2021
Cannulation of the Left Inferior Pulmonary Vein For Left Atrial-Femoral Artery Bypass
Elefteriades J, Ziganshin B. Cannulation of the Left Inferior Pulmonary Vein For Left Atrial-Femoral Artery Bypass. 2021, 87-89. DOI: 10.1007/978-3-030-78877-3_31.Peer-Reviewed Original Research
2017
Mechanisms of Disease and Natural History
Ziganshin B, Elefteriades J. Mechanisms of Disease and Natural History. 2017, 19-43. DOI: 10.1007/978-3-319-15192-2_2.Peer-Reviewed Original ResearchAortic diseaseNatural historyEndovascular treatment optionsThoracic aortic diseaseClassic open surgeryDiseased aortic wallEvidence-based criteriaMechanisms of diseaseAortic pathologyAortic ruptureLethal complicationOpen surgeryProphylactic treatmentEndovascular interventionTreatment optionsIndividual patientsAortic wallPersonalized managementMechanisms of developmentDiseasePatientsSuch treatmentTreatmentCurrent understandingComplications
2004
Neurological Complications in Cardiac Surgery
Koullias G, Elefteriades J. Neurological Complications in Cardiac Surgery. 2004, 405-435. DOI: 10.1002/9780470988367.ch21.Peer-Reviewed Original ResearchCardiac surgery typeSystemic inflammatory response syndromeSurgery risk factorsSpinal cord protectionInflammatory response syndromeNeurological injurySpinal cord injurySurgery typeResponse syndromeCord injuryCoronary arteryRisk factorsNeurological complicationsCardiac surgeryInjuryPreventionArterySyndromeComplicationsSurgery
2000
Treatment of Mitral Valve Disease
Elefteriades J, Setaro J. Treatment of Mitral Valve Disease. 2000, 334-346. DOI: 10.1007/978-1-4612-1190-7_25.Peer-Reviewed Original Research
1999
Surgical intervention criteria for thoracic aortic aneurysms: a study of growth rates and complications
Coady M, Rizzo J, Hammond G, Kopf G, Elefteriades J. Surgical intervention criteria for thoracic aortic aneurysms: a study of growth rates and complications. The Annals Of Thoracic Surgery 1999, 67: 1922-1926. PMID: 10391339, DOI: 10.1016/s0003-4975(99)00431-2.Peer-Reviewed Original ResearchConceptsThoracic aortic aneurysmAortic aneurysmDevastating complicationAortic growth rateComplications of ruptureIncidence of dissectionTime of complicationsRisk of dissectionMultivariable regression analysisMedian sizeSurgical intervention criteriaTime of dissectionAcute dissectionElective resectionPerioperative complicationsInitial presentationSurgical interventionRisk factorsThoracic aortaAneurysm sizeComplicationsTime of ruptureYale University SchoolLower mortalityAneurysms
1998
Diaphragm pacing.
Elefteriades J, Quin J. Diaphragm pacing. Thoracic Surgery Clinics 1998, 8: 331-57. PMID: 9619308.Peer-Reviewed Original ResearchConceptsPhrenic nerve functionNerve functionUpper motor neuron injuryMotor neuron injuryCareful patient evaluationAdequate psychosocial supportDiaphragm pacingTube complicationsNeuron injuryPatient evaluationPsychosocial supportSuccessful pacingEstablished modePacingElectrode placementDiaphragmComplicationsPatientsInjury
1996
Diaphragm Pacing with a Quadripolar Phrenic Nerve Electrode: An International Study
WEESE‐MAYER D, SILVESTRI J, KENNY A, ILBAWI M, HAUPTMAN S, LIPTON J, TALONEN P, GARCIA H, WATT J, EXNER G, BAER G, ELEFTERIADES J, PERUZZI W, ALEX C, HARLID R, VINCKEN W, DAVIS G, DECRAMER M, KUENZLE C, SÆTERHAUG A, SCHÖBER J. Diaphragm Pacing with a Quadripolar Phrenic Nerve Electrode: An International Study. Pacing And Clinical Electrophysiology 1996, 19: 1311-1319. PMID: 8880794, DOI: 10.1111/j.1540-8159.1996.tb04209.x.Peer-Reviewed Original ResearchConceptsCongenital central hypoventilation syndromeActive pediatric patientsAdult patientsTetraplegic patientsPediatric patientsIdiopathic congenital central hypoventilation syndromePhrenic nerve electrodesIncidence of complicationsCentral hypoventilation syndromeHours/dayHypoventilation syndromePatient groupCCHS patientsRegistry dataSurgical proceduresMechanical traumaPatientsAbsent functionSuccessful pacingComplicationsIncidenceNerve electrodesLongitudinal studySignificant differencesNecessary interventions
1992
Mechanical Circulatory Support Decreases Neurologic Complications in the Treatment of Traumatic Injuries of the Thoracic Aorta
Higgins R, Sanchez J, DeGuidis L, Dewar M, Franco K, Kopf G, Elefteriades J, Hammond G, Baldwin J. Mechanical Circulatory Support Decreases Neurologic Complications in the Treatment of Traumatic Injuries of the Thoracic Aorta. JAMA Surgery 1992, 127: 516-519. PMID: 1575620, DOI: 10.1001/archsurg.1992.01420050036003.Peer-Reviewed Original ResearchConceptsMechanical circulatory supportNeurologic complicationsCirculatory supportThoracic aortaTraumatic injuryUnderwent repairAortic cross-clamp timePreoperative systolic blood pressureCross-clamp timeSpinal cord ischemiaSupport groupsInjury Severity ScoreSystolic blood pressureYale-New Haven Medical CenterAortic injuryCord ischemiaBlood pressureSurgical treatmentSeverity scoreMultiple traumaMedical CenterComplicationsPatientsInjuryAorta
1987
Long-term performance of the St. Jude Medical valve: low incidence of thromboembolism and hemorrhagic complications with modest doses of warfarin.
Kopf G, Hammond G, Geha A, Elefteriades J, Hashim S. Long-term performance of the St. Jude Medical valve: low incidence of thromboembolism and hemorrhagic complications with modest doses of warfarin. Circulation 1987, 76: iii132-6. PMID: 3621536.Peer-Reviewed Original ResearchConceptsSt. Jude Medical valveJude Medical valveModest dosesHemorrhagic complicationsLower incidenceValve failureLate cardiac deathStructural valve failureDouble valve replacementPercent of patientsOccurrence of thromboembolismHospital survivorsAnticoagulation regimenPerivalvular leakValve thrombosisValve replacementCardiac deathProthrombin timeMitral positionThromboembolismPatientsComplicationsThrombosisWarfarinIncidence