氦物理化学 “ 招募 ” 肺泡预防新冠肺炎患者肺泡塌陷和 急性呼吸窘迫
摘要
使毛细血管中红细胞的运动正常化,并保持肺泡毛细血管空间的生理功能,改善肺泡中的气体交换。材料和方法。分析了
主诉动态,病史,临床症状,实验室和仪器研究结果,严重冠状病毒肺炎(CVP)并发急性呼吸窘迫综合征(ARDS)的
病理,病理形态学和组织学表现的结果。结果及其讨论。在严重冠状病毒感染(CVI)的复杂治疗中,建议使用现代创新
医疗技术“CIMT”,其中包括现代设备“Ingalit B2-01”,吸入调节加热至90-100°C的呼吸气体混合物 - 由氧气20-30%和氦气
70-80%组成的热胶,与吸入肺表面活性剂交替与雾化器交替。建议在皮下注射抗凝剂。已经表明,CEP中ARDS的发展与
急性冠状病毒肺泡炎有关。当使用我们提出的“SIMT”时,快速积极的全身治疗效果是预防严重CEP患者的ARDS是由于热
氦的许多物理化学和生理作用。
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[1] Glybochko P. V. Clinical characteristics of 1007
patients with severe SARS-CoV-2 pneumonia who needed
respiratory support//Clinical Pharmacology and Therapy. 2020.
T, 29, No. 2. P. 21–29. Glybochko PV.
[2] Clinical characteristics of 1007 patients with severe
SARS-CoV-2 pneumonia who needed respiratory support.
Clinical pharmacology and therapy, 2020, Vol. 29, No. 2, pp.
21-29 (In Russ.)].
[3] Murthy S., Charles DG, Robert AF Care for Critically
Ill Patients with COVID-19//JAMA. 2020. Vol. 323 (15).
R.1499-1500. doi: 10.1001/jama.2020.3633.
[4] Omelyanovskiy V. V., Antonov A. A., Bezdenezhnykh
T. P., Khachatryan G. R. Systematic review of current scientific
information on the use of drugs in the treatment of new
coronavirus infection COVID-19//Medical Technologies.
Evaluation and selection. 2020. No. 1. P. 8–18. doi:
10.31556/2219-0678.2020.39.1.008-018. [Omelyanovsky VV,
Antonov AA, Bezdenezhnykh TP, Khachatryan GR Systematic
review of current scienti fi c data on the use of medicines in the
treatment of new coronavirus infection COVID-19. Medical
technology. Evaluation and selection, 2020, No. 1, pp. 8-18.
doi: 10.31556/2219-0678.2020.39.1.008-018 (In Russ.)].
[5] Ware LB, Matthay MA The acute respiratory
distress syndrome//The New England Journal of Medicine.
2000. May. Vol. 342, No. 18. P. 1334-1349. doi: 10.1056/
NEJM200005043421806. PMID 10793167.
[6] Moloney ED, Evans TW Pathophysiology and
pharmacological treatment of pulmonary hypertension in acute
res- piratory distress syndrome (English)//Eur. Respir. J. 2003.
April, Vol. 21, No. 4. P. 720-727. PMID 12762363.
[7] Crowe SM Pathogenesis. 2006.435 p.
[8] Galkin A. A., Demidova V. S. The central role of
neutrophils in the pathogenesis of acute lung injury syndrome
(acute respiratory distress syndrome)//Advances in modern
biology. 2014. Vol. 134, No. 4, pp. 377–394. [Galkin
AA, Demidova VS The central role of neutrophils in the
pathogenesis of acute lung injury syndrome (acute respiratory
distress syndrome). Advances in modern biology, 2014, Vol.
134, No. 4, pp. 377–394 (In Russ.)].
[9] Behrens E. M., Koretzky GA Treatment of cytokine
storm syndromes. 2017.1137 p.
[10] Sinha R., Matthay MA, Calfee CS Is a “Cytokine
Storm” Relevant to COVID-19? (English)//JAMA Internal
Medicine. 2020.1 September. Vol. 180, iss. 9. P. 1152. doi:
10.1001/jamainternmed. 2020.3313. PMID 32602883.
[11] Sungnak W. SARS-CoV-2 entry factors are highly
expressed in nasal epithelial cells together with innate immune
genes//Nat. Med. 2020. Vol. 26. P. 681-687.
[12] Jackson SP, Darbousset R., Schoenwaelder SM
Thromboin flammation: challenges of therapeutically targeting
coag- ulation and other host defense mechanisms//Blood. 2019.
Vol. 133. P. 906-918.
[13] Chernyaev AL, Samsonova M. Etiology, pathogenesis
and pathological anatomy of diffuse alveolar injury//General
resuscitation. 2000. No. 5. P. 13-16. [Chernyaev AL, Samsonova
M. Etiology, pathogenesis and pathological anatomy of diffuse
alveolar injury. General intensive care, 2000, No. 5, pp. 13-16
(In Russ.)].
[14] Vlasenko A. V., Evdokimov E. A., Rodionov E. P.
Modern principles of hypoxia correction in ARDS of various
genesis. Part 1//Bulletin of anesthesiology and resuscitation.
2020. No. 17 (3). S. 61–78. [Vlasenko AV, Evdokimov EA,
Rodionov EP Modern principles of correction of hypoxia in
ARDS of various Genesis. Part 1. Bulletin of anesthesiology
and resuscitation, 2020, No. 17 (3) pp. 61–78 (In Russ.)].
https://doi.org/10.21292/2078-5658-2020-17-3-61-78.
[15] Dandachi D., Rodriguez-Barradas M. S. Viral
pneumonia: etiologies and treatment. Abstract//J. Investig. Med.
2018 Aug. Vol. 66 (6). P. 957-965. doi: 10.1136/jim-2018–
000712.
[16] Dreyfuss D., Saumon G. Ventilator-induced lung
injury: lessons from experimental studies (eng.)//American
Journal of Respiratory and Critical Care Medicine (eng.) Rus.
1998. January (Vol. 157, No. 1). P. 294-323. PMID 9445314.
[17] Krasnovsky V. L., Grigoriev S. P., Alekhin A. I.,
Potapov V. I. The use of a heated oxygen-helium mixture in
the complex treatment of patients with community-acquired
pneumonia//Clinical Medicine. 2013. No. 5. P. 38–41.
[Krasnovsky VL, Grigoriev SP, Alyokhin AI, Potapov VI
Application of a heated oxygen-helium mixture in the complex
treatment of patients with community-acquired pneumonia.
Clinical medicine, 2013, No. 5, pp. 38–41 (In Russ.)].
[18] Khaidarov G. G., Khaidarov A. G., Mashek A. Ch.
The physical nature of the surface tension of a liquid//Bulletin
of St. Petersburg University. Series 4 (Physics, Chemistry).
2011. Issue. 1. P. 3–8. [Khaydarov GG, Khaydarov AG, Mashek
A. Ch. Physical nature of surface tension of a liquid. Bulletin of
the Saint Petersburg University. Series 4 (Physics, chemistry),
2011, Release. 1, pp. 3–8 (In Russ.)].
[19] Khaidarov G. G. On the relationship of surface
tension with the heat of vaporization//Journal of Physical
Chemistry. 1983. No. 10. P. 2528–2530. [Khaydarov GG Оn
the relationship of surface tension with the heat of vaporization.
Journal of physical chemistry, 1983, No. 10, pp. 2528–2530 (In
Russ.)].
[20] Khaidarov G. G., Khaidarov A. G., Mashek A. Ch.
Influence of temperature on surface tension//Bulletin of St.
Petersburg University. Series 4 (Physics, Chemistry). 2012.
Issue. 1. P. 24–28. [Khaidarov GG, Khaidarov AG, Mašek
AC The effect of temperature on surface tension. Bulletin of
the Saint Petersburg University. Series 4 (Physics, chemistry),
2012, Release 1, pp. 24-28 (In Russ.)].
[21] Kunitsyn V. G., Mokrushnikov P. V., Panin L. E. The
mechanism of erythrocyte microcirculation in the capillary
bed at physiological pH shift//Bul. SB RAMS. 2007. No. 5. P.
28–30. [Kunitsyn VG, Mokrushnikov PV, Panin LE Mechanism
of erythrocyte microcirculation in the capillary bed with a
physiological pH shift. Byul. SO RAMS, 2007, No. 5, pp. 28-
30 (In Russ.)].
[22] Shakhnovich P. G. Peripheral circulation in conditions
of hypoxic and circulatory hypoxia//Bulletin of the Russian
Military Medical Academy. 2016. No. 1 (53). S. 13-16.
[Shakhnovich PG Peripheral blood circulation in conditions
of hypoxic and circulatory hypoxia. Bulletin of the Russian
military medical Academy, 2016, No. 1 (53) pp. 13-16 (In
Russ.)].
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