Book contents
- Placental–Fetal Growth Restriction
- Placental–Fetal Growth Restriction
- Copyright page
- Contents
- Contributors
- Foreword
- Preface
- Glossary and Commonly Used Abbreviations
- Section 1 Basic Principles
- Section 2 Maternal Cardiovascular Characteristics and the Placenta
- Chapter 8 Maternal Cardiovascular Function and Fetal Growth Restriction
- Chapter 9 Placental Histopathology Findings in Fetal Growth Restriction
- Chapter 10 Maternal Volume Homeostasis in Fetal Growth Restriction
- Section 3 Screening for Placental–Fetal Growth Restriction
- Section 4 Prophylaxis and Treatment
- Section 5 Characteristics of Fetal Growth Restriction
- Section 6 Management of Fetal Growth Restriction
- Section 7 Postnatal Aspects of Fetal Growth Restriction
- Index
- References
Chapter 10 - Maternal Volume Homeostasis in Fetal Growth Restriction
from Section 2 - Maternal Cardiovascular Characteristics and the Placenta
Published online by Cambridge University Press: 23 July 2018
Book contents
- Placental–Fetal Growth Restriction
- Placental–Fetal Growth Restriction
- Copyright page
- Contents
- Contributors
- Foreword
- Preface
- Glossary and Commonly Used Abbreviations
- Section 1 Basic Principles
- Section 2 Maternal Cardiovascular Characteristics and the Placenta
- Chapter 8 Maternal Cardiovascular Function and Fetal Growth Restriction
- Chapter 9 Placental Histopathology Findings in Fetal Growth Restriction
- Chapter 10 Maternal Volume Homeostasis in Fetal Growth Restriction
- Section 3 Screening for Placental–Fetal Growth Restriction
- Section 4 Prophylaxis and Treatment
- Section 5 Characteristics of Fetal Growth Restriction
- Section 6 Management of Fetal Growth Restriction
- Section 7 Postnatal Aspects of Fetal Growth Restriction
- Index
- References
Summary
A summary is not available for this content so a preview has been provided. Please use the Get access link above for information on how to access this content.
- Type
- Chapter
- Information
- Placental-Fetal Growth Restriction , pp. 85 - 93Publisher: Cambridge University PressPrint publication year: 2018
References
Welcker, H. Blutkorperzahlung und farbeprüfende Methode. Prag Vierteljahrschr prakt Heilk 1854;4:11–80.Google Scholar
Spiegelberg, O, Gescheidlen, H. Untersuchungen über die Blutmenge trächtiger Hunde. Arch Gynäk 1872;4:112–20.Google Scholar
Zuntz, L. Untersuchungen über die Gesamtblutmenge in der Gravidität und im Wochenbett. Zbl Gynäk 1911;35:1365–9.Google Scholar
Whittaker, PG, Lind, T. The intravascular mass of albumin during human pregnancy: A serial study in normal and diabetic women. BJOG 1993;100:587–92.Google Scholar
Salas, SP, Marshall, G, Gutiérrez, BL, Rosso, P. Time course of maternal plasma volume and hormonal changes in women with preeclampsia or fetal growth restriction. Hypertension 2006;47:203–8.CrossRefGoogle ScholarPubMed
Caton, WL, Roby, CC, Reid, DE, Caswell, R, Maletskos, CJ, Fluharty, RG, Gibson, JG, 2nd. The circulating red cell volume and body hematocrit in normal pregnancy and the puerperium by direct measurement using radioactive red cells. Am J Obstet Gynecol 1951;61:1207–17.CrossRefGoogle ScholarPubMed
Jones, JG, Wardrop, CAJ. Measurement of blood volume in surgical and intensive care practice. Br J Anaesth 2000;84:224–35.Google Scholar
Smith, RW, Yarbrough, CJ. Plasma volume prediction in normal pregnancy. Am J Obstet Gynecol 1967;99:18–20.CrossRefGoogle ScholarPubMed
Chesley, LC. Plasma and red cell volumes during pregnancy. Am J Obstet Gynecol 1972;112:440–50.CrossRefGoogle ScholarPubMed
Hytten, FE, Paintin, DB. Increase in plasma volume during normal pregnancy. J Obstet Gynaecol Br Commonw 1963;70:402–7.Google Scholar
Pirani, BBK, Campbell, DM. Plasma volume in normal first pregnancy. J Obstet Gynaecol Br Commonw 1973;80:884–7.Google Scholar
Bernstein, IM, Ziegler, W, Badger, GJ. Plasma volume expansion in early pregnancy. Obstet Gynecol 2001; 97 (5 Pt 1):669–72.Google ScholarPubMed
Campbell, DM, MacGillivray, I. Comparison of maternal response in first and second pregnancies in relation to baby weight. J Obstet Gynaecol Br Commonw 1972;79:684–93.Google Scholar
Letzky, E. The haematological system. In Clinical Physiology in Obstetrics. Blackwell Scientific Publications, London, 1991, page 41.Google Scholar
Duvekot, JJ. Early pregnancy changes in hemodynamics and volume homeostasis are consecutive adjustments triggered by a primary fall in systemic vascular tone. Am J Obstet Gynecol 1993; 169:1382–92.Google Scholar
Conrad, KP, Davison, JM. The renal circulation in normal pregnancy and preeclampsia: Is there a place for relaxin? Am J Physiol Renal Physiol 2014;306:F1121–35.Google Scholar
Davison, JM, Vallotton, MB, Lindheimer, MD. Plasma osmolality and urinary concentration and dilution during and after pregnancy: Evidence that lateral recumbency inhibits maximal urinary concentrating ability. BJOG 1981;88:472–9.Google Scholar
Chapman, AB, Abraham, WT, Zamudio, S, Coffin, C, Merouani, A, Young, D, Johnson, A, Osorio, F, Goldberg, C, Moore, LG, Dahms, T, Schrier, RW. Temporal relationships between hormonal and hemodynamic changes in early human pregnancy. Kidney Int 1998;54:2056–63.Google Scholar
Fortney, SM, Turner, C, Steinmann, RN, Driscoll, CNMT, Alfrey, C. Blood volume responses of men and women to bed rest. J Clin Pharmacol 1994;34:434–9.Google Scholar
Donckers, J, Scholten, RR, Oyen, WJG, Hopman, MTE, Lotgering, FK, Spaanderman, MEA. Unexplained first trimester recurrent pregnancy loss and low venous reserves. Human Reprod 2012;27:2613–18.Google Scholar
Spaanderman, ME, Willekes, C, Hoeks, AP, Ekhart, TH, Aardenburg, R, Courtar, DA, Van Eijndhoven, HW, Peeters, LL. Maternal nonpregnant vascular function correlates with subsequent fetal growth. Am J Obstet Gynecol 2005;192:504–12.Google Scholar
Spaanderman, ME, Van Beek, E, Ekhart, TH, Van Eyck, J, Cheriex, EC, De Leeuw, PW, Peeters, LL. Changes in hemodynamic parameters and volume homeostasis with the menstrual cycle among women with a history of preeclampsia. Am J Obstet Gynecol 2000;182:1127–34.Google Scholar
Scholten, RR, Sep, S, Peeters, L, Hopman, MT, Lotgering, FK, Spaanderman, ME. Prepregnancy low-plasma volume and predisposition to preeclampsia and fetal growth restriction. Obstet Gynecol 2011;117:1085–93.Google Scholar
Gibson, HM. Plasma volume and glomerular filtration rate in pregnancy and their relation to differences in fetal growth. J Obstet Gynaecol Br Commonw 1973;80:1067–74.CrossRefGoogle ScholarPubMed
Sibai, BM, Abdella, TN, Anderson, GD, McCubbin, JH. Plasma volume determination in pregnancies complicated by chronic hypertension and intrauterine fetal demise. Obstet Gynecol 1982;60:174–8.Google Scholar
Duvekot, JJ, Cheriex, EC, Pieters, FA, Menheere, PP, Schouten, HJ, Peeters, LL. Maternal volume homeostasis in early pregnancy in relation to fetal growth restriction. Obstet Gynecol 1995;85:361–7.Google Scholar
Scanlon, KS, Ray, YIP, Schieve, LA, Cogswell, ME. High and low hemoglobin levels during pregnancy: Differential risks for preterm birth and small for gestational age. Obstet Gynecol 2000;96:741–8.Google Scholar
Kozuki, N, Lee, AC, Katz, J; Child Health Epidemiology Reference Group. Moderate to severe, but not mild, maternal anemia is associated with increased risk of small-for-gestational-age outcomes. J Nutr 2012;142:358–62.Google Scholar
Dunn, A, Donnelly, S. The role of the kidney in blood volume regulation: The kidney as a regulator of the hematocrit. Am J Med Sci 2007;334:65–71.Google Scholar
Davison, JM, Noble, MC. Serial changes in 24 hour creatinine clearance during normal menstrual cycles and the first trimester of pregnancy. BJOG 1981;88:10–17.Google Scholar
Williams, D, Davison, J. Chronic kidney disease in pregnancy. BMJ 2008;336:211–15.CrossRefGoogle ScholarPubMed