Multiple short courses of corticosteroids in children.

BACKGROUND: Corticosteroids are adrenal steroid hormones responsible for immune homeostasis, blood pressure regulation, energy and appetite regulation, and suppression of inflammation. Oral corticosteroids ('steroids') are commonly used in children for a number of medical conditions, including asthma, croup, inflammatory bowel disease and nephrotic syndrome. There has been some concern about potential side effects of oral, topical or inhaled steroids, including reduction in growth, weight gain, behavioural changes and immunosuppression resulting in infection. OBJECTIVE: While many recent studies have assessed individual risks, this article aims to provide an overview of steroid use in common paediatric presentations, highlighting current management and risks associated with recurrent doses of steroids in the paediatric population. DISCUSSION: Short courses of oral steroids (less than two weeks) in children are very unlikely to cause long-term side effects in children. Children requiring courses more than two weeks' duration warrant specialist referral and a weaning plan to reduce adrenal suppression and insufficiency.

Cardiomyocyte Functional Etiology in Heart Failure With Preserved Ejection Fraction Is Distinctive-A New Preclinical Model.

BACKGROUND: Among the growing numbers of patients with heart failure, up to one half have heart failure with preserved ejection fraction (HFpEF). The lack of effective treatments for HFpEF is a substantial and escalating unmet clinical need-and the lack of HFpEF-specific animal models represents a major preclinical barrier in advancing understanding of HFpEF. As established treatments for heart failure with reduced ejection fraction (HFrEF) have proven ineffective for HFpEF, the contention that the intrinsic cardiomyocyte phenotype is distinct in these 2 conditions requires consideration. Our goal was to validate and characterize a new rodent model of HFpEF, undertaking longitudinal investigations to delineate the associated cardiac and cardiomyocyte pathophysiology. METHODS AND RESULTS: The selectively inbred Hypertrophic Heart Rat (HHR) strain exhibits adult cardiac enlargement (without hypertension) and premature death (40% mortality at 50 weeks) compared to its control strain, the normal heart rat. Hypertrophy was characterized in vivo by maintained systolic parameters (ejection fraction at 85%-90% control) with marked diastolic dysfunction (increased E/E'). Surprisingly, HHR cardiomyocytes were hypercontractile, exhibiting high Ca2+ operational levels and markedly increased L-type Ca2+ channel current. In HHR, prominent regions of reparative fibrosis in the left ventricle free wall adjacent to the interventricular septum were observed. CONCLUSIONS: Thus, the cardiomyocyte remodeling process in the etiology of this HFpEF model contrasts dramatically with the suppressed Ca2+ cycling state that typifies heart failure with reduced ejection fraction. These findings may explain clinical observations, that treatments considered appropriate for heart failure with reduced ejection fraction are of little benefit for HFpEF-and suggest a basis for new therapeutic strategies.

Male and female hypertrophic rat cardiac myocyte functional responses to ischemic stress and ß-adrenergic challenge are different.

BACKGROUND: Cardiac hypertrophy is the most potent cardiovascular risk factor after age, and relative mortality risk linked with cardiac hypertrophy is greater in women. Ischemic heart disease is the most common form of cardiovascular pathology for both men and women, yet significant differences in incidence and outcomes exist between the sexes. Cardiac hypertrophy and ischemia are frequently occurring dual pathologies. Whether the cellular (cardiomyocyte) mechanisms underlying myocardial damage differ in women and men remains to be determined. In this study, utilizing an in vitro experimental approach, our goal was to examine the proposition that responses of male/female cardiomyocytes to ischemic (and adrenergic) stress may be differentially modulated by the presence of pre-existing cardiac hypertrophy. METHODS: We used a novel normotensive custom-derived hypertrophic heart rat (HHR; vs control strain normal heart rat (NHR)). Cardiomyocyte morphologic and electromechanical functional studies were performed using microfluorimetric techniques involving simulated ischemia/reperfusion protocols. RESULTS: HHR females exhibited pronounced cardiac/cardiomyocyte enlargement, equivalent to males. Under basal conditions, a lower twitch amplitude in female myocytes was prominent in normal but not in hypertrophic myocytes. The cardiomyocyte Ca(2+) responses to ß-adrenergic challenge differed in hypertrophic male and female cardiomyocytes, with the accentuated response in males abrogated in females-even while contractile responses were similar. In simulated ischemia, a marked and selective elevation of end-ischemia Ca(2+) in normal female myocytes was completely suppressed in hypertrophic female myocytes-even though all groups demonstrated similar shifts in myocyte contractile performance. After 30 min of simulated reperfusion, the Ca(2+) desensitization characterizing the male response was distinctively absent in female cardiomyocytes. CONCLUSIONS: Our data demonstrate that cardiac hypertrophy produces dramatically different basal and stress-induced pathophenotypes in female- and male-origin cardiomyocytes. The lower Ca(2+) operational status characteristic of female (vs male) cardiomyocytes comprising normal hearts is not exhibited by myocytes of hypertrophic hearts. After ischemia/reperfusion, availability of activator Ca(2+) is suppressed in female hypertrophic myocytes, whereas sensitivity to Ca(2+) is blunted in male hypertrophic myocytes. These findings demonstrate that selective intervention strategies should be pursued to optimize post-ischemic electromechanical support for male and female hypertrophic hearts.

Female genital cosmetic surgery: Investigating the role of the general practitioner.

BACKGROUND: Labiaplasty, the surgical reduction of the labia minora, has significantly increased in demand in Australia. Although general practice is one gatekeeper for patients requesting labiaplasty, as a referral is necessary to claim Medicare entitlements, there is little information available to assist general practitioners (GPs) in managing these requests for female genital cosmetic surgery. METHODS: Semi-structured interviews were conducted with health professionals, including GPs, gynaecologists and plastic surgeons. Participants were recruited through the Victorian Primary Care Practice-based Research Network (VicReN), clinical teaching hospitals and snowball sampling. All interviews were digitally recorded, transcribed, and analysed using content and thematic analysis. RESULTS: Twenty-seven interviews were conducted. All participants were aware of genital labiaplasty; many had patients who were concerned about genital appearance, for which information had often been sought opportunistically. All participants agreed on the need for resources to inform women of normal genital appearance. DISCUSSION: This novel study demonstrates a need for clinical resources for GPs managing requests for genital labiaplasty.

Cardiac CaMKIIδ splice variants exhibit target signaling specificity and confer sex-selective arrhythmogenic actions in the ischemic-reperfused heart.

BACKGROUND: Ischemia-related arrhythmic incidence is generally lower in females (vs males), though risk is selectively increased in women with underlying cardiopathology. Ca(2+)/calmodulin dependent kinase II (CaMKII) has been implicated in ischemia/reperfusion arrhythmias, yet the role of CaMKII in the ischemic female heart has not been determined. The aim of this study was to define the role and molecular mechanism of CaMKII activation in reperfusion arrhythmias in male/female hearts. METHODS AND RESULTS: Male and female rat hearts and cardiomyocytes were subjected to multiple arrhythmogenic challenges. An increased capacity to upregulate autophosphorylated CaMKII (P-CaMKII) in Ca(2+)-challenged female hearts was associated with an enhanced ability to maintain diastolic function. In ischemia/reperfusion, female hearts (vs male) exhibited less arrhythmias (59 ± 18 vs 548 ± 9, s, p<0.05), yet had augmented P-CaMKII (2.69 ± 0.30 vs 1.50 ± 0.14, rel. units, p<0.05) and downstream phosphorylation of phospholamban (1.71 ± 0.42 vs 0.90 ± 0.10, p<0.05). In contrast, hypertrophic female hearts had more reperfusion arrhythmias and lower phospholamban phosphorylation. Isolated myocyte experiments (fura-2) confirmed Ca(2+)-handling arrhythmogenic involvement. Molecular analysis showed target specificity of CaMKII was determined by post-translational modification, with CaMKIIδB and CaMKIIδC splice variants selectively co-localized with autophosphorylation and oxidative modifications of CaMKII respectively. CONCLUSIONS: This study provides new mechanistic evidence that CaMKIIδ splice variants are selectively susceptible to autophosphorylation/oxidation, and that augmented generation of P-CaMKIIδB(Thr287) is associated with arrhythmia suppression in the female heart. Collectively these findings indicate that therapeutic approaches based on selective CaMKII splice form targeting may have potential benefit, and that sex-selective CaMKII intervention strategies may be valid.