FETAL MOTOR ACTIVITY AND MORPHOLOGICAL FEATURES OF PLACENTAL TISSUE IN PATIENTS WITH EARLY AND LATE PREECLAMPSIA

The study aims to analyze the features of fetal motor activity and afterbirths’ common pathomorphological differences in women with early and late preeclampsia living in areas equated to the conditions of the Far North (Khanty-Mansi Autonomous Okrug – Ugra). The study examined 385 labor cases of patients who were classified as follows: 131 patients with early onset of preeclampsia (up to 34 weeks), 144 patients with late onset of preeclampsia (after 34 weeks), and 110 apparently healthy patients with the physiological course of pregnancy. The analysis of fetal motor activity and morphological studies of the afterbirths was carried out. When applying
subjective and objective fetal movements counting methods, patients with early preeclampsia had statistically significantly lower fetal motor activity and more cases of chorionic villous maturation disorder, chorangiosis, myocardial
infarctions, and placental pseudoinfarctions. Ascending infection of the placenta prevails in both early and late-onset preeclampsia.

1. Brown M. A., Magee L. A., Kenny L. C. et al. Hypertensive Disorders of Pregnancy: ISSHP Classification, Diagnosis, and Management Recommendations for International Practice. Hypertension. 2018. Vol. 72, No. 1. P. 24–43.

2. Kuklina E. V., Ayala C., Callaghan W. M. Hypertensive Disorders and Severe Obstetric Morbidity in the United States. Obstet Gynecol. 2009. Vol. 113, No. 6. P. 1299–1306.

3. Phipps E. A., Thadhani R., Benzing T., Karumanchi S. A. Pre-eclampsia: Pathogenesis, Novel Diagnostics and Therapies. Nat Rev Nephrol. 2019. Vol. 15, No. 5. P. 275–289.

4. Hecht J. L., Zsengeller Z. K., Spiel M., Karumanchi S. A., Rosen S. Revisiting Decidual Vasculopathy. Placenta. 2016. Vol. 42. P. 37–43.

5. Ridder A., Giorgione V., Khalil A., Thilaganathan B. Preeclampsia: The Relationship between Uterine Artery Blood Flow and Trophoblast Function. Int J Mol Sci. 2019. Vol. 20, No. 13. P. 3263.

6. Levy M., Kovo M., Barda G. et al. Reduced Fetal Movements at Term, Low-Risk Pregnancies: Is It Associated with Adverse Pregnancy Outcomes? Ten Years of Experience from a Single Tertiary Center. Arch Gynecol Obstet. 2020. Vol. 301. P. 987–993.

7. Bradford B. F., Cronin R. S., McKinlay C. J. D. et al. A Diurnal Fetal Movement Pattern: Findings from a Cross-Sectional Study of Maternally Perceived Fetal Movements in the Third Trimester of Pregnancy. PLoS One. 2019. Vol. 14, No. 6. P. e0217583.

8. Gansburgsky A. N., Yaltsev A. V. Structural Features of the Monohorial Placent of Single-Finger Fruits. Blood Heart Circ. 2018. Vol. 2, No. 2. P. 1–3. DOI 1015761/BHC1000135.

9. Gansburgskiy A., Yaltsev A. V. Arteries of the Chorion of Pregnant Women with Arterial Hypertension. Nurs Palliat Care. 2018. Vol. 3, No. 1. P. 1–4. DOI 10.15761/NPC.1000177.

10. Staff A. C., Johnsen G. M., Dechend R., Redman C. W. G. Preeclampsia and Uteroplacental Acute Atherosis: Immune and Inflammatory Factors. J Reprod Immunol. 2014. Vol. 101–102. P. 120–126.