Partial Mineralocorticoid Deficiency Clinical Trial
Official title:
Impact of the Administration of Fludrocortisone on Fluid and Electrolyte Balance in Very Premature Infants: Pilot Study
Water and electrolytic homeostasis is remarkably controlled by the mineralocorticoid pathway (renin-angiotensin-aldosterone system acting on the renal tubule). However, the neonatal period in humans is characterized by a reduced ability of the kidney to ensure normal functions of urine concentration and maintenance of sodium and water balance. This renal functional immaturity, is associated in the very premature infants (VPT) (born <32 weeks of amenorrhea (SA)) to an immaturity of the adrenal responsible for a default of aldosterone biosynthesis . This relative aldosterone deficiency induces difficulties for VPT to adapt to extra-uterine life when maintaining a positive sodium balance is essential for postnatal growth. The improvement of perinatal care (antenatal corticosteroids maturation, ventilation techniques and use of surfactant) have increased the survival of these children . Nevertheless, extreme prematurity (less than 32 weeks), which concerns nearly 2% of live births in France, remains associated with neurodevelopmental sequelae in nearly 40% of children at 5 years . Secondary hydroelectrolytic disorders with transient mineralocorticoid adrenal insufficiency is probably one of the factors responsible of these neurological deleterious outcomes as well as the occurrence of other complications (bronchopulmonary dysplasia, enterocolitis necrotizing) of extreme prematurity. Indeed, aside from the administration of antenatal steroids to induce maturation, the prevention of postnatal dehydration reduces the risk of intracranial hemorrhage in that population. However, high fluid intake are associated with an increased incidence of patent ductus arteriosus, of bronchopulmonary dysplasia and necrotizing enterocolitis. This necessitates the evaluation of preventive measures to avoid such fluid and electrolyte imbalances by a pharmacological approach based on mineralocorticoid administration in very premature infants, due to the relative aldosterone deficiency identified in this population.
Extreme prematurity affects about 2% of births per year in France and is subject to a significant morbidity and mortality. It is likely that the fluid and electrolyte imbalances associated with mineralocorticoid adrenal insufficiency transient observed in this population of vulnerable newborns contribute to the occurrence of complications that will influence the prognosis medium and long term these children. The expected impact of our pilot study is a direct benefit to the patient, with reduced kidney soda losses from the 3rd day of life and throughout the first week of life (assessed by a non-invasive method: urine collection to compress and measurement of urinary Na / creatinine). This physiological approach (substitution of the deficient hormone) allow better control of sodium and water balance. This could limit a number of common complications of extreme prematurity, occurring in the first weeks of life, such as patent ductus arteriosus, intra-ventricular hemorrhage and bronchopulmonary dysplasia. The administration of glucocorticoids during the postnatal period (with action both glucocorticoid and mineralocorticoid) enables a reduction in the incidence of bronchopulmonary dysplasia severe. However, such treatment is associated with an increased incidence of neurodevelopmental effects related to activation of the glucocorticoid pathway. Using a specific mineralocorticoid agonist should preserve the beneficial effects without the adverse effects observed. The results of this pilot study will in a second time to consider a clinical trial Phase III national or international evaluating the significant reduction of these complications after substitution by Fludrocortisone the first week of life in the great premature. These results should have a major medical and economic impact. Indeed, neonatal morbidity indicators (intraventricular hemorrhage, patent ductus arteriosus, bronchopulmonary dysplasia and enterocolitis necrotizing) are associated with the subsequent development of neurodevelopmental sequelae (cerebral palsy and / or cognitive impairment) at the age of two and five years. ;