1. Gritsan AN. Diagnosis and Intensive Therapy of Acute Respiratory Distress Syndrome. All-Russian Public Organization Federation of Anesthesiologists and Resuscitators. [URL: http://far.org.ru/recomendation].

2. Tolkach PG, Basharin VA, Chepur SV, Vladimirova OO, Alekseeva II, Solovyeva TS. Mechanisms of Pulmonary Toxicity of Perfluoro-n-Alkane Pyrolysis Products with Consideration of the Structural Features of the Blood-Air Barriers. Bull. Exp. Biol. Med. 2020;168(3):345-348. https://doi.org/10.1007/s10517-020-04705-z

3. Brown RF, Rice P. Electron microscopy of rat lung following a single acute exposure to perfluoroisobutylene (PFIB). A sequential study of the first 24 hours following exposure. Int. J. Exp. Pathol. 1991;72(4):437-450.

4. Meng G, Zhao J, Wang HM, Ding RG, Zhang XC, Huang CQ, Ruan JX. Injury of cell tight junctions and changes of actin level in acute lung injury caused by the perfluoroisobutylene exposure and the role of myosin light chain kinase. J. Occup. Health. 2011;53(4):250-257.

5. Meng G, Zhao J, Wang HM, Ding RG, Zhang XC, Huang CQ, Ruan JX. Cell injures of the blood-air barrier in acute lung injury caused by perfluoroisobutylene exposure. J. Occup. Health. 2010;52(1):48-57.