REFERENCES
1. Mayatepek E. Inborn errors of metabolism – early detection, key symptoms and therapeutic options. 2nd ed. Bremen, Germany: UNI-MED Science, 2017; 109 p.
2. Walker V. Ammonia toxicity and its prevention in inherited defects of the urea cycle. Diabetes Obes Metab. 2009; 11 (9): 823–35. DOI: https://doi.org/10.1111/j.1463-1326.2009.01054.x; PMID: 19531057.
3. Usmani S.S., Cavaliere T., Casatelli J., Harper R.G. Plasma ammonia levels in very low birth weight preterm infants. J Pediatr. 1993; 123 (5): 797–800. DOI: https://doi.org/10.1016/s0022-3476(05)80864-9
4. Degtyareva A.V., Sokolova E.V., Zakharova E.Yu., Isaeva M.Kh., Vysokikh M.Yu., Ivanets T.Yu., et al. Hyperammonemia in neonatologist practice. Rossiyskiy vestnik perinatologii i pediatrii [Russian Bulletin of Perinatology and Pediatrics]. 2020; 65: (6): 98–107. DOI: https://doi.org/10.21508/1027-4065-2020-65-6-98-107 (in Russian)
5. Brar G., Thomas R., Bawle E.V., Delaney-Black V. Transient hyperammonemia in preterm infants with hypoxia. Pediatr Res. 2004; 56: 671.
6. Joseph M., Hageman J.R. Neonatal transport: a 3-day-old neonate with hypothermia, respiratory distress, lethargy and poor feeding. J Perinatol. 2002; 22 (6): 506–9. DOI: https://doi.org/10.1038/sj.jp.7210755; PMID: 12168133.
7. Enns G.M. Inborn errors of metabolism masquerading as hypoxic-ischemic encephalopathy. Neo Rev. 2005; 6 (12): 549–58.
8. Haüssinger D. Nitrogen metabolism in liver: structural and functional organization and physiological relevance. Biochem J. 1990; 267 (2): 281–90. DOI: https://doi.org/10.1042/bj2670281; PMID: 2185740.
9. Weiner I.D., Verlander J.W. Recent advances in understanding renal ammonia metabolism and transport. Curr Opin Nephrol Hypertens. 2016; 25 (5): 436–43. DOI: https://doi.org/10.1097/MNH.0000000000000255; PMID: 27367914.
10. Dasarathy S., Mookerjee R.P., Rackayova V., Rangroo Thrane V., Vairappan B., Ott P., et al. Ammonia toxicity: from head to toe? Metab Brain Dis. 2017; 32 (2): 529–38. DOI: https://doi.org/10.1007/s11011-016-9938-3; PMID: 28012068.
11. Braissant O., McLin V.A., Cudalbu C. Ammonia toxicity to the brain. J Inherit Metab Dis. 2013; 36 (4): 595–612. DOI: https://doi.org/10.1007/s10545-012-9546-2; PMID: 23109059.
12. Barkovich A.J. Pediatric Neuroimaging. 4th Еd. Philadelphia: Lippincott Williams & Wilkins, 2005: 206 p.
13. Häberle J. Clinical and biochemical aspects of primary and secondary hyperammonemic disorders. Arch Biochem Bioph. 2013; 536 (2): 101–8. DOI: https://doi.org/10.1016/j.abb.2013.04.009
14. Robinson M.B., Batshaw M.L. Neurotransmitter alterations in congenital hyperammonemia. Ment Retard Dev Disabil Res Rev. 1995; 1: 201–7.
15. Butterworth R.F. Effects of hyperammonaemia onbrain function. J Inherit Metab Dis. 1998; 21: 6–20. DOI: https://doi.org/10.1023/a:1005393104494
16. Marcaida G., Felipo V., Hermenegildo C., Minana M.D., Grisolía S. Acute ammonia toxicity is mediated by the NMDA type of glutamate receptors. FEBS Lett. 1992; 296: 67–8. DOI: https://doi.org/10.1016 / 0014-5793 (92) 80404-5
17. Kosenko E., Kaminsky Y., Grau E., Miñana M.D., Marcaida G., Grisolía S., et al. Brain ATP depletion induced by acute ammonia intoxication in rats is mediated by activation of the NMDA receptor and Na+, K(+)-ATPase. J Neurochem. 1994; 63 (6): 2172–8. DOI: https://doi.org/10.1046/j.1471-4159.1994.63062172.x; PMID: 7964737.
18. Duffy T., Plum F. Seizures and comatose states. In: Siegel G.J., Albers R.W., Katzman R. (eds). Basic Neurochemistry. Boston: Little Brown, 1981; 857.
19. Hindfelt B., Siesjo B.K. Cerebral effects of acute ammonia intoxication. II. The effect upon energy metabolism. Scand J Clin Lab Invest. 1971; 28: 365–74. DOI: https://doi.org/10.3109/00365517109095711
20. Keiding S., Sorensen M., Bender D., et al. Brain metabolism of 13N-ammonia during acute hepatic encephalopathy in cirrhosis measured by positron emission tomography. Hepatology. 2006; 43: 42–50.
21. Ballard R.A., Vinocur B., Reynolds J.W., Wennberg R.P., Merritt A., Sweetman L., et al. Transient hyperammonemia of the preterm infant. N Engl Med J. 1978; 299: 920–5.
22. Goldberg R.N., Cabal L.A., Sinatra F.R., Plajstek C.E., Hodgman J.E. Hyperammonemia associated with perinatal asphyxia. Pediatrics. 1979; 64 (3): 336–41. PMID: 481980.
23. Chung M.Y., Chen C.C., Huang L.T., Ko T.Y., Lin Y.J. Transient hyperammonemia in a neonate. Acta Pediatr Taiwan 2005; 46 (2): 94–6.
24. Degtyareva A.V., Kirtbaya A.R., Sokolova E.V., Balashova E.N., Ionov O.V., Vysokikh M.Yu., et al. Neonatal hyperammonemia transient condition or marker of inborn errors of metabolism? Neonatologiya: novosti, mneniya, obuchenie [Neonatology: News, Opinions, Training]. 2018; 7 (1): 96–102. DOI: https://doi.org/10.24411/2308-2402-2018-00013] (in Russian)
25. Konecki U.L., Batshaw M.L. Inborn errors of urea synthesis. In : Swaiman K.F., Ashwal S., Ferrio D.M., Schor N.F., eds. Swaiman’s Pediatric Neurology Principle and Practice. 5th ed. Philadelphia: Elsevier/Saunders; 2012: 362–3.
26. Russian Association of Perinatal Medicine Specialists & Russian Society of Neonatologists. Therapeutic hypothermia in newborn. Approved clinical guidelines. February 2019. (in Russian)
27. Sarnat H.B., Sarnat M.S. Neonatal encephalopathy following fetal distress: a clinical and electroencephalographic study. Arch Neur. 1976; 33: 696–705.
28. B.J. Stoll R.M.K. Nervous System Discorders. Nelson Text book of Pediatrics. 17th ed. Philadelphia: Saunders, 2004: 561–9.
29. Khalessi N., Khosravi N., Mirjafari M., Afsharkhas L. Plasma ammonia levels in newborns with asphyxia. Iran J Child Neurol. 2016; 10 (1): 42–6.
30. Haberle J., Chakrapani A., Ah Mew N., et al. Hyperammonaemia in classic organic acidaemias: a review of the literature and two case histories. Orphanet J Rare Dis. 2018; 13: 219.
31. Ozanne B., Nelson J., Cousineau J., et al. Threshold for toxicity from hyperammonemia in critically ill children. J Hepatol. 2012; 56: 123–8.
32. Nguyen K.Q.N., Jones P.M., Patel K. A newborn with hypothermia and hyperammonemia. Clinical Chemistry. 2018; 64 (2): 411–20.
33. Yoshino M., Sakaguchi Y., Kuriya N., Ohtani Y., Yamashita F., Hashimoto T., et al. A nationwide survey on transient hyperammonemia in newborn infants in Japan: prognosis of life and neurological outcome. Neuropediatrics. 1991; 22 (4): 198–202. DOI: https://doi.org/10.1055/s-2008-1071441; PMID: 1775216.
34. Kim J.Y., Lee Y., Cho H. Optimal prescriptions of continuous renal replacement therapy in neonates with hyperammonemia. Blood Purif. 2019; 47: 16–22.
35. Ninković D., Mustapić Ž., Bartoniček D., Benjak V., Ćuk M., Buljević A.D., et al. The therapeutic hypothermia in treatment of hyperammonemic encephalopathy due to urea cycle disorders and organic acidemias. Klin Padiatr. 2019; 231 (2): 74–9. DOI: https://doi.org/10.1055/a-0855-4001; PMID: 30870873.