SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2295595360> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W2295595360 endingPage "32" @default.
W2295595360 startingPage "22" @default.
W2295595360 abstract "Background and Objectives Damage‐associated molecular patterns ( DAMP s) are found in transfusion products, but their potential impacts are not fully understood. We examined the influence of manufacturing method on levels of mitochondrial (mt) DNA and extracellular vesicle ( EV ) DAMP s in red cell concentrates ( RCC s). Materials and Methods Eighty‐seven RCC s were prepared using nine different methods (6–15 units/method), including three apheresis, five whole blood ( WB )‐derived leucoreduced ( LR ) and one WB ‐derived non‐ LR method. On storage days 5 and 42, levels of mt DNA (by PCR ) and number and cell of origin of EV s (by flow cytometry) were assessed in RCC supernatants. Results There was a 100‐fold difference in mt DNA levels among methods, with highest levels in non‐ LR , followed by MCS + and Trima apheresis RCC s. There was a 10‐fold difference in EV levels among methods. RBC ‐derived CD 235a+ EV s were found in fresh RCC s and increased in most during storage. Platelet‐derived CD 41a+ EV s were highest in non‐ LR and Trima RCC s and did not change during storage. WBC ‐derived EV s were low in most RCC s; CD 14+ EV s increased in several RCC s during storage. Conclusion DAMP s in RCC s vary by manufacturing method. Mt DNA and EV could be informative quality markers that may be relevant to RCC immunomodulatory potential." @default.
W2295595360 created "2016-06-24" @default.
W2295595360 creator A5003890403 @default.
W2295595360 creator A5010794296 @default.
W2295595360 creator A5048472159 @default.
W2295595360 creator A5051080788 @default.
W2295595360 creator A5061116125 @default.
W2295595360 creator A5062975649 @default.
W2295595360 creator A5066583392 @default.
W2295595360 date "2016-02-25" @default.
W2295595360 modified "2023-10-15" @default.
W2295595360 title "Manufacturing method affects mitochondrial <scp>DNA</scp> release and extracellular vesicle composition in stored red blood cells" @default.
W2295595360 cites W1491934251 @default.
W2295595360 cites W1504213248 @default.
W2295595360 cites W1580524263 @default.
W2295595360 cites W1580922922 @default.
W2295595360 cites W1582012726 @default.
W2295595360 cites W1596808825 @default.
W2295595360 cites W1878818111 @default.
W2295595360 cites W1899861477 @default.
W2295595360 cites W1967473353 @default.
W2295595360 cites W1970672962 @default.
W2295595360 cites W1976646436 @default.
W2295595360 cites W1977355468 @default.
W2295595360 cites W1994149016 @default.
W2295595360 cites W1998599956 @default.
W2295595360 cites W2006919430 @default.
W2295595360 cites W2013792279 @default.
W2295595360 cites W2018636682 @default.
W2295595360 cites W2019589994 @default.
W2295595360 cites W2022613860 @default.
W2295595360 cites W2028790836 @default.
W2295595360 cites W2029821423 @default.
W2295595360 cites W2032271333 @default.
W2295595360 cites W2035934312 @default.
W2295595360 cites W2037436683 @default.
W2295595360 cites W2044887205 @default.
W2295595360 cites W2046882647 @default.
W2295595360 cites W2048199329 @default.
W2295595360 cites W2048353869 @default.
W2295595360 cites W2048594786 @default.
W2295595360 cites W2060157902 @default.
W2295595360 cites W2080681346 @default.
W2295595360 cites W2084456377 @default.
W2295595360 cites W2099445014 @default.
W2295595360 cites W2100586646 @default.
W2295595360 cites W2105335509 @default.
W2295595360 cites W2110684718 @default.
W2295595360 cites W2110999906 @default.
W2295595360 cites W2122013546 @default.
W2295595360 cites W2123030744 @default.
W2295595360 cites W2134219545 @default.
W2295595360 cites W2135391597 @default.
W2295595360 cites W2137274600 @default.
W2295595360 cites W2146494489 @default.
W2295595360 cites W2148170224 @default.
W2295595360 cites W2148666960 @default.
W2295595360 cites W2150594596 @default.
W2295595360 cites W2151125432 @default.
W2295595360 cites W2161765652 @default.
W2295595360 cites W2165572246 @default.
W2295595360 cites W2166195796 @default.
W2295595360 cites W4230029308 @default.
W2295595360 cites W4239321487 @default.
W2295595360 doi "https://doi.org/10.1111/vox.12390" @default.
W2295595360 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26918437" @default.
W2295595360 hasPublicationYear "2016" @default.
W2295595360 type Work @default.
W2295595360 sameAs 2295595360 @default.
W2295595360 citedByCount "59" @default.
W2295595360 countsByYear W22955953602016 @default.
W2295595360 countsByYear W22955953602017 @default.
W2295595360 countsByYear W22955953602018 @default.
W2295595360 countsByYear W22955953602019 @default.
W2295595360 countsByYear W22955953602020 @default.
W2295595360 countsByYear W22955953602021 @default.
W2295595360 countsByYear W22955953602022 @default.
W2295595360 countsByYear W22955953602023 @default.
W2295595360 crossrefType "journal-article" @default.
W2295595360 hasAuthorship W2295595360A5003890403 @default.
W2295595360 hasAuthorship W2295595360A5010794296 @default.
W2295595360 hasAuthorship W2295595360A5048472159 @default.
W2295595360 hasAuthorship W2295595360A5051080788 @default.
W2295595360 hasAuthorship W2295595360A5061116125 @default.
W2295595360 hasAuthorship W2295595360A5062975649 @default.
W2295595360 hasAuthorship W2295595360A5066583392 @default.
W2295595360 hasConcept C104317684 @default.
W2295595360 hasConcept C145059251 @default.
W2295595360 hasConcept C153911025 @default.
W2295595360 hasConcept C16685009 @default.
W2295595360 hasConcept C185592680 @default.
W2295595360 hasConcept C203014093 @default.
W2295595360 hasConcept C20518536 @default.
W2295595360 hasConcept C2776738589 @default.
W2295595360 hasConcept C2908689518 @default.
W2295595360 hasConcept C2992929900 @default.
W2295595360 hasConcept C553184892 @default.
W2295595360 hasConcept C55493867 @default.