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Effect of decompression-induced bubble formation on highly trained divers microvascular function

dc.rights.licenseOTHen_US
dc.contributor.authorLAMBRECHTS, Kate
dc.contributor.authorPontier, Jean-Michel
dc.contributor.authorMazur, Aleksandra
dc.contributor.authorPontier, Jean-Michel
dc.contributor.authorBuzzacott, Peter
dc.contributor.authorMorin, Jean
dc.contributor.authorWang, Qiong
dc.contributor.authorTheron, Michaël
dc.contributor.authorGuerrero, François
dc.date.accessioned2021-02-01T18:31:22Z
dc.date.available2021-02-01T18:31:22Z
dc.date.issued2013-11-07
dc.identifier.urihttps://luck.synhera.be/handle/123456789/617
dc.identifier.doi10.1002/phy2.142en_US
dc.description.abstractWe previously showed microvascular alteration of both endothelium-dependent and -independent reactivity after a single SCUBA dive. We aimed to study mechanisms involved in this postdive vascular dysfunction. Ten divers each completed three protocols: (1) a SCUBA dive at 400 kPa for 30 min; (2) a 41-min duration of seawater surface head immersed finning exercise to determine the effect of immersion and moderate physical activity; and (3) a simulated 41-min dive breathing 100% oxygen (hyperbaric oxygen [HBO]) at 170 kPa in order to analyze the effect of diving-induced hyperoxia. Bubble grades were monitored with Doppler. Cutaneous microvascular function was assessed by laser Doppler. Endothelium-dependent (acetylcholine, ACh) and -independent (sodium nitroprusside, SNP) reactivity was tested by iontophoresis. Endothelial cell activation was quantified by plasma Von Willebrand factor and nitric oxide (NO). Inactivation of NO by oxidative stress was assessed by plasma nitrotyrosine. Platelet factor 4 (PF4) was assessed in order to determine platelet aggregation. Blood was also analyzed for measurement of platelet count. Cutaneous vascular conductance (CVC) response to ACh delivery was not significantly decreased by the SCUBA protocol (23 ± 9% before vs. 17 ± 7% after; P = 0.122), whereas CVC response to SNP stimulation decreased significantly (23 ± 6% before vs. 10 ± 1% after; P = 0.039). The HBO and immersion protocols did not affect either endothelial-dependent or -independent function. The immersion protocol induced a significant increase in NO (0.07 ± 0.01 vs. 0.12 ± 0.02 μg/mL; P = 0.035). This study highlighted change in microvascular endothelial-independent but not -dependent function in highly trained divers after a single air dive. The results suggest that the effects of decompression on microvascular function may be modified by diving acclimatization.en_US
dc.description.abstractenWe previously showed microvascular alteration of both endothelium-dependent and -independent reactivity after a single SCUBA dive. We aimed to study mechanisms involved in this postdive vascular dysfunction. Ten divers each completed three protocols: (1) a SCUBA dive at 400 kPa for 30 min; (2) a 41-min duration of seawater surface head immersed finning exercise to determine the effect of immersion and moderate physical activity; and (3) a simulated 41-min dive breathing 100% oxygen (hyperbaric oxygen [HBO]) at 170 kPa in order to analyze the effect of diving-induced hyperoxia. Bubble grades were monitored with Doppler. Cutaneous microvascular function was assessed by laser Doppler. Endothelium-dependent (acetylcholine, ACh) and -independent (sodium nitroprusside, SNP) reactivity was tested by iontophoresis. Endothelial cell activation was quantified by plasma Von Willebrand factor and nitric oxide (NO). Inactivation of NO by oxidative stress was assessed by plasma nitrotyrosine. Platelet factor 4 (PF4) was assessed in order to determine platelet aggregation. Blood was also analyzed for measurement of platelet count. Cutaneous vascular conductance (CVC) response to ACh delivery was not significantly decreased by the SCUBA protocol (23 ± 9% before vs. 17 ± 7% after; P = 0.122), whereas CVC response to SNP stimulation decreased significantly (23 ± 6% before vs. 10 ± 1% after; P = 0.039). The HBO and immersion protocols did not affect either endothelial-dependent or -independent function. The immersion protocol induced a significant increase in NO (0.07 ± 0.01 vs. 0.12 ± 0.02 μg/mL; P = 0.035). This study highlighted change in microvascular endothelial-independent but not -dependent function in highly trained divers after a single air dive. The results suggest that the effects of decompression on microvascular function may be modified by diving acclimatization.en_US
dc.description.sponsorshipEURen_US
dc.language.isoENen_US
dc.publisherWileyen_US
dc.relation.ispartofPhysiological Reportsen_US
dc.rights.urihttps://physoc.onlinelibrary.wiley.com/hub/journal/2051817X/resources/open-access-license-and-copyrighten_US
dc.subject.enDecompressionen_US
dc.subject.enEndotheliumen_US
dc.subject.enMicrocirculationen_US
dc.titleEffect of decompression-induced bubble formation on highly trained divers microvascular functionen_US
dc.title.enEffect of decompression‐induced bubble formation on highly trained divers microvascular functionen_US
dc.typeArticle scientifiqueen_US
synhera.classificationSciences de la santé humaineen_US
synhera.institutionHE Bruxelles Brabanten_US
synhera.stakeholders.fundMarie Curie Initial Training Network (FP7-PEOPLE-ITN-2010)en_US
synhera.cost.total1000en_US
synhera.cost.apc0en_US
synhera.cost.comp0en_US
synhera.cost.acccomp1000en_US
dc.description.versionOuien_US
dc.rights.holderWileyen_US


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