References
1. Federal State Statistics Service, 2020. (in Russian)
2. Parikh P., Juul S.E. Neuroprotection strategies in preterm encephalopathy. Semin Pediatr Neurol. 2019; 32: 100772.
3. Malik S., Vinukonda G., Vose L.R., et al. Neurogenesis continues in the third trimester of pregnancy and is suppressed by premature birth. J Neurosci. 2013; 33: 411–23.
4. Cho Z.-H., et al. Altered microstructure of white matter except the corpus callosum is independent of prematurity. Neonatology. 2012; 102: 309–15.
5. Schlapbach L.J., Aebischer M., et al. Impact of sepsis on neurodevelopmental outcome in a Swiss National Cohort of extremely premature infants. Pediatrics. 2011; 128: e348–57.
6. Bruno C.J., Bengani S., Gomes W.A., Brewer M., Vega M., Xie X., et al. MRI differences associated with intrauterine growth restriction in preterm infants. Neonatology. 2017; 111 (4): 317–23.
7. Rogatkin S.O. Rogatkin S.O. Diagnosis, prevention and treatment of perinatal posthypoxic lesions of the central nervous system in children and new born his age and injuries: Diss. Moscow, 2012: 24 p. (in Russian)
8. Torchin H., Morgan A.S., Ancel P.-Y. International comparisons of neurodevelopmental outcomes in infants born very preterm. Semin Fetal Neonatal Med. 2020; 25: 101109.
9. The order of the Ministry of Health of the Russian Federation. Dated 06.06.2013 No. 354n “On the procedure of autopsy”. Russian Gazette. No. 291 dated 12/25/2013. (in Russian)
10. Gilbert-Barness E., Debich-Spicer D.E., Opitz J.M. Handbook of pediatric autopsy pathology. Totowa, NJ: Humana Press, 2005: 531 p.
11. Tumanova U.N., Vanyukov V.N., Lyapin V.M., Shchegolev A.I. Certificate of state registration of the computer program 2021612615. Certificate of state registration of the computer program 2021612615. Protocol of pathoanatomical autopsy of the fetus, stillborn, deceased newborn. (in Russian)