Golisano Children's Hospital

Autism spectrum disorder (ASD) is a common neurodevelopmental disorder with reported prevalence in the United States of 1 in 59 children (approximately 1.7%). Core deficits are identified in 2 domains: social communication/interaction and restrictive, repetitive patterns of behavior. Children and youth with ASD have service needs in behavioral, educational, health, leisure, family support, and other areas. Standardized screening for ASD at 18 and 24 months of age with ongoing developmental surveillance continues to be recommended in primary care (although it may be performed in other settings), because ASD is common, can be diagnosed as young as 18 months of age, and has evidenced-based interventions that may improve function. More accurate and culturally sensitive screening approaches are needed. Primary care providers should be familiar with the diagnostic criteria for ASD, appropriate etiologic evaluation, and co-occurring medical and behavioral conditions (such as disorders of sleep and feeding, gastrointestinal tract symptoms, obesity, seizures, attention-deficit/hyperactivity disorder, anxiety, and wandering) that affect the child's function and quality of life. There is an increasing evidence base to support behavioral and other interventions to address specific skills and symptoms. Shared decision making calls for collaboration with families in evaluation and choice of interventions. This single clinical report updates the 2007 American Academy of Pediatrics clinical reports on the evaluation and treatment of ASD in one publication with an online table of contents and section view available through the American Academy of Pediatrics Gateway to help the reader identify topic areas within the report.

GFR is the best indicator of renal function in children and adolescents and is critical for diagnosing acute and chronic kidney impairment, intervening early to prevent end-stage renal failure, prescribing nephrotoxic drugs and drugs cleared by a failing kidney, and monitoring for side effects of medications. Renal inulin clearance was the gold standard for GFR but is compromised by lack of availability, difficult assays, and problems of collecting timed urine samples, especially in children with vesicoureteral reflux or bladder dysfunction. Creatinine clearance-based estimates of GFR are often used in pediatrics. The addition of cimetidine to eliminate creatinine secretion permits accurate measurement of GFR in those who can completely empty their bladders to provide timed urine collections. Radioisotopes are used in plasma disappearance GFR determinations; however, these are not ideal for use in children, especially for repeated studies. The plasma disappearance of iohexol serves as a promising alternative GFR marker, because it is safe and not radioactive, easily measured, not metabolized or transported by the kidney, and excreted primarily by glomerular filtration. GFR estimating equations, based on serum concentrations of creatinine or cystatin C, are popular clinically and in research studies. Efforts are ongoing to improve these estimating equations for children and make the results readily available to clinicians obtaining standard chemistry profiles, as is being done for adults. However, at this time, there is no dependable substitute for an accurately determined GFR, and iohexol plasma disappearance offers the best combination of safety, accuracy, and reproducible precision.

Funding for the development of this Practice Guideline and Guidance was provided by the American Association for the Study of Liver Diseases. Potential conflict of interest: Dr. Mack consults for Albireo. Dr. Kerkar advises High Tide and received royalties from Elsevier. Dr. Manns consults for, is on the speakers' bureau for, and received grants from Falk. He consults for and received grants from Novartis. Dr. Vierling advises and received grants from CymaBay, Enanta, Genkyotex, Intercept, Lilly, Novartis, and TaiwanJ. He advises Arena, BioIncept, Blade, and GlaxoSmithKline and received grants from Allergan and NGM. What's New Since 2010 Guidelines? Histological features of NAFLD are present in 17%‐30% of adult patients with AIH, and concurrent NAFLD may influence response to therapy. Diagnostic scoring systems should be used only to support clinical judgment in challenging cases of AIH and to define AIH cohorts for clinical studies. Immune checkpoint inhibitors have been associated with immune‐mediated liver injury and are frequently steroid‐responsive, but the liver injury lacks autoantibodies and typical histological features of AIH. Elastography may be used to assess the stages of hepatic fibrosis noninvasively. Testing for TPMT activity prior to AZA treatment is encouraged in all patients. Budesonide and AZA or predniso(lo)ne and AZA are recommended as first‐line AIH treatments in children and adults who do not have cirrhosis, acute severe hepatitis, or ALF. AZA can be continued throughout pregnancy, whereas the use of MMF is contraindicated in pregnancy. Liver tissue examination prior to drug withdrawal in individuals with ≥2 years of biochemical remission is preferred but not mandatory in adults and required in children. MMF or TAC can be used as second‐line treatment in children and adults with AIH who have failed to respond to first‐line therapy. Patients with acute severe AIH should receive predniso(lo)ne followed by LT if no improvement within 2 weeks, whereas patients with AIH and ALF should be evaluated directly for LT. Glucocorticoids can be discontinued after LT and patients monitored for recurrence of AIH. Purpose and Scope The objectives of this document are to provide guidance in the diagnosis and management of autoimmune hepatitis (AIH) based on current evidence and expert opinion and to present guidelines to clinically relevant questions based on systematic reviews of the literature and the quality of evidence.1 This practice guideline/guidance constitutes an update of the guidelines on AIH published in 2010 by the American Association for the Study of Liver Diseases (AASLD).2 It updates the epidemiology, diagnosis, management, and outcomes of AIH in adults and children. The document is divided into "guideline recommendations" and "guidance statements." Guideline recommendations were based on evidence derived from systematic reviews of the medical literature and supported, if appropriate, by meta‐analyses. The systematic reviews and meta‐analyses were conducted independently by the Mayo Clinic Evidence‐Based Practice Center. Findings were analyzed and interpreted by a multidisciplinary panel of experts, including both content and methodology experts, who rated the quality of evidence and determined the strength of each recommendation. The quality of clinical evidence was determined by its source (e.g., randomized controlled trial or observational study), and the strength of the recommendation was determined by assessing the quality of evidence, balance of benefits and harms, patient values and preferences, and use of resources and costs. The Grading of Recommendations Assessment, Development, and Evaluation (GRADE) system was used to categorize each recommendation as strong or conditional (Table 1).3 Details of the methodology, systematic reviews, and meta‐analyses are published separately. The guideline recommendations focus on pertinent management issues for which sufficient evidence was available to render a recommendation. They address glucocorticoid and azathioprine therapy as first‐line management, second‐line medications after failure of first‐line therapy, and maintenance management after liver transplantation (LT; see Supporting Table S1 for patient/intervention/comparison/outcome questions related to systematic reviews). Table 1 - GRADE Assessment of Clinical Studies Study Design Rating Quality Strength Determinants Strength and Implications of Recommendation Randomized controlled trial High Quality of evidence Strong Moderate Balance of benefits and harms Most people would want course Most people should take course Can be adapted as policy in most cases Low Patient values and preferences Observational Very low Resources and costs Conditional Feasibility Many people would select course Requires decision aids and shared decision‐making Debatable policy choice Acessibility Equity Quality downgrades: selection bias, inconsistency, imprecision, indirectness, publication bias. Quality upgrades: large effect, very large effect, dose–response gradient, confounders produce no effect. "Guidance statements" were developed by consensus of an expert panel based on formal review and analysis of the published literature on the topic. The quality (level) of evidence and the strength of each guidance statement were not formally rated for the guidance statements. "Guidance statements" were used to address topics for which a sufficient number of randomized controlled trials were not available to justify a systematic review and meta‐analysis. The "guidance statements" and "guideline recommendations" were also reviewed by members of the AIH Association, a 501(c)(3) nonprofit organization, in order to incorporate patient and public perspectives. "Guidance statements" and "guideline recommendations" are intended to provide health care practitioners with updated information and rigorously assessed, evidence‐based recommendations. They are intended to aid, not supersede, clinical judgment. For ease of reading this AIH guidance/guidelines document, a glossary of definitions is provided in Table 2. Table 2 - Definitions of AIH and Its Treatment Outcomes Condition Definition AIH Characteristic histologic abnormalities (lymphoplasmacytic interface hepatitis), elevated AST, ALT, and total IgG and the presence of one or more characteristic autoantibodies Inactive cirrhosis Absence of inflammatory infiltrates in both portal tracts and fibrous bands in cirrhosis Acute severe AIH Jaundice, INR > 1.5 < 2, no encephalopathy; no previously recognized liver disease370 ALF INR ≥ 2; hepatic encephalopathy within 26 weeks of onset of illness; no previously recognized liver disease100 Biochemical remission Normalization of serum AST, ALT, and IgG* levels Histological remission Absence of inflammation in liver tissue after treatment Treatment failure Worsening laboratory or histological findings despite compliance with standard therapy Incomplete response Improvement of laboratory and histological findings that are insufficient to satisfy criteria for remission Relapse Exacerbation of disease activity after induction of remission and drug withdrawal (or nonadherence) Treatment intolerance Inability to continue maintenance therapy due to drug‐related side effects *Patients with cirrhosis in biochemical remission may have persistent elevation of IgG. AIH is an immune‐mediated inflammatory liver disease of uncertain cause which affects all ages, both genders, and all ethnicities. Patients may be asymptomatic, be chronically ill, or present with acute liver failure (ALF); and the diagnosis must be considered in all patients with acute or chronic liver inflammation, including patients with graft dysfunction after LT. AIH does not have a signature diagnostic feature, and the diagnosis requires the presence of a constellation of typical features which can vary between patients with the same disease and can occur in other liver diseases. Progression to advanced hepatic fibrosis, cirrhosis, death from liver failure, or LT are possible outcomes. Treatment with immunosuppressive agents has been life‐saving, but management regimens may be long‐term, associated with serious side effects, and variably effective. Background Epidemiology AIH occurs at all ages and within all ethnic groups, and its manifestations appear to vary by race and ethnicity. Alaskan Natives have a high frequency of icteric AIH at presentation, Hispanics more commonly present with cirrhosis, and African Americans have accelerated progression of disease and a higher rate of recurrence after LT compared to other races.5 Female predominance occurs in adults (71%‐95% women)7 and children (60%‐76% girls).13 Early epidemiological reports suggested that the onset of AIH had age peaks at 10‐30 and 40‐60 years, but the findings may have been influenced by referral bias.17 Older peak ages at onset (>60 years) have been reported in Denmark11 and New Zealand.10 The estimated incidence of AIH varies worldwide depending on the region and the age at onset. Incidence rates in adults range from 0.67 (southern Israel) to 2 cases per 100,000 person‐years (Canterbury region of New Zealand).10 Pediatric incidences are lower, ranging from 0.23 (Canada)16 to 0.4 per 100,000 person‐years (United States).15 Over the past few decades there has been a near 50% increase in incidence in Spain, Denmark, Sweden, and the Netherlands.11 The prevalence of AIH in adults ranges from 4 (Singapore) to 42.9 (Alaska natives) per 100,000 persons.17 The prevalence in children ranges from 2.4 (non‐native Canadian children)26 and 3 per 100,000 persons (United States)15 to 9.9 per 100,000 persons (native Canadian children).17 Genetic Predispositions In common with other autoimmune diseases, the primary genetic associations in AIH involve major histocompatibility complex loci. Human leukocyte antigen (HLA) associations cluster within the conserved 8.1 ancestral haplotype which defines the alleles carried by most Caucasians27 and results from linkage disequilibrium within HLA class I, II, and III loci: HLA‐A1, Cw7, B8, TNFAB*a2b3, TNFN*S, C2*C, Bf*s, C4A*Q0, C4B*1, DRB1*03:01, DRB1*04:01, DRB1*13:01, DRB3*01:01, DQA1*05:01, DQB1*02:01.28HLA‐DRB1*03:01 haplotypes associated with AIH are the result of additional genetic recombinations. AIH also has non‐HLA genetic associations, but the odds ratios (ORs) for risk of AIH are far lower than those for HLA alleles. Susceptibility for AIH has been associated with genetic polymorphisms encoding cytotoxic T lymphocyte antigen‐4 (CTLA‐4),33 tumor necrosis factor‐alpha (TNF‐α),34 Fas (cluster of differentiation 95 [CD95] or apoptosis antigen‐1),36 vitamin D receptor,38 signal transducer and activator of transcription 4,40 transforming growth factor‐beta 1,41 macrophage migration inhibitory factor,42 SH2B adapter protein 3,43 caspase recruitment domain family member 10,43 and the interleukin‐23 (IL‐23) receptor.44 Dysfunctional products of genetic variants or deficient levels of gene product may disrupt homeostatic mechanisms that affect the proliferation and survival of autoreactive T and B cells, regulate cytokine production, and modulate inflammatory and immune responses. AIH is a complex genetic disease that requires interplay among genetic, epigenetic, immunologic, and environmental factors. A rare exception is AIH associated with an autosomal recessive mutation in the autoimmune regulator gene on chromosome 21q22.3, which has been associated with autoimmune polyglandular syndrome type 1 (APS‐1).45 Environmental exposures play greater roles than genetics in shaping the immune repertoire, and specific environmental factors, such as viral infections or xenobiotic exposures, can act as environmental triggers for loss of self‐tolerance to autoantigens in persons genetically susceptible to AIH.46 Pathogenesis Autoreactive CD4 and CD8 T cells break self‐tolerance to hepatic autoantigens as the result of environmental triggers and inability of autoantigen‐specific natural T regulatory cells (nTregs) and inducible T regulatory cells (iTregs) to prevent autoreactivity48 (Fig. 1). Concurrently, in the absence of effective B regulatory cell (Breg) inhibition, autoreactive B cells produce autoantibodies.51 Peptide autoantigens are presented by class II and class I HLA alleles to autoreactive T‐cell receptors on CD4 T helper (Th) cells and CD8 cytotoxic T lymphocytes (CTLs), respectively. Binding of different autoantigens to B‐cell receptors initiates secretion of specific autoantibodies.Figure 1: Current concepts of the immunopathogenesis of AIH. Current knowledge supports a multistep working model of the immunopathogenesis of AIH, in which a break in self‐tolerance to hepatocyte autoantigens initiates immunological responses causing progressive hepatic necroinflammation and fibrogenesis.50 In the first step, thymic autoantigen‐specific nTregs are incapable of preventing immune responses to hepatic autoantigens during hepatic or systemic immune responses to environmental triggers, such as viral infections or xenobiotics. In the second step, professional antigen‐presenting cells (APCs) present autoantigenic peptides to autoreactive α/β T cell receptors (TCRs) on naive CD4+ Th cells, and CD8+ T cells and APCs activate MAIT cells by presenting bacterially processed vitamin B antigens to MAIT cell TCRs.54 Costimulation is a crucial third step, which induces expression of T‐cell genes required for proliferation, differentiation, and maturation of autoantigen‐specific CD4+ Th subsets (e.g., Th1, Th2, Th3, Th9, Th17, iTregs, Tr1, Tfh cells) and both CD8+ CTLs and CD8+ Tregs. In the fourth step, secretion of specific cytokines by subsets of CD4+ Th cells produces a variety of immunological sequelae, including CD4+ Th2 cytokine stimulation of B‐cell autoantibody production, CD4+ Tfh‐cell activation of B cells into antibody‐secreting plasma cells, Treg stimulation of Breg development through IL‐35 mechanisms and cytokine‐activated macrophages, and CD4+ Th17 cell–mediated pathogenic cytotoxicity. The fifth step is the cumulative failure of CD4+ and CD8+ Tregs and Bregs to control autoantigen‐specific effector mechanisms causing hepatic injury.53 Moreover, exposure of CD4+ iTregs to specific cytokines can transform them from regulatory cells into pathogenic CD4+ Th17 cells.52 The sixth step is the generation of complex portal inflammatory infiltrates of effector cells that cause cytotoxicity of periportal and lobular hepatocytes. Necroinflammatory destruction of hepatocytes results in activation of periportal stellate cells, which amplify local immune responses through contact‐dependent and independent mechanisms and cause progressive portal fibrosis, culminating in cirrhosis in the absence of effective immunosuppressive therapy. Abbreviations: Ag, antigen; IFN, interferon; TGF, transforming growth factor.The composition of the local cytokine milieu dictates CD4 Th cells to differentiate into Th1, Th2, Th9, Th17, iTregs, and T follicular helper (Tfh) cell subsets in the presence of costimulatory signaling.50 CD4 Th1 cells secrete cytokines that promote proliferation of autoantigen‐specific CD8 CTLs and activation of macrophages. CD4 Th2 cytokines augment immunoglobulin production by B cells, while cytokines produced by Tfh cells induce their conversion to immunoglobulin G (IgG)–secreting plasma cells. CD4 Th17 cells intensify inflammation and tissue injury. Autoantigen‐specific iTregs can down‐regulate the proliferation and functions of all CD4 Th subtypes, and inadequate numbers and/or dysfunction of CD4 iTregs may play a key role in AIH.52 Cytokine‐mediated transformation of CD4 iTregs into pathogenic CD4 Th17 cells also promotes perpetuation of AIH. Low doses of IL‐2 preferentially stimulate proliferation and function of CD4 iTregs, while high doses promote production of other pathogenic CD4 Th subsets. Mucosal invariant T (MAIT) cells that react with bacterially processed vitamin B antigens presented by major histocompatibility complex class I–related molecules congregate in the peribiliary region in AIH.54 MAIT cells can express characteristics of CD4 Th1 and Th17 cells, and they may transform CD4 iTregs into proinflammatory CD4 Th17 cells. Inflammatory infiltrates composed of CD4 Th subsets, CD8 CTLs, MAIT cells, B cells, plasma cells, and innate immune cells, including natural killer (NK) and NK T cells and activated macrophages, can accumulate within the portal tracts. Adhesion molecules and chemokines mediate transendothelial migration of immune cells into tissues.50 Extension of inflammation into periportal hepatocytes (interface hepatitis) and lobular hepatitis causes apoptosis of hepatocytes and fibrogenesis in untreated patients with AIH. Uptake and processing of immune complexes of autoantigen and immunoglobulin by antigen‐presenting cells greatly increases activation of autoantigen‐specific CD8 CTLs, and autoantibodies may enhance CD8 CTL cytotoxicity of hepatocytes. Diagnosis Diagnostic Requisites and Subtypes The diagnosis of AIH is based on histological abnormalities (interface hepatitis), characteristic clinical and laboratory findings (elevated serum aspartate aminotransferase [AST] and alanine aminotransferase [ALT] levels and increased serum IgG concentration), and the presence of one or more characteristic autoantibodies.2 AIH lacks a signature diagnostic marker, and the diagnosis requires characteristic features and the exclusion of other diseases that may resemble it (e.g., viral hepatitis, drug‐induced liver injury, Wilson's disease, hereditary hemochromatosis).56 There are two types of AIH, based on the specific autoantibodies that are present. Type 1 is characterized by antinuclear antibodies (ANA) and/or smooth muscle antibodies (SMA)/anti‐actin antibodies, and type 2 is characterized by antibodies to liver kidney microsome type 1 (anti‐LKM1), usually in the absence of ANA and SMA.57 The characteristic clinical features of these two types are presented in Table 3. In addition, up to 20% of AIH cases are negative for ANA, SMA, and LKM1 autoantibodies, despite the presence of other characteristic features of AIH (seronegative AIH). If seronegative AIH is suspected, other autoantibodies may be sought, as indicated in Table 4 and Fig. 2. Classification of AIH into types assists in management and aids in predicting outcomes in children, but it may be less informative in adults.58 Table 3 - Characteristic Features of Type 1 and Type 2 AIH Features Type 1 AIH Type 2 AIH Frequency US adults, 96%61 US children, 9%‐12%14 UK children, 38%13 Age at presentation Peripubertal and adults Usually under 14 years153 Mode of presentation Chronic symptoms common Acute onset (~40%) Ascites or GI bleeding rare Acute liver failure possible555 Asymptomatic in 25%‐34% Relapse frequent108 Acute in 25%‐75% Acute severe in 2%‐6% Laboratory features Hypergammaglobulinemia IgA levels may be reduced153 Autoantibodies ANA Anti‐LKM1 SMA, anti‐actin [Anti‐LC1, Anti‐LKM3] SLA Concurrent immune diseases Autoimmune thyroiditis Autoimmune thyroiditis Rheumatic diseases Diabetes mellitus IBD Vitiligo Autoimmune overlap with PSC (ASC in children) Common in children Rare Atypical pANCA‐positive Atypical pANCA‐negative Overlap with PBC Seen in adults (not children) Not reported Cirrhosis at presentation Rare after drug withdrawal usually Abbreviations: serum immunoglobulin Table 4 - Autoantibodies in the Diagnosis of AIH Diagnostic ANA Type 1 Type 1 LKM1 Type 2 SLA Type 1 after with Type 1 Type 1 Type 1 family Type 2 Type 2 of overlap Type 1 Abbreviations: autoimmune Diagnostic for the of AIH after exclusion of and diseases. ANA and should be in adults and antibodies to LKM1 should be if ANA and are ANA, SMA, and LKM1 should be in all patients at presentation The findings of the liver support the diagnosis of AIH or that an overlap AIH with or The absence of ANA, SMA, and LKM1 additional that can antibodies to tissue and for one of these autoantibodies support the diagnosis of AIH or other including disease Abbreviations: tissue ANA, SMA, and the for the diagnosis of AIH (Table ANA are in of American adults with AIH at presentation, are present in and are present in of patients with AIH have ANA, SMA, or as an at and have ANA can also occur as an in primary chronic hepatitis chronic hepatitis B liver disease and chronic liver disease and can occur as an in PSC chronic hepatitis and chronic liver disease ANA and are concurrent in of liver diseases of AIH, and the diagnostic for AIH from to if two autoantibodies are at Anti‐LKM1 are commonly in the absence of ANA and SMA, and this has their after first for ANA and (Fig. have a low for AIH in American adults and their after first the absence of ANA and is in these patients. Anti‐LKM1 are in of and Canadian children with and of ANA, SMA, and are usually at in adults and children disease and treatment but they are not of disease activity or treatment to liver antigen are present in of patients with type 1 AIH, and they have high for the (Table have been the of AIH in of and they have been associated with severe disease and after drug Atypical antibodies are frequently present in patients with type 1 AIH but they diagnostic in overlap and liver may be the only autoantibodies are a of SMA, and they are present in of patients with AIH and (Table to is an that is present in of patients with AIH and of patients with to anti‐actin and has been associated with severe acute AIH, treatment and to liver type 1 are present in of patients with and they occur in children with severe liver (Table are present in of patients with type 2 and may be in seronegative and have not been rigorously in the should be and with the clinical may be depending on results of the and in with the diagnostic (Fig. Histological Findings The diagnosis of AIH be liver and histological hepatitis is the histological of AIH, by plasma cell in and lobular hepatitis in necrosis is also in and it occurs with frequency in patients with and is the of one cell into with both cells to is present in of patients with AIH, and hepatocyte are present in (Fig. of the histological findings is specific for AIH, but the findings of interface hepatitis with portal or cells into the and are considered typical of Histological features characteristic of AIH. inflammatory of the portal and interface hepatitis of the portal and cell predominance in a portal inflammatory and of a and A hepatocyte and of hepatocytes and are of of of is present in of adults at presentation, in the as as in of Cirrhosis in of adults with necrosis or The histological examination at presentation is to or concurrent the of inflammatory and the of plasma cells may be present in patients with but the clinical of this Histological findings of are present in 17%‐30% of patients with and liver tissue examination may patients with AIH and who are at increased risk of and The histological features of AIH with ALF in the and of is present in plasma inflammatory in hepatic necrosis in and in of patients with ALF have two or all of these Diagnostic The diagnostic scoring system of the Autoimmune was by an panel in in and in Table The scoring system has greater for AIH compared to the scoring system whereas the scoring system has and clinical judgment as the The diagnostic scoring system is for patients with complex or whereas the scoring system is most for typical of patients with the scoring system should be considered the system a low In children, a of to the of the criteria a of and a of In that were associated with seronegative AIH. The diagnostic scoring system can be to children and lower autoantibody than in adults as diagnostic of the serum for the serum in the with the serum or may the of the scoring system for children by the of to the and scoring systems of by

BACKGROUND: Population-based data on the incidence of pediatric cardiomyopathy are rare because of the lack of large, prospective studies. METHODS: Since 1996 the Pediatric Cardiomyopathy Registry sponsored by the National Heart, Lung, and Blood Institute has collected data on all children with newly diagnosed cardiomyopathy in New England and the Central Southwest region (Texas, Oklahoma, and Arkansas) of the United States. We report on all children in these regions who received this diagnosis between 1996 and 1999. RESULTS: We identified 467 cases of cardiomyopathy, for an overall annual incidence of 1.13 per 100,000 children (95 percent confidence interval, 1.03 to 1.23). The incidence was significantly higher among infants younger than 1 year old than among children and adolescents who were 1 to 18 years old (8.34 vs. 0.70 per 100,000, P<0.001). The annual incidence of cardiomyopathy was lower among white children (upper-bound estimate, 1.06 cases per 100,000) than among black children (lower-bound estimate, 1.47 per 100,000; P=0.02) and higher among boys than among girls (1.32 vs. 0.92 per 100,000, P<0.001). The incidence also varied significantly by region: 1.44 cases per 100,000 in New England and 0.98 per 100,000 in the Central Southwest region (P<0.001). When categorized according to type, dilated cardiomyopathy made up 51 percent of the cases, hypertrophic cardiomyopathy 42 percent, and restrictive or other types 3 percent; 4 percent were unspecified. There was no significant difference in the incidence rates according to the year. CONCLUSIONS: The estimated incidence of pediatric cardiomyopathy in two large regions of the United States is 1.13 cases per 100,000 children. Most cases are identified at an early age, and the incidence varies according to sex, region, and racial or ethnic origin.

Autism spectrum disorders (ASDs) are common and clinically heterogeneous neurodevelopmental disorders. Gastrointestinal disorders and associated symptoms are commonly reported in individuals with ASDs, but key issues such as the prevalence and best treatment of these conditions are incompletely understood. A central difficulty in recognizing and characterizing gastrointestinal dysfunction with ASDs is the communication difficulties experienced by many affected individuals. A multidisciplinary panel reviewed the medical literature with the aim of generating evidence-based recommendations for diagnostic evaluation and management of gastrointestinal problems in this patient population. The panel concluded that evidence-based recommendations are not yet available. The consensus expert opinion of the panel was that individuals with ASDs deserve the same thoroughness and standard of care in the diagnostic workup and treatment of gastrointestinal concerns as should occur for patients without ASDs. Care providers should be aware that problem behavior in patients with ASDs may be the primary or sole symptom of the underlying medical condition, including some gastrointestinal disorders. For these patients, integration of behavioral and medical care may be most beneficial. Priorities for future research are identified to advance our understanding and management of gastrointestinal disorders in persons with ASDs.

This review summarizes the current literature on cancer-related cognitive impairment (CRCI) with a focus on prevalence, mechanisms, and possible interventions for CRCI in those who receive adjuvant chemotherapy for non-central nervous system tumours and is primarily focused on breast cancer. CRCI is characterized as deficits in areas of cognition including memory, attention, concentration, and executive function. Development of CRCI can impair quality of life and impact treatment decisions. CRCI is highly prevalent; these problems can be detected in up to 30% of patients prior to chemotherapy, up to 75% of patients report some form of CRCI during treatment, and CRCI is still present in up to 35% of patients many years following completion of treatment. While the trajectory of CRCI is becoming better understood, the mechanisms underlying the development of CRCI are still obscure; however, host characteristics, immune dysfunction, neural toxicity, and genetics may play key roles in the development and trajectory of CRCI. Intervention research is limited, though strategies to maintain function are being studied with promising preliminary findings. This review highlights key research being conducted in these areas, both in patient populations and in animals, which will ultimately result in better understanding and effective treatments for CRCI.

CONTEXT: Iron deficiency anemia in infants can cause developmental problems. However, the relationship between iron status and cognitive achievement in older children is less clear. OBJECTIVE: To investigate the relationship between iron deficiency and cognitive test scores among a nationally representative sample of school-aged children and adolescents. DESIGN: The National Health and Nutrition Examination Survey III 1988-1994 provides cross-sectional data for children 6 to 16 years old and contains measures of iron status including transferrin saturation, free erythrocyte protoporphyrin, and serum ferritin. Children were considered iron-deficient if any 2 of these values were abnormal for age and gender, and standard hemoglobin values were used to detect anemia. Scores from standardized tests were compared for children with normal iron status, iron deficiency without anemia, and iron deficiency with anemia. Logistic regression was used to estimate the association of iron status and below average test scores, controlling for confounding factors. RESULTS: Among the 5398 children in the sample, 3% were iron-deficient. The prevalence of iron deficiency was highest among adolescent girls (8.7%). Average math scores were lower for children with iron deficiency with and without anemia, compared with children with normal iron status (86.4 and 87.4 vs 93.7). By logistic regression, children with iron deficiency had greater than twice the risk of scoring below average in math than did children with normal iron status (odds ratio: 2.3; 95% confidence interval: 1.1-4.4). This elevated risk was present even for iron-deficient children without anemia (odds ratio: 2.4; 95% confidence interval: 1.1-5.2). CONCLUSIONS: We demonstrated lower standardized math scores among iron-deficient school-aged children and adolescents, including those with iron deficiency without anemia. Screening for iron deficiency without anemia may be warranted for children at risk.

OBJECTIVE: To determine the efficacy and safety of supplemental therapeutic oxygen for infants with prethreshold retinopathy of prematurity (ROP) to reduce the probability of progression to threshold ROP and the need for peripheral retinal ablation. METHODS: Premature infants with confirmed prethreshold ROP in at least 1 eye and median pulse oximetry <94% saturation were randomized to a conventional oxygen arm with pulse oximetry targeted at 89% to 94% saturation or a supplemental arm with pulse oximetry targeted at 96% to 99% saturation, for at least 2 weeks, and until both eyes were at study endpoints. Certified examiners masked to treatment assignment conducted weekly eye examinations until each study eye reached ophthalmic endpoint. An adverse ophthalmic endpoint for an infant was defined as reaching threshold criteria for laser or cryotherapy in at least 1 study eye. A favorable ophthalmic endpoint was regression of the ROP into zone III for at least 2 consecutive weekly examinations or full retinal vascularization. At 3 months after the due date of the infant, ophthalmic findings, pulmonary status, growth, and interim illnesses were again recorded. RESULTS: Six hundred forty-nine infants (325 conventional and 324 supplemental) were enrolled from 30 centers over 5 years. Five hundred ninety-seven (92.0%) infants attained known ophthalmic endpoints, and 600 (92%) completed the ophthalmic 3-month assessment. The rate of progression to threshold in at least 1 eye was 48% in the conventional arm and 41% in the supplemental arm. After adjustment for baseline ROP severity stratum, plus disease, race, and gestational age, the odds ratio (supplemental vs conventional) for progression was.72 (95% confidence interval:.52, 1.01). Final structural status of all study eyes at 3 months of corrected age showed similar rates of severe sequelae in both treatment arms: retinal detachments or folds (4.4% conventional vs 4.1% supplemental), and macular ectopia (3.9% conventional vs 3.9% supplemental). Within the prespecified ROP severity strata, ROP progression rates were lower with supplemental oxygen than with conventional oxygen, but the differences were not statistically significant. A post hoc subgroup analysis of plus disease (dilated and tortuous vessels in at least 2 quadrants of the posterior pole) suggested that infants without plus disease may be more responsive to supplemental therapy (46% progression in the conventional arm vs 32% in the supplemental arm) than infants with plus disease (52% progression in conventional vs 57% in supplemental). Pneumonia and/or exacerbations of chronic lung disease occurred in more infants in the supplemental arm (8.5% conventional vs 13.2% supplemental). Also, at 50 weeks of postmenstrual age, fewer conventional than supplemental infants remained hospitalized (6.8% vs 12.7%), on oxygen (37.0% vs 46.8%), and on diuretics (24.4% vs 35. 8%). Growth and developmental milestones did not differ between the 2 arms. CONCLUSIONS: Use of supplemental oxygen at pulse oximetry saturations of 96% to 99% did not cause additional progression of prethreshold ROP but also did not significantly reduce the number of infants requiring peripheral ablative surgery. A subgroup analysis suggested a benefit of supplemental oxygen among infants who have prethreshold ROP without plus disease, but this finding requires additional study. Supplemental oxygen increased the risk of adverse pulmonary events including pneumonia and/or exacerbations of chronic lung disease and the need for oxygen, diuretics, and hospitalization at 3 months of corrected age. Although the relative risk/benefit of supplemental oxygen for each infant must be individually considered, clinicians need no longer be concerned that supplemental oxygen, as used in this study, will exacerbate active prethreshold ROP.

BACKGROUND: Both prophylactic and early surfactant replacement therapy reduce mortality and pulmonary complications in ventilated infants with respiratory distress syndrome (RDS) compared with later selective surfactant administration. However, continued post-surfactant intubation and ventilation are risk factors for bronchopulmonary dysplasia (BPD). The purpose of this review was to compare outcomes between two strategies of surfactant administration in infants with RDS; prophylactic or early surfactant administration followed by prompt extubation, compared with later, selective use of surfactant followed by continued mechanical ventilation. OBJECTIVES: To compare two treatment strategies in preterm infants with or at risk for RDS: early surfactant administration with brief mechanical ventilation (less than one hour) followed by extubation vs. later selective surfactant administration, continued mechanical ventilation, and extubation from low respiratory support. Two populations of infants receiving early surfactant were considered: spontaneously breathing infants with signs of RDS (who receive surfactant administration during evolution of RDS prior to requiring intubation for respiratory failure) and infants at high risk for RDS (who receive prophylactic surfactant administration within 15 minutes after birth). SEARCH STRATEGY: Searches were made of the Oxford Database of Perinatal Trials, MEDLINE (1966 - December 2006), CINAHL (1982 to December Week 2, 2006), EMBASE (1980 - December 2006), Cochrane Central Register of Controlled Trials (CENTRAL, The Cochrane Library, Issue 4, 2006), Pediatric Research (1990 - 2006), abstracts, expert informants and hand searching. No language restrictions were applied. SELECTION CRITERIA: Randomized or quasi-randomized controlled clinical trials comparing early surfactant administration with planned brief mechanical ventilation (less than one hour) followed by extubation vs. selective surfactant administration continued mechanical ventilation, and extubation from low respiratory support. DATA COLLECTION AND ANALYSIS: Data were sought regarding effects on the incidence of mechanical ventilation (ventilation continued or initiated beyond one hour after surfactant administration), incidence of bronchopulmonary dysplasia (BPD), chronic lung disease (CLD), mortality, duration of mechanical ventilation, duration of hospitalization, duration of oxygen therapy, duration of respiratory support (including CPAP and nasal cannula), number of patients receiving surfactant, number of surfactant doses administered per patient, incidence of air leak syndromes (pulmonary interstitial emphysema, pneumothorax), patent ductus arteriosus requiring treatment, pulmonary hemorrhage, and other complications of prematurity. Stratified analysis was performed according to inspired oxygen threshold for early intubation and surfactant administration in the treatment group: inspired oxygen within lower (FiO2< 0.45) or higher (FiO2 > 0.45) range at study entry. Treatment effect was expressed as relative risk (RR) and risk difference (RD) for categorical variables, and weighted mean difference (WMD) for continuous variables. MAIN RESULTS: Six randomized controlled clinical trials met selection criteria and were included in this review. In these studies of infants with signs and symptoms of RDS, intubation and early surfactant therapy followed by extubation to nasal CPAP (NCPAP) compared with later selective surfactant administration was associated with a lower incidence of mechanical ventilation [typical RR 0.67, 95% CI 0.57, 0.79], air leak syndromes [typical RR 0.52, 95% CI 0.28, 0.96] and BPD [typical RR 0.51, 95% CI 0.26, 0.99]. A larger proportion of infants in the early surfactant group received surfactant than in the selective surfactant group [typical RR 1.62, 95% CI 1.41, 1.86]. The number of surfactant doses per patient was significantly greater among patients randomized to the early surfactant group [WMD 0.57 doses per patient, 95% CI 0.44, 0.69]. In stratified analysis by FIO2 at study entry, a lower threshold for treatment (FIO2< 0.45) resulted in lower incidence of airleak [typical RR 0.46 and 95% CI 0.23, 0.93] and BPD [typical RR 0.43, 95% CI 0.20, 0.92]. A higher treatment threshold (FIO2 > 0.45) at study entry was associated with a higher incidence of patent ductus arteriosus requiring treatment [typical RR 2.15, 95% CI 1.09, 4.13]. AUTHORS' CONCLUSIONS: Early surfactant replacement therapy with extubation to NCPAP compared with later selective surfactant replacement and continued mechanical ventilation with extubation from low ventilator support is associated with less need mechanical ventilation, lower incidence of BPD and fewer air leak syndromes. A lower treatment threshold (FIO2< 0.45) confers greater advantage in reducing the incidences of airleak syndromes and BPD; moreover a higher treatment threshold (FIO2 at study > 0.45) was associated with increased risk of PDA. These data suggest that treatment with surfactant by transient intubation using a low treatment threshold (FIO2< 0.45) is preferable to later, selective surfactant therapy by transient intubation using a higher threshold for study entry (FIO2 > 0.45) or at the time of respiratory failure and initiation of mechanical ventilation.

An abnormal pulmonary vasculature may be an important component of bronchopulmonary dysplasia (BPD). We examined human infant lung for the endothelial cell marker PECAM-1 and for angiogenic factors and their receptors. Lung specimens were collected prospectively at approximately 6 h after death. The right middle lobe was inflation fixed and part of the right lower lobe was flash frozen. We compared lungs from infants dying with BPD (n = 5) with lungs from infants dying from nonpulmonary causes (n = 5). The BPD group was significantly more premature and had more days of ventilator and supplemental oxygen support, but died at a postconceptional age similar to control infants. PECAM-1 protein and mRNA were decreased in the BPD group. PECAM-1 immunohistochemistry showed the BPD group had decreased staining intensity and abnormal distribution of alveolar capillaries. The dysmorphic capillaries were frequently in the interior of thickened alveolar septa. The BPD group had decreased vascular endothelial growth factor (VEGF) mRNA and decreased VEGF immunostaining, compared with infants without BPD. Messages for the angiogenic receptors Flt-1 and TIE-2 were decreased in the BPD group. We conclude that infants dying with BPD have abnormal alveolar microvessels and that disordered expression of angiogenic growth factors and their receptors may contribute to these abnormalities.

The stigmatization of people with obesity is widespread and causes harm. Weight stigma is often propagated and tolerated in society because of beliefs that stigma and shame will motivate people to lose weight. However, rather than motivating positive change, this stigma contributes to behaviors such as binge eating, social isolation, avoidance of health care services, decreased physical activity, and increased weight gain, which worsen obesity and create additional barriers to healthy behavior change. Furthermore, experiences of weight stigma also dramatically impair quality of life, especially for youth. Health care professionals continue to seek effective strategies and resources to address the obesity epidemic; however, they also frequently exhibit weight bias and stigmatizing behaviors. This policy statement seeks to raise awareness regarding the prevalence and negative effects of weight stigma on pediatric patients and their families and provides 6 clinical practice and 4 advocacy recommendations regarding the role of pediatricians in addressing weight stigma. In summary, these recommendations include improving the clinical setting by modeling best practices for nonbiased behaviors and language; using empathetic and empowering counseling techniques, such as motivational interviewing, and addressing weight stigma and bullying in the clinic visit; advocating for inclusion of training and education about weight stigma in medical schools, residency programs, and continuing medical education programs; and empowering families to be advocates to address weight stigma in the home environment and school setting.

BACKGROUND: Therapeutic hypothermia is recommended for comatose adults after witnessed out-of-hospital cardiac arrest, but data about this intervention in children are limited. METHODS: We conducted this trial of two targeted temperature interventions at 38 children's hospitals involving children who remained unconscious after out-of-hospital cardiac arrest. Within 6 hours after the return of circulation, comatose patients who were older than 2 days and younger than 18 years of age were randomly assigned to therapeutic hypothermia (target temperature, 33.0°C) or therapeutic normothermia (target temperature, 36.8°C). The primary efficacy outcome, survival at 12 months after cardiac arrest with a Vineland Adaptive Behavior Scales, second edition (VABS-II), score of 70 or higher (on a scale from 20 to 160, with higher scores indicating better function), was evaluated among patients with a VABS-II score of at least 70 before cardiac arrest. RESULTS: A total of 295 patients underwent randomization. Among the 260 patients with data that could be evaluated and who had a VABS-II score of at least 70 before cardiac arrest, there was no significant difference in the primary outcome between the hypothermia group and the normothermia group (20% vs. 12%; relative likelihood, 1.54; 95% confidence interval [CI], 0.86 to 2.76; P=0.14). Among all the patients with data that could be evaluated, the change in the VABS-II score from baseline to 12 months was not significantly different (P=0.13) and 1-year survival was similar (38% in the hypothermia group vs. 29% in the normothermia group; relative likelihood, 1.29; 95% CI, 0.93 to 1.79; P=0.13). The groups had similar incidences of infection and serious arrhythmias, as well as similar use of blood products and 28-day mortality. CONCLUSIONS: In comatose children who survived out-of-hospital cardiac arrest, therapeutic hypothermia, as compared with therapeutic normothermia, did not confer a significant benefit in survival with a good functional outcome at 1 year. (Funded by the National Heart, Lung, and Blood Institute and others; THAPCA-OH ClinicalTrials.gov number, NCT00878644.).

OBJECTIVE: To review the literature related to the current DSM-IV-TR diagnostic criteria for feeding disorder of infancy or early childhood; pica; rumination disorder; and other childhood presentations that are characterized by avoidance of food or restricted food intake, with the purpose of informing options for DSM-V. METHOD: Articles were identified by computerized and manual searches and reviewed to evaluate the evidence supporting possible options for revision of criteria. RESULTS: The study of childhood feeding and eating disturbances has been hampered by inconsistencies in classification and use of terminology. Greater clarity around subtypes of feeding and eating problems in children would benefit clinicians and patients alike. DISCUSSION: A number of suggestions supported by existing evidence are made that provide clearer descriptions of subtypes to improve clinical utility and to promote research.

Importance: Multisystem inflammatory syndrome in children (MIS-C) is associated with recent or current SARS-CoV-2 infection. Information on MIS-C incidence is limited. Objective: To estimate population-based MIS-C incidence per 1 000 000 person-months and to estimate MIS-C incidence per 1 000 000 SARS-CoV-2 infections in persons younger than 21 years. Design, Setting, and Participants: This cohort study used enhanced surveillance data to identify persons with MIS-C during April to June 2020, in 7 jurisdictions reporting to both the Centers for Disease Control and Prevention national surveillance and to Overcoming COVID-19, a multicenter MIS-C study. Denominators for population-based estimates were derived from census estimates; denominators for incidence per 1 000 000 SARS-CoV-2 infections were estimated by applying published age- and month-specific multipliers accounting for underdetection of reported COVID-19 case counts. Jurisdictions included Connecticut, Georgia, Massachusetts, Michigan, New Jersey, New York (excluding New York City), and Pennsylvania. Data analyses were conducted from August to December 2020. Exposures: Race/ethnicity, sex, and age group (ie, ≤5, 6-10, 11-15, and 16-20 years). Main Outcomes and Measures: Overall and stratum-specific adjusted estimated MIS-C incidence per 1 000 000 person-months and per 1 000 000 SARS-CoV-2 infections. Results: In the 7 jurisdictions examined, 248 persons with MIS-C were reported (median [interquartile range] age, 8 [4-13] years; 133 [53.6%] male; 96 persons [38.7%] were Hispanic or Latino; 75 persons [30.2%] were Black). The incidence of MIS-C per 1 000 000 person-months was 5.1 (95% CI, 4.5-5.8) persons. Compared with White persons, incidence per 1 000 000 person-months was higher among Black persons (adjusted incidence rate ratio [aIRR], 9.26 [95% CI, 6.15-13.93]), Hispanic or Latino persons (aIRR, 8.92 [95% CI, 6.00-13.26]), and Asian or Pacific Islander (aIRR, 2.94 [95% CI, 1.49-5.82]) persons. MIS-C incidence per 1 000 000 SARS-CoV-2 infections was 316 (95% CI, 278-357) persons and was higher among Black (aIRR, 5.62 [95% CI, 3.68-8.60]), Hispanic or Latino (aIRR, 4.26 [95% CI, 2.85-6.38]), and Asian or Pacific Islander persons (aIRR, 2.88 [95% CI, 1.42-5.83]) compared with White persons. For both analyses, incidence was highest among children aged 5 years or younger (4.9 [95% CI, 3.7-6.6] children per 1 000 000 person-months) and children aged 6 to 10 years (6.3 [95% CI, 4.8-8.3] children per 1 000 000 person-months). Conclusions and Relevance: In this cohort study, MIS-C was a rare complication associated with SARS-CoV-2 infection. Estimates for population-based incidence and incidence among persons with infection were higher among Black, Hispanic or Latino, and Asian or Pacific Islander persons. Further study is needed to understand variability by race/ethnicity and age group.

The classification of myelodysplastic syndromes is based on the morphological criteria proposed by the French-American-British (FAB) and World Health Organization (WHO) groups. Accurate enumeration of blast cells, although essential for diagnosis of myelodysplastic syndrome and for assignment to prognostic groups, is often difficult, due to imprecise criteria for the morphological definition of blasts and promyelocytes. An International Working Group on Morphology of Myelodysplastic Syndrome (IWGM-MDS) of hematopathologists and hematologists expert in the field of myelodysplastic syndrome reviewed the morphological features of bone marrows from all subtypes of myelodysplastic syndrome and agreed on a set of recommendations, including recommendations for the definition and enumeration of blast cells and ring sideroblasts. It is recommended that (1) agranular or granular blast cells be defined (replacing the previous type I, II and III blasts), (2) dysplastic promyelocytes be distinguished from cytologically normal promyelocytes and from granular blast cells, (3) sufficient cells be counted to give a precise blast percentage, particularly at thresholds that are important for diagnosis or prognosis and (4) ring sideroblasts be defined as erythroblasts in which there are a minimum of 5 siderotic granules covering at least a third of the nuclear circumference. Clear definitions and a differential count of a sufficient number of cells is likely to improve precision in the diagnosis and classification of myelodysplastic syndrome. Recommendations should be applied in the context of the WHO classification.

The sites of synthesis of extracellular (E) glutathione peroxidase (GPX), a unique selenoglycoprotein present in plasma, are not known. To investigate the possibility that the kidney is the main source for the plasma GPX, we examined GPX activities and selenium concentrations in the plasma of patients with renal failure on dialysis and nephrectomized patients before and after kidney transplantation. Plasma GPX activities in these patients were 42, 22, and 180% of normal EGPX activity, respectively, whereas plasma Se levels were within the normal range. Twenty-four hours after nephrectomy of anesthetized rats, plasma GPX activity was 30.0 +/- 6.4% of the activity at zero time. Northern hybridization analysis of eight human tissues probed with EGPX and cellular glutathione peroxidase (CGPX) cDNA revealed that the ratio of EGPX to CGPX was highest in the kidney. cRNA in situ hybridization studies on kidney slices showed that only proximal tubular epithelial cells and parietal epithelial cells of Bowman's capsule contained EGPX transcripts. Caki-2, a proximal tubular renal carcinoma cell line, makes and actively secretes EGPX. Taken together, these results strongly suggest that kidney proximal tubular cells are the main source for GPX activity in the plasma.

BACKGROUND: Although critical care nurses gain satisfaction from providing compassionate care to patients and patients' families, the nurses are also at risk for fatigue. The balance between satisfaction and fatigue is considered professional quality of life. OBJECTIVES: To establish the prevalence of compassion satisfaction and compassion fatigue in adult, pediatric, and neonatal critical care nurses and to describe potential contributing demographic, unit, and organizational characteristics. METHODS: In a cross-sectional design, nurses were surveyed by using a demographic questionnaire and the Professional Quality of Life Scale to measure levels of compassion fatigue and compassion satisfaction. RESULTS: Nurses (n = 221) reported significant differences in compassion satisfaction and compassion fatigue on the basis of sex, age, educational level, unit, acuity, change in nursing management, and major systems change. CONCLUSIONS: Understanding the elements of professional quality of life can have a positive effect on work environment. The relationship between professional quality of life and the standards for a healthy work environment requires further investigation. Once this relationship is fully understood, interventions to improve this balance can be developed and tested.

Mothers of children with cancer experience significant distress associated with their children's diagnosis and treatment. The efficacy of problem-solving skills training (PSST), a cognitive-behavioral intervention based on problem-solving therapy, was assessed among 430 English- and Spanish-speaking mothers of recently diagnosed patients. Participants were randomized to usual psychosocial care (UPC; n=213) or UPC plus 8 sessions of PSST (PSST; n=217). Compared with UPC mothers, PSST mothers reported significantly enhanced problem-solving skills and significantly decreased negative affectivity. Although effects were largest immediately after PSST, several differences in problem-solving skills and distress levels persisted to the 3-month follow-up. In general, efficacy for Spanish-speaking mothers exceeded that for English-speaking mothers. Findings also suggest young, single mothers profit most from PSST.

BACKGROUND: Targeted temperature management is recommended for comatose adults and children after out-of-hospital cardiac arrest; however, data on temperature management after in-hospital cardiac arrest are limited. METHODS: In a trial conducted at 37 children's hospitals, we compared two temperature interventions in children who had had in-hospital cardiac arrest. Within 6 hours after the return of circulation, comatose children older than 48 hours and younger than 18 years of age were randomly assigned to therapeutic hypothermia (target temperature, 33.0°C) or therapeutic normothermia (target temperature, 36.8°C). The primary efficacy outcome, survival at 12 months after cardiac arrest with a score of 70 or higher on the Vineland Adaptive Behavior Scales, second edition (VABS-II, on which scores range from 20 to 160, with higher scores indicating better function), was evaluated among patients who had had a VABS-II score of at least 70 before the cardiac arrest. RESULTS: The trial was terminated because of futility after 329 patients had undergone randomization. Among the 257 patients who had a VABS-II score of at least 70 before cardiac arrest and who could be evaluated, the rate of the primary efficacy outcome did not differ significantly between the hypothermia group and the normothermia group (36% [48 of 133 patients] and 39% [48 of 124 patients], respectively; relative risk, 0.92; 95% confidence interval [CI], 0.67 to 1.27; P=0.63). Among 317 patients who could be evaluated for change in neurobehavioral function, the change in VABS-II score from baseline to 12 months did not differ significantly between the groups (P=0.70). Among 327 patients who could be evaluated for 1-year survival, the rate of 1-year survival did not differ significantly between the hypothermia group and the normothermia group (49% [81 of 166 patients] and 46% [74 of 161 patients], respectively; relative risk, 1.07; 95% CI, 0.85 to 1.34; P=0.56). The incidences of blood-product use, infection, and serious adverse events, as well as 28-day mortality, did not differ significantly between groups. CONCLUSIONS: Among comatose children who survived in-hospital cardiac arrest, therapeutic hypothermia, as compared with therapeutic normothermia, did not confer a significant benefit in survival with a favorable functional outcome at 1 year. (Funded by the National Heart, Lung, and Blood Institute; THAPCA-IH ClinicalTrials.gov number, NCT00880087 .).

BACKGROUND: The metabolic syndrome predicts future coronary artery disease and type II diabetes and often emerges in childhood. Tobacco smoke potentially contributes to insulin resistance in this syndrome. This study evaluates the association of environmental tobacco smoke (ETS) exposure and active smoking with the prevalence of the metabolic syndrome in US adolescents. METHODS AND RESULTS: Data from 2273 subjects 12 to 19 years of age were examined from the National Health and Nutrition Examination Survey III (NHANES III, 1988 to 1994). Serum cotinine levels, presence of household smokers, and self-report of smoking were used to determine ETS exposure and active smoking. The metabolic syndrome was defined as having > or =3 criteria from the National Cholesterol Education Panel definition. Bivariate and multivariable analyses were conducted. Among adolescents, 5.6% met the criteria for metabolic syndrome, and prevalence increased with tobacco exposure: 1.2% for nonexposed, 5.4% for those exposed to ETS, and 8.7% for active smokers (P<0.001). In adolescents at risk for overweight and overweight adolescents (body mass index above the 85th percentile), a similar relationship was observed: 5.6% for nonexposed, 19.6% for those exposed to ETS, and 23.6% for active smokers (P=0.01). In multivariable logistic regression analyses among all adolescents, ETS exposure was independently associated with the metabolic syndrome (ETS exposure: odds ratio, 4.7, 95% CI, 1.7 to 12.9; active smoking: odds ratio, 6.1; 95% CI, 2.8 to 13.4). CONCLUSIONS: Considering that tobacco and obesity are the 2 leading causes of preventable death in the United States, these findings of a dose-response, cotinine-confirmed relationship between tobacco smoke and metabolic syndrome among adolescents may have profound implications for the future health of the public.