2021
Anatomical Classification and Posttreatment Remodeling Characteristics to Guide Management and Follow-Up of Neonates and Infants With Coronary Artery Fistula: A Multicenter Study From the Coronary Artery Fistula Registry
Gowda ST, Latson L, Sivakumar K, Hiremath G, Crystal M, Law M, Shahanavaz S, Asnes J, Reddy S, Kobayashi D, Alwi M, Ichida F, Hirono K, Tahara M, Takeda A, Minami T, Kutty S, Nugent AW, Forbes T, Prieto LR, Qureshi AM. Anatomical Classification and Posttreatment Remodeling Characteristics to Guide Management and Follow-Up of Neonates and Infants With Coronary Artery Fistula: A Multicenter Study From the Coronary Artery Fistula Registry. Circulation Cardiovascular Interventions 2021, 14: e009750. PMID: 34903033, DOI: 10.1161/circinterventions.120.009750.Peer-Reviewed Original ResearchConceptsSurgical closureCoronary thrombosisProcedural successTranscatheter closureCoronary artery dilationExcellent procedural successCoronary artery fistulaNeonates/infantsArtery dilationArtery fistulaPartial thrombosisCoronary remodelingHeart failureMedian ageRetrospective reviewMulticenter studyCoronary arteryAnatomic evaluationFollow-upHigh riskVessel irregularityGuide managementAnatomical classificationPatientsAnticoagulation
2017
Ventricular arrhythmias immediately following transcatheter pulmonary valve implantation: A cause for concern?
Simmons MA, Elder RW, Shabanova V, Hellenbrand W, Asnes J. Ventricular arrhythmias immediately following transcatheter pulmonary valve implantation: A cause for concern? Catheterization And Cardiovascular Interventions 2017, 91: 920-926. PMID: 29280541, DOI: 10.1002/ccd.27454.Peer-Reviewed Original ResearchConceptsTranscatheter pulmonary valve implantationRight ventricular outflow tractNative outflow tractsSignificant ventricular arrhythmiasPulmonary valve implantationVentricular arrhythmiasOutflow tractValve implantationAnti-arrhythmic medicationsBeta-blocker therapySingle-center studyVentricular outflow tractLong-term therapySudden cardiac deathCare of patientsChange of doseHemodynamic instabilityHemodynamic compromiseCardiac deathMedian ageMedical therapyPediatric patientsSignificant arrhythmiasCenter studyTerm therapyPercutaneous transcatheter pulmonary valve replacement in children weighing less than 20 kg
Martin MH, Shahanavaz S, Peng LF, Asnes JD, Riley M, Hellenbrand WE, Balzer DT, Gray RG, McElhinney DB. Percutaneous transcatheter pulmonary valve replacement in children weighing less than 20 kg. Catheterization And Cardiovascular Interventions 2017, 91: 485-494. PMID: 29193671, DOI: 10.1002/ccd.27432.Peer-Reviewed Original ResearchMeSH KeywordsAge FactorsBody WeightCardiac CatheterizationChildChild DevelopmentChild, PreschoolCoronary AngiographyEchocardiography, DopplerFemaleHeart Valve ProsthesisHeart Valve Prosthesis ImplantationHumansMalePostoperative ComplicationsPulmonary ValveRetrospective StudiesRisk FactorsTreatment OutcomeUnited StatesConceptsTranscatheter pulmonary valve replacementPercutaneous transcatheter pulmonary valve replacementPulmonary valve replacementTetralogy of FallotValve replacementVein accessInternal jugular vein accessExcellent valve functionMean Doppler gradientMild pulmonary regurgitationIliac vein injuryCases of endocarditisFemoral vein accessSuccessful valve implantationJugular vein accessIJV accessRVOT reinterventionMelody valveAdverse eventsDoppler gradientPulmonary regurgitationValve implantationMedian ageVein injuryRoot compression
2016
Transcatheter Tricuspid Valve-in-Valve Implantation for the Treatment of Dysfunctional Surgical Bioprosthetic Valves
McElhinney DB, Cabalka AK, Aboulhosn JA, Eicken A, Boudjemline Y, Schubert S, Himbert D, Asnes JD, Salizzoni S, Bocks ML, Cheatham JP, Momenah TS, Kim DW, Schranz D, Meadows J, Thomson JD, Goldstein BH, Crittendon I, Fagan TE, Webb JG, Horlick E, Delaney JW, Jones TK, Shahanavaz S, Moretti C, Hainstock MR, Kenny DP, Berger F, Rihal CS, Dvir D. Transcatheter Tricuspid Valve-in-Valve Implantation for the Treatment of Dysfunctional Surgical Bioprosthetic Valves. Circulation 2016, 133: 1582-1593. PMID: 26994123, DOI: 10.1161/circulationaha.115.019353.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAdultAgedAged, 80 and overBioprosthesisCardiac CatheterizationChildChild, PreschoolFemaleFollow-Up StudiesHeart Valve Prosthesis ImplantationHumansInternationalityLength of StayMaleMiddle AgedProsthesis FailureRegistriesTreatment OutcomeTricuspid Valve InsufficiencyYoung AdultConceptsNew York Heart Association class IIIClass IIITV dysfunctionValve implantationNew York Heart Association class IValve sizePulmonary valve prosthesisTricuspid regurgitation gradePatient-related factorsSurgical bioprosthetic valvesTranscatheter Tricuspid ValveTV reinterventionsMulticenter registrySAPIEN valveMedian ageRegurgitation gradeSerious complicationsClinical statusTricuspid valveLabel useTranscatheter prosthesesBioprosthetic valvesValve prosthesisPatientsValve bioprostheses
2007
Transhepatic Broviac catheter placement for long-term central venous access in critically ill children with complex congenital heart disease*
Qureshi AM, Rhodes JF, Appachi E, Mumtaz MA, Duncan BW, Asnes J, Radavansky P, Latson LA. Transhepatic Broviac catheter placement for long-term central venous access in critically ill children with complex congenital heart disease*. Pediatric Critical Care Medicine 2007, 8: 248-253. PMID: 17417124, DOI: 10.1097/01.pcc.0000265327.93745.89.Peer-Reviewed Original ResearchConceptsComplex congenital heart diseaseIntra-abdominal bleedCentral venous accessCongenital heart diseaseIll childrenVenous accessHeart diseaseCardiac diseaseLong-term central venous accessTemporary complete heart blockBroviac catheter placementProcedural-related complicationsTertiary care centerCentral venous cathetersLong-term complicationsComplete heart blockIntracardiac vegetationsUrgent laparotomyBroviac cathetersCatheter infectionEmbolic eventsMedian ageVenous cathetersHeart blockRetrospective review