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Renal Blood Flow in Twins

Published online by Cambridge University Press:  01 August 2014

M. K. Kornacka*
Affiliation:
Chair and Neonatal Department, University School of Medical Sciences Poznań
E. Burzyńska
Affiliation:
Chair and Neonatal Department, University School of Medical Sciences Poznań
J. Gadzinowski
Affiliation:
Head of Neonatal Department, Poznań, Poland
*
University School of Medical Sciences, Polna 33, 60535 Pznań, Poland e-mail: [email protected]

Abstract

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The aim of this preliminary study was the estimation of renal blood flow in 16 premature newborns from twin pregnancies with mean body weight 1270 g and mean gestational age 29 weeks.

In control group we have 16 singleton newborns with mean gestational age 29 weeks and mean birth weight 1240 g. In both intervention and control group we have the similar clinical symptoms. The renal blood flow was carried out in the first day of life with the Acuson 128 XP Colour Doppler using the 6 and 7 MHz linear transducer. The renal blood flow parameters-PI, RI, Vmax, Vmin Vmean were measured in right and left renal arteries in theirs courses from the aorta to the renal hilus, by color sinal. In the investigation group the mean value of RI in right and left renal artery was 0,88. Mean PI in right vessel was 1,67 and in left 1,56. Mean V min in right and in left artery was 0,03 and mean V max in right artery was 0,34 and in left 0,33. Mean value of mean velocity in right vessels was 0,18 and in left 0,19.

In control group we observed in right artery mean value of PI 1,74 and in left 1,6. Mean RI was 0,86 and 0,86 in right vessel in left vessel. Mean V min was 0,05 in right and 0,04 in left artery. Mean V max was 0,37 in right and 0,34 in left artery. Mean value of V mean was 0,19 in right artery and 0,18 in left artery.

Using the student, Mann-Whitney and Shapiro-Wilk tests we have not observed statistically significant difference of Doppler parameters between control and investigation group and between the left and right artery. Although in newborns with broad PDA we noted significant higher value of RI (0,97, 0,98) than in newborns without PDA (0,78, 0,81).

Type
Research Article
Copyright
Copyright © The International Society for Twin Studies 1998

References

REFERENCES

1. Bomelburg, T, Jorch, G (1988): Investigations of renal artery blood flow velocity in preterm and term neonates by pulsed Doppler ultrasonography. Eur J Pediatr 147: 283287.Google Scholar
2. Guignard, JP, Semama, D, John, E, Huet, F (1993): Acute renal failure. Critical Care Medicine 21: 349351.Google Scholar
3. Huet, F, Semama, D, Grimaldi, M, Guignard, JP, Gouyon, JB, (1995): Effect of theophylline on renal insufficiency in neonates with respiratory distress syndrome. Intensive Care Med 21: 511514.CrossRefGoogle ScholarPubMed
4. Kempley, ST, Gamsu, HR, Nicolaides, KH (1993): Renal artery blood flow velocity in very low birth weight infants with intrauterine growth retardation. Arch Dis Child 168: 588590.Google Scholar
5. Mari, G, Abuhamad, AZ, Keller, M, Verpairojkit, B, Ment, L, Copel, JA (1996): Is the fetal brain-sparing effect a risk factor for the development of intraventricular hemorrhage in the preterm infant? Ultrasound Obstst Gynecol 8: (5) 329332.Google Scholar
6. Patriquin, H (1991): Doppler Examination of the kidney in infants and children. Urol Radiol 12: 220227.Google Scholar
7. Scholbach, TH (1996): Doppler studies in normal kidneys of healthy children. Pediatr Nephrol 10: 156159.Google Scholar
8. Van, de Bor (1995): Renal blood flow velocity in non-distressed preterm infants during the first 72 hours of life. Biol Neonate 67: 346351.Google Scholar