 @default.
W2890670997 cites W1969154199 @default.
W2890670997 cites W1973228369 @default.
W2890670997 cites W1976981750 @default.
W2890670997 cites W1977252918 @default.
W2890670997 cites W1985654484 @default.
W2890670997 cites W1990406674 @default.
W2890670997 cites W1998730638 @default.
W2890670997 cites W2004957822 @default.
W2890670997 cites W2014501709 @default.
W2890670997 cites W2014604630 @default.
W2890670997 cites W2015967782 @default.
W2890670997 cites W2018067406 @default.
W2890670997 cites W2023201524 @default.
W2890670997 cites W2029620282 @default.
W2890670997 cites W2043712914 @default.
W2890670997 cites W2049332135 @default.
W2890670997 cites W2067727865 @default.
W2890670997 cites W2077129671 @default.
W2890670997 cites W2077731194 @default.
W2890670997 cites W2078223749 @default.
W2890670997 cites W2088684584 @default.
W2890670997 cites W2093165445 @default.
W2890670997 cites W2097064783 @default.
W2890670997 cites W2098044063 @default.
W2890670997 cites W2101742222 @default.
W2890670997 cites W2105757663 @default.
W2890670997 cites W2106800106 @default.
W2890670997 cites W2108383919 @default.
W2890670997 cites W2115765852 @default.
W2890670997 cites W2115928923 @default.
W2890670997 cites W2117576954 @default.
W2890670997 cites W2133981834 @default.
W2890670997 cites W2144399280 @default.
W2890670997 cites W2144456050 @default.
W2890670997 cites W2145264435 @default.
W2890670997 cites W2148734617 @default.
W2890670997 cites W2153760572 @default.
W2890670997 cites W2161894401 @default.
W2890670997 cites W2165123656 @default.
W2890670997 cites W2166325927 @default.
W2890670997 cites W2172519975 @default.
W2890670997 cites W2175513192 @default.
W2890670997 cites W2309817230 @default.
W2890670997 cites W2340144859 @default.
W2890670997 cites W2407287461 @default.
W2890670997 cites W2535611644 @default.
W2890670997 cites W2569751837 @default.
W2890670997 cites W2618713948 @default.
W2890670997 cites W2768311438 @default.
W2890670997 cites W4246481042 @default.
W2890670997 doi "https://doi.org/10.3389/fphys.2018.01306" @default.
W2890670997 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6156530" @default.
W2890670997 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30283355" @default.
W2890670997 hasPublicationYear "2018" @default.
W2890670997 type Work @default.
W2890670997 sameAs 2890670997 @default.
W2890670997 citedByCount "14" @default.
W2890670997 countsByYear W28906709972019 @default.
W2890670997 countsByYear W28906709972020 @default.
W2890670997 countsByYear W28906709972021 @default.
W2890670997 crossrefType "journal-article" @default.
W2890670997 hasAuthorship W2890670997A5010242386 @default.
W2890670997 hasAuthorship W2890670997A5064490330 @default.
W2890670997 hasAuthorship W2890670997A5076859183 @default.
W2890670997 hasAuthorship W2890670997A5083528942 @default.
W2890670997 hasAuthorship W2890670997A5084645060 @default.
W2890670997 hasBestOaLocation W28906709971 @default.
W2890670997 hasConcept C113217602 @default.
W2890670997 hasConcept C12554922 @default.
W2890670997 hasConcept C126322002 @default.
W2890670997 hasConcept C134018914 @default.
W2890670997 hasConcept C146403970 @default.
W2890670997 hasConcept C155730078 @default.
W2890670997 hasConcept C158617107 @default.
W2890670997 hasConcept C164705383 @default.
W2890670997 hasConcept C181080969 @default.
W2890670997 hasConcept C185263204 @default.
W2890670997 hasConcept C185592680 @default.
W2890670997 hasConcept C201571599 @default.
W2890670997 hasConcept C207200792 @default.
W2890670997 hasConcept C2778198053 @default.
W2890670997 hasConcept C519063684 @default.
W2890670997 hasConcept C55493867 @default.
W2890670997 hasConcept C61381695 @default.
W2890670997 hasConcept C71924100 @default.
W2890670997 hasConcept C86803240 @default.
W2890670997 hasConceptScore W2890670997C113217602 @default.
W2890670997 hasConceptScore W2890670997C12554922 @default.
W2890670997 hasConceptScore W2890670997C126322002 @default.