FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2000204631> ?p ?o ?g. }

• W2000204631 endingPage "52" @default.
• W2000204631 startingPage "43" @default.
• W2000204631 abstract "To investigate the independent effect of myocardial wall thickness and myocardial perfusion pressure on integrated backscatter, experiments were designed in which integrated backscatter of normally perfused myocardial tissue was measured while changes in wall thickness during the cardiac cycle were reduced to a minimum. In nine blood-perfused isolated pig hearts, perfusion pressure was uncoupled from left ventricular pressure generation (Langendorff method) and isovolumic contraction and relaxation were realized by inserting a noncompressible water-filled balloon into the left ventricle. In a first experiment, at constant perfusion pressure (85 mmHg), the integrated backscatter (3-7 MHz), the myocardial wall thickness and the left ventricular pressure were determined simultaneously at various balloon volumes (5-25 mL). A quasistatic increase of balloon volume by 50% resulted in an average decrease of wall thickness of 6.5% (p < 0.01) and a mean increase in the integrated backscatter level of 1.1 dB (p < 0.01). Integrated backscatter levels increased statistically significant by 0.14 +/- 0.014 dB per percent decrease of wall thickness. Measurements of percentage end-systolic myocardial wall thickening ranged from -10% to +10%, mean 0.15 +/- 4.5% (NS from zero); whereas cyclic variation of integrated backscatter ranged from -3.9 to +3.9 dB, mean 0.19 +/- 1.5 dB (NS from zero). In a second experiment, at a constant midrange balloon volume, the same parameters were determined simultaneously at various perfusion pressures (20-120 mmHg). An increase in perfusion pressure by 50% resulted in a small but statistically significant increase of 1.5% in myocardial wall thickness, which could be explained by an increase of intravascular volume. The integrated backscatter levels did not change statistically significantly. Measurements of percentage end-systolic myocardial wall thickening ranged from -8.9 to +7.8%, mean 0.13 +/- 4.0% (NS from zero); whereas cyclic variation of integrated backscatter ranged from -1.8 to +4.2 dB, mean 0.37 +/- 1.3 dB (NS from zero). The magnitude of cyclic variation of integrated backscatter of myocardial tissue in a contractile state is reduced if myocardial muscle is prevented from normal thickening. In addition, changes in intravascular volume during the cardiac cycle have a negligible influence on the absolute backscatter level or its cyclic variation. We conclude, if only wall thickness and perfusion pressure are involved, that integrated backscatter is mainly determined by myocardial wall thickness." @default.
• W2000204631 created "2016-06-24" @default.
• W2000204631 creator A5013681298 @default.
• W2000204631 creator A5015534519 @default.
• W2000204631 creator A5026257885 @default.
• W2000204631 creator A5035908602 @default.
• W2000204631 creator A5053055799 @default.
• W2000204631 creator A5056028043 @default.
• W2000204631 creator A5065549628 @default.
• W2000204631 creator A5081216686 @default.
• W2000204631 date "1996-01-01" @default.
• W2000204631 modified "2023-09-27" @default.
• W2000204631 title "The relationship between myocardial integrated backscatter, perfusion pressure and wall thickness during isovolumic contraction: An isolated pig heart study" @default.
• W2000204631 cites W1823564252 @default.
• W2000204631 cites W1837663599 @default.
• W2000204631 cites W1965477939 @default.
• W2000204631 cites W1965728853 @default.
• W2000204631 cites W1972463811 @default.
• W2000204631 cites W1973083813 @default.
• W2000204631 cites W1973692995 @default.
• W2000204631 cites W1977403962 @default.
• W2000204631 cites W1984721343 @default.
• W2000204631 cites W1986934337 @default.
• W2000204631 cites W1998344040 @default.
• W2000204631 cites W2008648442 @default.
• W2000204631 cites W2029700413 @default.
• W2000204631 cites W2037216500 @default.
• W2000204631 cites W2046350742 @default.
• W2000204631 cites W2049977945 @default.
• W2000204631 cites W2057089198 @default.
• W2000204631 cites W2058653330 @default.
• W2000204631 cites W2060071673 @default.
• W2000204631 cites W2073404579 @default.
• W2000204631 cites W2083482213 @default.
• W2000204631 cites W2084069189 @default.
• W2000204631 cites W2084925102 @default.
• W2000204631 cites W2091616968 @default.
• W2000204631 cites W2094959483 @default.
• W2000204631 cites W2101534336 @default.
• W2000204631 cites W2121359677 @default.
• W2000204631 cites W2145950740 @default.
• W2000204631 cites W2149916175 @default.
• W2000204631 cites W2162837747 @default.
• W2000204631 cites W2222493576 @default.
• W2000204631 cites W2321985616 @default.
• W2000204631 cites W2418664614 @default.
• W2000204631 cites W2504256417 @default.
• W2000204631 cites W3013430759 @default.
• W2000204631 cites W620048507 @default.
• W2000204631 cites W91472848 @default.
• W2000204631 doi "https://doi.org/10.1016/0301-5629(95)02030-6" @default.
• W2000204631 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/8928316" @default.
• W2000204631 hasPublicationYear "1996" @default.
• W2000204631 type Work @default.
• W2000204631 sameAs 2000204631 @default.
• W2000204631 citedByCount "14" @default.
• W2000204631 crossrefType "journal-article" @default.
• W2000204631 hasAuthorship W2000204631A5013681298 @default.
• W2000204631 hasAuthorship W2000204631A5015534519 @default.
• W2000204631 hasAuthorship W2000204631A5026257885 @default.
• W2000204631 hasAuthorship W2000204631A5035908602 @default.
• W2000204631 hasAuthorship W2000204631A5053055799 @default.
• W2000204631 hasAuthorship W2000204631A5056028043 @default.
• W2000204631 hasAuthorship W2000204631A5065549628 @default.
• W2000204631 hasAuthorship W2000204631A5081216686 @default.
• W2000204631 hasBestOaLocation W20002046312 @default.
• W2000204631 hasConcept C126322002 @default.
• W2000204631 hasConcept C136229726 @default.
• W2000204631 hasConcept C139059822 @default.
• W2000204631 hasConcept C146957229 @default.
• W2000204631 hasConcept C163415756 @default.
• W2000204631 hasConcept C164705383 @default.
• W2000204631 hasConcept C178853913 @default.
• W2000204631 hasConcept C192562407 @default.
• W2000204631 hasConcept C26635844 @default.
• W2000204631 hasConcept C2777055891 @default.
• W2000204631 hasConcept C2777862461 @default.
• W2000204631 hasConcept C2778165595 @default.
• W2000204631 hasConcept C2778921608 @default.
• W2000204631 hasConcept C30354325 @default.
• W2000204631 hasConcept C39078644 @default.
• W2000204631 hasConcept C41008148 @default.
• W2000204631 hasConcept C42219234 @default.
• W2000204631 hasConcept C555944384 @default.
• W2000204631 hasConcept C57900726 @default.
• W2000204631 hasConcept C71924100 @default.
• W2000204631 hasConcept C76155785 @default.
• W2000204631 hasConcept C84393581 @default.
• W2000204631 hasConceptScore W2000204631C126322002 @default.
• W2000204631 hasConceptScore W2000204631C136229726 @default.
• W2000204631 hasConceptScore W2000204631C139059822 @default.
• W2000204631 hasConceptScore W2000204631C146957229 @default.
• W2000204631 hasConceptScore W2000204631C163415756 @default.
• W2000204631 hasConceptScore W2000204631C164705383 @default.
• W2000204631 hasConceptScore W2000204631C178853913 @default.
• W2000204631 hasConceptScore W2000204631C192562407 @default.
• W2000204631 hasConceptScore W2000204631C26635844 @default.
• W2000204631 hasConceptScore W2000204631C2777055891 @default.

• next