SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3083460488> ?p ?o ?g. }

Showing items 1 to 100 of ±115 with 100 items per page.

W3083460488 abstract "Extracellular vesicles (EVs) have been shown to be involved in various physiological and pathophysiological processes. With respect to Transfusion Medicine, the accumulation of EVs in blood products during hypothermic storage is an indicator of the storage lesion and reportedly correlates with adverse effects after transfusion, including but not limited to immunomodulation, activation of coagulation, endothelial activation, and others. To optimally reduce such an impact on blood product quality degradation and improve post-transfusion outcomes, better methods for detection, enumeration, characterisation by size and phenotype, and functional involvement of EVs in different pathophysiological and physiological processes are required. Currently, Imaging Flow Cytometry (IFC) technology provides the most comprehensive assessment of EV subsets in different body fluids. The unique ability of IFC to detect EVs of 20 nm size by registration of a single pixel of fluorescence signal makes this approach highly promising for comprehensive studies of EVs. In this review, we will focus on the recent breakthrough and advantages of using the ImageStreamX MKII IFC platform for the detection and characterisation of EVs and its future prospects for routine application of IFC in Transfusion Medicine." @default.
W3083460488 created "2020-09-11" @default.
W3083460488 creator A5051037168 @default.
W3083460488 creator A5081152811 @default.
W3083460488 creator A5086893238 @default.
W3083460488 date "2020-10-01" @default.
W3083460488 modified "2023-09-23" @default.
W3083460488 title "Assessment of extracellular vesicles using IFC for application in transfusion medicine" @default.
W3083460488 cites W1543826484 @default.
W3083460488 cites W1579855519 @default.
W3083460488 cites W1747884623 @default.
W3083460488 cites W1832220924 @default.
W3083460488 cites W1847225737 @default.
W3083460488 cites W1917937260 @default.
W3083460488 cites W1965434732 @default.
W3083460488 cites W1967473353 @default.
W3083460488 cites W1971416919 @default.
W3083460488 cites W1977355468 @default.
W3083460488 cites W1990356838 @default.
W3083460488 cites W1992226521 @default.
W3083460488 cites W2003909308 @default.
W3083460488 cites W2006919430 @default.
W3083460488 cites W2014869316 @default.
W3083460488 cites W2017269547 @default.
W3083460488 cites W2019589994 @default.
W3083460488 cites W2053904647 @default.
W3083460488 cites W2054410308 @default.
W3083460488 cites W2081128658 @default.
W3083460488 cites W2084908356 @default.
W3083460488 cites W2095793217 @default.
W3083460488 cites W2108375854 @default.
W3083460488 cites W2116510943 @default.
W3083460488 cites W2121354606 @default.
W3083460488 cites W2137048009 @default.
W3083460488 cites W2154344198 @default.
W3083460488 cites W2159114297 @default.
W3083460488 cites W2162159732 @default.
W3083460488 cites W2191816501 @default.
W3083460488 cites W2287454582 @default.
W3083460488 cites W2298186980 @default.
W3083460488 cites W2323793261 @default.
W3083460488 cites W2469818238 @default.
W3083460488 cites W2475713374 @default.
W3083460488 cites W2518431929 @default.
W3083460488 cites W2528350440 @default.
W3083460488 cites W2545909276 @default.
W3083460488 cites W2552764062 @default.
W3083460488 cites W2561961427 @default.
W3083460488 cites W2567355023 @default.
W3083460488 cites W2737817212 @default.
W3083460488 cites W2750796620 @default.
W3083460488 cites W2766975063 @default.
W3083460488 cites W2785880648 @default.
W3083460488 cites W2786202610 @default.
W3083460488 cites W2786514708 @default.
W3083460488 cites W2787963369 @default.
W3083460488 cites W2792846893 @default.
W3083460488 cites W2801111220 @default.
W3083460488 cites W2856651205 @default.
W3083460488 cites W2922181311 @default.
W3083460488 cites W2952696680 @default.
W3083460488 cites W2962176767 @default.
W3083460488 cites W2989014648 @default.
W3083460488 cites W324894807 @default.
W3083460488 cites W4230029308 @default.
W3083460488 cites W4230882199 @default.
W3083460488 doi "https://doi.org/10.1016/j.transci.2020.102942" @default.
W3083460488 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32943325" @default.
W3083460488 hasPublicationYear "2020" @default.
W3083460488 type Work @default.
W3083460488 sameAs 3083460488 @default.
W3083460488 citedByCount "2" @default.
W3083460488 countsByYear W30834604882021 @default.
W3083460488 crossrefType "journal-article" @default.
W3083460488 hasAuthorship W3083460488A5051037168 @default.
W3083460488 hasAuthorship W3083460488A5081152811 @default.
W3083460488 hasAuthorship W3083460488A5086893238 @default.
W3083460488 hasConcept C136229726 @default.
W3083460488 hasConcept C203014093 @default.
W3083460488 hasConcept C2780014101 @default.
W3083460488 hasConcept C2992929900 @default.
W3083460488 hasConcept C553184892 @default.
W3083460488 hasConcept C71924100 @default.
W3083460488 hasConcept C79592252 @default.
W3083460488 hasConcept C86803240 @default.
W3083460488 hasConcept C95444343 @default.
W3083460488 hasConceptScore W3083460488C136229726 @default.
W3083460488 hasConceptScore W3083460488C203014093 @default.
W3083460488 hasConceptScore W3083460488C2780014101 @default.
W3083460488 hasConceptScore W3083460488C2992929900 @default.
W3083460488 hasConceptScore W3083460488C553184892 @default.
W3083460488 hasConceptScore W3083460488C71924100 @default.
W3083460488 hasConceptScore W3083460488C79592252 @default.
W3083460488 hasConceptScore W3083460488C86803240 @default.
W3083460488 hasConceptScore W3083460488C95444343 @default.
W3083460488 hasFunder F4320315885 @default.
W3083460488 hasFunder F4320319874 @default.
W3083460488 hasLocation W30834604881 @default.
W3083460488 hasLocation W30834604882 @default.
W3083460488 hasOpenAccess W3083460488 @default.