The normal and regular development of the fetal renal function is related to fetal growth and to the correct development of the fetal lung. Besides, the fetal kidneys plays an important role in the regulation of the hydro-electrolytic balance and in the modulation of the fetal arterial pressure. The postnatal renal failure is one of the most dangerous factors which may occur in the very small preterm babies (birth weight below 1000 g) and their therapeutical answer depends on the degree of kidney maturation. The knowledge of the kidney maturation process is one of the actual controversies in perinatal medicine. The development of the renal nephron and of the excretory system continues until 32-36 weeks of gestation, their maturation process ends only some months after birth. At 9 weeks of gestation the embryonic kidney may be seen in a transvaginal ultrasonographic scanning; the calico-pelvic system is visible from the 11th week of gestation and the bladder may be seen by ultrasound from the 12 weeks' gestation. The fetal glomerular ultrafiltration process starts at the 10-11 week of gestation and the most important factors that improve the volume of glomerular ultrafiltrate is the total renal mass which is related to the number of functional nephron units. The Doppler velocimetry performed on the fetal renal artery has shown that the fetal renal blood flow increases with the increase of the renal volume and gestational age and it depends on the cardiac output. In the renal artery the resistance to blood flow decreases with gestational age. During fetal hypoxia there is a reduction of the amniotic fluid production; this phenomenon is related to the redistribution of the fetal blood flow with a decrease of the perfusion of peripheric organs (as the kidney) and an increase of the perfusion of brain, heart, liver and adrenals. The hypoxic fetal kidney is ischemic; moreover, the urine production rate is diminished and the humoral response of the kidney increase the fetal arterial pressure which maintains the haemodynamic compensation to hypoxia. When this situation is prolonged, there is possibly renal failure. The fetal renal ultrasonographic examination can give important information about the maturity degree of the fetal kidney and the evaluation of Doppler velocimetry on renal artery and the evaluation of the amniotic fluid allow the monitoring of fetal hypoxia. In future the Doppler velocimetry of intrarenal arteries and the biochemical evaluation of the amniotic fluid may a real evaluation of the fetal renal function.
Aspetti funzionali dell'apparato urinario fetale in rapporto all' accrescimento
LUZI, GIUSEPPE;IAMMARINO, GIOVANNA MARIA PIA;TADDEI, Fabiana;PIATTI, PAOLO;DI RENZO, Giancarlo
1996
Abstract
The normal and regular development of the fetal renal function is related to fetal growth and to the correct development of the fetal lung. Besides, the fetal kidneys plays an important role in the regulation of the hydro-electrolytic balance and in the modulation of the fetal arterial pressure. The postnatal renal failure is one of the most dangerous factors which may occur in the very small preterm babies (birth weight below 1000 g) and their therapeutical answer depends on the degree of kidney maturation. The knowledge of the kidney maturation process is one of the actual controversies in perinatal medicine. The development of the renal nephron and of the excretory system continues until 32-36 weeks of gestation, their maturation process ends only some months after birth. At 9 weeks of gestation the embryonic kidney may be seen in a transvaginal ultrasonographic scanning; the calico-pelvic system is visible from the 11th week of gestation and the bladder may be seen by ultrasound from the 12 weeks' gestation. The fetal glomerular ultrafiltration process starts at the 10-11 week of gestation and the most important factors that improve the volume of glomerular ultrafiltrate is the total renal mass which is related to the number of functional nephron units. The Doppler velocimetry performed on the fetal renal artery has shown that the fetal renal blood flow increases with the increase of the renal volume and gestational age and it depends on the cardiac output. In the renal artery the resistance to blood flow decreases with gestational age. During fetal hypoxia there is a reduction of the amniotic fluid production; this phenomenon is related to the redistribution of the fetal blood flow with a decrease of the perfusion of peripheric organs (as the kidney) and an increase of the perfusion of brain, heart, liver and adrenals. The hypoxic fetal kidney is ischemic; moreover, the urine production rate is diminished and the humoral response of the kidney increase the fetal arterial pressure which maintains the haemodynamic compensation to hypoxia. When this situation is prolonged, there is possibly renal failure. The fetal renal ultrasonographic examination can give important information about the maturity degree of the fetal kidney and the evaluation of Doppler velocimetry on renal artery and the evaluation of the amniotic fluid allow the monitoring of fetal hypoxia. In future the Doppler velocimetry of intrarenal arteries and the biochemical evaluation of the amniotic fluid may a real evaluation of the fetal renal function.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.