2023
Birth weight influences cardiac structure, function, and disease risk: evidence of a causal association
Ardissino M, Morley A, Slob E, Schuermans A, Rayes B, Raisi-Estabragh Z, de Marvao A, Burgess S, Rogne T, Honigberg M, Ng F. Birth weight influences cardiac structure, function, and disease risk: evidence of a causal association. European Heart Journal 2023, 45: 443-454. PMID: 37738114, PMCID: PMC10849320, DOI: 10.1093/eurheartj/ehad631.Peer-Reviewed Original ResearchLow birth weightAdverse intrauterine environmentCoronary artery diseaseBirth weightIntrauterine environmentCardiac structureArtery diseaseFoetal effectsCardiovascular disease prevention strategiesDisease riskAdverse cardiac structureCardiovascular disease riskCommon pregnancy complicationLower stroke volumeDisease prevention strategiesMendelian randomization studyBenjamini-Hochberg correctionPregnancy complicationsIschemic strokeHeart failureAtrial fibrillationCardiometabolic diseasesIntrauterine influencesStroke volumeCardiovascular disease
2019
Right Ventricular-Arterial Uncoupling During Exercise in Heart Failure With Preserved Ejection Fraction Role of Pulmonary Vascular Dysfunction
Singh I, Rahaghi FN, Naeije R, Oliveira RKF, Systrom DM, Waxman AB. Right Ventricular-Arterial Uncoupling During Exercise in Heart Failure With Preserved Ejection Fraction Role of Pulmonary Vascular Dysfunction. CHEST Journal 2019, 156: 933-943. PMID: 31103695, DOI: 10.1016/j.chest.2019.04.109.Peer-Reviewed Original ResearchConceptsEes/EaRV-PA uncouplingPulmonary vascular dysfunctionResistive afterloadHeart failureVascular dysfunctionRight ventricular-pulmonary artery couplingLower pulmonary artery complianceRight ventricular-arterial uncouplingInvasive pulmonary hemodynamicsPulmonary arterial elastanceRV contractile reserveRV pressure waveformsVentricular-arterial uncouplingRight ventricular dysfunctionExercise-induced decreasePulmonary artery complianceExercise-induced increaseGroup of patientsLower peak VOLower stroke volumePeak oxygen consumptionSingle-beat analysisEnd-systolic elastancePVR response
2013
Mechanisms contributing to low orthostatic tolerance in women: the influence of oestradiol
Wenner MM, Haddadin A, Taylor HS, Stachenfeld NS. Mechanisms contributing to low orthostatic tolerance in women: the influence of oestradiol. The Journal Of Physiology 2013, 591: 2345-2355. PMID: 23401618, PMCID: PMC3650699, DOI: 10.1113/jphysiol.2012.247882.Peer-Reviewed Original ResearchConceptsLow orthostatic toleranceE2 administrationOrthostatic toleranceVascular resistanceBlood pressureStroke volumeHeart rateGonadotrophin-releasing hormone antagonistLevels of LBNPLower central volumeReproductive hormone productionAdministration of E2Peripheral vascular resistanceBeat blood pressureAutonomic cardiovascular regulationLower stroke volumeLower body negative pressure testHeart rate responseInfluence of oestradiolBaroreflex controlTolerant womenHormone antagonistCardiovascular regulationPeripheral vasoconstrictionAutonomic control
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