Oscar J. Benavidez

Diagnostic errors in pediatric echocardiography: development of taxonomy and identification of risk factors.

Background— Despite increased interest in complications within pediatric cardiology, the domain of imaging-related diagnostic errors has received little attention. We developed a new taxonomy for diagnostic errors within pediatric echocardiography that categorizes errors by severity, preventability, and primary contributor. Our objectives were to examine its findings when applied to diagnostic error cases and to identify risk factors for preventable or possibly preventable diagnostic errors. Methods and Results— Diagnostic errors were identified at a high-volume academic pediatric cardiac center from December 2004 to August 2007. Demographic, clinical, and situational variables were collected from these cases and controls. During the study period, ≈50 660 echocardiograms were performed. Among the 87 diagnostic error cases identified, 70% affected clinical management or the patient was at risk of or experienced an adverse event. One third of the errors were preventable and 46% were possibly preventable; 69% of preventable errors were of moderate severity or greater. Univariate analysis demonstrated that preventable or possibly preventable errors were more likely to involve younger patients, lower body weight, study location, sedated/anesthetized patients, studies performed and interpreted at night, uncommon diagnoses, and greater anatomic complexity than controls. Multivariate analysis identified the following risk factors: rare or very rare diagnoses (adjusted odds ratio [AOR], 9.2; P<0.001), study location in the recovery room (AOR, 7.9; P<0.001), moderate anatomic complexity (AOR, 3.5; P=0.004), and patient weight <5 kg (AOR, 3.5; P=0.031). Conclusions— A diagnostic error taxonomy and knowledge of risk factors can assist in identification of targets for quality improvement initiatives that aim to decrease diagnostic error in pediatric echocardiography.

Racial and Ethnic Disparities in Mortality Following Congenital Heart Surgery

Our objective was to assess risk-adjusted racial and ethnic disparities in mortality following congenital heart surgery. We studied 8483 congenital heart surgical cases from the Kids’ Inpatient Database 2000. Black sub-analysis was performed using predetermined regional categories. For our Hispanic sub-analyses, we categorized Hispanics into state groups according to a state’s predominant Hispanic group: West (Mexican-American), Southeast (Cuban-American), Northeast (Puerto Rican), and Mixed/Heterogeneous. Risk adjustment was performed using the Risk Adjustment for Congenital Heart Surgery method. Multivariate analyses assessed the effect of race/ethnicity and Hispanic state group on mortality and explored the effects of gender, income, insurance type, and region. Black children had a higher risk for death than Whites odds ratio (OR), [1.65; p = 0.003]. Hispanics and the Cuban-American state group showed a trend toward a higher death risk (Hispanic: OR, 1.24; p = 0.16; Southeast Cuban-American: OR 1.55; p = 0.08). Disparities were not influenced by insurance. Among Blacks, disparities were greatest in the Northeast region (OR, 2.25; p = 0.007). After adjusting for gender, income, and region, Blacks (OR, 1.76; p = 0.002) and Hispanics (OR, 1.34; p = 0.05) had a higher death risk. Racial and ethnic disparities in risk-adjusted mortality following congenital heart disease exist for Blacks and Hispanics. These disparities are not due to insurance but are partially explained by gender and region.

Pediatric Appropriate Use Criteria Implementation Project: A Multicenter Outpatient Echocardiography Quality Initiative

BACKGROUND Recently published appropriate use criteria (AUC) for initial pediatric outpatient transthoracic echocardiography (TTE) have not yet been evaluated for clinical applicability. OBJECTIVES This study sought to determine the appropriateness of TTE as currently performed in pediatric cardiology clinics, diagnostic yield of TTE for various AUC indications, and any gaps in the AUC document. METHODS Data were prospectively collected from patients undergoing initial outpatient TTE in 6 centers. TTE indications (appropriate [A], may be appropriate [M], or rarely appropriate [R]) and findings (normal, incidental, or abnormal) were recorded. RESULTS Of the 2,655 studies ordered by 102 physicians, indications rated A, M, and R were found in 1,876 (71%), 316 (12%), and 319 studies (12%), respectively, and 144 studies (5%) were unclassifiable. Twenty-four of 113 indications (21%) were not used. Innocent murmur and syncope or palpitations with no other indications of cardiovascular disease, a benign family history, and normal electrocardiogram accounted for 75% of indications rated R. Pathologic murmur had the highest yield of abnormal findings (40%). Odds of an abnormal finding in an A or M TTE were 6 times that of R (95% confidence interval [CI]: [2.8 to 12.8]). Abnormal findings were more common in patients <1 year of age than in those >10 years of age (odds ratio: 6.4; 95% CI: 4.7 to 8.7). Age was a significant predictor of an abnormal finding after adjusting for indication and site (p < 0.001). CONCLUSIONS Most TTEs ordered in pediatric cardiology clinics were for indications rated A. AUC ratings successfully stratified indications based on the yield of abnormal findings. This study identified differences in the yield of TTE based on patient age and most common indications rated R. These findings should inform quality improvement efforts and future revisions of the AUC document.

Resource Use Among Adult Congenital Heart Surgery Admissions in Pediatric Hospitals Risk Factors for High Resource Utilization and Association With Inpatient Death

Background—Pediatric hospitals frequently perform congenital heart surgery in adults with congenital heart disease. The impact of these admissions on pediatric hospital resources is unknown. Our goals were to examine resource use by adults undergoing congenital heart surgery in pediatric hospitals, explore the association between high resource use (HRU) and inpatient death, and identify HRU risk factors. Methods and Results—We obtained inpatient data from 42 pediatric hospitals from 2000 to 2008 and selected adult congenital heart (ACH) surgery admissions. We defined HRU admissions as those exceeding the 90th percentile for total hospital charges. We performed multivariable analyses using generalized estimating equations to identify risk factors for HRU. Of 97 563 congenital heart surgery admissions to pediatric hospitals, 3061 (3.1%) were adults, accounting for 2.2% of total hospital charges. The threshold for HRU was total hospital charges ≥

Aortic Stenosis: The Spectrum of Practice

213 803. Although HRU admissions comprised 10% of admissions, they accounted for 34% of charges for all ACH surgery admissions. Mortality rate was 16% for HRU admissions and 0.7% for others (P<0.001). Multivariable analysis demonstrated higher case complexity: risk category 2 (adjusted odds ratio [AOR], 3.6; P=0.02), risk category 3 (AOR, 13.7; P<0.001), and risk category 4+ (AOR, 30.7; P<0.001) as compared with risk category 1; DiGeorge syndrome (AOR, 4.2; P=0.006); depression (AOR, 3.1; P<0.001); weekend admission (AOR, 2.6; P<0.001); and government insurance (AOR, 2.0; P<0.001) as risk factors for HRU. Conclusions—High resource use ACH surgery admissions are associated with significantly greater mortality rates. ACH admissions with greater surgical complexity, government insurance, DiGeorge syndrome, weekend admission, and depression were more likely to result in HRU.

Risk Factors for Death After Adult Congenital Heart Surgery in Pediatric Hospitals

There is significant variation in practice patterns in managing congenital aortic valve stenosis. Review of medical literature reveals no significant information regarding the current practice methods in the treatment of a simple lesion such as aortic stenosis (AS). Therefore, this survey-based study was conducted in an attempt to better understand the uniformity or heterogeneity of practice in treating AS. A questionnaire was prepared to evaluate the style of management of AS. This survey was designed to assess the practice of follow-up visitations, type and frequency of investigative studies, pharmacological therapy, and exercise recommendations. Questions about therapeutic intervention included those of timing and type of intervention. Questionnaires were sent to all academic pediatric cardiology programs in the United States (48 program) and selected international programs from Europe, Asia, and Australasia (19 program). The total number of surveys sent out was 67, and the total number of respondents was 25 (37%), 15 (31%) from the United States and 9 (53%) from outside the United States. The definition of moderate AS varied among respondents. The range provided for mild AS was identified as that with a peak-to-peak pressure gradient of < 25–30 mmHg, peak instantaneous Doppler gradient of < 36–50 mmHg, or mean Doppler gradient of < 25–40 mmHg. On the other hand, severe AS was defined as that with a peak-to-peak gradient of > 50–60 mmHg, peak instantaneous Doppler gradient of > 64–80 mmHg, or mean Doppler gradient of > 45–64 mmHg. In assessing follow-up patterns, 84% of respondents recommended seeing patients with mild AS annually, the longest time of follow-up listed in the questionnaire, whereas 20% suggested follow-up every 6 months. There was no consensus among survey centers regarding follow-up of patients with moderate AS. For severe AS, 16% recommend immediate intervention, 16% arrange follow-up every 6 months, and 56 and 28% recommend follow-up in 3 and 1 month(s), respectively. In making the decision to proceed with biventricular versus univentricular repair in patients with AS in the neonatal period, many factors were considered. Ninety-two percent of respondents rely on mitral valve z score, 84% on aortic valve z score, 52% on left ventricle length, 48% on the presence of antegrade ascending aorta flow, and only 32% considered significant endocardial fibroelastosis as a factor. Rhodes score was used by 20% of respondents in decision making regarding the approach to management of this subset of AS. This study shows that there is consensus in the management of mild and severe forms of AS. As expected, disagreement is present in the definition, evaluation, and therapy of moderate aortic valve stenosis. There is a tendency for catheter intervention except in the presence of dysplastic aortic valve or moderate to severe aortic regurgitation. There is also disagreement regarding methods used to determine biventricular versus univentricular repair of a borderline hypoplastic left heart.

HIGH RESOURCE USE AMONG ADULT CONGENITAL HEART SURGERY ADMISSIONS IN ADULT HOSPITALS: RISK FACTORS AND ASSOCIATION WITH DEATH AND COMPLICATIONS

Background—Despite the central role that pediatric hospitals play in the surgical treatment of congenital heart disease, little is known about outcomes of adult congenital cardiac surgical care in pediatric hospitals. Risk factors for inpatient death, including adult congenital heart (ACH) surgery volume, are poorly described. Methods and Results—We obtained inpatient data from 42 free-standing pediatric hospitals using the Pediatric Health Information System data base 2000 to 2008 and selected ACH surgery admissions (ages 18 to 49 years). We examined admission characteristics and hospital surgery volume. Of 97 563 total (pediatric and adult) congenital heart surgery admissions, 3061 (3.1%) were ACH surgery admissions. Median adult age was 22 years and 39% were between ages 25 to 49 years. Most frequent surgical procedures were pulmonary valve replacement, secundum atrial septal defect repair, and aortic valve replacement. Adult mortality rate was 2.2% at discharge. Multivariable analyses identified the following risk factors for death: age 25 to 34 years (adjusted odds ratio [AOR], 2.1; P=0.009), age 35 to 49 years (AOR, 3.2; P=0.001), male sex (AOR, 1.8; P=0.04), government-sponsored insurance (AOR, 1.8; P=0.03), and higher surgical risk categories 4+ (AOR, 21.5; P=0.001). After adjusting for case mix, pediatric hospitals with high ACH surgery volume had reduced odds for death (AOR, 0.4; P=0.003). There was no relationship between total congenital heart surgery volume and ACH inpatient mortality. Conclusions—Older adults, male sex, government-sponsored insurance, and greater surgical case complexity have the highest likelihood of in-hospital death when adult congenital surgery is performed in free-standing pediatric hospitals. After risk-adjustment, pediatric hospitals with high ACH surgery volume have the lowest inpatient mortality.

True Aneurysmal Dilatation of a Contegra Conduit after Right Ventricular Outflow Tract Reconstruction: A Novel Mechanism of Conduit Failure

OBJECTIVE Adult hospitals are a common location of adult congenital heart disease (ACHD) admissions, including cardiac surgical admissions. Understanding the patterns and predictors of resource use could aid these institutions by identifying and targeting potentially modifiable determinants of high resource use (HRU). Our objectives were to examine resource use during adult congenital heart surgical admissions in adult hospitals, determine the association of HRU with mortality, and identify risk factors for HRU. DESIGN Population-based retrospective study We obtained data from the Nationwide Inpatient Sample 2005-2009 and examined ACHD surgical admissions ages 18-49 years (n = 16 231). OUTCOME MEASURES We defined HRU as admissions with >90th percentile for total hospital charges. RESULTS Despite representing 10% of admissions, HRU admissions accounted for 32% of total charges. HRU admissions had a higher mortality rate (9.7% vs. 1.8%, P < .001). Multivariable analysis demonstrated that HRU is associated with government insurance adjusted odds ratio (AOR) 2.0 (95% confidence interval [CI] 1.6,2.4), emergency admissions AOR 3.9 (95% CI 3.1,4.8), complications AOR 4.2 (95% CI 3.3,5.2), renal failure AOR 1.8 (95% CI 1.4,2.2), congestive heart failure AOR 1.2 (95% CI 1,1.4), surgical complexity risk category-2 AOR 2.0 (95% CI 1.0,3.6), and category-3+ AOR 2.3 (95% CI 1.4,3.8). CONCLUSIONS HRU admissions for adult congenital heart surgery consumed a disproportionate amount of resources and were associated with higher mortality. HRU risk factors included nonelective admissions, government insurance, heart failure, surgical complexity, renal failure, and complications. Complications, if preventable, may be a target for improvement strategies to decrease resource use. Other risk factors may require a broader patient care approach.

Perinatal outcome after prenatal diagnosis of single-ventricle cardiac defects.

Valved conduits are frequently used in congenital heart surgery to establish continuity between the right ventricle and the pulmonary arteries. The Contegra bovine jugular vein (Medtronic Inc, Minneapolis, MN) is a conduit that incorporates a tri-leaflet valve and affords off-the-shelf availability, good handling characteristics, and excellent hemodynamics. However, complications related to the use of this device have been reported, with conduit failure occurring mainly as a consequence of stenosis, conduit thrombosis, and valve regurgitation. We present a case of aneurysmal conduit failure of a 14-mm Contegra conduit used to reconstruct the right ventricular outflow tract.

Outcomes of inferior sinus venosus defect repair

To investigate the perinatal outcome of cases with a prenatal diagnosis of single‐ventricle cardiac defects, single ventricle being defined as a dominant right ventricle (RV) or left ventricle (LV), in which biventricular circulation was not possible.