2024
Remodeling of Murine Branch Pulmonary Arteries Under Chronic Hypoxia and Short-Term Normoxic Recovery.
Ramachandra A, Jiang B, Jennings I, Manning E, Humphrey J. Remodeling of Murine Branch Pulmonary Arteries Under Chronic Hypoxia and Short-Term Normoxic Recovery. Journal Of Biomechanical Engineering 2024, 146 PMID: 38421341, DOI: 10.1115/1.4064967.Peer-Reviewed Original ResearchWeeks of hypoxiaBranch pulmonary arteriesWeeks of normoxic recoveryPulmonary arteryEndothelial cell responsesSmooth muscleChronic hypoxiaNormoxic recoveryPulmonary arterial remodelingCell responsesProximal pulmonary arteriesLongitudinal changesHypoxia-induced changesC57BL/6J micePulmonary pathologyThin collagen fibersArterial remodelingBiaxial mechanicsCircumferential stressEnergy storageNormal valuesHypoxiaWeeksVascular adaptationFraction of cytoplasmDevelopmental changes in lung function of mice are independent of sex as a biological variable
Bärnthaler T, Ramachandra A, Ebanks S, Guerrera N, Sharma L, Dela Cruz C, Humphrey J, Manning E. Developmental changes in lung function of mice are independent of sex as a biological variable. American Journal Of Physiology - Lung Cellular And Molecular Physiology 2024, 326: l627-l637. PMID: 38375577, PMCID: PMC11380952, DOI: 10.1152/ajplung.00120.2023.Peer-Reviewed Original ResearchPulmonary function testsWeeks of ageStatic complianceMale miceInspiratory capacityLung functionBody weight-basedHuman lung pathologiesLung function of miceFemale C57BL/6J miceLung function parametersSex-dependent changesFunction of miceMeasures of lung functionIndependent of sexPreclinical modelsFemale miceC57BL/6J miceLung pathologyFunction testsMiceWeight-basedLungLung disease researchWeeks
2021
Mechanisms of Hypoxia-Induced Pulmonary Arterial Stiffening in Mice Revealed by a Functional Genetics Assay of Structural, Functional, and Transcriptomic Data
Manning EP, Ramachandra AB, Schupp JC, Cavinato C, Raredon MSB, Bärnthaler T, Cosme C, Singh I, Tellides G, Kaminski N, Humphrey JD. Mechanisms of Hypoxia-Induced Pulmonary Arterial Stiffening in Mice Revealed by a Functional Genetics Assay of Structural, Functional, and Transcriptomic Data. Frontiers In Physiology 2021, 12: 726253. PMID: 34594238, PMCID: PMC8478173, DOI: 10.3389/fphys.2021.726253.Peer-Reviewed Original ResearchPulmonary arteryAdult male C57BL/6J miceElevated pulmonary arterial pressureChronic cardiopulmonary conditionsPulmonary arterial pressureMale C57BL/6J miceElastic pulmonary arteriesArterial pulse wave velocityPulse wave velocityPotential therapeutic targetPulmonary arterial stiffeningSmooth muscle cell phenotypeMuscle cell phenotypeSpecific transcriptomic changesArterial pressureArterial stiffeningHypoxic miceCardiopulmonary conditionsPulmonary circulationC57BL/6J miceSustained hypoxiaTherapeutic targetClinical importanceEndothelial proliferationArtery