SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2394646545> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W2394646545 endingPage "S12" @default.
W2394646545 startingPage "S1" @default.
W2394646545 abstract "Our present focus on the hypoxic immature heart is driven by clinical urgency: cyanotic congenital cardiac malformations remain the single largest cause of mortality from congenital defects and ischemic heart disease is no more the disease of the fifth and older decades but its origin as well as risk factors are present already during early ontogeny. Moreover, the number of adult patients operated for cyanotic congenital heart disease during infancy steadily increases. This group approaches the age of the rising risk of serious cardiovascular diseases, particularly ischemic heart disease. Experimental results have clearly shown that the immature heart is significantly more tolerant to oxygen deficiency than the adult myocardium. However, the mechanisms of this difference have not yet been satisfactorily clarified; they are likely the result of developmental changes in cardiac energy metabolism, including mitochondrial function. The high resistance of the newborn heart cannot be further increased by ischemic preconditioning or adaptation to chronic hypoxia; these protective mechanisms appear only with decreasing tolerance during development. Resistance of the adult myocardium to acute oxygen deprivation may be significantly influenced by perinatal hypoxia. These results suggest that the developmental approach offers new possibilities in the studies of pathogenesis, prevention and therapy of critical cardiovascular diseases." @default.
W2394646545 created "2016-06-24" @default.
W2394646545 creator A5000647069 @default.
W2394646545 creator A5058648409 @default.
W2394646545 creator A5065843677 @default.
W2394646545 creator A5067265472 @default.
W2394646545 creator A5090252878 @default.
W2394646545 date "2009-01-01" @default.
W2394646545 modified "2023-10-14" @default.
W2394646545 title "Ontogenetic development of cardiac tolerance to oxygen deprivation – possible mechanisms" @default.
W2394646545 cites W1562602651 @default.
W2394646545 cites W1586962800 @default.
W2394646545 cites W169790385 @default.
W2394646545 cites W1969369031 @default.
W2394646545 cites W1971034264 @default.
W2394646545 cites W1976733887 @default.
W2394646545 cites W1985383605 @default.
W2394646545 cites W1992604280 @default.
W2394646545 cites W1992659717 @default.
W2394646545 cites W1996867825 @default.
W2394646545 cites W2017668459 @default.
W2394646545 cites W2018611729 @default.
W2394646545 cites W2022043412 @default.
W2394646545 cites W2024457456 @default.
W2394646545 cites W2029339610 @default.
W2394646545 cites W2036994417 @default.
W2394646545 cites W2039052218 @default.
W2394646545 cites W2040485261 @default.
W2394646545 cites W2046348353 @default.
W2394646545 cites W2047876380 @default.
W2394646545 cites W2048489152 @default.
W2394646545 cites W2048786620 @default.
W2394646545 cites W2048792488 @default.
W2394646545 cites W2050175680 @default.
W2394646545 cites W2051484482 @default.
W2394646545 cites W2053254618 @default.
W2394646545 cites W2056020659 @default.
W2394646545 cites W2061250644 @default.
W2394646545 cites W2063099262 @default.
W2394646545 cites W2065062223 @default.
W2394646545 cites W2065973180 @default.
W2394646545 cites W2069974084 @default.
W2394646545 cites W2071801517 @default.
W2394646545 cites W2074800090 @default.
W2394646545 cites W2082013808 @default.
W2394646545 cites W2082850842 @default.
W2394646545 cites W2086881564 @default.
W2394646545 cites W2111732786 @default.
W2394646545 cites W2116478879 @default.
W2394646545 cites W2119287337 @default.
W2394646545 cites W2119927647 @default.
W2394646545 cites W2130182990 @default.
W2394646545 cites W2131053807 @default.
W2394646545 cites W2141116181 @default.
W2394646545 cites W2142226883 @default.
W2394646545 cites W2146217294 @default.
W2394646545 cites W2147640676 @default.
W2394646545 cites W2152287187 @default.
W2394646545 cites W2171456724 @default.
W2394646545 cites W2180121032 @default.
W2394646545 cites W2182373479 @default.
W2394646545 cites W2188478913 @default.
W2394646545 cites W2277824238 @default.
W2394646545 cites W2326160676 @default.
W2394646545 cites W2397126240 @default.
W2394646545 cites W2402421189 @default.
W2394646545 cites W2410652942 @default.
W2394646545 cites W2410722365 @default.
W2394646545 cites W2411686629 @default.
W2394646545 cites W2412964779 @default.
W2394646545 cites W2414232020 @default.
W2394646545 cites W2416632105 @default.
W2394646545 cites W2421436228 @default.
W2394646545 cites W2426443978 @default.
W2394646545 cites W2438645491 @default.
W2394646545 cites W2439384479 @default.
W2394646545 cites W2464727448 @default.
W2394646545 cites W2467032869 @default.
W2394646545 cites W2586831009 @default.
W2394646545 cites W2611100928 @default.
W2394646545 cites W93606006 @default.
W2394646545 cites W1987856870 @default.
W2394646545 doi "https://doi.org/10.33549/physiolres.931920" @default.
W2394646545 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20131927" @default.
W2394646545 hasPublicationYear "2009" @default.
W2394646545 type Work @default.
W2394646545 sameAs 2394646545 @default.
W2394646545 citedByCount "23" @default.
W2394646545 countsByYear W23946465452012 @default.
W2394646545 countsByYear W23946465452013 @default.
W2394646545 countsByYear W23946465452014 @default.
W2394646545 countsByYear W23946465452015 @default.
W2394646545 countsByYear W23946465452018 @default.
W2394646545 countsByYear W23946465452019 @default.
W2394646545 countsByYear W23946465452020 @default.
W2394646545 countsByYear W23946465452022 @default.
W2394646545 countsByYear W23946465452023 @default.
W2394646545 crossrefType "journal-article" @default.