[en] The object of this study was to investigate the fetal renal arterial blood flow in normal and hyperechogenic kidneys during the third trimester of gestation. The pregnancies screened were all chronically hypoxic. Depending on the etiology of the intrauterine chronic hypoxia, the cases were divided into two study groups. Group I comprised 120 pregnant women with pregnancy-associated hypertension and/or proteinuria. Group II consisted of 87 pregnancies with intrauterine growth retardation. Both study groups included pregnant women from the third trimester. Hyperechogenic renal medullae were detected in 15 out of 120 cases with pregnancy-associated hypertension and/or proteinuria, and in 22 fetuses of the 87 pregnancies involving intrauterine growth retardation. Fetal renal hyperechogenicity appears to be an indicator of fetal arterial circulatory depression, correlated with pathological changes in the resistance index for the fetal renal arteries. The fetal renal arterial blood flow resistance index was significantly lower in hyperechogenic cases. This may also be an in utero indication of subsequent intrauterine and neonatal complications, such as cesarean section because of fetal distress (43%), treatment in a neonatal intensive care unit (51%) or increased perinatal mortality (5.4%, as compared with 0.8-1.0% in the normal population). Detailed ultrasound and Doppler examinations of renal parenchyma and arteries appear to be useful methods in the prenatal diagnosis of reduced renal perfusion and of intrauterine hypoxia to detect possible pathological fetal conditions in utero.
Disciplines :
Reproductive medicine (gynecology, andrology, obstetrics) Pediatrics
Author, co-author :
Suranyi, Andrea
Streitman, Karoly
Pal, Attila
Nyari, Tibor
Retz, Cristine
Foidart, Jean-Michel ; Université de Liège - ULiège > Département des sciences cliniques > Gynécologie - Obstétrique - Labo de biologie des tumeurs et du développement
Schaaps, Jean-Pierre ; Université de Liège - ULiège > Département des sciences biomédicales et précliniques > Embryologie
Kovacs, Lazlo
Language :
English
Title :
Fetal renal artery flow and renal echogenicity in the chronically hypoxic state.
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Bibliography
Hewlett DC, Greenwood KL, Jarosz JM, MacDonald LM, Saunders AJS (1997) The incidence of transient renal medullary hyperechogenicity in neonatal ultrasound examination. Br J Radiol 70:140-143
Starinsky R, Vardi U, Batasch D, Goldberg M (1995) Increased medullary echogenicity in neonates. Pediatr Radiol 25:S43-S45
Shultz PK, Strife JL, Stife CF, McDanie JD (1991) Hyperechoic renal medullary pyramids in infants and children. Radiology 181:163-167
Ewer AK, Mchugo JM, Chapman S, Newell SJ (1993) Fetal echogenic gut: a marker of intrauterine gut ischemia? Arch Dis Child 69:510-516
Vyas S, Nicolaides KH, Campbell S (1989) Renal artery flow-velocity waveforms in normal and hypoxemic fetuses. Am J Obstet Gynecol 161:168-172
Griffin D, Cohen-Overbeek T, Campbell S (1983) Fetal and utero-placental blood flow. Clin Obstet Gynecol 10:596-602
Hecker K, Spernol R, Szalay S (1989) Doppler blood flow velocity waveforms in the fetal renal artery. Arch Gynecol Obstet 246:133-137
Copel JA, Reed KL (eds) (1995) Doppler ultrasound in obstetrics and gynecology. Raven, New York, pp 131-132
Pearce JM, Campbell S, Cohen-Overbeek T, Hackett G, Hernandez J, Royston JP (1988) Reference ranges and sources of variation for indices of pulsed Doppler flow velocity wave-forms from the uteroplacental and fetal circulation. Br J Obstet Gynaecol 95:248-256
Veille JC, Kanaan C (1989) Duplex Doppler ultrasonographic evaluation of the fetal renal artery in normal and abnormal fetuses. Am J Obstet Gynecol 161:1502-1507
Vajda Gy, Pal A (1994) Examination of the fetal blood flow velocity waveforms of the fetal renal artery during the third trimester of the pregnancy. Orv Hetil 135:1751-1753
Pourcelot L (1974) Application cliniques de l'examen Doppler transcutané. In: Perroneau P (ed) Vélocimétrie Ultrasonoré Doppler. Séminaire INSERM, Paris, pp 213-240
Thompson RS, Tudinger BJ, Cook CM (1988) Doppler ultrasound waveform indices: A/B ratio, pulsatility index and Pourcelot ratio. Br J Obstet Gynecol 95:581-588
Davey DA, MacGillivray I (1986) The classification and definition of the hypertensive disorders of pregnancy. Clin Exp Hypertens B5:97-133
Hayden CK, Santa-Cruz FR, Amparo EG, Brouhard B, Swischuk LE, Ahrendt DK (1984) Ultrasonographic evaluation of the renal parenchyma in infancy and childhood. Radiology 152:413-417
Campbell S, Vyas S (1988) Color flow mapping in measurements of flow velocity in fetal renal arteries. Proceedings of the first international meeting on fetal and neonatal color flow mapping, May 1988, Dubrovnik. pp 136-142
Peeters ELH, Sheldon RE, Jones MD Jr, Makowski EL, Meschia G (1979) Blood flow to fetal fetal organs as a function of arterial oxygen content. Am J Obstet Gynecol 135:637-646
Robillard JE, Weitzman RE, Burmeister L, Smith FG Jr (1981) Developmental aspects of the renal response to hypoxemia in the lamb fetus. Circ Res 48:128-137
Soothill PW, Nicolaides KH, Campbell S (1987) Prenatal asphyxia, hyperlacticemia, hypoglycemia and erythroblastosis in growth-retarded fetuses. Br Med J 1:1051-1053
Chiara A, Chirico G, Comelli L (1990) Increased renal echogenicity in the neonate. Early Hum Dev 22:29-37
Suranyi A, Pal A, Streitman K, Pinter S, Kovacs L (1997) Fetal renal hyperechogenicity in pathological pregnancies. J Perinat Med 25:274-279
Norris CS, Barnes RW (1984) Renal artery flow velocity analysis, a sensitive measure of experimental and clinical renovascular resistance. J Surg Res 36:230-236
Avni EF, Spehl-Robberecht M, Lebrun D, Gomes H, Garel L (1983) Transient acute tubular disease in the newborn: characteristic ultrasound pattern. Ann Radiol (Paris) 26:175-182
Avni EF, Van Sinoy ML, Hall M, Stallenberg B, Matos C (1989) Hypothesis: reduced renal mass with glomerular hyperfiltration, a cause of renal hyperechogenicity in children. Pediatr Radiol 19:108-110
Nayir A, Kadioglu A, Sirin A, Emre S, Tonguc E, Bilge I (1995) Causes of increased renal medullary echogenicity in Turkish children. Pediatr Nephrol 9:729-733
Korantzis A, Cardamakis E, Apostolidis C (1993) Prenatal diagnosis of fetal urinary pathology with ultrasound. Eur J Obstet Gynecol Reprod Biol 52:169-174
Reinhart HH, Spencer JR, Zaki NZ, Sobel ID(1992) Quantitation of urinary Tamm-Horsfall protein in children with urinary tract infection. Eur Urol 22:194-199
Brenner MH, Meyer TW, Hostetter TH(1982) Dietary protein intake and the progressive nature of kidney disease. N Engl J Med 307:652-659
Patel R, Mckenzie JK, McQueen EG(1964) Tamm-Horsfall urinary mucoprotein and tubular obstruction by casts in acute renal failure. Lancet 1:457-461
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