Magnesium Sulfate Effect on Fetal Umbilical Artery and Middle Cerebral Artery Doppler Indicies in Women with Severe Preeclampsia and Eclampsia ()
1. Introduction
Preeclampsia is diagnosed when the systolic blood pressure is ≥140 mmHg or diastolic blood pressure is ≥90 mmHg associated proteinuria ≥ 300 mg in 24 hour urine and diagnosed 20 weeks of gestation and it is usually recognized as a systemic disorder resolving with delivery or soon thereafter [1].
PET and eclampsia are among the most important diseases of pregnancy causing maternal morbidity and mortality associated with high vascular resistance due to vascular spasm with impaired placental blood flow [2].
Preeclampsia complicates 3% - 5% of all pregnancies, but approximately 7% of those in nulliparas, it remains a major disease causing of maternal morbidity and mortality [3] [4] [5].
This disease can cause many fetal and maternal complications [6] [7] [8] [9].
MgSO4 is the best drug used in treatment of severe PET and eclampsia and prevent maternal and fetal complications [10] [11]. Effect of MgSO4 on the brain vascular blood flow is still unclear as it may reduce the vasospasm [12] [13] [14] [15].
The MgSO4 changes vascular permeability and reduces the edema [10]. It seems to have no adverse effects on the fetus [16], but in response to MgSO4 injection, fetal brain perfusion may be also altered [17].
Doppler ultrasound is the best mood to study the mechanisms by which PET affects the fetal circulation [18] [19]. Arterial changes evaluated with Doppler ultrasound can show how the fetus is heamodynamically adapted the changes in PET [20] [21].
Increase in UA PI is associated with decreased fetal perfusion. If the situation continues, MCA RI will decrease [22].
In PET, usually we measure the UA doppler changes but recent studies showed that measuring also MCA Doppler changes is adding more beneficial information about fetal wellbeing state [23] [24] [25]. With using the C/U ratio (cerebroumblical ratio) is superior in detecting fetal circulation changes and so prognosis [25] [26] [27] [28]. MgSO4 effect on the fetal adaptive changes in PET is one of the most important research issues [29].
Aim of the Work: To study MgSO4 effect on fetal MCA and UA blood flow changes using Doppler ultrasound in cases of severe PET and eclampsia.
2. Material and Methods
In this study, all the participants were evaluated before and after MgSO4 administration. This study was approved by the ethics committee of the Faculty of Medicine University of Alexandria.
Pregnant cases with sever PET and eclamptic fits who attended to El-Shatby Maternity University Hospital during the period between December 2019 and December 2020 were involved in the study. Inclusion criteria were: Age in the range of 18 - 40 years, Singleton pregnancy, Any gravidity or parity, Gestational age equal to or above 28 weeks, Systolic blood pressure ≥ 160 mmHg or diastolic pressure ≥ 110 mmHg on two occasion six hours or more apart on bed rest, Preeclampsia with new onset grand seizures [30], Spontaneous pregnancy and One or more of the following [30] [31] [32] [33]: (Proteinuria of 24 hour urine of at least 5 g of protein or 3+ or more on two random samples collected four or more hours apart, Sudden oliguria. Central nervous system disturbances, Pulmonary edema or cyanosis, Epigastric or right upper quadrant pain, Liver dysfunction (increase serum levels of SGOT and SGPT), Thrombocytopenia < 100,000/cmm, Fetal growth restriction calculated by Hadlock formula [34]. Exclusion Criteria were: Cases with other systemic disease (e.g., diabetes, hypertension, and autoimmune disorders), multiple pregnancy, Fetuses with congenital anomaly, History of taking opium, smoking and twin pregnancy.
The goal of the study and the method were described to all patients and written consent form was taken prior to the initiation of study.
After admission of the patient, the following was done:
1) Complete history taking.
2) General and local examination.
3) Color Doppler ultrasound of fetal UA and MCA, the cerebro-umbilical ratio (middle cerebral artery resistance index/umbilical artery resistance index), pulsatility index (PI) and S/D ratio will were evaluated.
4) After initial assessment, the obstetrician gives the loading and maintenance dose of MgSO4. The loading dose has 4 g of MgSO4 in 250 ml saline intravenously infusion for 20 min and then the maintenance dose which has 8 g MgSO4 in 500 ml saline/8 hours.
Then again MCA and UA Doppler evaluation was done to evaluate blood flow changes.
Outcome
This result was compared with APGAR Score of the baby and the out-come of the mother.
3. Results
1) Umbilical artery Doppler indices
There were statistical significant differences between umbilical artery PI, RI and cerebroplacental ratio with administration of MgSO4 (p < 0.001); as shown in Table 1.
2) Middle cerebral artery [MCA] Doppler indices
There were statistical significant differences between MCA them (p < 0.001); as shown in Table 2.
3) Relation between ultrasonographic assessment of amount of liquor and cerebro-placental ratio (C/U) before and after mgSO4 administration
The Cerebro-placental ratio(C/U ratio) before and after mgSO4 has statistical significant differences in both groups (p = 0.009) and (p = 0.004) with no statistical significant differences between both of them (p = 0.211); as shown in Table 3.
4) Relation between estimated fetal weight (gm) and cerebro-placental ratio (C/U) before and after mgSO4 administration
There were 28 cases of normal fetal biometry and 12 case of intrauterine growth restriction. As shown in Table 4.
The Cerebro-placental ratio (C/U ratio) before and after mgSO4 has statistical
Table 1. Comparison between umbilical artery ultrasonographic Doppler evaluation before and after MgSO4 administration (n = 40).
p: p value for Paired t-test or Wilcoxon signed ranks test for comparing between before and after; *: Statistically significant at p ≤ 0.05.
Table 2. Comparison between middle cerebral artery ultrasonographic Doppler evaluation before and after MgSO4 administration (n = 40).
p: p value for Paired t-test or Wilcoxon signed ranks test for comparing between before and after; *: Statistically significant at p ≤ 0.05.
significant differences in both groups (p = 0.013) and (p = 0.008) with no statistical significant differences between both of them (p = 0.250). As shown in Table 4.
Maternal outcome
There were no cases of maternal deaths and all cases recovered well.
Table 3. Relation between ultrasonographic assessment of amount of liquor and cerebro-placental ratio (C/U) before and after MgSO4 administration.
t, p: t and p values for Student t-test for comparing between the two groups; U, p: U and p values for Mann Whitney test for comparing between the two groups; p1:p value for Paired t-test for comparing between before and after in each group; *: Statistically significant at p ≤ 0.05.
Table 4. Relation between estimated fetal weight (gm) and cerbro-placental ratio (C/U) before and after MgSO4 administration.
t, p: t and p values for Student t-test for comparing between the two groups; U, p: U and p values for Mann Whitney test for comparing between the two groups; p1:p value for Paired t-test for comparing between before and after in each group; *: Statistically significant at p ≤ 0.05.
4. Discussion
Preeclampsia is one of the most important serious diseases of pregnancy and occurs in 5% to 7% of pregnant women [34].
Doppler mood ultrasonic evaluation is used to evaluate blood flow in fetal vessels [35].
A low index of pulsatility in the MCA associated with fetal decompansation has been described [36].
Because the cerebroumblical ratio is providing information about placental perfusion and about fetal changes so its an important factor in estimating fetal outcome and well being [37].
The objective of this study was to assess the effects of administration of MgSO4 on Doppler parameters of middle cerebral and umbilical arteries in cases of severe PET and eclampsia.
The study was conducted on 40 pregnant female selected from EL Shatby Maternity University Hospital during the period between December 2015 and December 2016.
There were 28 cases with normal fetal growth and 12 cases with intrauterine fetal growth restriction. There was statistically significant improve in the C/U ratio after MgSO4 administration in both of them.
Regarding the Doppler indices studied in our study, the injection of MgSO4 could significantly decrease the RI, PI and SD ratio of the umbilical artery, increase the RI, PI and SDR-MCA, thus increase the C/U ratio.
Souza, et al., [38], assessed MCA and UA Doppler parameters of the fetus. They agree with our study as regard the umbilical artery only but against it as regard the MCA.
In addition, Souza et al., [38] [39] showed the reduction of PI in the fetal umbilical artery and MCA due to the injection of MgSO4.
Qiao, et al., [40] have found significant changes in parameters after administration of MgSO4. In our study, we found significant improvement of C/U ratio after using MgSO4 treatment with improvement of fetal circulation as it cause umbilical artery vasodilation [41].
Coleman et al. [42] have found a significant relationship between the resistance index and pregnancy outcomes in 114 pregnant women at 24 - 22 weeks who underwent Doppler sonography. Results of another study have showed a significant relationship between the vascular index and pregnancy outcomes, including fetal growth restriction [43], but results of our study were not in concordance with the last two studies. This difference could be due to the time of Doppler sonography in our study. There was also a control group in order to compare the two groups (treatment and control groups) in terms of resistance index and pregnancy outcomes in these studies, which could produce impressive different results.
5. Conclusions
● Infusion of MgSO4 significantly decreases the fetal RI, PI, SDR umbilical and increases the fetal RI, PI, SDR MCA and increases cerebroumblical ratio indices obtained with Doppler ultrasound study.
● MgSO4 significantly improves the fetoplacental blood flow.
● MgSO4 significantly increases C/U ratio regardless the amount of liquor and the estimated fetal weight were normal or not.
Acknowledgements
The author is thankful to the Obstetrics and Gynecology Department, Faculty of Medicine, Alexandria University.
Compliance with Ethics Requirements
All Institutional and National Guidelines for the care and use of animals (insects) were followed.
Author’s Contributions
DE designed the study and performed data collection and analysis. MR interpreted and supervised the Lab analysis results. NE and NH supervised the clinical examinations and US findings. DE wrote the manuscript. All authors were involved in the revision of the manuscript.