2017
Accuracy of a Simulation Algorithm for Modelling LV Contractility, Diastolic Capacitance, and Energetics Using Data Available From Common Hemodynamic Monitors and Echocardiography
Heerdt PM, Korfhagen S, Ezz H, Oromendia C. Accuracy of a Simulation Algorithm for Modelling LV Contractility, Diastolic Capacitance, and Energetics Using Data Available From Common Hemodynamic Monitors and Echocardiography. Journal Of Cardiothoracic And Vascular Anesthesia 2017, 32: 381-388. PMID: 29153929, DOI: 10.1053/j.jvca.2017.09.032.Peer-Reviewed Original Research
2000
Chronic Unloading by Left Ventricular Assist Device Reverses Contractile Dysfunction and Alters Gene Expression in End-Stage Heart Failure
Heerdt P, Holmes J, Cai B, Barbone A, Madigan J, Reiken S, Lee D, Oz M, Marks A, Burkhoff D. Chronic Unloading by Left Ventricular Assist Device Reverses Contractile Dysfunction and Alters Gene Expression in End-Stage Heart Failure. Circulation 2000, 102: 2713-2719. PMID: 11094037, DOI: 10.1161/01.cir.102.22.2713.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedBlotting, NorthernBlotting, WesternCalcium-Transporting ATPasesFemaleGene Expression RegulationHeart FailureHeart VentriclesHeart-Assist DevicesHumansMaleMiddle AgedMyocardial ContractionRNA, MessengerRyanodine Receptor Calcium Release ChannelSarcolemmaSodium-Hydrogen ExchangersConceptsEnd-stage heart failureLVAD supportHeart failureContractile strengthLVAD implantationSarcoplasmic reticular membranesNegative FFRIntact myocardiumVentricular assist deviceBlot analysisExpression of genesWestern blot analysisContractile dysfunctionSERCA2a proteinLV trabeculaeSubtype 2aChronic unloadingLV tissueAssist deviceContractile forcePatientsAlters gene expressionHigher mRNAReticular membranesRyanodine receptor
1998
Disparity of isoflurane effects on left and right ventricular afterload and hydraulic power generation in swine.
Heerdt P, Gandhi C, Dickstein M. Disparity of isoflurane effects on left and right ventricular afterload and hydraulic power generation in swine. Anesthesia & Analgesia 1998, 87: 511-21. PMID: 9728819, DOI: 10.1097/00000539-199809000-00002.Peer-Reviewed Original ResearchConceptsPreload recruitable stroke work slopeDose-related decreaseRight ventricleLeft ventricleISO groupMinimum alveolar anesthetic concentration (MAC) isofluraneIso animalsPulmonary arterial blood flowIsoflurane-induced alterationsRight ventricular afterloadTotal arterial resistanceDose-related effectsEffects of isofluranePeak systolic pressureAutonomic nervous activityArterial blood flowGroups of swineRegional segment lengthVolatile Anesthetic EffectsEjection of bloodBiventricular contractilityRV contractilityVascular effectsVentricular afterloadSystolic pressureDisparity of Isoflurane Effects on Left and Right Ventricular Afterload and Hydraulic Power Generation in Swine
Heerdt P, Gandhi C, Dickstein M. Disparity of Isoflurane Effects on Left and Right Ventricular Afterload and Hydraulic Power Generation in Swine. Anesthesia & Analgesia 1998, 87: 511-521.. DOI: 10.1213/00000539-199809000-00002.Peer-Reviewed Original ResearchConceptsPreload recruitable stroke work slopeDose-related decreaseRight ventricleLeft ventricleISO groupMinimum alveolar anesthetic concentration (MAC) isofluraneIso animalsPulmonary arterial blood flowIsoflurane-induced alterationsTotal arterial resistanceDose-related effectsEffects of isofluranePeak systolic pressureAutonomic nervous activityArterial blood flowGroups of swineRegional segment lengthVolatile Anesthetic EffectsEjection of bloodBiventricular contractilityRV contractilityVascular effectsVentricular afterloadSystolic pressureLV afterload