Non-postural serial changes in renal function during the third trimester of normal human pregnancy

Gestation-Specific Changes in the Anatomy and Physiology of Healthy Pregnant Women: An Extended Repository of Model Parameters for Physiologically Based Pharmacokinetic Modeling in Pregnancy

BACKGROUND

In the past years, several repositories for anatomical and physiological parameters required for physiologically based pharmacokinetic modeling in pregnant women have been published. While providing a good basis, some important aspects can be further detailed. For example, they did not account for the variability associated with parameters or were lacking key parameters necessary for developing more detailed mechanistic pregnancy physiologically based pharmacokinetic models, such as the composition of pregnancy-specific tissues.

OBJECTIVES

The aim of this meta-analysis was to provide an updated and extended database of anatomical and physiological parameters in healthy pregnant women that also accounts for changes in the variability of a parameter throughout gestation and for the composition of pregnancy-specific tissues.

METHODS

A systematic literature search was carried out to collect study data on pregnancy-related changes of anatomical and physiological parameters. For each parameter, a set of mathematical functions was fitted to the data and to the standard deviation observed among the data. The best performing functions were selected based on numerical and visual diagnostics as well as based on physiological plausibility.

RESULTS

The literature search yielded 473 studies, 302 of which met the criteria to be further analyzed and compiled in a database. In total, the database encompassed 7729 data. Although the availability of quantitative data for some parameters remained limited, mathematical functions could be generated for many important parameters. Gaps were filled based on qualitative knowledge and based on physiologically plausible assumptions.

CONCLUSION

The presented results facilitate the integration of pregnancy-dependent changes in anatomy and physiology into mechanistic population physiologically based pharmacokinetic models. Such models can ultimately provide a valuable tool to investigate the pharmacokinetics during pregnancy in silico and support informed decision making regarding optimal dosing regimens in this vulnerable special population.

A computational model of 1,5-AG dynamics during pregnancy

The importance of 1,5‐anhydroglucitol (1,5‐AG) as an intermediate biomarker for diabetic pregnancy is multi‐fold: (1) it serves as a reliable indicator of moderate‐level glycemic control, especially during early gestation; (2) it has been associated with increased risk of diabetes, independent of HbA1c and fasting glucose; and (3) it is an independent risk factor for the development of eclampsia during pregnancy. However, the clinical use of this biomarker during pregnancy has been underutilized due to physiological changes in glomerular filtration rate, plasma volume, and other hemodynamic parameters which have been hypothesized to bias gestational serum 1,5‐AG concentrations. Here, we develop an in‐silico model of gestational 1,5‐AG by combining pre‐existing physiological data in the literature with a two‐compartment mathematical model, building off of a previous kinetic model described by Stickle and Turk (1997) Am. J. Physiol., 273, E821. Our model quantitatively characterizes how renal and hemodynamic factors impact measured 1,5‐AG during normal pregnancy and during pregnancy with gestational diabetes and diabetes mellitus. During both normal and diabetic pregnancy, we find that a simple two‐compartment model of 1,5‐AG kinetics, with all parameters but reabsorption fraction adjusted for time in pregnancy, efficiently models 1,5‐AG kinetics throughout the first two trimesters. Allowing reabsorption fraction to decrease after 25 weeks permits parameters closer to expected physiological values during the last trimester. Our quantitative model of 1,5‐AG confirms the involvement of hypothesized renal and hemodynamic mechanisms during pregnancy, clarifying the expected trends in 1,5‐AG to aid clinical interpretation. Further research and data may elucidate biological changes during the third trimester that account for the drop in 1,5‐AG concentrations, and clarify physiological differences between diabetes subtypes during pregnancy.

Correlation of cystatin-C with glomerular filtration rate by inulin clearance in pregnancy

OBJECTIVE

To test utility of cystatin-C as a marker of glomerular filtration rate during pregnancy, we performed serial correlations with inulin clearance during pregnancy and postpartum.

METHODS

Twelve subjects received inulin infusions and serum cystatin-C at three time points. Pearson's correlation coefficient was calculated.

RESULTS

Cystatin-C levels ranged 0.66-1.48 mg/L during pregnancy, and 0.72-1.26 mg/L postpartum. Inulin clearance ranged 130-188 mL/min during pregnancy, and 110-167 mL/min postpartum. Cystatin-C did not correlate with inulin clearance at any time point.

CONCLUSION

Serum cystatin-C did not correlate with inulin clearance during pregnancy or postpartum.

The kidney in normal pregnancy and preeclampsia

Complicating up to 8% of pregnancies, preeclampsia is, in fact, the most common glomerular disease worldwide. In this article, we review the effect of normal pregnancy on the kidney as well as the role of the kidney in preeclampsia. We discuss blood pressure in pregnancy and preeclampsia, followed by the physiology of hyperfiltration in normal pregnancy as well as the pathophysiology of hypofiltration and proteinuria in preeclampsia. Recent studies have suggested that the clinical syndrome of preeclampsia, which recovers rapidly after delivery of the placenta, is caused by impaired vascular endothelial growth factor signaling that disturbs the status of vascular dilatation as well as the symbiosis between the glomerular endothelium and the podocytes. Finally, we discuss the intriguing association between chronic kidney disease (CKD) and preeclampsia. We hypothesize that the imbalance between angiogenic and anti-angiogenic factors, which may be common to both preeclampsia and CKD, might explain why CKD predisposes pregnant women to develop preeclampsia.

A comparison of prediction equations for estimating glomerular filtration rate in pregnancy

OBJECTIVE

To compare existing glomerular filtration rate (GFR) prediction equations with the gold standard, inulin clearance, in pregnancy.

METHODS

Five equations were assessed for precision, bias, and accuracy in prediction of true GFR, measured by inulin clearance in 12 healthy, pregnant women during the second (T2) and third (T3) trimesters and in postpartum (PP).

RESULTS

Precision was greatest with 24-hour creatinine clearance estimation of GFR (R(2) = 13% (T2), R(2) = 26% (T3)). Other than 100/SCr, all equations underestimated true GFR. 30% accuracy was greatest in 100/SCr (83% (T2), 92% (T3)).

CONCLUSIONS

Current GFR prediction formulae do not appear to be sufficient for estimating GFR in the gravid state.

Re-evaluation of plasma creatinine concentration in normal pregnancy

Renal function improves during pregnancy, a well-known clinical manifestation of this being a fall in plasma creatinine concentration. However, there are no secure data upon which to determine the extent to which creatinine concentration changes during pregnancy. A well-defined reference range is important for the correct interpretation of results, but to date one has not been published. This study uses a large cohort of women experiencing normal pregnancy, modern laboratory technique and robust statistical analysis to construct a cross-sectional reference interval. This study shows that the upper limit of normal for creatinine in pregnancy is higher than previously suggested, although still much lower than outside pregnancy. Values for the upper limit of normal can be taken as 85 micromol/l, 80 micromol/l and 90 micromol/l in the first, second and third trimesters of pregnancy respectively. This information is important for the clinical assessment of a result from a pregnant woman, particularly in conditions such as pre-eclampsia where abnormalities of renal function may occur.

Cyclical changes in endogenous overnight creatinine clearance during the third trimester of pregnancy

To investigate the pattern of change in endogenous overnight creatinine clearance during the third trimester, 12 healthy women with uncomplicated pregnancies were examined three times a week. Urine was collected overnight from 22.00 to 08.00 hours and analysed for creatinine. Serum was sampled in the morning and analysed for creatinine, beta 2-microglobulin, progesterone and estradiol. The general trend of creatinine clearance was parabolic with a declining level during the last month before term. A sinusoid pattern with minimum values around the time when the women would have had menstruation had they not become pregnant was superimposed on the parabolic trend. A mathematical model (parabolas overlaid with a cosine curve) was constructed and fitted to the data. The cyclical pattern was significant. Serum creatinine showed a pattern with increasing values during the last 4-6 weeks before term and cyclical changes which were also significant. In the individual case the monthly and preterm clearance decrement sometimes was over 50%. Monthly and preterm decreases in creatinine clearance may be quite normal and serial measurements of creatinine clearance are therefore necessary to determine if declining values indicate pathological falls in the glomerular filtration rate.

The dynamics of glomerular filtration in the puerperium

We evaluated the glomerular filtration rate (GFR) during the second postpartum week in 22 healthy women who had completed an uncomplicated pregnancy. We used physiological techniques to measure GFR, renal plasma flow, and oncotic pressure and computed a value for the two-kidney ultrafiltration coefficient (K(f)). We compared these findings with those in pregnant women previously studied on the first postpartum day as well as nongravid women of reproductive age. Healthy female transplant donors of reproductive age permitted the morphometric analysis of glomeruli and computation of the single-nephron K(f). The aforementioned physiological and morphometric measurements were utilized to estimate transcapillary hydraulic pressure (Delta P) from a mathematical model of glomerular ultrafiltration. We conclude that postpartum day 1 is associated with marked glomerular hyperfiltration (+41%). A theoretical analysis of GFR determinants suggests that depression of glomerular capillary oncotic pressure, the force opposing the formation of filtrate, is the predominant determinant of early elevation of postpartum GFR. A reversal of the gestational hypervolemia and hemodilution, still evident on postpartum day 1, eventuates by postpartum week 2. An elevation of oncotic pressure in the plasma that flows axially along the glomerular capillaries to supernormal levels ensues; however, GFR remains modestly elevated (+20%) above nongravid levels. An analysis of filtration dynamics at this time suggests that a significant increase in Delta P by up to 16%, an approximately 50% increase in K(f), or a combination of smaller increments in both must be invoked to account for the persistent hyperfiltration.

Renal disease in pregnancy

Anatomic and physiologic adaptations within the renal system during pregnancy are significant. Alterations are seen in renal blood flow and glomerular filtration, resulting in changes in normal renal laboratory values. When these normal renal adaptations are coupled with pregnancy-induced complications or preexisting renal dysfunction, the woman may demonstrate a reduction of renal function leading to an increased risk of perinatal morbidity and mortality. This article will review normal pregnancy adaptations of the renal system and discuss common pregnancy-related renal complications.

Renal handling of endogenous human chorionic gonadotrophin in preeclampsia

OBJECTIVE

To test the hypothesis that the elevated maternal serum concentration of human chorionic gonadotrophin (hCG) in preeclampsia is due to altered renal handling of the hormone.

SETTING

Department of Obstetrics and Gynecology, Al Ain Hospital, United Arab Emirates, a tertiary center affiliated with the Faculty of Medicine and Health Sciences, UAE University.

METHODS

The renal clearances and handling of endogenous creatinine and human chorionic gonadotrophin were compared in 14 normotensive volunteer and 14 preeclamptic mothers who received oral hydration at 34-37 weeks' gestation. The hCG content in the placentas was estimated immunohistochemically after delivery.

RESULTS

Maternal serum concentration of hCG (p = 0.0057), the placental hCG immunopositive cell (p < 0.0001), and syncytial knot counts (p < 0.0001) were significantly higher in preeclamptic mothers. The renal clearances of endogenous creatinine and hCG and fractional hCG clearance were not significantly different in both groups. Significantly increased amounts of hCG were filtered (p = 0.007) and excreted (p = 0.007) by preeclamptic mothers. Only a small but fixed proportion of the filtered load of hCG is excreted in both groups and there was a positive correlation (r = 0.5, p = 0.005) between filtered and excreted loads of hCG.

CONCLUSION

The results indicate increased placental content of hCG in preeclampsia. The resultant increased maternal serum concentration is probably sustained by the mechanism of renal handling of the hormone.

The dynamics of glomerular filtration after Caesarean section

The objective of this study was to determine whether the glomerular hyperfiltration of pregnancy is maintained even after Caesarean section and, if so, to define the responsible hemodynamics. The dynamics of glomerular filtration were evaluated in 12 healthy women who had just completed an uncomplicated pregnancy and were delivered by Caesarean section. Age-matched but non-gravid female volunteers (n = 22) served as control subjects. GFR in postpartum women was elevated above control values by 41%; 149+/-10 versus 106+/-3 ml/min per 1.73 m2, respectively (P < 0.001). In contrast, corresponding renal plasma flow was the same in the two groups, such that the postpartum filtration fraction was significantly elevated by 20%. Computation of glomerular intracapillary oncotic pressure (piGC) from knowledge of plasma oncotic pressure and the filtration fraction revealed this quantity to be significantly reduced in postpartum women, 20.6+/-1.7 versus 26.1+/-2.0 mmHg in control subjects (P < 0.001). A theoretical analysis of glomerular ultrafiltration suggests that depression of piGC, the force opposing the formation of filtrate, is predominantly or uniquely responsible for the observed postpartum hyperfiltration.

Nature of glomerular dysfunction in pre-eclampsia

BACKGROUND

Pre-eclampsia is characterized by hypertension, proteinuria and edema. Simultaneous studies of kidney function and structure have not been reported. We wished to explore the degree and nature of glomerular dysfunction in pre-eclampsia.

METHODS

Physiologic techniques were used to estimate glomerular filtration rate (GFR), renal plasma flow and afferent oncotic pressure immediately after delivery in consecutive patients with pre-eclampsia (PET; N = 13). Healthy mothers completing an uncomplicated pregnancy served as functional controls (N = 12). A morphometric analysis of glomeruli obtained by biopsy and mathematical modeling were used to estimate the glomerular ultrafiltration coefficient (Kf). Glomeruli from healthy female kidney transplant donors served as structural controls (N = 8).

RESULTS

The GFR in PET was depressed below the control level, 91 +/- 23 versus 149 +/- 34 ml/min/1.73 m2, respectively (P < 0.0001). In contrast, renal plasma flow and oncotic pressure were similar in the two groups (P = NS). A reduction in the density and size of endothelial fenestrae and subendothelial accumulation of fibrinoid deposits lowered glomerular hydraulic permeability in PET compared to controls, 1.81 versus 2.58 x 10(-9) m/sec/PA. Mesangial cell interposition also curtailed effective filtration surface area. Together, these changes lowered the computed single nephron Kf in PET below control, 4.26 versus 6.78 nl/min x mm Hg, respectively.

CONCLUSION

The proportionate (approximately 40%) depression of Kf for single nephrons and GFR suggests that hypofiltration in PET does not have a hemodynamic basis, but is a consequence of structural changes that lead to impairment of intrinsic glomerular ultrafiltration capacity.

Estrogen acutely increases peripheral blood flow in postmenopausal women

PURPOSE

To test the acute effect of estrogen on peripheral blood flow and vascular resistance in postmenopausal women.

PATIENTS AND METHODS

Eleven normotensive, post-menopausal female volunteers (mean age 53 +/- 6 years) were studied. Six women were in natural menopause and 5 had had a hysterectomy (mean age of the menopause 49 +/- 3 years). We used a double-blind, randomized protocol to assess the acute response to sublingual estradiol-17 beta (1 mg) on the forearm resistance vessels, compared with sublingual placebo. Blood flow was measured by strain-gauge plethysmography, and mean peripheral vascular resistance was then calculated. Mean blood pressure was also measured.

RESULTS

The mean blood flow induced by estradiol-17 beta after 40 minutes was significantly greater than that induced by placebo (3.9 +/- 0.5 mL/100 mL per minute versus 2.4 +/- 0.4 mL/100 mL per minute, respectively, P < 0.05). The forearm resistance was significantly reduced at 40 minutes after estradiol-17 beta compared with placebo (25.7 +/- 4.4 resistance units (RU) to 44.4 +/- 6.4 RU, respectively, P < 0.05). Mean blood pressure 40 minutes after the administration of estradiol-17 beta was no different when compared with placebo (91 +/- 1.5 mm Hg versus 90 +/- 2.5 mm Hg, respectively, P = NS).

CONCLUSIONS

These results indicate that the acute administration of estradiol-17 beta affects blood flow in the peripheral vasculature in human subjects. The mechanism of this effect has not been determined, but it may explain some of the beneficial effects of estrogen on the vascular system and have future therapeutic potential in postmenopausal women.

Renal tubular function in the gravid rat

Pregnancy in the rat is accompanied by enhanced reabsorption of salt and water throughout most, if not all, of the gestational period. Many mechanisms have been suggested but definitive answers are still awaited. The major area of controversy centres around the detection of changes at term. There is general agreement that, at least in mid-gestation, the increase in reabsorption can be attributed to increases in the proximal tubules, the loop of Henle and the collecting duct. The contribution of the proximal tubule to the increased reabsorption at term is still uncertain. Enhanced salt and water reabsorption is demonstrated in distal nephron segments irrespective of the stage of gestation. Micropuncture and microperfusion experiments have identified increased reabsorption of water, sodium and chloride in the loop of Henle, but it appears that there is net addition of glucose, urea and potassium to the tubular fluid in this segment which, at least for potassium and glucose, offsets to some extent increased reabsorption by the proximal tubule. Altered renal handling of other solutes (uric acid, calcium and magnesium) also occurs throughout pregnancy but the mechanisms responsible and nephron sites involved remain to be investigated. Attempts to attribute altered reabsorption to direct renal effects of changes in maternal hormones are inconclusive. Prolactin mimics some of the pregnancy-associated increases in reabsorption following chronic administration to male and non-pregnant female rats. These effects might be due to a direct renal action of the hormone or even to the volume expansion following its dipsogenic action.

Renal haemodynamics and tubular function in human pregnancy

In human pregnancy, effective renal plasma flow and glomerular filtration rate increase to levels 50-80% above non-pregnant values. The increments occur shortly after conception, persist throughout the second trimester and reduce slightly in late pregnancy. The hyperfiltration of pregnancy does not seem to be a potentially damaging process, as intraglomerular pressure remains unchanged. The increased excretion of glucose and other nutrients, as well as uric acid and protein, is related in part to altered tubular function. Renal physiology is altered so much in pregnancy that non-pregnant norms cannot be used in antenatal care.

Renal tubular function in the gravid rat

Pregnancy in the rat is accompanied by enhanced reabsorption of salt and water throughout most, if not all, of the gestational period. Many mechanisms have been suggested but definitive answers are still awaited. The major area of controversy centres around the detection of changes at term. There is general agreement that, at least in mid-gestation, the increase in reabsorption can be attributed to increases in the proximal tubules, the loop of Henle and collecting duct. The contribution of the proximal tubule to the increased reabsorption at term is still uncertain. Enhanced salt and water reabsorption is demonstrated in distal nephron segments irrespective of the stage of gestation. Micropuncture and microperfusion experiments have identified increased reabsorption of water, sodium and chloride in the loop of Henle, but it appears that there is net addition of glucose, urea and potassium to the tubular fluid in this segment which, at least for potassium and glucose, offsets to some extent increased reabsorption by the proximal tubule. Altered renal handling of other solutes (uric acid, calcium and magnesium) also occurs throughout pregnancy but the mechanisms responsible and nephron sites involved remain to be investigated. Attempts to attribute altered reabsorption to direct renal effects of changes in maternal hormones are inconclusive. Prolactin mimics some of the pregnancy-associated increases in reabsorption following chronic administration to male and non-pregnant female rats. These effects might be due to a direct renal action of the hormone or even to the volume expansion following its dipsogenic action.

Renal haemodynamics and tubular function in human pregnancy

In human pregnancy, effective renal plasma flow and glomerular filtration rate increase to levels 50-80% above non-pregnant values. The increments occur shortly after conception, persist throughout the second trimester and reduce slightly in late pregnancy. The hyperfiltration of pregnancy does not seem to be a potentially damaging process. The increased excretion of glucose and other nutrients, as well as uric acid and protein, is related in part to altered tubular function. Renal physiology is altered so much in pregnancy that non-pregnant norms cannot be used in antenatal care.

Plasma urate, urea and creatinine levels during pregnancy and after the puerperium in normal primigravid Nigerians

Plasma concentrations of urea, uric acid and creatinine were measured in 55 normal primigravid Nigerians during pregnancy and 6 weeks after delivery. Plasma urate concentrations were lowest in early pregnancy and increased with advancing gestation, achieving the highest values in the postnatal period. These findings are similar to those reported for European women. Plasma urea rose during the second trimester, fell in the third to almost first trimester levels and rose again in the postnatal period. Plasma creatinine generally followed the same pattern as urea. It is suggested that these changes are a reflection of fluid distribution rather than a change in urea and creatinine production. An improved nutritional status may explain the urea values which are higher than previously reported in African women.