iPSC-cardiomyocytes in the preclinical prediction of candidate pharmaceutical toxicity.

Many challenges remain in the preclinical evaluation, adjudication, and prioritization of novel compounds in therapeutic discovery pipelines. These obstacles are evident by the large number of candidate or lead compounds failing to reach clinical trials, significantly due to a lack of efficacy in the disease paradigm of interest and/or the presence of innate chemical toxicity. The consequential compound attrition in discovery pipelines results in added monetary and time costs, potential danger to patients, and a slowed discovery of true therapeutics. The low rate of successful translation calls for improved models that can recapitulate in vivo function in preclinical testing to ensure the removal of toxic compounds earlier in the discovery process, in particular for the assessment of cardiotoxicity, the leading cause of post-market drug withdrawal. With recent advances in the development of human Inducible pluripotent stem cell derived cardiomyocytes (iPSC-CMs), novel compounds can be assessed with better disease relevance while more accurately assessing human safety. In this review, we discuss the utility of iPSC-CMs in preclinical testing by taking advantage of the inherent ability to mimic CMs in vivo. We explore the similarities and differences in electrophysiology, calcium handling, cellular signaling, contractile machinery, and metabolism between iPSC-CMs and adult CMs as these complex coordinated functions directly relate to toxicity evaluation. We will highlight considerations when using iPSC-CMs, such as maturation protocols, to ensure a more representative phenotype of the adult human CM, and how different populations of CMs can affect results in compound testing.

Rodent Models of Dilated Cardiomyopathy and Heart Failure for Translational Investigations and Therapeutic Discovery.

Even with modern therapy, patients with heart failure only have a 50% five-year survival rate. To improve the development of new therapeutic strategies, preclinical models of disease are needed to properly emulate the human condition. Determining the most appropriate model represents the first key step for reliable and translatable experimental research. Rodent models of heart failure provide a strategic compromise between human in vivo similarity and the ability to perform a larger number of experiments and explore many therapeutic candidates. We herein review the currently available rodent models of heart failure, summarizing their physiopathological basis, the timeline of the development of ventricular failure, and their specific clinical features. In order to facilitate the future planning of investigations in the field of heart failure, a detailed overview of the advantages and possible drawbacks of each model is provided.

Local Anesthetic Cardiac Toxicity Is Mediated by Cardiomyocyte Calcium Dynamics.

BACKGROUND: Long-lasting local anesthetic use for perioperative pain control is limited by possible cardiotoxicity (e.g., arrhythmias and contractile depression), potentially leading to cardiac arrest. Off-target cardiac sodium channel blockade is considered the canonical mechanism behind cardiotoxicity; however, it does not fully explain the observed toxicity variability between anesthetics. The authors hypothesize that more cardiotoxic anesthetics (e.g., bupivacaine) differentially perturb other important cardiomyocyte functions (e.g., calcium dynamics), which may be exploited to mitigate drug toxicity. METHODS: The authors investigated the effects of clinically relevant concentrations of racemic bupivacaine, levobupivacaine, or ropivacaine on human stem cell-derived cardiomyocyte tissue function. Contractility, rhythm, electromechanical coupling, field potential profile, and intracellular calcium dynamics were quantified using multielectrode arrays and optical imaging. Calcium flux differences between bupivacaine and ropivacaine were probed with pharmacologic calcium supplementation or blockade. In vitro findings were correlated in vivo using an anesthetic cardiotoxicity rat model (females; n = 5 per group). RESULTS: Bupivacaine more severely dysregulated calcium dynamics than ropivacaine in vitro (e.g., contraction calcium amplitude to 52 ± 11% and calcium-mediated repolarization duration to 122 ± 7% of ropivacaine effects, model estimate ± standard error). Calcium supplementation improved tissue contractility and restored normal beating rhythm (to 101 ± 6%, and 101 ± 26% of control, respectively) for bupivacaine-treated tissues, but not ropivacaine (e.g., contractility at 80 ± 6% of control). Similarly, calcium pretreatment mitigated anesthetic-induced arrhythmias and cardiac depression in rats, improving animal survival for bupivacaine by 8.3 ± 2.4 min, but exacerbating ropivacaine adverse effects (reduced survival by 13.8 ± 3.4 min and time to first arrhythmia by 12.0 ± 2.9 min). Calcium channel blocker nifedipine coadministration with bupivacaine, but not ropivacaine, exacerbated cardiotoxicity, supporting the role of calcium flux in differentiating toxicity. CONCLUSIONS: Our data illustrate differences in calcium dynamics between anesthetics and how calcium may mitigate bupivacaine cardiotoxicity. Moreover, our findings suggest that bupivacaine cardiotoxicity risk may be higher than for ropivacaine in a calcium deficiency context.

The Incorporation of Hands-On Surgical Training in a Congenital Heart Surgery Training Curriculum.

BACKGROUND: The monthly in-house Hands-On Surgical Training (HOST) program was incorporated into the congenital heart surgery (CHS) curriculum for surgical trainees within our institution. This study evaluated whether there was an improvement and retention of technical skills throughout the curriculum via objective assessment methods. METHODS: Twelve 3-dimensional-printed surgical heart models were included into the year-long curriculum. The monthly sessions were attended by all trainees and staff surgeons. Proctors demonstrated the operation on a model, which was followed by 2 attempts by each trainee. Attempts were recorded for objective assessment. On completion of the curriculum trainees repeated 4 procedures an additional 2 times after a delay to assess skill retention. RESULTS: Twelve sessions were completed by 7 trainees within the curriculum. Objective assessments were performed in 7 sessions. Eighty-one percent of trainees' scores improved between the 2 attempts, with a mean improvement of 13% (attempt 1: HOST-CHS score of 79, attempt 2: HOST-CHS score of 89; P < .001). Similarly, 91% of procedural times improved by a mean of 25% (attempt 1, 1:22:00 [hours:minutes:seconds]; attempt 2, 1:01:21; P < .001). During individual procedure analysis, statistical significance remained in 3 of 7 procedures (P < .05). Four procedures were assessed for skill retention after a delay (2-14 months). Scores decreased by 4% in 47% of trainees during attempt 3 (attempt 2: HOST-CHS score of 94, attempt 3: HOST-CHS score of 91; P = .34) but improved in 79% during attempt 4 (attempt 3: HOST-CHS score of 91, attempt 4: HOST-CHS score of 99; P = .004), matching their previous performance. CONCLUSIONS: The monthly HOST course was successfully incorporated into a training curriculum for CHS surgeons using objective assessments to measure technical performance. Trainees demonstrated an improvement across all evaluated procedures and retained their skills when reassessed after a delay highlighting its value in CHS training.

Assessment tool validation and technical skill improvement in the simulation of the Norwood operation using three-dimensional-printed heart models.

OBJECTIVES: The hands-on surgical training course utilizes 3-dimensional (3D)-printed heart models to simulate complex congenital heart operations. This study aimed to validate a model and assessment tool in the simulation of 2 techniques of the Norwood operation and investigate whether technical performance improves following rehearsal with or without proctor presence. METHODS: Five 'experienced' and 5 'junior' surgeons performed 2 techniques of the Norwood operation on 3D-printed models of hypoplastic left heart syndrome. Performances were retrospectively assessed by 10 raters with varying experience in congenital heart surgery (CHS) (Medical Doctorate versus non-Medical Doctorate). Assessments were made with the procedure-specific Hands-On Surgical Training-CHS tool. Results were analysed for technical performance and rater consistency. Following validation, 30 surgeons (24 with proctor guidance and 6 with training videos and objective feedback only) simulated the Norwood operation twice. RESULTS: Performance scores were consistently higher for experienced surgeons and raters discriminated clearly between the experienced and junior surgeons (P ≤ 0.001). The hands-on surgical training-CHS tool showed high inter-rater (0.86) and intra-rater (0.80) reliability among all raters. Scores for both experienced and junior surgeons were highly consistent across all raters, with no statistically significant difference (P = 0.50). All surgeons successfully performed the Norwood operation. Sixty attempts were scored in total. Eighty-seven percentage (26/30) of surgeons' scores (mean: attempt 1 = 92, attempt 2 = 104) and times [mean: attempt 1 = 1:22:00, attempt 2 = 1:08:00 (h:mm:ss)] improved between the 2 attempts by 9% and 15% respectively (P ≤ 0.001). Total scores of all surgeons in the non-proctored subgroup (6) improved by 15% on average (mean: attempt 1 = 86, attempt 2 = 105, P = 0.002). CONCLUSIONS: Procedure-specific assessment tools can be developed to evaluate technical performance for complex CHS simulation and be performed reliably by non-expert raters. Rehearsal both under supervision and independently leads to technical skill improvement further supporting its value in CHS training.

Influence of Atlantic and Pacific Sea Surface Temperatures on Heat-Related Mortality in the United States.

The frequency and magnitude of extreme summer temperature events in the United States have increased in the past few decades. Long-term exposure to extreme summer temperatures can be detrimental to human health, due to potential risks of dehydration and thermoregulation strains on the cardiovascular system, which may often lead to heat-related mortality (HRM). The summer climate of the United States is influenced by variability in Atlantic and Pacific sea surface temperatures, driven in part by Atlantic Multidecadal Oscillation (AMO) and El-Nino Southern Oscillation (ENSO), respectively. However, the influence of AMO and ENSO on HRM in the United States has not been investigated. Here the longest time series of HRM spanning the past five decades is analyzed in relation with AMO and ENSO. We find that HRM doubled in the early-1990s, coinciding with the positive phase of the AMO. Furthermore, we note a positive association between the variability in HRM and summer temperatures across all regions of the United States, with the strongest association found over the Southern United States. Therefore, this research suggests that variability in Atlantic and Pacific sea surface temperatures has both a nationwide and regional impact on HRM in the United States. Hence, by understanding variability in sea surface temperatures, the future burden of heat-attributed emergencies during extreme summer temperature events can be reduced not only for the United States, but also worldwide.

Development and validation of a procedure-specific assessment tool for hands-on surgical training in congenital heart surgery.

BACKGROUND: Hands-on surgical simulation has been sought to address training limitations within congenital heart surgery (CHS). However, there is a need for objective assessment methods to measure surgeons' performance to justify its global adoption. This study aimed to validate a procedure-specific assessment tool for the simulation of the arterial switch operation on 3D-printed models and to evaluate the consistency of scoring among evaluators with different levels of experience in CHS. METHODS: Five "expert" and 5 "junior" surgeons performed the arterial switch procedure on 3D-printed models with transposition of the great arteries during 2 hands-on surgical training courses. Their performance was retrospectively assessed by 9 evaluators with varying experience in CHS (staff surgeons, resident surgeons, and non-MD raters). Assessments were done using 2 assessment tools: the Hands-On Surgical Training-Congenital Heart Surgery (HOST-CHS) assessment tool and the global rating scale (GRS). RESULTS: The HOST-CHS tool showed a higher interrater and intrarater reliability compared with the GRS. Total scores for expert surgeons were highly consistent across all evaluators. Non-MD raters' total scores for junior surgeons were slightly higher than those of residents and staff evaluators. All grades of evaluator were able to discriminate between junior and expert surgeons. CONCLUSIONS: This study demonstrates the development and validation of an objective, procedure-specific assessment tool for the arterial switch operation with consistency among evaluators with different experience. There is now a platform for quantifying and accurately evaluating performance, which will be highly beneficial in training and developing the next generation of congenital heart surgeons.

Quantitative assessment of technical performance during hands-on surgical training of the arterial switch operation using 3-dimensional printed heart models.

OBJECTIVE: Data supporting the use of hands-on simulation in congenital heart surgery are promising but primarily qualitative. This study aimed to demonstrate if there was an objective improvement in time and technical performance of the arterial switch procedure on 3-dimensional printed heart models by surgeons using a validated assessment method. METHODS: A total of 30 surgeons of varying experience performed the arterial switch procedure twice on 3-dimensional printed models with transposition of the great arteries during the Hands-on Surgical Training courses. Surgeons' performances were recorded and retrospectively assessed for both time and performance using the Hands-on Surgical Training-Congenital Heart Surgery tool, a validated procedure-specific assessment tool for the arterial switch. RESULTS: A total of 60 videos were scored. Eighty percent of surgeons (24/30) had improved from their first attempt. The mean total score of the first attempt performance compared with the second was 103 and 120, respectively, with a mean difference in score of 17 (95% confidence interval, 10-24). All surgeons were statistically significantly quicker in their second attempt. The mean time for the first attempt compared with the second was 1 hour, 28 minutes, 4 seconds and 1 hour, 5 minutes, and 45 seconds, respectively, with a mean difference of 0 hours, 22 minutes, 19 seconds (95% confidence interval, 0 hours, 15 minutes, 22 seconds to 0 hours, 25 minutes, 34 seconds). CONCLUSIONS: This is the first study to demonstrate an objective improvement in time and technical performance of the arterial switch procedure on 3-dimensional printed heart models. This supports the evidence that simulation in the form of deliberate practice with constructive, objective feedback is fundamental in the training of future congenital heart surgeons. These simulations and assessments should be incorporated to create structured, standardized training curricula within congenital heart surgery.

Hands-On Surgical Simulation in Congenital Heart Surgery: Literature Review and Future Perspective.

Congenital heart surgery is a technically demanding specialty resulting in a prolonged training period. With the growing expectation of perfect patient outcomes, there is a need for improved training methods by implementing simulation. We assess the utilization of simulation in the training of congenital heart surgeons and discuss its future implications. A keyword-based PubMed literature search was conducted for hands-on surgical simulation in congenital heart surgery. The abstracts/titles of the search were reviewed and papers using simulation specific to congenital cardiac surgery were selected. Studies that did not include surgeons operating on the simulator, or did not incorporate assessment methods were excluded. Analysis included the problem addressed, simulator-type, methodology, assessment methods, results, benefits/limitations, and reproducibility. Five papers fulfilled our selection criteria of hands-on surgical simulation in congenital heart surgery with an assessment of the simulator or procedural performance. One simulation used animal models and 4 utilized 3D-printed models. Simulators covered either single or multiple complex procedures. All studies highlight usefulness of simulation; however, only 1 study has been replicated with >10 participants. The studies demonstrate how hands-on surgical simulation is possible within congenital heart surgery. Although primarily proof of concept studies, the next step would involve using a greater number of participants and demonstrate how repetition and deliberate practice will improve outcomes. Congenital heart surgery is one of the most technically demanding surgical specialties; therefore, we should lead the way in utilizing simulation to complement the training of our surgeons as we face the challenges ahead.

Dataset of integrin-linked kinase protein: Protein interactions in cardiomyocytes identified by mass spectrometry.

Using hearts from mice overexpressing integrin linked kinase (ILK) behind the cardiac specific promoter αMHC, we have performed immunoprecipitation and mass spectrometry to identify novel ILK protein:protein interactions that regulate cardiomyocyte activity and calcium flux. Integrin linked kinase complexes were captured from mouse heart lysates using a commercial antibody, with subsequent liquid chromatography tandem mass spectral analysis. Interacting partners were identified using the MASCOT server, and important interactions verified using reverse immunoprecipitation and mass spectrometry. All ILK interacting proteins were identified in a non-biased manner, and are stored in the ProteomeXchange Consortium via the PRIDE partner repository (reference ID PRIDE: PXD001053). The functional role of identified ILK interactions in cardiomyocyte function and arrhythmia were subsequently confirmed in human iPSC-cardiomyocytes.

The Utility of Aortic Blood Flow Measurements in the Prediction of Pulmonary Artery Banding Outcome.

BACKGROUND: The purpose of this study was to evaluate the clinical utility of intraoperative aortic blood flow measurements on clinical outcome in patients undergoing pulmonary artery banding (PAB). METHODS: We reviewed 12 patients who underwent a PAB between September 2008 and March 2013 who also had intraoperative aortic blood flow measurements. Diagnosis included biventricular physiology in 6, single-ventricle physiology in 4, and inadequate systemic ventricle in 2 patients. Aortic blood flow was measured at the time of surgery by Transonic flow probe (Transonic Systems Inc, Ithaca, NY). Aortic flow, intraoperative hemodynamics, and clinical outcomes were analyzed to determine the potential predictive utility of intraoperative variables on postoperative outcomes. RESULTS: The aortic flow increased after PAB from 1.56 ± 0.73 to 2.20 ± 1.10 L · min(-1) · m(-2) (41.0% increase; p = 0.001). The efficacy of the PAB procedure was found to be directly related to the percentage increase in aortic blood flow measured intraoperatively. Three patients with less than 20% increase in aortic blood flow died, required re-PAB, or developed ventricular dysfunction, while patients with successful PAB had more than 40% increase in aortic blood flow. The percentage increase in aortic blood flow was not predictable based on pre-band or post-band absolute aortic blood flow measurements. The percentage increase in aortic blood flow was inversely correlated to the tightness of the PAB as defined relative to that predicted by the Trusler formula (r = 0.67; p = 0.01). CONCLUSIONS: This study identifies the change in the aortic blood flow as a new, physiologically based parameter to help predict PAB outcome.

Anatomical risk factors, surgical treatment, and clinical outcomes of left-sided pulmonary vein obstruction in single-ventricle patients.

BACKGROUND: Patients with single-ventricle physiology frequently develop left-sided pulmonary vein obstruction (PVO), in which the pulmonary veins traverse the descending thoracic aorta. We hypothesized that a combination of cardiomegaly and an anteriorly positioned descending aorta is associated with PVO. METHODS: Among 494 consecutive single-ventricle patients, 15 were diagnosed with PVO by cardiac magnetic resonance, defined as anatomically localized narrowing of the pulmonary vein diameter. Using axial slices at the level of the left lower pulmonary vein, normalized dimensions were obtained to characterize the anatomic relationships of intrathoracic structures. Measurements were compared between patients with PVO and "control" patients (single-ventricle patients with normal pulmonary veins, n = 12). RESULTS: Patients with cardiac magnetic resonance-diagnosed PVO had larger cardiac size and more antero-laterally located descending aorta when compared with controls (normalized dimensions: cardiac/thoracic area ratio: 0.43 vs 0.38, P = .035, distance from vertebra to descending aorta normalized by the horizontal dimension of thoracic cavity: 0.09 vs 0.08, P = .049). Seven (47%) patients underwent PV sutureless repair, and 3 (of 7) failed to achieve Fontan. Patients who failed to achieve Fontan had a larger normalized cardiac size than those who achieved Fontan (cardiac/thoracic area ratio: 0.49 vs 0.39, P = .001). CONCLUSIONS: The combination of relative cardiomegaly within the context of the thoracic cavity at the level of the pulmonary veins and antero-lateral displacement of the aorta is associated with left-sided PVO and subsequent failure to achieve Fontan completion. Further characterization of these unique geometric relationships may help inform both surveillance strategies and decision making in the timing of interventions, and guide the intraoperative objectives at the time of PVO repair.

Integrin-linked kinase mediates force transduction in cardiomyocytes by modulating SERCA2a/PLN function.

Human dilated cardiomyopathy (DCM) manifests as a profound reduction in biventricular cardiac function that typically progresses to death or cardiac transplantation. There is no effective mechanism-based therapy currently available for DCM, in part because the transduction of mechanical load into dynamic changes in cardiac contractility (termed mechanotransduction) remains an incompletely understood process during both normal cardiac function and in disease states. Here we show that the mechanoreceptor protein integrin-linked kinase (ILK) mediates cardiomyocyte force transduction through regulation of the key calcium regulatory protein sarcoplasmic/endoplasmic reticulum Ca(2+)ATPase isoform 2a (SERCA-2a) and phosphorylation of phospholamban (PLN) in the human heart. A non-oncogenic ILK mutation with a synthetic point mutation in the pleckstrin homology-like domain (ILK(R211A)) is shown to enhance global cardiac function through SERCA-2a/PLN. Thus, ILK serves to link mechanoreception to the dynamic modulation of cardiac contractility through a previously undiscovered interaction with the functional SERCA-2a/PLN module that can be exploited to rescue impaired mechanotransduction in DCM.

Persistent fenestration may be a marker for physiologic intolerance after Fontan completion.

BACKGROUND: We sought to evaluate the medium-term implications of fenestration status. METHODS: Between 1994 and 2012, 326 patients received an extracardiac Fontan (hospital mortality n = 6, 1.8%). A fenestration was routinely created (n = 306, 94%) unless there was technical difficulty. Three hundred patients discharged with an open fenestration were included. The primary end points were death and Fontan failure. Secondary outcomes were Fontan complications such as venovenous collaterals, protein-losing enteropathy, pacemaker requirement, and arrhythmias. RESULTS: The fenestration was closed in 260 patients: 185 as a catheter intervention (62%) and 75 (25%) spontaneously. Forty patients (13%) had the fenestration open at a median follow-up period of 5.05 years. Of these patients, catheter-based closure failed in 10 (3%). There was no statistically significant difference in pre-Fontan hemodynamic parameters, such as pulmonary artery pressure and pulmonary vascular resistance between the patients with open fenestration and the ones with closed fenestration. Patients with an open fenestration had significantly more late deaths (P < .001), Fontan failure (P = .021), and Fontan complications (P = .011) compared with those with a closed fenestration. Multivariable Cox regression revealed open fenestration (P < .001) and indeterminate ventricular morphology (P = .002) as risk factors for death/Fontan failure, and ventricular dysfunction (P = .014) and open fenestration (P = .009) as risk factors for Fontan complications. CONCLUSIONS: Persistent fenestration was a marker for physiologic intolerance as noted by increased rates of mortality and a higher incidence of Fontan failure/complications. The specificity of pre-Fontan physiologic data for fenestration status may not have the fidelity needed for long-term care and thus, the consequences of decision making regarding fenestration status may not be determined until well after the operation.

Losartan ameliorates "upstream" pulmonary vein vasculopathy in a piglet model of pulmonary vein stenosis.

OBJECTIVES: Pulmonary vein stenosis (PVS) is a relentless disease with a poor prognosis. Although surgical repair can effectively treat "downstream" (near left atrial junction) PVS, residual "upstream" (deep in lung parenchyma) PVS commonly dictates long-term survival. Our initial studies revealed an association between PVS and transforming growth factor-ß signaling, which led us to investigate the effect of losartan on upstream pulmonary vein vasculopathy in a piglet model of PVS. METHODS: Neonatal Yorkshire piglets underwent sham surgical banding (sham, n = 6), staged bilateral pulmonary vein banding of all pulmonary veins except the right middle pulmonary vein (banded, n = 6), and staged pulmonary vein banding with losartan treatment (losartan, 1 mg/kg/d, n = 7). After 7 weeks, the hemodynamic data were obtained and the piglets killed. RESULTS: Pulmonary vein banding (compared with sham) was associated with continuous turbulent flow in banded pulmonary veins, pulmonary hypertension (pulmonary artery/systemic blood pressure ratio 0.51 ± 0.06 vs 0.23 ± 0.02, P < .001), and diffuse pulmonary vein intimal hyperplasia in the upstream pulmonary veins (P < .001). Losartan administration decreased the pulmonary artery/systemic blood pressure ratios compared with those in the banded piglets (0.36 ± 0.08 vs 0.51 ± 0.06, P = .007) but it remained greater than those in the sham group (P = .001). Losartan was also associated with diminished pulmonary vein intimal hyperplasia compared with that in the banded piglets (P < .001) but still remained more than that in the sham group (P = .035). Pulmonary vein banding reduced vascular endothelial-cadherin expression, indicative of diminished endothelial integrity, which was restored with losartan. CONCLUSIONS: Losartan treatment improved PVS-associated pulmonary hypertension and intimal hyperplasia and might be a beneficial prophylactic therapy for patients at high risk of developing PVS after pulmonary vein surgery.

Remote ischemic preconditioning in children undergoing cardiac surgery with cardiopulmonary bypass: a single-center double-blinded randomized trial.

BACKGROUND: Remote ischemic preconditioning (RIPC) harnesses an innate defensive mechanism that protects against inflammatory activation and ischemia-reperfusion injury, known sequelae of cardiac surgery with cardiopulmonary bypass. We sought to determine the impact of RIPC on clinical outcomes and physiological markers related to ischemia-reperfusion injury and inflammatory activation after cardiac surgery in children. METHODS AND RESULTS: Overall, 299 children (aged neonate to 17 years) were randomized to receive an RIPC stimulus (inflation of a blood pressure cuff on the left thigh to 15 mm Hg above systolic for four 5-minute intervals) versus a blinded sham stimulus during induction with a standardized anesthesia protocol. Primary outcome was duration of postoperative hospital stay, with serial clinical and laboratory measurements for the first 48 postoperative hours and clinical follow-up to discharge. There were no significant baseline differences between RIPC (n=148) and sham (n=151). There were no in-hospital deaths. No significant difference in length of postoperative hospital stay was noted (sham 5.4 versus RIPC 5.6 days; difference +0.2; adjusted P=0.91), with the 95% confidence interval (-0.7 to +0.9) excluding a prespecified minimal clinically significant differences of 1 or 1.5 days. There were few significant differences in other clinical outcomes or values at time points or trends in physiological markers. Benefit was not observed in specific subgroups when explored through interactions with categories of age, sex, surgery type, Aristotle score, or first versus second half of recruitment. Adverse events were similar (sham 5%, RIPC 6%; P=0.68). CONCLUSIONS: RIPC is not associated with important improvements in clinical outcomes and physiological markers after cardiac surgery in children. CLINICAL TRIAL REGISTRATION URL: clinicaltrials.gov. Unique identifier: NCT00650507.

Is restrictive atrial septal defect a risk in partial anomalous pulmonary venous drainage repair?

BACKGROUND: The creation or enlargement of an atrial septal defect (ASD) in partial anomalous pulmonary venous drainage (PAPVD) repair may pose a risk of postoperative pulmonary vein stenosis (PVS), superior vena cava stenosis (SVCS), and atrial rhythm disturbances. METHODS: 155 children who underwent repair of right PAPVD between 1990 and 2010 were reviewed. PVS and SVCS were defined by mean gradients on echocardiography: mild=3 to 5 mm Hg; severe=6 mm Hg or higher. Postoperative cardiac rhythms were categorized as sinus, transient nonsinus, and persistent nonsinus rhythms. Outcomes were compared between patients who underwent the creation or superior enlargement of an ASD (group A) and those who did not (group B). RESULTS: There was no early or late death. Freedom from any PVS at 15 years after operation was lower in group A than in group B (76.1% vs 96.5%, p=0.002), and no differences were found in freedom from severe PVS (p=0.103), any SVCS (p=0.419), or severe SVCS (p=0.373). Group A patients had more PVS-related reoperations (p=0.022). Nineteen patients had nonsinus rhythm, and 4 patients experienced first-degree atrioventricular block, but no significant difference was found between the groups. Cox regression revealed the creation or superior enlargement of an ASD as a predictor for postoperative PVS (p=0.032). A case-match analysis confirmed a higher risk of PVS in patients with the creation or superior enlargement of an ASD (p=0.018). CONCLUSIONS: Late outcomes after repair of PAPVD are excellent. The subgroup that requires creation or superior enlargement of an ASD in repair of a right PAPVD is at a higher risk of late PVS and a subsequent increase in PVS-related reoperation. The presence of restrictive ASD did not increase SVCS, sinus node, or atrial conduction dysfunction.