FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1986175023> ?p ?o ?g. }

• W1986175023 endingPage "1143" @default.
• W1986175023 startingPage "1135" @default.
• W1986175023 abstract "Guntheroth et al 1 Guntheroth WC Luchtel DL Kawabari I. Functional implications of the pulmonary microcirculation. Chest. 1992; 101: 1131-1134 Abstract Full Text Full Text PDF Scopus (8) Google Scholar presented two striking scanning electron micrographs of rubber casts of the rat pulmonary microvasculature and drew a number of conclusions from them, with which they sought to discredit our analysis 2 Fung YC Sobin SS. Theory of sheet flow in lung alveoli. J Appl Physiol. 1969; 26: 472-488 PubMed Google Scholar , 3 Sobin SS Tremer HM Fung YC. Morphometric basis of the sheet-flow concept of the pulmonary alveolar microcirculation in the cat. Circ Res. 1970; 26: 397-414 Crossref PubMed Scopus (68) Google Scholar , 4 Sobin SS Fung YC Tremer HM Rosenquist TH. Elasticity of the pulmonary alveolar microvascular sheet in the cat. Circ Res. 1972; 30: 440-490 Crossref PubMed Scopus (61) Google Scholar , 5 Fung YC Sobin SS. Elasticity of the pulmonary alveolar sheet. Circ Res. 1972; 30: 451-469 Crossref PubMed Scopus (75) Google Scholar , 6 Fung YC Sobin SS. Pulmonary alveolar blood flow. Circ Res. 1972; 30: 470-490 Crossref PubMed Scopus (82) Google Scholar , 7 Fung YC. Fluid in the interstitial space of the pulmonary alveolar sheet. Microvasc Res. 1974; 7: 89-113 Crossref PubMed Scopus (11) Google Scholar , 8 Fung YC Sobin SS. Pulmonary alveolar blood flow. in: West JB Bioengineering aspects of the lung. M Dekker, New York1977: 270 Google Scholar , 9 Fung YC Yen RT. A new theory of pulmonary blood flow in zone 2 condition. J Appl Physiol. 1986; 60: 1638-1650 PubMed Google Scholar of pulmonary blood flow. Their main conclusions were: (1)The alveolar microcirculation is composed of a tight meshwork of intersecting tubules in two layers, on either side of the alveolar septum, with frequent interconnecting branches. (2)The tubular length is greater than the diameter; therefore, Poiseuille's law would not be invalid if applied to this circulation. (3)Weibel's 10 Weibel ER. Morphometry of the human lung. Springer-Verlag, Berlin1963: 78 Google Scholar hexagonal tubular network model and Sobin and Fung's 2 Fung YC Sobin SS. Theory of sheet flow in lung alveoli. J Appl Physiol. 1969; 26: 472-488 PubMed Google Scholar , 3 Sobin SS Tremer HM Fung YC. Morphometric basis of the sheet-flow concept of the pulmonary alveolar microcirculation in the cat. Circ Res. 1970; 26: 397-414 Crossref PubMed Scopus (68) Google Scholar , 4 Sobin SS Fung YC Tremer HM Rosenquist TH. Elasticity of the pulmonary alveolar microvascular sheet in the cat. Circ Res. 1972; 30: 440-490 Crossref PubMed Scopus (61) Google Scholar , 5 Fung YC Sobin SS. Elasticity of the pulmonary alveolar sheet. Circ Res. 1972; 30: 451-469 Crossref PubMed Scopus (75) Google Scholar , 6 Fung YC Sobin SS. Pulmonary alveolar blood flow. Circ Res. 1972; 30: 470-490 Crossref PubMed Scopus (82) Google Scholar , 7 Fung YC. Fluid in the interstitial space of the pulmonary alveolar sheet. Microvasc Res. 1974; 7: 89-113 Crossref PubMed Scopus (11) Google Scholar , 8 Fung YC Sobin SS. Pulmonary alveolar blood flow. in: West JB Bioengineering aspects of the lung. M Dekker, New York1977: 270 Google Scholar , 9 Fung YC Yen RT. A new theory of pulmonary blood flow in zone 2 condition. J Appl Physiol. 1986; 60: 1638-1650 PubMed Google Scholar sheet flow model are both contradicted by scanning electron micrographs of Guntheroth et al. 1 Guntheroth WC Luchtel DL Kawabari I. Functional implications of the pulmonary microcirculation. Chest. 1992; 101: 1131-1134 Abstract Full Text Full Text PDF Scopus (8) Google Scholar (4)The capillaries on the pleural surfaces and peribronchial spaces are low density, long tubular meshwork, „unequivocally composed of conventional capillaries.” The sheet-flow model cannot be applied to networks of lower density. (5)Guntheroth et al 1 Guntheroth WC Luchtel DL Kawabari I. Functional implications of the pulmonary microcirculation. Chest. 1992; 101: 1131-1134 Abstract Full Text Full Text PDF Scopus (8) Google Scholar tell the reader that we have either said or implied the following, which we did not: (a)The sheet thickness (h) was linearly related to distending pressure all the way so that the sheet will not collapse in zone 1 condition. The smallest thickness „h” is 4.3 µm. (b)The elastic fibers radiate from focal points or posts, and are not distributed randomly in a way that almost ignores the posts. (c)All of the capillaries are „at the same distance apart,” or all posts have uniform diameters. (d)The sheet-and-post theory is not compatible with experimental data for three zones relating capillary pressures to alveolar pressure. (e)The sheet flow model will exclude recruitment. (f)Structural support of interalveolar septa interferes with diffusion. (g)Sheet flow will prevent pulsatile flow and cannot transmit pulmonary arterial pulse to the pulmonary vein." @default.
• W1986175023 created "2016-06-24" @default.
• W1986175023 creator A5012028695 @default.
• W1986175023 creator A5091516348 @default.
• W1986175023 date "1992-04-01" @default.
• W1986175023 modified "2023-09-24" @default.
• W1986175023 title "Response to Challenge to the Sobin-Fung Approach to the Study of Pulmonary Microcirculation" @default.
• W1986175023 cites W1559760218 @default.
• W1986175023 cites W1807447903 @default.
• W1986175023 cites W1811991816 @default.
• W1986175023 cites W1924465414 @default.
• W1986175023 cites W1958502838 @default.
• W1986175023 cites W1964716204 @default.
• W1986175023 cites W1969427477 @default.
• W1986175023 cites W1992609450 @default.
• W1986175023 cites W2004031656 @default.
• W1986175023 cites W2015542562 @default.
• W1986175023 cites W2026084699 @default.
• W1986175023 cites W2034820018 @default.
• W1986175023 cites W2097253466 @default.
• W1986175023 cites W2109591052 @default.
• W1986175023 cites W2115720378 @default.
• W1986175023 cites W2139795117 @default.
• W1986175023 cites W2142263392 @default.
• W1986175023 cites W2174338612 @default.
• W1986175023 cites W2192291757 @default.
• W1986175023 cites W2270662644 @default.
• W1986175023 cites W2282124314 @default.
• W1986175023 cites W2305568213 @default.
• W1986175023 cites W4230234871 @default.
• W1986175023 doi "https://doi.org/10.1378/chest.101.4.1135" @default.
• W1986175023 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/1555433" @default.
• W1986175023 hasPublicationYear "1992" @default.
• W1986175023 type Work @default.
• W1986175023 sameAs 1986175023 @default.
• W1986175023 citedByCount "9" @default.
• W1986175023 countsByYear W19861750232018 @default.
• W1986175023 crossrefType "journal-article" @default.
• W1986175023 hasAuthorship W1986175023A5012028695 @default.
• W1986175023 hasAuthorship W1986175023A5091516348 @default.
• W1986175023 hasConcept C120665830 @default.
• W1986175023 hasConcept C121332964 @default.
• W1986175023 hasConcept C126322002 @default.
• W1986175023 hasConcept C12722491 @default.
• W1986175023 hasConcept C142724271 @default.
• W1986175023 hasConcept C185592680 @default.
• W1986175023 hasConcept C2777714996 @default.
• W1986175023 hasConcept C2779473830 @default.
• W1986175023 hasConcept C3018767501 @default.
• W1986175023 hasConcept C3020774429 @default.
• W1986175023 hasConcept C55493867 @default.
• W1986175023 hasConcept C71924100 @default.
• W1986175023 hasConcept C83867959 @default.
• W1986175023 hasConcept C93877712 @default.
• W1986175023 hasConcept C95190672 @default.
• W1986175023 hasConceptScore W1986175023C120665830 @default.
• W1986175023 hasConceptScore W1986175023C121332964 @default.
• W1986175023 hasConceptScore W1986175023C126322002 @default.
• W1986175023 hasConceptScore W1986175023C12722491 @default.
• W1986175023 hasConceptScore W1986175023C142724271 @default.
• W1986175023 hasConceptScore W1986175023C185592680 @default.
• W1986175023 hasConceptScore W1986175023C2777714996 @default.
• W1986175023 hasConceptScore W1986175023C2779473830 @default.
• W1986175023 hasConceptScore W1986175023C3018767501 @default.
• W1986175023 hasConceptScore W1986175023C3020774429 @default.
• W1986175023 hasConceptScore W1986175023C55493867 @default.
• W1986175023 hasConceptScore W1986175023C71924100 @default.
• W1986175023 hasConceptScore W1986175023C83867959 @default.
• W1986175023 hasConceptScore W1986175023C93877712 @default.
• W1986175023 hasConceptScore W1986175023C95190672 @default.
• W1986175023 hasIssue "4" @default.
• W1986175023 hasLocation W19861750231 @default.
• W1986175023 hasLocation W19861750232 @default.
• W1986175023 hasOpenAccess W1986175023 @default.
• W1986175023 hasPrimaryLocation W19861750231 @default.
• W1986175023 hasRelatedWork W1598512166 @default.
• W1986175023 hasRelatedWork W2120516750 @default.
• W1986175023 hasRelatedWork W2561040782 @default.
• W1986175023 hasRelatedWork W2968486945 @default.
• W1986175023 hasRelatedWork W3008231817 @default.
• W1986175023 hasRelatedWork W3140968591 @default.
• W1986175023 hasRelatedWork W4210604288 @default.
• W1986175023 hasRelatedWork W4229451315 @default.
• W1986175023 hasRelatedWork W4285547396 @default.
• W1986175023 hasRelatedWork W4295886540 @default.
• W1986175023 hasVolume "101" @default.
• W1986175023 isParatext "false" @default.
• W1986175023 isRetracted "false" @default.
• W1986175023 magId "1986175023" @default.
• W1986175023 workType "article" @default.