Mechanism of arginine vasopressin suppression of ovine fetal lung fluid secretion: Lack of V2-receptor effect

Abstract: Fetal lung liquid production is essential for in utero pulmonary development, and the resorption of lung liquid at birth facilitates neonatal transition. Lung liquid also contributes importantly to amniotic fluid volume. Factors that influence lung liquid production/resorption may, therefore, impact fetal pulmonary growth and development as well as amniotic fluid homeostasis. Arginine vasopressin (AVP) inhibits fetal lung liquid production and facilitates lung liquid resorption. In view of studies administerin… Show more

“…[21][22][23] However, the mechanism involved remains uncertain. In fetal sheep, Albuquerque et al 24 found no evidence that the vasopressin-2 receptor mediated a reduction in lung fluid production; they suggested the effect was instead mediated by the vasopressin-1 receptor. In the neonatal rat, on the other hand, Guetta et al 25 showed that the vasopressin-2 receptor regulates the increase in active sodium transport and alveolar fluid clearance from the lung.…”

Fetal Release of Copeptin in Response to Maternal Oxytocin Administration

“…[21][22][23] However, the mechanism involved remains uncertain. In fetal sheep, Albuquerque et al 24 found no evidence that the vasopressin-2 receptor mediated a reduction in lung fluid production; they suggested the effect was instead mediated by the vasopressin-1 receptor. In the neonatal rat, on the other hand, Guetta et al 25 showed that the vasopressin-2 receptor regulates the increase in active sodium transport and alveolar fluid clearance from the lung.…”

Fetal Release of Copeptin in Response to Maternal Oxytocin Administration

Regulation of Liquid Secretion and Absorption by the Fetal and Neonatal Lung

Cesarean section and transient tachypnea of the newborn