Vitamin D and calcium intakes in general pediatric populations: A French expert consensus paper.

OBJECTIVES: Nutritional vitamin D supplements are often used in general pediatrics. Here, the aim is to address vitamin D supplementation and calcium nutritional intakes in newborns, infants, children, and adolescents to prevent vitamin D deficiency and rickets in general populations. STUDY DESIGN: We formulated clinical questions relating to the following categories: the Patient (or Population) to whom the recommendation will apply; the Intervention being considered; the Comparison (which may be "no action," placebo, or an alternative intervention); and the Outcomes affected by the intervention (PICO). These PICO elements were arranged into the questions to be addressed in the literature searches. Each PICO question then formed the basis for a statement. The population covered consisted of children aged between 0 and 18 years and premature babies hospitalized in neonatology. Two groups were assembled: a core working group and a voting panel from different scientific pediatric committees from the French Society of Pediatrics and national scientific societies. RESULTS: We present here 35 clinical practice points (CPPs) for the use of native vitamin D therapy (ergocalciferol, vitamin D2 and cholecalciferol, vitamin D3) and calcium nutritional intakes in general pediatric populations. CONCLUSION: This consensus document was developed to provide guidance to health care professionals on the use of nutritional vitamin D and dietary modalities to achieve the recommended calcium intakes in general pediatric populations. These CPPs will be revised periodically. Research recommendations to study key vitamin D outcome measures in children are also suggested.

Exploring the genetic causes of isolated short stature. What has happened to idiopathic short stature?

Statural growth is underpinned by development of the growth plate during the process of endochondral ossification, which is strongly regulated by numerous local factors (intracellular, paracrine and extracellular matrix factors) and systemic factors (nutrition, hormones, proinflammatory cytokines and extracellular fluids). This explains why growth retardation can be associated with numerous pathologies, particularly genetic syndromes, hormonal or inflammatory conditions, or gastrointestinal disorders having a nutritional impact. However, in most cases (80%), no specific aetiology is found after clinical investigation and conventional additional tests have been carried out. In such cases, "idiopathic" short stature is diagnosed, which includes patients presenting with constitutional delay of growth and development and familial short stature, but also patients with very subtle constitutional skeletal dysplasia which are not easily identifiable. In recent years, new methods of genetic investigation (e.g. gene panels, exome or genome sequencing) have made it possible to identify many genetic variants associated with apparently isolated short stature. Indeed, it is still difficult to estimate the proportion of patients presenting with idiopathic short stature for which a molecular diagnosis of monogenic conditions could be made. This estimate varies hugely depending on the thoroughness of the clinical, laboratory and radiological assessments performed prior to molecular analysis, since retrospective analysis of positive cases usually reveals subtle signs of underlying syndromes or rare skeletal disorders. Molecular diagnosis in children is important to be able to offer genetic counselling and to organise patient management. Moreover, improved understanding of the molecular basis of these cases of short stature opens up numerous possibilities for more specific treatments targeting the growth plate. © 2022 French Society of Pediatrics. Published by Elsevier Masson SAS. All rights reserved.

Guidelines for the management of children at risk of secondary bone fragility: Expert opinion of a French working group.

The current French national guidelines were elaborated by a working group consisting of experts in the field of pediatric endocrinology, rheumatology, hepatogastroenterology, nephrology, and pneumology. A systematic search was undertaken of the literature published between 2008 and 2018 and indexed in PubMed. The recommendations developed were then validated by an external evaluation group comprising representatives from the various highly specialized fields in pediatrics, representatives of the societies and groups supporting the development of the guidelines, and representatives of different healthcare professions. The objective of these guidelines was to detail the current optimal management of children at risk of secondary bone fragility.

1,4-Naphthoquinones potently inhibiting P2X7 receptor activity.

P2X7 receptor (P2X7R) is an ATP-gated ion-channel with potential therapeutic applications. In this study, we prepared and searched a series of 1,4-naphthoquinones derivatives to evaluate their antagonistic effect on both human and murine P2X7 receptors. We explored the structure-activity relationship and binding mode of the most active compounds using a molecular modeling approach. Biological analysis of this series (eight analogues and two compounds) revealed significant in vitro inhibition against both human and murine P2X7R. Further characterization revealed that AN-03 and AN-04 had greater potency than BBG and A740003 in inhibiting dye uptake, IL-1ß release, and carrageenan-induced paw edema in vivo. Moreover, we used electrophysiology and molecular docking analysis for characterizing AN-03 and AN-04 action mechanism. These results suggest 1,4-napthoquinones, mainly AN-04, as potential leads to design new P2X7R blockers and anti-inflammatory drugs.

[Severe nutritional rickets in young children: Resurgence of an old disease]. / Rachitisme carentiel sévère du nourrisson : de nouveau d'actualité.

Nutritional rickets remains a significant public health issue for children worldwide. Although it has almost disappeared in industrialized countries following routine vitamin D supplementation, recent evidence suggests an increasing incidence, especially in young children. In addition to the classical clinical consequences on bone and the growth plate, rickets may also be associated with life-threatening neurological and cardiac complications in the most severe forms. Consequently, early screening and treatment are required. Here, we report the case of a 2-year-old child who presented with severe nutritional rickets associated with seizure and cardiomyopathy. Family screening revealed rickets in all the siblings. This case report emphasizes the importance of being aware of this disease, notably in population with sociocultural risk factors.

Laboratory diagnosis of hypophosphatasia.

The laboratory diagnosis of hypophosphatasia (HPP) is primarily based on the precise analysis of circulating serum alkaline phosphatase (ALP) activity, determined by biochemical assays. This analysis requires specific conditions of implementation and interpretation and should always be viewed in the light of the clinical and radiological data. Concerns regarding the normal ranges of ALP with respect to age, regarding ALP values that may overlap those of normal subjects in HPP patients, regarding apparently normal ALP values in cases of proven HPP, regarding differential diagnoses that may be responsible for low ALP values outside of HPP will be discussed. High levels of pyridoxal phosphate, a substrate of APL, are of supportive value in the diagnosis of HPP.

Hypophosphatasia: the contribution of imaging.

Radiography and imaging are necessary for the diagnosis of hypophosphatasia (HPP) at all stages of life, from the antenatal period to the complications of adulthood, and in the forms of variable severity. The consequences of alkaline phosphatase activity deficiency, namely defective mineralization and bone fragility, may be detected by radiological tools and share features that distinguish them from other diseases responsible for mineralization defects. Radiography and imaging are also fundamental for the screening and diagnosis of the complications of HPP, some of which are related to the episodes of hypercalcemia and hyperphosphatemia (nephrocalcinosis). Radiologists should be aware of the particularities of HPP to efficiently orient the patients toward optimal medical care.

Neuromuscular features of hypophosphatasia.

The pathophysiology of the neuromuscular manifestations of hypophosphatasia (HPP) remains unknown. Pyridoxine-sensitive seizures characterize severe forms of infantile HPP. Young children and infants affected with severe forms of HPP, but also adults often present with myopathy characterized by hypotonia or muscle weakness. Chronic pain, of unclear mechanism is also often present. Tissue-non-specific alkaline phosphatase (Alkaline Phosphatase-Liver/Bone/Kidney [ALPL]) is expressed in brain neuronal cell and in muscle cells during development and adulthood. The knockout of the ALPL impacts neuronal functions in animal models. This may occur through metabolic anomalies involving gamma-aminobutyric acid (GABA) and other neurotransmitters via the metabolism of pyridoxal phosphate (vitamin B6) and phosphoethanolamine. In this context, a greater understanding of the neuromuscular pathophysiology of HPP is critical to assess the potential impact of new therapies.

Impairment of adipose tissue in Prader-Willi syndrome rescued by growth hormone treatment.

BACKGROUND: Prader-Willi syndrome (PWS) results from abnormalities in the genomic imprinting process leading to hypothalamic dysfunction with an alteration of growth hormone (GH) secretion. PWS is associated with early morbid obesity and short stature which can be efficiently improved with GH treatment. OBJECTIVES: Our aims were to highlight adipose tissue structural and functional impairments in children with PWS and to study the modifications of those parameters on GH treatment. SUBJECTS AND METHODS: Plasma samples and adipose tissue biopsies were obtained from 23 research centers in France coordinated by the reference center for PWS in Toulouse, France. Lean controls (n=33), non-syndromic obese (n=53), untreated (n=26) and GH-treated PWS (n=43) children were enrolled in the study. Adipose tissue biopsies were obtained during scheduled surgeries from 15 lean control, 7 untreated and 8 GH-treated PWS children. RESULTS: Children with PWS displayed higher insulin sensitivity as shown by reduced glycemia, insulinemia and HOMA-IR compared with non-syndromic obese children. In contrast, plasma inflammatory cytokines such as TNF-α, MCP-1 and IL-8 were increased in PWS. Analysis of biopsies compared with control children revealed decreased progenitor cell content in the stromal vascular fraction of adipose tissue and an impairment of lipolytic response to ß-adrenergic agonist in PWS adipocytes. Interestingly, both of these alterations in PWS seem to be ameliorated on GH treatment. CONCLUSION: Herein, we report adipose tissue dysfunctions in children with PWS which may be partially restored by GH treatment.

Endothelial function and mechanical arterial properties in children born small for gestational age: comparison with obese children.

BACKGROUND: Early cardiovascular events preceding atherosclerosis have been reported in children born small for gestational age (SGA). AIMS: To describe in detail the mechanical and functional arterial properties of SGA children and to compare the data to those of obese children in order to gain a better understanding of the severity of the dysfunction. A control group was required to overcome the lack of normal values. METHODS: Three groups of 7- to 15-year-old children were included. Sixty children born SGA without obesity, 49 children with obesity and not SGA, and 55 controls underwent complete carotid and brachial arterial measurements using ultrasound and flow-mediated dilation. Biological measurements were performed in the obese and SGA groups. RESULTS: Mean blood pressure and intima-media thickness were lower in SGA children than in the obese group (p < 0.001 and p = 0.004, respectively), but not different from the control group. Flow-mediated dilation was lower in SGA than in obese children and in controls (p < 0.001). CONCLUSION: These data show that children born SGA have endothelial dysfunction with normal intima-media thickness.

Progressive osseous heteroplasia: a model for the imprinting effects of GNAS inactivating mutations in humans.

CONTEXT: Heterozygous GNAS inactivating mutations are known to induce pseudohypoparathyroidism type 1a when maternally inherited and pseudopseudohypoparathyroidism when paternally inherited. Progressive osseous heteroplasia (POH) is a rare disease of ectopic bone formation, and studies in different families have shown that POH is also caused by paternally inherited GNAS mutations. OBJECTIVE: Our purpose was to characterize parental origin of the mutated allele in de novo cases of POH and to draw phenotype/genotype correlations according to maternal or paternal transmission of a same GNAS mutation. DESIGN AND SETTING: We conducted a retrospective study on patients addressed to our referral center for the rare diseases of calcium and phosphorus metabolism. PATIENTS AND METHODS: We matched 10 cases of POH with cases of pseudohypoparathyroidism type 1a carrying the same GNAS mutations. MAIN OUTCOME MEASURES: The parental origin of the mutated allele was studied using informative intragenic polymorphisms and subcloning of PCR products. RESULTS: Paternal origin of GNAS mutations was clearly demonstrated in eight POH cases including one patient with mutation in exon 1. Genotype/phenotype analyses suggest that there is no direct correlation between the ossifying process and the position of the inactivating GNAS mutation. It is, however, more severe in patients in whom origin of the mutation is paternal. Severe intrauterine growth retardation was clearly evidenced in paternally inherited mutations. CONCLUSIONS: Clinical heterogeneity makes genetic counseling a delicate matter, especially in which paternal inheritance is concerned because it can lead to either a mild expression of pseudopseudohypoparathyroidism or a severe expression of POH.

Prevalence of IGF1 deficiency in prepubertal children with isolated short stature.

BACKGROUND/AIMS: 'Primary IGF1 deficiency (IGFD)' is defined by low levels of IGF1 without a concomitant impairment in GH secretion in the absence of secondary cause. The aims of this study were to evaluate the prevalence of non-GH deficient IGFD in prepubertal children with isolated short stature (SS) and to describe this population. METHODS: This retrospective study included all children with isolated SS seen in our Pediatric Endocrinology Unit from January 2005 to December 2007. Children were included based on the following criteria: i) SS with current height SDS < or = -2.5, ii) age > or = 2 years, and iii) prepubertal status. Exclusion criteria were: i) identified cause of SS and ii) current or past therapy with rhGH. IGF1-deficient children were defined as children without GH deficiency and with IGF1 levels below or equal to -2 SDS. RESULTS: Among 65 children with isolated SS, 13 (20%) had low IGF1 levels, consistent with a diagnosis of primary IGFD, four of which were born small for gestational age and nine were born appropriate for gestational age. When compared with non-IGFD children, IGFD children had higher birth weight (-0.7 vs -1 SDS, P=0.02) and birth height (-1.7 vs -2 SDS, P=0.04) and more delayed bone age (2.6 vs 1.7 years, P=0.03). CONCLUSION: The prevalence of primary IGFD was 20% in children with isolated SS. Concerning the pathophysiology, our study emphasizes that IGFD in some children may be secondary to nutritional deficiency or to maturational delay.

[Recommendations for the management of bone demineralization in cystic fibrosis]. / Recommandations pour la prise en charge de la déminéralisation osseuse dans la mucoviscidose.

A high prevalence of low bone mineralization is documented in adult patients with cystic fibrosis (CF). Osteopenia is present in as much as 85% of adult patients and osteoporosis in 13 to 57% of them. In children, studies are discordant probably because of different control database. Denutrition, inflammation, vitamin D and vitamin K deficiency, altered sex hormone production, glucocorticoid therapy, and physical inactivity are well known risk factors for poor bone health. Puberty is a critical period and requires a careful follow-up for an optimal bone peak mass. This review is a consensus statement established by the national working group of the French Federation of CF Centers to develop practice guidelines for optimizing bone health in patients with CF. Recommendations for screening and for calcium, vitamin D and K supplementation are given. Further work is needed to define indications for treatment with biphosphonates and anabolic agents.

[New molecular mechanisms of growth hormone insensitivity]. / Nouveaux mécanismes moléculaires impliqués dans l'insensibilité à l'hormone de croissance.

Growth hormone (GH), secreted by the anterior pituitary into the circulation, binds to membrane receptors in target tissues to stimulate body growth; most of its effects is mediated by the insulin-like growth factor 1 (IGF-1). In addition to promoting growth, GH has important metabolic actions. The syndrome of GH insensitivity (GHI) was first identified in 1966 by Laron et al. in three children with clinical phenotype characteristic of growth hormone deficiency but associated with elevated serum concentration of GH. Direct evidence of a GH receptor (GHR) abnormality was provided in 1989. More recently, molecular abnormalities in the postreceptor signalling mechanism were found. Mutations of signal transducer and activator of transcription 5b (Stat5b) were reported in patients with growth retardation and primary immunodeficiency. Mutations of the tyrosin phosphatase Shp2 were identified in patients affected by Noonan syndrome characterized by short stature, cardiopathy and increased risk of leukaemia. The unmasking of the molecular bases for these defects will contribute greatly to our future understanding of both normal and aberrant growth. Moreover, this knowledge should bring insight on cancerogenesis or immunodeficiency caused by cytokines resistance.

[Growth follow-up of SGA children after 3 years of GH treatment]. / Suivi de la croissance chez les enfants de petite taille de naissance après 3 ans de traitement par hormone de croissance: l'expérience d'un centre français.

UNLABELLED: Eighty-five percent of children born with IUGR have spontaneous catch-up growth in the first 2 years of life; however, about 10 to 15% do not catch up. Numerous therapeutic trials have demonstrated the efficacy of GH treatment in these children. However, the duration of this treatment is still discussed. OBJECTIVE: The aim of this study was to describe the evolution of growth during and after the end of treatment. POPULATION AND METHODS: This study followed 33 children in our unit, treated with growth hormone under the French indication (3 years of treatment followed by 1 year off treatment) and with a mean follow-up of 3 years after cessation. RESULTS: During the 3 years of therapy, we confirmed an increase in growth velocity that resulted in a mean height above -2 standard deviation score (SDS) in 25 children at 3 years (mean height of 1.4 SDS). Among the 25 children who achieved a height above -2 SDS at three years and therefore stopped treatment, 15 resumed GH due to a secondary catch-down. Among children who didn't catch-up at 3 years, the continuation of GH treatment didn't seem to improve the growth.

Localization of STRO-1, BMP-2/-3/-7, BMP receptors and phosphorylated Smad-1 during the formation of mouse periodontium.

Bone morphogenetic proteins (BMPs) and BMP receptors (BMPRs) are known to regulate the development of calcified tissues by directing mesenchymal precursor cells differentiation. However, their role in the formation of tooth-supporting tissues remains unclear. We investigated the distribution pattern of STRO-1, a marker of mesenchymal progenitor cells and several members of the BMP pathway during the development of mouse molar periodontium, from the post-natal days 6 to 23 (D6 to D23). STRO-1 was mainly localized in the dental follicle (DF) at D6 and 13 then in the periodontal ligament (PDL) at D23. BMP-2 and -7 were detected in Hertwig's epithelial root sheath (HERS) and in DF, then later in differentiated periodontal cells. BMP-3 was detected after D13 of the periodontal development. BMPRs-Ib, -II, the activin receptor-1 (ActR-1) and the phosphorylated Smad1 were detected in DF and HERS at D6 and later more diffusely in the periodontium. BMPR-Ia detection was restricted to alveolar bone. These findings were in agreement with others data obtained with mouse immortalized DF cells. These results suggest that STRO-1 positive DF cells may be target of BMPs secreted by HERS. BMP-3 might be involved in the arrest of this process by inhibiting the signaling provided by cementogenic and osteogenic BMPs.