SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4309090971> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W4309090971 endingPage "13435" @default.
W4309090971 startingPage "13435" @default.
W4309090971 abstract "Reactive oxygen species (ROS) can irreversibly damage biological molecules, a process known as oxidative stress. Elevated ROS levels are associated with immune cell activation. Sustained immune system activation can affect many different cells in the environment. One cell type that has been detected in almost all tissues of the body is mesenchymal stem/stromal cells (MSC). MSC possess proliferation and differentiation potential, thus facilitating regeneration processes. However, the regenerative capacity of MSC might be impaired by oxidative stress, and the effects of long-term oxidative stress on MSC functions are sparsely described. The examination of oxidative stress is often performed by exposure to H2O2. Since H2O2 is rapidly degraded, we additionally exposed the cell cultures to glucose oxidase (GOx), resulting in sustained exposure to H2O2. Using these model systems, we have focused on the effects of short- and long-term oxidative stress on viability, migration, differentiation, and signaling. All cellular functions examined were affected by the applied oxidative stress. The differences that occur between pulsed and sustained oxidative stress indicated higher oxidative stress in MSC upon direct H2O2 exposure, whereas the GOx-induced prolonged exposure to H2O2 seems to allow for better cellular adaptation. The mechanisms underlying these different responses are currently unknown." @default.
W4309090971 created "2022-11-21" @default.
W4309090971 creator A5001598640 @default.
W4309090971 creator A5007140629 @default.
W4309090971 creator A5037136008 @default.
W4309090971 creator A5059241501 @default.
W4309090971 creator A5069425099 @default.
W4309090971 creator A5090387847 @default.
W4309090971 date "2022-11-03" @default.
W4309090971 modified "2023-10-04" @default.
W4309090971 title "Oxidative Stress Response in Adipose Tissue-Derived Mesenchymal Stem/Stromal Cells" @default.
W4309090971 cites W1165140024 @default.
W4309090971 cites W1608366086 @default.
W4309090971 cites W1965817281 @default.
W4309090971 cites W1973794493 @default.
W4309090971 cites W1988352131 @default.
W4309090971 cites W1990483093 @default.
W4309090971 cites W1997238548 @default.
W4309090971 cites W2006084919 @default.
W4309090971 cites W2011242572 @default.
W4309090971 cites W2011591898 @default.
W4309090971 cites W2019227799 @default.
W4309090971 cites W2023538191 @default.
W4309090971 cites W2023596226 @default.
W4309090971 cites W2025371271 @default.
W4309090971 cites W2033640443 @default.
W4309090971 cites W2035376320 @default.
W4309090971 cites W2045456080 @default.
W4309090971 cites W2045673327 @default.
W4309090971 cites W2049446122 @default.
W4309090971 cites W2050536754 @default.
W4309090971 cites W2062845561 @default.
W4309090971 cites W2068102085 @default.
W4309090971 cites W2085128107 @default.
W4309090971 cites W2095132685 @default.
W4309090971 cites W2100176528 @default.
W4309090971 cites W2105016447 @default.
W4309090971 cites W2109127788 @default.
W4309090971 cites W2128473487 @default.
W4309090971 cites W2168243049 @default.
W4309090971 cites W2169117470 @default.
W4309090971 cites W2220643393 @default.
W4309090971 cites W2277468569 @default.
W4309090971 cites W2283559094 @default.
W4309090971 cites W2506002793 @default.
W4309090971 cites W2519786994 @default.
W4309090971 cites W2559758626 @default.
W4309090971 cites W2566652846 @default.
W4309090971 cites W2580035316 @default.
W4309090971 cites W2587925420 @default.
W4309090971 cites W2739744829 @default.
W4309090971 cites W2752032988 @default.
W4309090971 cites W2780349622 @default.
W4309090971 cites W2792667030 @default.
W4309090971 cites W2800011091 @default.
W4309090971 cites W2802167664 @default.
W4309090971 cites W2895841640 @default.
W4309090971 cites W2956330931 @default.
W4309090971 cites W3002002742 @default.
W4309090971 cites W3005406072 @default.
W4309090971 cites W3017247232 @default.
W4309090971 cites W3038053879 @default.
W4309090971 cites W3046836243 @default.
W4309090971 cites W3083880496 @default.
W4309090971 cites W3092201751 @default.
W4309090971 cites W3107008001 @default.
W4309090971 cites W3127867199 @default.
W4309090971 cites W3163579061 @default.
W4309090971 cites W3182042652 @default.
W4309090971 cites W3184791907 @default.
W4309090971 cites W4200385263 @default.
W4309090971 cites W4214495168 @default.
W4309090971 cites W4224929260 @default.
W4309090971 cites W4225133083 @default.
W4309090971 cites W4287879577 @default.
W4309090971 cites W4288724495 @default.
W4309090971 cites W73822081 @default.
W4309090971 doi "https://doi.org/10.3390/ijms232113435" @default.
W4309090971 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36362223" @default.
W4309090971 hasPublicationYear "2022" @default.
W4309090971 type Work @default.
W4309090971 citedByCount "3" @default.
W4309090971 countsByYear W43090909712023 @default.
W4309090971 crossrefType "journal-article" @default.
W4309090971 hasAuthorship W4309090971A5001598640 @default.
W4309090971 hasAuthorship W4309090971A5007140629 @default.
W4309090971 hasAuthorship W4309090971A5037136008 @default.
W4309090971 hasAuthorship W4309090971A5059241501 @default.
W4309090971 hasAuthorship W4309090971A5069425099 @default.
W4309090971 hasAuthorship W4309090971A5090387847 @default.
W4309090971 hasBestOaLocation W43090909711 @default.
W4309090971 hasConcept C16930146 @default.
W4309090971 hasConcept C171056886 @default.
W4309090971 hasConcept C171089720 @default.
W4309090971 hasConcept C185592680 @default.
W4309090971 hasConcept C198826908 @default.
W4309090971 hasConcept C2776151105 @default.
W4309090971 hasConcept C2779719074 @default.