1. Burns S., Cowan C., Wilkes R. Prevention and management of hypotension during spinal anaesthesia for elective Caesarean section: a survey of practice // Anaesthesia. – 2001. – 56: 777–98.
2. Klohr S., Roth R., Hofmann T., Rossaint R., Heesen M. Definitions of hypotension after spinal anaesthesia for caesarean section: literature search and application to parturients // Acta Anaesthesiologica Scandinavica. – 2010. – 54: 909–21.
3. National Institute for Health and Care Excellence. Hypertension in pregnancy: diagnosis and management // CG 107. – 2011. https://www.nice.org.uk/guidance/ cg107
4. American College of Obstetricians and Gynecologists. Committee Opinion Number 692, April 2017. Emergent Therapy for Acute-Onset, Severe Hypertension
During Pregnancy and the Postpartum Period. 2017. http://www.acog.org/ Resources-And-Publications/Committee-Opinions/Committee-on-ObstetricPractice/Emergent-Therapy-for-Acute-Onset-Severe-Hypertension-DuringPregnancy-and-the-Postpartum-Period.
5. Langesaeter E., Dyer R.A. Maternal haemodynamic changes during spinal anaesthesia for caesarean section // Current Opinion in Anesthesiology. – 2011. – 24: 242-8.
6. Rabow S., Olofsson P. Pulse wave analysis by digital photo- plethysmography to record maternal hemodynamic effects of spinal anesthesia, delivery of the baby, and intravenous oxytocin during cesarean section // Journal of Maternal-Fetal and Neonatal Medicine. – 2017. – 30: 759-66.
7. Kuhn J.C., Hauge T.H., Rosseland L.A., Dahl V., Langesaeter E. Hemodynamics of phenylephrine infusion versus lower extremity compression during spinal anesthesia for cesarean delivery: a randomized, double-blind, placebo-controlled study // Anesthesia and Analgesia. – 2016. – 122: 1120-9.
8. Langesaeter E., Rosseland L., Stubhaug A. Continuous invasive blood pressure and cardiac output monitoring during cesarean delivery: a randomized, doubleblind comparison of low-dose versus high-dose spinal anesthesia with intravenous phenylephrine or placebo infusion // Anesthesiology. – 2008. – 109: 856-63.
9. Dyer R., Reed A., van Dyk D. et al. Hemodynamic effects of ephedrine, phenylephrine, and the coadministration of phenylephrine with oxytocin during spinal anesthesia for elective cesarean delivery // Anesthesiology. – 2009. – 111: 753-65.
10. Teoh W.H., Sia A.T.H. Colloid preload versus coload for spinal anesthesia for cesarean delivery: the effects on maternal cardiac output // Anesthesia and Analgesia. – 2009. – 108: 1592-8.
11. Tamilselvan P., Fernando R., Bray J., Sodhi M., Columb M. The effects of crystalloid and colloid preload on cardiac output in the parturient undergoing planned cesarean delivery under spinal anesthesia: a randomized trial // Anesthesia and Analgesia. – 2009. – 109: 1916-21.
12. Kinsella S.M., Tuckey J.P. Peri-operative bradycardia and asystole: relationship to vasovagal syncope and the Bezold-Jarisch reflex // British Journal of Anaesthesia. – 2001. – 86: 859-68.
13. Corke B., Datta S., Ostheimer G., Weiss J., Alper M. Spinal anaesthesia for Caesarean section. The influence of hypotension on neonatal outcome // Anaesthesia. – 1982. – 37: 658-62.
14. Ilies C., Kiskalt H., SiedenhansD., et al. Detection of hypotension during Caesarean section with continuous non-invasive arterial pressure device or intermittent oscillometric arterial pressure measurement // British Journal of Anaesthesia. – 2012. – 109: 413-9.
15. Hartmann B., Junger A., Klasen J., Benson M., Jost A., Banzhaf A., Hempelmann G. The incidence and risk factors for hypotension after spinal anesthesia induction: an analysis with automated data collection // AnesthAnalg. – 2002. – Jun; 94(6): 1521-9.
16. Bishop D.G., Cairns C., Grobbelaar M., Rodseth R.N. Obstetric spinal hypotension: Preoperative risk factors and the development of a preliminary risk score – the PRAM score // S Afr Med J. – 2017. – Nov 27; 107(12): 1127-1131.
17. Brenck F., Hartmann B., Katzer C., Obaid R., Brüggmann D., Benson M., Röhrig R., Junger A. Hypotension after spinal anesthesia for cesarean section: identification of risk factors using an anesthesia information management system // J ClinMonitComput. – 2009. – Apr; 23(2): 85-92.
18. Joshi M.C., Raghu K., Rajaram G., Nikhil N., Kumar S., Singh A. Baseline heart rate as a predictor of post-spinal hypotension in patients undergoing a caesarean section: An observational study // J ObstetAnaesthCrit Care. – 2018. – 8(1): 20-3.
19. Arzola C., Wieczorek P.M. Efficacy of low-dose bupivacaine in spinal anaesthesia for Caesarean delivery: systematic review and meta-analysis // Br J Anaesth. – 2011. – Sep; 107(3): 308-18.
20. Chumpathong S., Chinachoti T., Visalyaputra S., Himmunngan T. Incidence and risk factors of hypotension during spinal anesthesia for cesarean section at Siriraj Hospital // J Med Assoc Thai. – 2006. – Aug; 89(8): 1127-32.
21. Somboonviboon W., Kyokong O., Charuluxananan S., Narasethakamol A. Incidence and risk factors of hypotension and bradycardia after spinal anesthesia for cesarean section // J Med Assoc Thai. – 2008. – Feb; 91(2): 181-7.
22. Nani F., Torres M. Correlation between the body mass index (BMI) of pregnant women and the development of hypotension after spinal anesthesia for cesarean section // RevistaBrazileira de Anestesiologia. – 2011. – 61: 21-30.
23. Bishop D., Cairns C., Grobbelaar M., Rodseth R. Heart rate variability as a predictor of hypotension following spinal for elective caesarean section: a prospective observational study // Anaesthesia. – 2017. – 72: 603-8.
24. Ngaka T., Coetzee J., Dyer R. The influence of body mass index on sensorimotor block and vasopressor requirement during spinal anesthesia for elective cesarean delivery // Anesthesia and Analgesia. – 2016. – 123: 1527-34.