Preeclampsia is often preceded by abnormal hemodynamic changes with heterogeneous patterns in the first half of pregnancy. We assessed the effect of timely tailored correction of nonphysiological hemodynamic changes on preventing preeclampsia in a high-risk population. Primiparous women with a history of preeclampsia were invited to participate in a longitudinal program in their next pregnancy, including repeated hemodynamic assessments at 12-, 16-, 20- and 30-week gestation additional to regular pregnancy checkups. When at least 2 of the hemodynamic variables were not within physiological reference values, the hemodynamic imbalance between cardiac output and peripheral vascular resistance was counteracted with either labetalol, methyldopa, or nifedipine using a simple treatment algorithm. Normogram-guided women (n=157) were matched to 157 women receiving care as usual (power, 80%; α=0.05). Risk of recurrent preeclampsia was analyzed with logistic regression adjusted for daily low-dose aspirin or calcium supplementation. Hemodynamic changes were considered nonphysiological in 90% of women in the normogram-guided group. Twelve percent of these women developed recurrent preeclampsia compared with 22% in the care-as-usual group (adjusted odds ratio, 0.47 [95% CI, 0.25–0.88]). There were no differences between groups in gestational age at delivery (38 1 and 38 2 weeks in the normogram-guided and care-as-usual groups, respectively) and neonatal birth weight (3148 and 3180 g in the normogram-guided and care-as-usual groups, respectively). Tailored circulatory normalization of nonphysiological hemodynamic changes during pregnancy halves the risk of recurrent preeclampsia, without disadvantageous effects on offspring outcome. This simple and innovative treatment strategy may also be beneficial to other women at increased risk for preeclampsia in pregnancy. Registration: URL: https://www.clinicaltrials.gov ; Unique identifier: NCT04216706.
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Background: Gestational diabetes mellitus (GDM) is a pregnancy complication characterized by second trimester hyperglycemia. Untreated, GDM is related to an increased risk for adverse pregnancy outcomes. Both beta cell dysfunction and insulin resistance underlie impaired glucose tolerance. Understanding the dominant mechanism predisposing to GDM may be important to provide effective treatment in order to improve perinatal outcomes. We hypothesize that insulin resistance rather that beta cell dysfunction predisposes to GDM. Methods: A 75g oral glucose tolerance test (OGTT) was performed on 2112 second-trimester pregnant women to determine the relationship between insulin resistance (HOMA-IR), beta cell function (HOMA-β), and the prevalence of abnormal glucose handling. Results: High insulin resistance raised the risk of GDM (relative risk (RR) 6.1, 95% confidence interval (CI) (4.4–8.5)), as did beta cell dysfunction (RR 3.8, 95% CI (2.7–5.4)). High insulin resistance, but not beta cell function, enhances the necessity for additional glucose lowering medication on top of a low carbohydrate diet in women diagnosed with GDM. Conclusions: Both high insulin resistance and beta cell dysfunction increase the risk of GDM. As increased insulin resistance, rather than beta cell function, is related to an insufficient response to a low carbohydrate diet, we speculate that insulin sensitizers rather than insulin therapy may be the most targeted therapeutic modality in diet-insensitive GDM.
Background and Purpose Dynamic contrast‐enhanced MRI (DCE‐MRI) can be employed to assess the blood–brain barrier (BBB) integrity. Detection of BBB leakage at lower field strengths (≤3T) is cumbersome as the signal is noisy, while leakage can be subtle. Utilizing the increased signal‐to‐noise ratio at higher field strengths, we explored the application of 7T DCE‐MRI for assessing BBB leakage. Methods A dual‐time resolution DCE‐MRI method was implemented at 7T and a slow injection rate (0.3 ml/s) and low dose (3 mmol) served to obtain signal changes linearly related to the gadolinium concentration, that is, minimized for T2* degradation effects. With the Patlak graphical approach, the leakage rate (Ki) and blood plasma volume fraction (vp) were calculated. The method was evaluated in 10 controls, an ischemic stroke patient, and a patient with a transient ischemic attack. Results Ki and vp were significantly higher in gray matter compared to white matter of all participants. These Ki values were higher in both patients compared to the control subjects. Finally, for the lesion identified in the ischemic stroke patient, higher leakage values were observed compared to normal‐appearing tissue. Conclusion We demonstrate how a dual‐time resolution DCE‐MRI protocol at 7T, with administration of half the clinically used contrast agent dose, can be used for assessing subtle BBB leakage. Although the feasibility of DCE‐MRI for assessing the BBB integrity at 3T is well known, we showed that a continuous sampling DCE‐MRI method tailored for 7T is also capable of assessing leakage with a high sensitivity over a range of Ki values.
Objective Pre‐eclampsia is a hypertensive complication of pregnancy that is associated with an increased risk of long‐term cardiovascular and cerebrovascular disorders. Although the underlying mechanism of persistent susceptibility to cerebral complications after pre‐eclampsia remains largely unclear, impaired blood–brain barrier (BBB) integrity has been suggested to precede several cerebrovascular diseases. In this study, we aimed to investigate the integrity of the BBB years after pre‐eclampsia. Methods This was an observational study of premenopausal formerly pre‐eclamptic women and controls with a history of normotensive pregnancy who underwent cerebral magnetic resonance imaging (MRI) at ultra‐high field (7 Tesla) to assess the integrity of the BBB. Permeability of the BBB was determined by assessing leakage rate and fractional leakage volume of the contrast agent gadobutrol using dynamic contrast‐enhanced MRI. BBB leakage measures were determined for the whole brain and lobar white and gray matter. Multivariable analyses were performed, and odds ratios were calculated to compare women with and those without a history of pre‐eclampsia, adjusting for potential confounding effects of age, hypertension status at MRI and Fazekas score. Results Twenty‐two formerly pre‐eclamptic women (mean age, 37.8 ± 5.4 years) and 13 control women with a history of normotensive pregnancy (mean age, 40.8 ± 5.5 years) were included in the study. The time since the index pregnancy was 6.6 ± 3.2 years in the pre‐eclamptic group and 9.0 ± 3.7 years in controls. The leakage rate and fractional leakage volume were significantly higher in formerly pre‐eclamptic women than in controls in the global white (P = 0.001) and gray (P = 0.02) matter. Regionally, the frontal (P = 0.04) and parietal (P = 0.009) cortical gray matter, and the frontal (P = 0.001), temporal (P < 0.05) and occipital (P = 0.007) white matter showed higher leakage rates in formerly pre‐eclamptic women. The odds of a high leakage rate after pre‐eclampsia were generally higher in white‐matter regions than in gray‐matter regions. Conclusion This observational study demonstrates global impairment of the BBB years after a pre‐eclamptic pregnancy, which could be an early marker of long‐term cerebrovascular disorders. © 2022 The Authors. Ultrasound in Obstetrics & Gynecology published by John Wiley & Sons Ltd on behalf of International Society of Ultrasound in Obstetrics and Gynecology.
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