FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2309372364> ?p ?o ?g. }

• W2309372364 endingPage "4370" @default.
• W2309372364 startingPage "4359" @default.
• W2309372364 abstract "Key points Endurance trained athletes exhibit enhanced cardiovascular function compared to non‐athletes, although it is considered that exercise training does not enhance lung structure and function. An increased pulmonary capillary blood volume at rest is associated with a higher . In the present study, we compared the diffusion capacity, pulmonary capillary blood volume and diffusing membrane capacity responses to exercise in endurance‐trained males compared to non‐trained males. Exercise diffusion capacity was greater in athletes, secondary to an increased membrane diffusing capacity, and not pulmonary capillary blood volume. Endurance‐trained athletes appear to have differences within the pulmonary membrane that facilitate the increased O 2 demand needed for high‐level exercise. Abstract Endurance‐trained athletes exhibit enhanced cardiovascular function compared to non‐athletes, allthough it is generally accepted that exercise training does not enhance lung structure and function. Recent work has shown that an increased resting pulmonary capillary blood volume ( V C ) is associated with a higher maximum oxygen consumption ( ), although there have been no studies to date examining how aerobic fitness affects the V C response to exercise. Based on previous work, we hypothesized that endurance‐trained athletes will have greater V C compared to non‐athletes during cycling exercise. Fifteen endurance‐trained athletes (HI: 64.6 ± 1.8 ml kg −1 min −1 ) and 14 non‐endurance trained males (LO: 45.0 ± 1.2 ml kg −1 min −1 ) were matched for age and height. Haemoglobin‐corrected diffusion capacity (DLCO), V C and diffusing membrane capacity ( D M ) were determined using the Roughton and Forster ( ) multiple fraction of inspired O 2 (F I O 2 )‐DLCO method at baseline and during incremental cycle exercise up to 90% of peak O 2 consumption. During exercise, both groups exhibited increases in DLCO, D M and V C with exercise intensity. Athletes had a greater DLCO and greater D M at 80 and 90% of compared to non‐athletes. However, V C was not different between groups during exercise. In contrast to our hypothesis, exercise V C was not greater in endurance‐trained subjects compared to controls; rather, the increased DLCO in athletes at peak exercise was secondary to an enhanced D M . These findings suggest that endurance‐trained athletes appear to have differences within the pulmonary membrane that facilitate the increased O 2 demand needed for high‐level exercise." @default.
• W2309372364 created "2016-06-24" @default.
• W2309372364 creator A5028404821 @default.
• W2309372364 creator A5036097685 @default.
• W2309372364 creator A5066882886 @default.
• W2309372364 date "2016-05-12" @default.
• W2309372364 modified "2023-10-01" @default.
• W2309372364 title "Effect of aerobic fitness on capillary blood volume and diffusing membrane capacity responses to exercise" @default.
• W2309372364 cites W115512639 @default.
• W2309372364 cites W1522752367 @default.
• W2309372364 cites W1586695636 @default.
• W2309372364 cites W169140314 @default.
• W2309372364 cites W1937821609 @default.
• W2309372364 cites W1967011883 @default.
• W2309372364 cites W1970583645 @default.
• W2309372364 cites W1980964697 @default.
• W2309372364 cites W1988612965 @default.
• W2309372364 cites W2006105324 @default.
• W2309372364 cites W2008130165 @default.
• W2309372364 cites W2011537640 @default.
• W2309372364 cites W2012286223 @default.
• W2309372364 cites W2012858027 @default.
• W2309372364 cites W2018182049 @default.
• W2309372364 cites W2031798076 @default.
• W2309372364 cites W2037693298 @default.
• W2309372364 cites W2051134201 @default.
• W2309372364 cites W2082495239 @default.
• W2309372364 cites W2082993664 @default.
• W2309372364 cites W2092602585 @default.
• W2309372364 cites W2109802670 @default.
• W2309372364 cites W2132394822 @default.
• W2309372364 cites W2136321895 @default.
• W2309372364 cites W2137627097 @default.
• W2309372364 cites W2140263507 @default.
• W2309372364 cites W2141543150 @default.
• W2309372364 cites W2141922649 @default.
• W2309372364 cites W2142520773 @default.
• W2309372364 cites W2143914098 @default.
• W2309372364 cites W2145654497 @default.
• W2309372364 cites W2146490967 @default.
• W2309372364 cites W2150143409 @default.
• W2309372364 cites W2151737004 @default.
• W2309372364 cites W2154870156 @default.
• W2309372364 cites W2166265087 @default.
• W2309372364 cites W2170026089 @default.
• W2309372364 cites W2175216827 @default.
• W2309372364 cites W2178123578 @default.
• W2309372364 cites W2180514659 @default.
• W2309372364 cites W2180861139 @default.
• W2309372364 cites W2189414846 @default.
• W2309372364 cites W2219305695 @default.
• W2309372364 cites W2237821013 @default.
• W2309372364 cites W2258567130 @default.
• W2309372364 cites W2271010007 @default.
• W2309372364 cites W2272943728 @default.
• W2309372364 cites W2284385772 @default.
• W2309372364 cites W2344640009 @default.
• W2309372364 cites W2395914378 @default.
• W2309372364 cites W2413979623 @default.
• W2309372364 cites W2418718204 @default.
• W2309372364 cites W2439956511 @default.
• W2309372364 cites W4233968038 @default.
• W2309372364 cites W4240384253 @default.
• W2309372364 doi "https://doi.org/10.1113/jp272037" @default.
• W2309372364 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4967759" @default.
• W2309372364 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26959808" @default.
• W2309372364 hasPublicationYear "2016" @default.
• W2309372364 type Work @default.
• W2309372364 sameAs 2309372364 @default.
• W2309372364 citedByCount "34" @default.
• W2309372364 countsByYear W23093723642016 @default.
• W2309372364 countsByYear W23093723642017 @default.
• W2309372364 countsByYear W23093723642018 @default.
• W2309372364 countsByYear W23093723642019 @default.
• W2309372364 countsByYear W23093723642020 @default.
• W2309372364 countsByYear W23093723642021 @default.
• W2309372364 countsByYear W23093723642022 @default.
• W2309372364 countsByYear W23093723642023 @default.
• W2309372364 crossrefType "journal-article" @default.
• W2309372364 hasAuthorship W2309372364A5028404821 @default.
• W2309372364 hasAuthorship W2309372364A5036097685 @default.
• W2309372364 hasAuthorship W2309372364A5066882886 @default.
• W2309372364 hasBestOaLocation W23093723641 @default.
• W2309372364 hasConcept C103038586 @default.
• W2309372364 hasConcept C126322002 @default.
• W2309372364 hasConcept C16020263 @default.
• W2309372364 hasConcept C164705383 @default.
• W2309372364 hasConcept C165637977 @default.
• W2309372364 hasConcept C1862650 @default.
• W2309372364 hasConcept C196310339 @default.
• W2309372364 hasConcept C2777714996 @default.
• W2309372364 hasConcept C2777953023 @default.
• W2309372364 hasConcept C2781054738 @default.
• W2309372364 hasConcept C2909063161 @default.
• W2309372364 hasConcept C3018587741 @default.
• W2309372364 hasConcept C37557685 @default.
• W2309372364 hasConcept C71924100 @default.
• W2309372364 hasConcept C75603125 @default.

• next