Frasier syndrome (FS), a rare disease caused by inherited or de novo mutation in Wilm's Tumor suppressor gene 1 (WT1), is characterized by slow progressive nephropathy, XY gonadal dysgenesis (XY-DSD), and increased risk for gonadal tumors. Early childhood (1-6 years) nephropathy progresses with age to refractory nephrotic syndrome, and end-stage renal failure in late adolescence, when delayed puberty and/or primary amenorrhea are clinically evident. We report a unique case of FS presenting initially with primary amenorrhea at 16 years, without previous or concomitant renal damage. Only subsequently she developed an extremely late-onset nephropathy. Genetic analysis revealed the IVS9 + 5 G>A mutation in intron 9 of the WT1 gene. This clinical presentation and review of WT1 literature highlights the importance of considering FS in the differential diagnosis of patients with 46,XY disorders of Sexual development, even without nephropathy. Furthermore, the identification WT1 gene mutation prior to evident renal dysfunction indicates an immediate and close surveillance of renal function enabling an optimal and timely medical response.

Childhood obesity is a considerable worldwide health problem and a major risk factor for several chronic diseases. Fat rich diets result in altered serum levels of lipids, cytokines and hormonal factors, which influence skeletal acquisition and promote microstructural and mechanical behavior changes in bone, especially to bone quality and quantity. However, the possible longterm implications of high-fat diets in childhood are controversial. Despite not fully understood, multiple signaling pathways which support bone tissue homeostasis are altered under hyperlipidic conditions, including RANKL/RANK/OPG, PPAR-γ/Alox5/5-LO, leptin/IGF-I/AGE, ApoE/Lrp-1, Thy-1, IL-6, TNFα, calcium, vitamin D and K metabolism. Moreover, the expression of reactive oxygen species is also modified. Considering the importance of this subject, the aim of this review was to explore the mechanisms of bone formation affected by obesity during childhood during childhood.

Mucopolysaccharidosis type I (MPS I) is a rare autosomal recessive disorder, caused by deficiency of α-L-iduronidase, and consequent accumulation of dermatan and heparan sulfates. Severity of the disease ranges from mild (Scheie) to moderate (Hurler-Scheie) to severe (Hurler or MPS-IH). A prominent clinical manifestation of MPS-IH is dysostosis multiplex, a constellation of skeletal abnormalities. We performed a retrospective review comparing manifestations of dysostosis multiplex in patients presenting with MPSIH and relevant animal models. Dog, cat and mouse models of MPS-IH are extensively studied to better understand the pathology of the disease. While all animal models display certain characteristics of human MPSIH, species-specific manifestations must be considered when evaluating skeletal abnormalities. Moreover, some skeletal abnormalities emerge at species-specific developmental stages, e.g. thoracolumbar kyphosis is an early manifestation in humans, while it appears late in the mouse model. The choice of the appropriate diagnostic test is of importance to avoid misleading conclusions.

Skeletal dysplasias are the disorders of the skeletal and cartilaginous tissues. Short stature is the hallmark presentation. Achondroplasia is the commonest skeletal dysplasia. Growth hormone (GH) has been widely used in children with achondroplasia. Various studies have shown 1st year increase in height velocity is about 2-3cm. Apart from achondroplasia, studies have also shown positive effect of GH in hypochondroplasia children. However, in hypochondroplasia GH treatment seems to give better results when administered at puberty. Other forms of skeletal dysplasias are rare, so no conclusion on GH use in such patients can be drawn.

Finding multiple familial patients with Hashimoto thyroiditis in our clinic a search in the literature confirms that genetic factors, in addition to environmental factors, seem involved in the etiology of this disease.

Glucose dysregulation (GD), a feature of growth hormone excess, in the setting of acromegaly is well known by clinicians. However, less well known is that GD may be a feature of growth hormone deficiency. The fact that either ends of the spectrum of growth hormone (excess or deficiency) can be associated with diabetes mellitus is unique and clinicians should especially recognize that impaired glucose tolerance and even diabetes mellitus may develop in individuals predisposed to having growth hormone deficiency.

Pheochromocytomas/paragangliomas (PCCs/PGLs) are rare neuroendocrine tumors, developed from chromaffin cells derived from the neural crest. From a genetic point of view PCCs/PGLs are divided as sporadic cases, and inherited cases as part of hereditary (familial) syndromes. While the majority is benign, up to 26% of PCCs/PGLs will undergo malignant transformation. Validated prognostic pathological parameters for malignant PCCs/PGLs are still lacking. Signaling that follows the interactions between IGFs and their receptor/s in tumor cells received extensive attention when investigating the role of IGF1R in cancer. Increased IGF1R expression has been shown during progression to metastatic phenotypes and associated with worse prognosis in several types of cancer. In this review we provide evidence supporting a role for the IGFs system on PCC/PGL tumor biology and malignant behavior, endocrine actions to sustain tumor phenotype as well as heterotypic interaction´s regulation by IGF1, encouraging further research for targeted therapeutic options for these tumors.

Vitamin D is important for skeletal growth, bone mineralization and dental health. Vitamin D deficiency is reported in many countries, may have several causes and can cause rickets in children. A guideline with recommendations of vitamin D supplementation to prevent nutritional rickets was published recently. The vitamin D receptor is present in many cells of the body including cells of the immune system. Many studies have been published on associations between vitamin D deficiency and extra skeletal effects, mainly without proof of causality in intervention studies. This review aims to summarize available evidence of the skeletal and extra-skeletal effects of vitamin D. For the extra-skeletal effects there is proof that vitamin D supplementation can prevent acute respiratory infections in children with vitamin D deficiency and can reduce the rate of asthma exacerbations requiring corticosteroids in children with vitamin D deficiency. The evidence of benefit of vitamin D supplementation is too limited for pediatric patients with other infectious, inflammatory, and autoimmune diseases.

Hypoglycaemia is the most common metabolic health complication in newborns. Persistent and severe hypoglycaemia in a neonate is correlated with morbidity and could represent an early clinical manifestation of an endocrine or metabolic, genetically determined disorder. Besides this, the most common reason for neonatal hypoglycaemia is the inmature liver storage of glucose seen in preterms or children born intrauterine growth retarded. The genetic determination of hypoglycaemia is gene- and allele- heterogeneous, and thus complex to diagnose. Nevertheless its contribution to brain damage and intellectual disability in children provides a strong rationale for comprehensive and rapid testing. Hypoglycaemia may contribute directly to the phenotype of various genetic syndromes but because of their rarity, it has been not always included in differential diagnosis and its frequency has been underestimated. In clinical practice but also with the growing attention to improved neonatal helathcare and to neonatal genetic screening programmes, the detailed classification of genotype to phenotype is of great importance. This review provides a catalogue of syndromic forms of neonatal hypoglycaemia.