Pituitary deficiency and precocious puberty after childhood severe traumatic brain injury: a long-term follow-up prospective study.

Objectives Childhood traumatic brain injury (TBI) is a public health issue. Our objectives were to determine the prevalence of permanent pituitary hormone deficiency and to detect the emergence of other pituitary dysfunctions or central precocious puberty several years after severe TBI. Design Follow-up at least 5 years post severe TBI of a prospective longitudinal study. Patients Overall, 66/87 children, who had endocrine evaluation 1 year post severe TBI, were included (24 with pituitary dysfunction 1 year post TBI). Main outcome measures In all children, the pituitary hormones basal levels were assessed at least 5 years post TBI. Growth hormone (GH) stimulation tests were performed 3-4 years post TBI in children with GH deficiency (GHD) 1 year post TBI and in all children with low height velocity (<-1 DS) or low IGF-1 (<-2 DS). Central precocious puberty (CPP) was confirmed by GnRH stimulation test. Results Overall, 61/66 children were followed up 7 (5-10) years post TBI (median; (range)); 17/61 children had GHD 1 year post TBI, and GHD was confirmed in 5/17 patients. For one boy, with normal pituitary function 1 year post TBI, GHD was diagnosed 6.5 years post TBI. 4/61 patients developed CPP, 5.7 (2.4-6.1) years post-TBI. Having a pituitary dysfunction 1 year post TBI was significantly associated with pituitary dysfunction or CPP more than 5 years post TBI. Conclusion Severe TBI in childhood can lead to permanent pituitary dysfunction; GHD and CPP may appear after many years. We recommend systematic hormonal assessment in children 1 year after severe TBI and a prolonged monitoring of growth and pubertal maturation. Recommendations should be elaborated for the families and treating physicians.

Is there an optimal strategy for real-time continuous glucose monitoring in pediatrics? A 12-month French multi-center, prospective, controlled randomized trial (Start-In!).

AIM: To compare the efficacy of three strategies for real-time continuous glucose monitoring (RT-CGM) over 12 months in children and adolescents with type 1 diabetes. METHODS: A French multicenter trial (NCT00949221) with a randomized, controlled, prospective, open, and parallel-group design was conducted. After 3 months of RT-CGM, patients were allocated to one of three groups: return to self-monitoring of blood glucose, continuous CGM (80% of the time), or discontinuous CGM (40% of the time). The primary outcome was hemoglobin A1c (HbA1c) levels from 3 to 12 months. The secondary outcomes were acute metabolic events, hypoglycemia, satisfaction with CGM and cost. RESULTS: We included 151 subjects, aged 2 to 17 years, with a mean HbA1c level of 8.5% (SD0.7; 69 mmol/mol). The longitudinal change in HbA1c levels was similar in all three groups, at 3, 6, 9 and 12 months. The medical secondary endpoints did not differ between groups. The rate of severe hypoglycemia was significantly lower than that for the pretreatment year for the entire study population. Subjects reported consistent use and good tolerance of the device, regardless of age or insulin treatment. The use of full-time RT-CGM for 3 months costs the national medical insurance system €2629 per patient. CONCLUSION: None of the three long-term RT-CGM strategies evaluated in pediatric type 1 diabetes was superior to the others in terms of HbA1c levels. CGM-use for 3 months decreased rates of severe hypoglycemia. Our results confirm the feasibility of long-term RT-CGM-use and the need to improve educational support for patients and caregivers.

[The social integration of children with diabetes]. / L'intégration sociale de l'enfant diabétique.

Despite the regulatory programmes in place, the social integration of children with diabetes, in particular younger children, is still unsatisfactory. The lack of autonomy of the young child requires the active participation of adults in child care facilities and schools to administer and monitor their treatment. The training of all staff working with children is essential for their successful integration.

Prevalence of pituitary dysfunction after severe traumatic brain injury in children and adolescents: a large prospective study.

CONTEXT: Traumatic brain injury (TBI) in childhood is a major public health issue. OBJECTIVE: We sought to determine the prevalence of pituitary dysfunction in children and adolescents after severe TBI and to identify any potential predictive factors. DESIGN: This was a prospective longitudinal study. SETTING: The study was conducted at a university hospital. PATIENTS: Patients, hospitalized for severe accidental or inflicted TBI, were included. The endocrine assessment was performed between 6 and 18 months after the injury. MAIN OUTCOME MEASURES: Basal and dynamic tests of pituitary function were performed in all patients and GH dynamic testing was repeated in patients with low stimulated GH peak (<7 ng/mL). The diagnosis of proven severe GH deficiency (GHD) was based on the association of two GH peaks less than 5 ng/mL on both occasions of testing and IGF-I levels below -2 SD score. Initial cranial tomography or magnetic resonance imaging was analyzed retrospectively. RESULTS: We studied 87 children and adolescents [60 males, median age 6.7 y (range 0.8-15.2)] 9.5 ± 3.4 months after the TBI (73 accidental, 14 inflicted). The second GH peak, assessed 4.9 ± 0.1 months after the first evaluation, remained low in 27 children and adolescents. Fifteen patients had a GH peak less than 5 ng/mL (mean IGF-I SD score -1.3 ± 1.5) and five (5.7%) strict criteria for severe GHD. Two children had mild central hypothyroidism and one had ACTH deficiency. We did not find any predictive factors associated with existence of GHD (demographic characteristics, growth velocity, trauma severity, and radiological parameters). CONCLUSION: At 1 year after the severe TBI, pituitary dysfunction was found in 8% of our study sample. We recommend systematic hormonal assessment in children and adolescents 12 months after a severe TBI and prolonged clinical endocrine follow-up.

Norethisterone-induced hepatic adenomas can cause life-threatening bleeding in girls with inherited platelet disorders.

OBJECTIVE: To describe four cases of hepatic adenoma in adolescents and women with severe inherited bleeding disorders treated with norethisterone. DESIGN: Case reports. SETTING: Necker-Enfants Malades University Hospital, Paris, Department of Pediatric Endocrinology, Gynecology and Diabetes. PATIENT(S): Two adolescents and two young women with inherited platelet disorders, treated with high-dose norethisterone (10 to 20 mg/day) to induce amenorrhea. INTERVENTION(S): Immediate cessation of norethisterone. MAIN OUTCOME MEASURE(S): Spontaneous regression of hepatic adenoma. RESULT(S): In four patients with inherited platelet disorders, hepatic adenoma developed at 14, 18, 22, and 24 years of age, respectively, during continuous norethisterone therapy started at 1.5, 2.5, 10.0, and 13.0 years of age, respectively. Life-threatening bleeding occurred in two patients. Immediate norethisterone discontinuation was followed by complete or nearly complete tumor regression within a few months. CONCLUSION(S): Our four cases strongly support a causal link between norethisterone treatment and hepatic adenoma. Continuous high-dose (10 to 20 mg/day) continuous norethisterone to treat menorrhagia in adolescents and young women with bleeding disorders is inadvisable. If other nortestosterone derivatives are needed, the patient should be closely monitored for the development of hepatic adenoma.

Heterozygous missense mutations in the insulin gene are linked to permanent diabetes appearing in the neonatal period or in early infancy: a report from the French ND (Neonatal Diabetes) Study Group.

OBJECTIVE: Permanent neonatal diabetes (PND) is defined by chronic hyperglycemia due to severe nonautoimmune insulin deficiency diagnosed in the first months of life. Several genes, including KCNJ11 and ABCC8, which encode the two subunits of the ATP-sensitive K(+) channel (K(ATP) channel) can cause PND. Mutations in the insulin (INS) gene have been recently described in families with neonatal diabetes. Our study aimed to investigate the genetic anomalies and clinical heterogeneity in PND patients who are negative for a K(ATP) channel mutation. RESEARCH DESIGN AND METHODS: We screened the INS gene by direct sequencing in 38 PND patients and in one child with nonautoimmune early-infancy diabetes, where no mutation in GCK, KCNJ11, and ABCC8 was identified. A detailed clinical phenotyping of the patients was carried out to specify the diabetes features in those found with an INS mutation. RESULTS: We identified three missense mutations in the INS gene in four probands. Two of four mutations were inherited in a dominant manner, and the familial description evidenced a marked variability in age of diagnosis and disease progression. In our cohort, the INS mutations may represent approximately 10% of all permanent neonatal diabetes cases, having a later presentation of diabetes and no associated symptoms compared with cases with K(ATP) channel mutations. CONCLUSIONS; Heterozygous INS gene mutations can cause isolated permanent early-infancy diabetes and should be assessed in neonatal as well as in childhood diabetes appearing like type 1, when autoimmune markers are absent. New pharmacogenomic strategies may be applicable, since residual beta-cell function is still present in some patients.