Accidental hypothermia as a factor of microcirculatory disorders
N A Lycheva , A V Sedov , D A Makushkina , I I Shakhmatov , V M Vdovin
Kazan medical journal ›› 2019, Vol. 100 ›› Issue (2) : 252 -256.
Accidental hypothermia as a factor of microcirculatory disorders
Aim. To study the dynamics of indicators of microcirculation during a single episode of hypothermia of moderate degree in rats, both immediately after cessation of cooling, and in different periods of posthypothermia.
Methods. The study was performed on 25 Wistar rats. The animals were subjected to a single immersion cooling in water at a temperature of 5 °C until reaching a rectal temperature of 27-30 °C. Analysis of the microvasculature was carried out immediately upon reaching a moderate degree of hypothermia, 2, 5, 10 and 14 days after the cooling. The microcirculation parameters were estimated using a laser analyzer of capillary circulation LAKK-02 (SMO «Lazma», Russia) at a wavelength of 0.63 μm. The main parameters of microcirculation were recorded, and the amplitude-frequency spectrum of blood flow oscillations was analyzed.
Results. Immediately after reaching a moderate degree of hypothermia, vasospasm was recorded, which was confirmed by a decrease in the rate of perfusion and wave amplitudes of all frequency ranges. 2 days after stopping the cooling perfusion index returned to baseline, a decrease in amplitude of endothelial, vasomotor and respiratory waves was observed with an increase in pulse waves. On day 5, perfusion increased by 5 times was observed along with decreased amplitudes of the waves of all ranges. By day 10, the level of blood flow returned to its original values, and the wave amplitudes of all frequency ranges remained at the same low level. By day 14, a progressive decrease of the factors of bloodflow modulation was associated by the decrease of perfusion.
Conclusion. Single cooling to a moderate degree of hypothermia leads to a progressive decrease of tissue perfusion and deep inhibition of active and passive factors of bloodflow modulation.
hypothermia / microcirculation / vasospasm / rats
| [1] |
Wu C.Y., Chan K., Cheng Y.-J. Effects of different types of fluid resuscitation for hemorrhagic shock on splanchnic organ microcirculation and renal reactive oxygen species formation. Crit. Care. 2015; (19): 434. DOI: 10.1186/ |
| [2] |
Wu C.Y., Chan K., Cheng Y.-J. Effects of different types of fluid resuscitation for hemorrhagic shock on splanchnic organ microcirculation and renal reactive oxygen species formation. Crit. Care. 2015; (19): 434. DOI: 10.1186/ s13054-015-1135-y. |
| [3] |
s13054-015-1135-y. |
| [4] |
Лопатина А.Б. Механизмы становления адаптации. Международ. науч.-исслед. ж. 2016; (6): 51-52. |
| [5] |
Lopatina A.B. Mechanisms of formation of adaptation. Mezhdunarodnyy nauchno-issledovatel'skiy zhurnal. 2016; (6): 51–52. (In Russ.) |
| [6] |
Bisschops L.A., Hoeven J.G., Mollnes T.E. Seventytwo hours of mild hypothermia after cardiac arrest is associated with a lowered inflammatory response during rewarming in a prospective observational study. Crit. Care. 2014; 18 (5): 546. DOI: 10.1186/s13054-014-0546-5. |
| [7] |
Bisschops L.A., Hoeven J.G., Mollnes T.E. Seventy- |
| [8] |
Коннов Д.Ю., Коннов Ю.А., Лукьянов С.А., Шаповалов К.Г. Закономерности изменений микроциркуляции при острой общей холодовой травме. Регионарное кровообращение и микроциркуляция. 2017; 16 (3): 26-30. DOI: 10.24884/1682-6655-2017-16-3-26-30. |
| [9] |
two hours of mild hypothermia after cardiac arrest is associated with a lowered inflammatory response during rewarming in a prospective observational study. Crit. Care. 2014; 18 (5): 546. DOI: 10.1186/s13054-014-0546-5. |
| [10] |
Koopmansa M., Kuipera M.A., Endemanb H. Microcirculatory perfusion and vascular reactivity are altered in post cardiac arrest patients, irrespective of target temperature management to 33 °C vs 36 °C. Resuscitation. 2015; (86): 14-18. DOI: 10.1016/j.resuscitation.2014.09.025. |
| [11] |
Konnov D.Yu., Konnov Yu.A., Lukyanov S.A., Shapovalov K.G. Patterns of changes in microcirculation in acute general cold injury. Regionarnoe krovoobrashchenie i mikrotsirkulyatsiya. 2017; 16 (3): 26–30. (In Russ.) |
| [12] |
Council Directive of 24 November 1986 on the Approximation of Laws, Regulations of the Member States Regarding the Protection of Animals Used for Experimental and Other Purposes Directive (86/609/EEC). Official Journal of the European Communities. L. 262; 1-29. https://eur-lex.europa.eu/legal-content/EN/ALL/?uri=CELEX%3A31986L0609 (access date: 18.10.2018). |
| [13] |
Koopmansa M., Kuipera M.A., Endemanb H. Microcirculatory perfusion and vascular reactivity are altered in post cardiac arrest patients, irrespective of target temperature management to 33 °C vs 36 °C. Resuscitation. 2015; (86): 14–18. DOI: 10.1016/j.resuscitation.2014.09.025. |
| [14] |
Коннов Д.Ю., Малярчиков А.В., Шаповалов К.Г., Коннов В.А. Закономерности изменений параметров микроциркуляции и электрофизиологических показателей сердечного ритма при критической гипотермии. Забайкальский мед. вестн. 2017; (4): 17-24. |
| [15] |
Council Directive of 24 November 1986 on the Approximation of Laws, Regulations of the Member States Regarding the Protection of Animals Used for Experimental and Other Purposes Directive (86/609/EEC). Official Journal of the European Communities. L. 262; 1–29. https://eur-lex.europa.eu/legal-content/EN/ALL/?uri=CELEX%3A31986L0609 (access date: 18.10.2018). |
| [16] |
Олейник Г.А. Патофизиология холодового шока. Мед. неотлож. состояний. 2013; (8): 16-21. |
| [17] |
Konnov D.Yu., Malyarchikov A.V., Shapovalov K.G., Konnov V.A. Regularities of changes in microcirculation parameters and electrophysiological indicators of heart rhythm during critical hypothermia. Zabaykalskiy meditsinskiy vestnik. 2017; (4): 17–24. (In Russ.) |
| [18] |
Винокуров А.А., Алабовский В.В., Хамбуров В.В., Маслов О.В. Диастолическая дисфункция как результат реверсии Nа+/Cа2+ обмена при возникновении «кальциевого парадокса» в сердечной мышце. Науч.-мед. вестн. центрального Черноземья. 2013; (2): 54-62. |
| [19] |
Oleynyk G.A. Pathophysiology of cold shock. Meditsina neotlozhnykh sostoyaniy. 2013; (8): 16–21. (In Russ.) |
| [20] |
Абрамович С.Г., Машанская А.В., Дробышев В.А., Долбилкин А.Ю. Микроциркуляция у здоровых людей и больных артериальной гипертонией. J. Siberian Med. Sci. 2013; (2): 51-57. |
| [21] |
Vinokurov A.A., Alabovskiy V.V., Khamburov V.V., Maslov O.V. Diastolic dysfunction as a result of reversal of Nа+/Cа2+ metabolism in the event of a «calcium paradox» in the heart muscle. Nauchno-meditsinskiy vestnik tsentral'nogo Chernozem'ya. 2013; (2): 54–62. (In Russ.) |
| [22] |
Басанцова Н.Ю., Шишкин А.Н., Тибекина Л.М. Цереброкардиальный синдром и его особенности у пациентов с острыми нарушениями мозгового кровообращения. Вестн. Санкт-Петербургского ун-та. 2017; (12); (1): 31-47. |
| [23] |
Абрамович С.Г., Машанская А.В., Дробышев В.А., Долбилкин А.Ю. Микроциркуляция у здоровых людей |
| [24] |
Кузнецова В.Л., Соловьёва А.Г. Оксид азота: свойства, биологическая роль, механизмы действия. Соврем. пробл. науки и образования. 2015; (4): 462. |
| [25] |
и больных артериальной гипертонией. J. Siberian Med. |
| [26] |
Винник Ю.С., Юрьева М.Ю., Теплякова О.В. и др. Значение эндотелиальной дисфункции в патогенезе локальной холодовой травмы. Рус. мед. ж. 2014; 22 (31): 2204-2206. |
| [27] |
Sci. 2013; (2): 51–57. [Abramovich S.G., Mashanskaya A.V., Drobyshev V.A., Dolbilkin A.Yu. Microcirculation in healthy people and patients with arterial hypertension. |
| [28] |
Шаповалов К.Г. Роль дисфункции эндотелия в альтерации тканей при местной холодовой травме. Тромбоз, гемостаз и реология. 2016; (4): 26-30. |
| [29] |
Journal of Siberian medical sciences. 2013; (2): 51–57. (In Russ.)] |
| [30] |
Лычева Н.А., Шахматов И.И., Блажко А.А., Седов А.В. Модулирующие эффекты умеренной гипотермии на состояние системы гемостаза и микроциркуляторного русла у крыс. Соврем. пробл. науки и образования. 2016; (5): 83. |
| [31] |
Basantsova N.Yu., Shishkin A.N., Tibekina L.M. Cerebrocardiac syndrome and its features in patients with acute cerebral circulatory disorders. Vestnik Sankt-Peterburgskogo universiteta. 2017; (12); (1): 31–47. (In Russ.) |
| [32] |
Шапкин Ю.Г., Стекольников Н.Ю., Гамзатова П.К., Однокозова Ю.С. Эндотелиальная дисфункция в отдалённом периоде холодовой травмы. Вестн. эксперим. и клин. хир. 2014; 7 (4): 359-363. |
| [33] |
Kuznetsova V.L., Solov'eva A.G. Nitric oxide: properties, biological role, mechanisms of action. Sovremennye problemy nauki i obrazovaniya. 2015; (4): 462. (In Russ.) |
| [34] |
Beyer A.M., Freed J.K., Durand M.J. Critical role for telomerase in the mechanism of fow-mediated dilation in the human microcirculation. Circ. Res. 2016; 118 (5): 856-866. DOI: 10.1161/CIRCRESAHA.115.307918. |
| [35] |
Vinnik Yu.S., Yur'eva M.Yu., Teplyakova O.V. et al. The value of endothelial dysfunction in the pathogenesis of local cold injury. Russkiy meditsinskiy zhurnal. 2014; 22 (31): 2204–2206. (In Russ.) |
| [36] |
Shapovalov K.G. The role of endothelial dysfunction in the alteration of tissues with local cold injury. Tromboz, gemostaz i reologiya. 2016; (4): 26–30. (In Russ.) |
| [37] |
Lycheva N.A., Shakhmatov I.I., Blazhko A.A., Sedov A.V. Modulating effects of moderate hypothermia on the state of the hemostatic system and microvasculation in rats. Sovremennye problemy nauki i obrazovaniya. 2016; (5): 83. (In Russ.) |
| [38] |
Shapkin Yu.G., Stekol'nikov N.Yu., Gamzatova P.K., Odnokozova Yu.S. Endothelial dysfunction in the remote period of cold injury. Vestnik ehksperimentalnoy i klinicheskoy khirurgii. 2014; 7 (4): 359–363. (In Russ.) |
| [39] |
Beyer A.M., Freed J.K., Durand M.J. Critical role for telomerase in the mechanism of fow-mediated dilation in the human microcirculation. Circ. Res. 2016; 118 (5): 856–866. DOI: 10.1161/CIRCRESAHA.115.307918. |
Lycheva N.A., Sedov A.V., Makushkina D.A., Shakhmatov I.I., Vdovin V.M.
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