2016
Neurological Events Following Transcatheter Aortic Valve Replacement and Their Predictors
Kleiman N, Maini B, Reardon M, Conte J, Katz S, Rajagopal V, Kauten J, Hartman A, McKay R, Hagberg R, Huang J, Popma J, Adams D, Ad N, Aharonian V, Anderson W, Applegate R, Bafi A, Bajwa T, Bakhos M, Ball S, Batra S, Beohar N, Brachinsky W, Brinster D, Brown J, Byrne J, Byrne T, Casale A, Caskey M, Chawla A, Cohen H, Coselli J, Costa M, Cheatham J, Chetcuti S, Crestanello J, Davis T, Michael Deeb G, Diez J, Dauerman H, Elefteriades J, Fail P, Feinberg E, Fontana G, Forrest J, Galloway A, Giacomini J, Gleason T, Guadiani V, Harrison J, Hebeler R, Heimansohn D, Heiser J, Heller L, Henry S, Hermiller J, Hockmuth D, Hughes G, Joye J, Kafi A, Kar B, Khabbaz K, Kipperman R, Kliger C, Kon N, Lamelas J, Lee J, Leya F, Londono J, Macheers S, Mangi A, de Marchena E, Markowitz A, Matthews R, Merhi W, Mumtaz M, O’Hair D, Petrossian G, Pfeffer T, Raybuck B, Resar J, Robbins M, Robbins R, Robinson N, Ring M, Salerno T, Schreiber T, Schmoker J, Sharma S, Siwek L, Skelding K, Slater J, Starnes V, Stoler R, Subramanian V, Tadros P, Thompson C, Waksman R, Watson D, Yakubov S, Zhao D, Zorn G. Neurological Events Following Transcatheter Aortic Valve Replacement and Their Predictors. Circulation Cardiovascular Interventions 2016, 9: e003551. PMID: 27601429, DOI: 10.1161/circinterventions.115.003551.Peer-Reviewed Original ResearchMeSH KeywordsAgedAged, 80 and overAortic ValveAortic Valve StenosisBalloon ValvuloplastyBioprosthesisCalcinosisCardiac Pacing, ArtificialClinical Trials as TopicFemaleHeart Valve ProsthesisHumansIncidenceIntracranial EmbolismKaplan-Meier EstimateMaleProportional Hazards ModelsRisk AssessmentRisk FactorsSeverity of Illness IndexStrokeTime FactorsTranscatheter Aortic Valve ReplacementTreatment OutcomeConceptsTranscatheter aortic valve replacementAortic valve replacementValve replacementEarly strokePrior coronary artery bypass surgeryHealth Stroke Scale scoreSelf-expanding CoreValve bioprosthesisCoronary artery bypass surgerySmaller body surface areaLower body mass indexContinued Access StudySevere aortic calcificationStroke Scale scoreTransient ischemic attackArtery bypass surgeryPeripheral vascular diseasePredictors of strokeBody mass indexBody surface areaIdentification of predictorsCoreValve bioprosthesisIschemic attackPrior strokeBypass surgeryAortic calcification
1994
Latency of Skeletal Muscle Contraction after Pulse Train Stimulation: An Important Factor in Correct Timing of Skeletal Muscle Cardiac Assist Devices
Letsou G, Zarif A, Smith A, Hogan J, Lee P, Ariyan S, Baldwin J, Elefteriades J. Latency of Skeletal Muscle Contraction after Pulse Train Stimulation: An Important Factor in Correct Timing of Skeletal Muscle Cardiac Assist Devices. Journal Of Surgical Research 1994, 57: 672-676. PMID: 7996844, DOI: 10.1006/jsre.1994.1199.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCardiac Pacing, ArtificialDogsElectric StimulationMuscle ContractionMuscle, SkeletalPacemaker, ArtificialTime FactorsConceptsPeak tensionSkeletal muscle contractionSkeletal muscleAssist deviceEnd-stage cardiac failureMuscle contractionCanine latissimus dorsi musclePulse train stimulationLatissimus dorsi muscleCanine heart rateContraction/relaxation cycleCardiac assist devicesCardiac augmentationConditioning regimensCardiac failureTrain stimulationHeart rateCardiac assistanceContraction timingOptimal timingMuscleDorsi muscleCardiac cycleContractionCorrect timing
1986
Technique to Facilitate Open Placement of Permanent Pacing Leads through the Cephalic Vein
August D, Elefteriades J. Technique to Facilitate Open Placement of Permanent Pacing Leads through the Cephalic Vein. The Annals Of Thoracic Surgery 1986, 42: 112. PMID: 3729607, DOI: 10.1016/s0003-4975(10)61859-0.Peer-Reviewed Original Research