SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2113136548> ?p ?o ?g. }

Showing items 1 to 100 of ±136 with 100 items per page.

W2113136548 endingPage "1857" @default.
W2113136548 startingPage "1852" @default.
W2113136548 abstract "In vivo cell tracking by MRI can provide means to observe biological processes and monitor cell therapy directly. Immune cells, e.g., macrophages, play crucial roles in many pathophysiological processes, including organ rejection, inflammation, autoimmune diseases, cancer, atherosclerotic plaque formation, numerous neurological disorders, etc. The current gold standard for diagnosing and staging rejection after organ transplantation is biopsy, which is not only invasive, but also prone to sampling errors. Here, we report a noninvasive approach using MRI to detect graft rejection after solid organ transplantation. In addition, we present the feasibility of imaging individual macrophages in vivo by MRI in a rodent heterotopic working-heart transplantation model using a more sensitive contrast agent, the micrometer-sized paramagnetic iron oxide particle, as a methodology to detect acute cardiac rejection." @default.
W2113136548 created "2016-06-24" @default.
W2113136548 creator A5009400572 @default.
W2113136548 creator A5015065243 @default.
W2113136548 creator A5018999020 @default.
W2113136548 creator A5022501599 @default.
W2113136548 creator A5054832727 @default.
W2113136548 creator A5075307449 @default.
W2113136548 creator A5089194366 @default.
W2113136548 date "2006-01-27" @default.
W2113136548 modified "2023-10-10" @default.
W2113136548 title "<i>In situ</i> labeling of immune cells with iron oxide particles: An approach to detect organ rejection by cellular MRI" @default.
W2113136548 cites W1510613202 @default.
W2113136548 cites W1691531378 @default.
W2113136548 cites W180714979 @default.
W2113136548 cites W181141230 @default.
W2113136548 cites W1976062460 @default.
W2113136548 cites W1976512003 @default.
W2113136548 cites W1976721556 @default.
W2113136548 cites W1979081771 @default.
W2113136548 cites W1986621423 @default.
W2113136548 cites W2004083062 @default.
W2113136548 cites W2006224145 @default.
W2113136548 cites W2010752752 @default.
W2113136548 cites W2012301092 @default.
W2113136548 cites W2019463354 @default.
W2113136548 cites W2025817925 @default.
W2113136548 cites W2031178652 @default.
W2113136548 cites W2031565650 @default.
W2113136548 cites W2031783970 @default.
W2113136548 cites W2035238560 @default.
W2113136548 cites W2060635700 @default.
W2113136548 cites W2073294682 @default.
W2113136548 cites W2077754688 @default.
W2113136548 cites W2083568292 @default.
W2113136548 cites W2089572671 @default.
W2113136548 cites W2090938843 @default.
W2113136548 cites W2091083216 @default.
W2113136548 cites W2109911494 @default.
W2113136548 cites W2118331929 @default.
W2113136548 cites W2119161500 @default.
W2113136548 cites W2120666169 @default.
W2113136548 cites W2121045793 @default.
W2113136548 cites W2128113402 @default.
W2113136548 cites W2130578018 @default.
W2113136548 cites W2163465346 @default.
W2113136548 cites W2169928944 @default.
W2113136548 cites W2171843676 @default.
W2113136548 cites W2223214578 @default.
W2113136548 cites W2334263760 @default.
W2113136548 cites W2415428942 @default.
W2113136548 cites W4243163770 @default.
W2113136548 doi "https://doi.org/10.1073/pnas.0507198103" @default.
W2113136548 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/1413627" @default.
W2113136548 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/16443687" @default.
W2113136548 hasPublicationYear "2006" @default.
W2113136548 type Work @default.
W2113136548 sameAs 2113136548 @default.
W2113136548 citedByCount "196" @default.
W2113136548 countsByYear W21131365482012 @default.
W2113136548 countsByYear W21131365482013 @default.
W2113136548 countsByYear W21131365482014 @default.
W2113136548 countsByYear W21131365482015 @default.
W2113136548 countsByYear W21131365482016 @default.
W2113136548 countsByYear W21131365482017 @default.
W2113136548 countsByYear W21131365482018 @default.
W2113136548 countsByYear W21131365482019 @default.
W2113136548 countsByYear W21131365482020 @default.
W2113136548 countsByYear W21131365482021 @default.
W2113136548 countsByYear W21131365482022 @default.
W2113136548 countsByYear W21131365482023 @default.
W2113136548 crossrefType "journal-article" @default.
W2113136548 hasAuthorship W2113136548A5009400572 @default.
W2113136548 hasAuthorship W2113136548A5015065243 @default.
W2113136548 hasAuthorship W2113136548A5018999020 @default.
W2113136548 hasAuthorship W2113136548A5022501599 @default.
W2113136548 hasAuthorship W2113136548A5054832727 @default.
W2113136548 hasAuthorship W2113136548A5075307449 @default.
W2113136548 hasAuthorship W2113136548A5089194366 @default.
W2113136548 hasBestOaLocation W21131365482 @default.
W2113136548 hasConcept C126838900 @default.
W2113136548 hasConcept C141071460 @default.
W2113136548 hasConcept C142724271 @default.
W2113136548 hasConcept C143409427 @default.
W2113136548 hasConcept C150903083 @default.
W2113136548 hasConcept C168444539 @default.
W2113136548 hasConcept C203014093 @default.
W2113136548 hasConcept C207001950 @default.
W2113136548 hasConcept C2775934546 @default.
W2113136548 hasConcept C2776914184 @default.
W2113136548 hasConcept C2778849806 @default.
W2113136548 hasConcept C2780179540 @default.
W2113136548 hasConcept C2911091166 @default.
W2113136548 hasConcept C71924100 @default.
W2113136548 hasConcept C86803240 @default.
W2113136548 hasConcept C8891405 @default.
W2113136548 hasConceptScore W2113136548C126838900 @default.
W2113136548 hasConceptScore W2113136548C141071460 @default.