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2.
Artículo en Inglés | MEDLINE | ID: mdl-39341552

RESUMEN

OBJECTIVES: Although conduction location can be reliably predicted in double inlet ventricle, ventricular septation continues to carry a significant risk of complete heart block. This study describes our experience using intraoperative conduction mapping during ventricular septation. METHODS: Patients undergoing ventricular septation from 2017 to 2023 were identified. Conduction mapping was performed on the open, decompressed, beating heart to identify the His bundle. Mapped His bundle locations were compared with those predicted from magnetic resonance imaging diagnoses by a senior pediatric cardiac electrophysiologist blinded to mapping results. RESULTS: Ventricular septation was performed in 31 patients, 25 with hypoplastic right ventricles and 6 with hypoplastic left ventricles. Two-stage septation was performed in 25 patients, and single-stage septation was performed in 6 patients. Mapped conduction location was performed in the last 25 consecutive patients. Mapped conduction location was concordant with expected location in 21 of 22 patients with predictions. Complete heart block requiring a permanent pacemaker occurred in 4 patients despite successful mapping, whereas 10 patients required other reoperations, most commonly to address residual atrioventricular valve regurgitation or subpulmonary obstruction from the ventricular septal defect patch. There has been no perioperative mortality, need for single-ventricle palliation, or heart transplantation. All 13 patients who have progressed to complete septation and 18 patients with interstage circulation have acceptable hemodynamics, preserved ventricular function, and no heart failure symptoms at latest follow-up. CONCLUSIONS: Ventricular septation represents an alternative to the Fontan that can be performed safely in a subset of patients with acceptable early outcomes. Conduction mapping is an adjunct strategy that may add precision to well-established rules for reliably predicting conduction location.

3.
Circ Cardiovasc Imaging ; 17(4): e016104, 2024 Apr.
Artículo en Inglés | MEDLINE | ID: mdl-38567518

RESUMEN

BACKGROUND: The Fontan operation is a palliative technique for patients born with single ventricle heart disease. The superior vena cava (SVC), inferior vena cava (IVC), and hepatic veins are connected to the pulmonary arteries in a total cavopulmonary connection by an extracardiac conduit or a lateral tunnel connection. A balanced hepatic flow distribution (HFD) to both lungs is essential to prevent pulmonary arteriovenous malformations and cyanosis. HFD is highly dependent on the local hemodynamics. The effect of age-related changes in caval inflows on HFD was evaluated using cardiac magnetic resonance data and patient-specific computational fluid dynamics modeling. METHODS: SVC and IVC flow from 414 patients with Fontan were collected to establish a relationship between SVC:IVC flow ratio and age. Computational fluid dynamics modeling was performed in 60 (30 extracardiac and 30 lateral tunnel) patient models to quantify the HFD that corresponded to patient ages of 3, 8, and 15 years, respectively. RESULTS: SVC:IVC flow ratio inverted at ≈8 years of age, indicating a clear shift to lower body flow predominance. Our data showed that variation of HFD in response to age-related changes in caval inflows (SVC:IVC, 2, 1, and 0.5 corresponded to ages, 3, 8, and 15+, respectively) was not significant for extracardiac but statistically significant for lateral tunnel cohorts. For all 3 caval inflow ratios, a positive correlation existed between the IVC flow distribution to both the lungs and the HFD. However, as the SVC:IVC ratio changed from 2 to 0.5 (age, 3-15+) years, the correlation's strength decreased from 0.87 to 0.64, due to potential flow perturbation as IVC flow momentum increased. CONCLUSIONS: Our analysis provided quantitative insights into the impact of the changing caval inflows on Fontan's long-term HFD, highlighting the importance of SVC:IVC variations over time on Fontan's long-term hemodynamics. These findings broaden our understanding of Fontan hemodynamics and patient outcomes.


Asunto(s)
Procedimiento de Fontan , Cardiopatías Congénitas , Humanos , Preescolar , Niño , Adolescente , Vena Cava Superior/diagnóstico por imagen , Vena Cava Superior/cirugía , Vena Cava Superior/fisiología , Arteria Pulmonar/diagnóstico por imagen , Arteria Pulmonar/cirugía , Hígado/diagnóstico por imagen , Hemodinámica/fisiología , Vena Cava Inferior/diagnóstico por imagen , Vena Cava Inferior/cirugía , Cardiopatías Congénitas/diagnóstico por imagen , Cardiopatías Congénitas/cirugía
4.
J Thorac Cardiovasc Surg ; 165(5): 1618-1628, 2023 05.
Artículo en Inglés | MEDLINE | ID: mdl-36710103

RESUMEN

OBJECTIVES: The study objectives were to report on a growing experience of conduction system mapping during complex congenital heart surgery and create a predictive model of conduction anatomy. METHODS: Patients undergoing complex cardiac repair with conduction mapping were studied. Intraoperative mapping used a multielectrode catheter to collect His bundle electrograms in the open, decompressed, beating heart. Patient anatomy, operative details, His bundle location, and postoperative conduction status were analyzed. By using classification and regression tree analysis, a predictive model of conduction location was created. RESULTS: A total of 109 patients underwent mapping. Median age and weight were 1.8 years (range, 0.2-14.9) and 10.8 kg (range, 3.5-50.4), respectively. Conduction was identified in 96% (105/109). Median mapping time was 6 minutes (range, 2-33). Anatomy included atrioventricular canal defect, double outlet right ventricle, complex transposition of the great arteries, and multiple ventricular septal defects. By classification and regression tree analysis, ventricular looping and visceroatrial situs were the greatest discriminators of conduction location. A total of 94 of 105 patients (89.5%) were free of complete heart block. Only 1 patient (2.9%) with heterotaxy syndrome developed complete heart block. CONCLUSIONS: The precise anatomic location of the conduction system in patients with complex congenital heart defects can be difficult for the surgeon to accurately predict. Intraoperative conduction mapping enables localization of the His bundle and adds to our understanding of the anatomic factors associated with conduction location. Predictive modeling of conduction anatomy may build on what is already known about the conduction system and help surgeons to better anticipate conduction location preoperatively and intraoperatively.


Asunto(s)
Ventrículo Derecho con Doble Salida , Cardiopatías Congénitas , Síndrome de Heterotaxia , Transposición de los Grandes Vasos , Humanos , Transposición de los Grandes Vasos/cirugía , Ventrículo Derecho con Doble Salida/cirugía , Corazón , Cardiopatías Congénitas/cirugía , Bloqueo Cardíaco
5.
JTCVS Tech ; 12: 159-163, 2022 Apr.
Artículo en Inglés | MEDLINE | ID: mdl-35403044

RESUMEN

Objective: Postoperative heart block is a significant problem in congenital heart surgery because of the unpredictability and variability of conduction tissue location in complex congenital heart defects. A novel technique for intraoperative conduction system mapping during complex congenital heart surgery is described. Methods: Intraoperative conduction system mapping was performed utilizing a high-density multielectrode grid catheter to collect intracardiac electrograms on open, beating hearts during repair of complex congenital heart defects. Electrograms were interpreted by electrophysiologists, and conduction tissue location was communicated in real time to the surgeon. After localizing conduction tissue, the heart was arrested and the repair was completed taking care to avoid injury to the mapped conduction system. Results: Two patients with complex heterotaxy syndrome underwent intraoperative conduction mapping during biventricular repair. Mapping accurately identified the location of conduction tissue thereby enabling avoidance of conduction system injury during surgery. Notably, conduction was unexpectedly found to be located inferiorly in a patient with L-looped ventricles. Successful biventricular repair was accomplished in both patients without injury to the conduction system. Conclusions: Intraoperative conduction mapping can effectively localize the conduction system during surgery and enable the surgeon to avoid its injury. This can lower the risk of heart block requiring pacemaker in children undergoing complex congenital heart surgery.

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