FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2231493904> ?p ?o ?g. }

• W2231493904 endingPage "192" @default.
• W2231493904 startingPage "176" @default.
• W2231493904 abstract "New Findings What is the central question of this study? The finding that pulmonary oxygen uptake ( ) kinetics on transition to moderate exercise is invariant and exponential is consistent with a first‐order reaction controlling . However, slowed kinetics when initiating exercise from raised baseline intensities challenges this notion. What is the main finding and its importance? Here, we demonstrate how a first‐order system can respond with non‐first‐order response dynamics. Data suggest that progressive recruitment of muscle fibre populations having progressively lower mitochondrial density and slower microvascular blood flow kinetics can unify the seemingly contradictory evidence for the control of on transition to exercise. We examined the relationship amongst baseline work rate (WR), phase II pulmonary oxygen uptake ( ) time constant ( ) and functional gain during moderate‐intensity exercise. Transitions were initiated from a constant or variable baseline WR. A validated circulatory model was used to examine the role of heterogeneity in muscle metabolism ( ) and blood flow ( ) in determining kinetics. We hypothesized that and G P would be invariant in the constant baseline condition but would increase linearly with increased baseline WR. Fourteen men completed three to five repetitions of ∆40 W step transitions initiated from 20, 40, 60, 80, 100 and 120 W on a cycle ergometer. The ∆40 W step transitions from 60, 80, 100 and 120 W were preceded by 6 min of 20 W cycling, from which the progressive ΔWR transitions (constant baseline condition) were examined. The was measured breath by breath using mass spectrometry and a volume turbine. For a given ΔWR, both (22–35 s) and G P (8.7–10.5 ml min −1 W −1 ) increased ( P < 0.05) linearly as a function of baseline WR (20–120 W). The was invariant ( P < 0.05) in transitions initiated from 20 W, but G P increased with ΔWR ( P < 0.05). Modelling the summed influence of multiple muscle compartments revealed that could appear fast (24 s), and similar to in vivo measurements (22 ± 6 s), despite being derived from values with a range of 15–40 s and with a range of 20–45 s, suggesting that within the moderate‐intensity domain phase II kinetics are slowed dependent on the pretransition WR and are strongly influenced by muscle metabolic and circulatory heterogeneity." @default.
• W2231493904 created "2016-06-24" @default.
• W2231493904 creator A5008290804 @default.
• W2231493904 creator A5024289844 @default.
• W2231493904 creator A5031226316 @default.
• W2231493904 creator A5058444517 @default.
• W2231493904 creator A5073558566 @default.
• W2231493904 date "2015-12-31" @default.
• W2231493904 modified "2023-10-15" @default.
• W2231493904 title "The influence of metabolic and circulatory heterogeneity on the expression of pulmonary oxygen uptake kinetics in humans" @default.
• W2231493904 cites W1546628751 @default.
• W2231493904 cites W1590539771 @default.
• W2231493904 cites W1591638406 @default.
• W2231493904 cites W1972748825 @default.
• W2231493904 cites W1976516379 @default.
• W2231493904 cites W1981439484 @default.
• W2231493904 cites W1983677081 @default.
• W2231493904 cites W1996606051 @default.
• W2231493904 cites W2008190841 @default.
• W2231493904 cites W2023393262 @default.
• W2231493904 cites W2037030586 @default.
• W2231493904 cites W2048679445 @default.
• W2231493904 cites W2049505892 @default.
• W2231493904 cites W2053533888 @default.
• W2231493904 cites W2072882401 @default.
• W2231493904 cites W2087919776 @default.
• W2231493904 cites W2105255019 @default.
• W2231493904 cites W2106217733 @default.
• W2231493904 cites W2117389490 @default.
• W2231493904 cites W2119122478 @default.
• W2231493904 cites W2140421284 @default.
• W2231493904 cites W2145139856 @default.
• W2231493904 cites W2145780306 @default.
• W2231493904 cites W2153675496 @default.
• W2231493904 cites W2158923004 @default.
• W2231493904 cites W2170743509 @default.
• W2231493904 cites W2178177034 @default.
• W2231493904 cites W2180753399 @default.
• W2231493904 cites W2181084192 @default.
• W2231493904 cites W2295369165 @default.
• W2231493904 cites W2463919638 @default.
• W2231493904 doi "https://doi.org/10.1113/ep085338" @default.
• W2231493904 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26537768" @default.
• W2231493904 hasPublicationYear "2015" @default.
• W2231493904 type Work @default.
• W2231493904 sameAs 2231493904 @default.
• W2231493904 citedByCount "36" @default.
• W2231493904 countsByYear W22314939042016 @default.
• W2231493904 countsByYear W22314939042017 @default.
• W2231493904 countsByYear W22314939042018 @default.
• W2231493904 countsByYear W22314939042019 @default.
• W2231493904 countsByYear W22314939042020 @default.
• W2231493904 countsByYear W22314939042021 @default.
• W2231493904 countsByYear W22314939042022 @default.
• W2231493904 countsByYear W22314939042023 @default.
• W2231493904 crossrefType "journal-article" @default.
• W2231493904 hasAuthorship W2231493904A5008290804 @default.
• W2231493904 hasAuthorship W2231493904A5024289844 @default.
• W2231493904 hasAuthorship W2231493904A5031226316 @default.
• W2231493904 hasAuthorship W2231493904A5058444517 @default.
• W2231493904 hasAuthorship W2231493904A5073558566 @default.
• W2231493904 hasBestOaLocation W22314939041 @default.
• W2231493904 hasConcept C121332964 @default.
• W2231493904 hasConcept C126322002 @default.
• W2231493904 hasConcept C148898269 @default.
• W2231493904 hasConcept C158846371 @default.
• W2231493904 hasConcept C164705383 @default.
• W2231493904 hasConcept C178790620 @default.
• W2231493904 hasConcept C185592680 @default.
• W2231493904 hasConcept C2777953023 @default.
• W2231493904 hasConcept C2781094410 @default.
• W2231493904 hasConcept C2994262451 @default.
• W2231493904 hasConcept C540031477 @default.
• W2231493904 hasConcept C62520636 @default.
• W2231493904 hasConcept C71924100 @default.
• W2231493904 hasConcept C72859922 @default.
• W2231493904 hasConcept C84393581 @default.
• W2231493904 hasConceptScore W2231493904C121332964 @default.
• W2231493904 hasConceptScore W2231493904C126322002 @default.
• W2231493904 hasConceptScore W2231493904C148898269 @default.
• W2231493904 hasConceptScore W2231493904C158846371 @default.
• W2231493904 hasConceptScore W2231493904C164705383 @default.
• W2231493904 hasConceptScore W2231493904C178790620 @default.
• W2231493904 hasConceptScore W2231493904C185592680 @default.
• W2231493904 hasConceptScore W2231493904C2777953023 @default.
• W2231493904 hasConceptScore W2231493904C2781094410 @default.
• W2231493904 hasConceptScore W2231493904C2994262451 @default.
• W2231493904 hasConceptScore W2231493904C540031477 @default.
• W2231493904 hasConceptScore W2231493904C62520636 @default.
• W2231493904 hasConceptScore W2231493904C71924100 @default.
• W2231493904 hasConceptScore W2231493904C72859922 @default.
• W2231493904 hasConceptScore W2231493904C84393581 @default.
• W2231493904 hasIssue "1" @default.
• W2231493904 hasLocation W22314939041 @default.
• W2231493904 hasLocation W22314939042 @default.
• W2231493904 hasLocation W22314939043 @default.
• W2231493904 hasOpenAccess W2231493904 @default.
• W2231493904 hasPrimaryLocation W22314939041 @default.

• next