Krupičková Petra, Mlček Mikuláš, Huptych Michal, Mormanová Zuzana, Bouček Tomáš, Belza Tomáš, Lacko Stanislav, Černý Miloš, Neužil Petr, Kittnar Otomar, Linhart Aleš, Bělohlávek Jan
First Faculty of Medicine, Charles University in Prague, Katerinska 1660/32, 121 08, Prague 2, Czech Republic.
Department of Neonatology with NICU, University Hospital in Motol, V Uvalu 84, 150 06, Prague 5, Czech Republic.
J Transl Med. 2016 Jun 8;14(1):163. doi: 10.1186/s12967-016-0934-5.
Current research highlights the role of microcirculatory disorders in post-cardiac arrest patients. Affected microcirculation shows not only dissociation from systemic hemodynamics but also strong connection to outcome of these patients. However, only few studies evaluated microcirculation directly during cardiac arrest (CA) and cardiopulmonary resuscitation (CPR). The aim of our experimental study in a porcine model was to describe sublingual microcirculatory changes during CA and CPR using recent videomicroscopic technology and provide a comparison to parameters of global hemodynamics.
Cardiac arrest was induced in 18 female pigs (50 ± 3 kg). After 3 min without treatment, 5 min of mechanical CPR followed. Continuous hemodynamic monitoring including systemic blood pressure and carotid blood flow was performed and blood lactate was measured at the end of baseline and CPR. Sublingual microcirculation was assessed by the Sidestream Dark Field (SDF) technology during baseline, CA and CPR. Following microcirculatory parameters were assessed off-line separately for capillaries (≤20 µm) and other vessels: total and perfused vessel density (TVD, PVD), proportion of perfused vessels (PPV), microvascular flow index (MFI) and heterogeneity index (HI).
In comparison to baseline the CA small vessel microcirculation was only partially preserved: TVD 15.64 (13.59-18.48) significantly decreased to 12.51 (10.57-13.98) mm/mm(2), PVD 15.57 (13.56-17.80) to 5.53 (4.17-6.60) mm/mm(2), PPV 99.64 (98.05-100.00) to 38.97 (27.60-46.29) %, MFI 3.00 (3.00-3.08) to 1.29 (1.08-1.58) and HI increased from 0.08 (0.00-0.23) to 1.5 (0.71-2.00), p = 0.0003 for TVD and <0.0001 for others, respectively. Microcirculation during ongoing CPR in small vessels reached 59-85 % of the baseline values: TVD 13.33 (12.11-15.11) mm/mm(2), PVD 9.34 (7.34-11.52) mm/mm(2), PPV 72.34 (54.31-87.87) %, MFI 2.04 (1.58-2.42), HI 0.65 (0.41-1.07). The correlation between microcirculation and global hemodynamic parameters as well as to lactate was only weak to moderate (i.e. Spearman's ρ 0.02-0.51) and after adjustment for multiple correlations it was non-significant.
Sublingual microcirculatory parameters did not correlate with global hemodynamic parameters during simulated porcine model of CA and CPR. SDF imaging provides additional information about tissue perfusion in the course of CPR.
当前研究强调了微循环障碍在心脏骤停后患者中的作用。受影响的微循环不仅与全身血流动力学分离,而且与这些患者的预后密切相关。然而,仅有少数研究在心脏骤停(CA)和心肺复苏(CPR)期间直接评估微循环。我们在猪模型上进行的实验研究旨在使用最新的视频显微镜技术描述CA和CPR期间舌下微循环的变化,并与整体血流动力学参数进行比较。
对18只雌性猪(50±3kg)诱导心脏骤停。未经治疗3分钟后,进行5分钟的机械CPR。进行连续血流动力学监测,包括测量全身血压和颈动脉血流,并在基线和CPR结束时测量血乳酸。在基线、CA和CPR期间通过侧流暗视野(SDF)技术评估舌下微循环。分别离线评估毛细血管(≤20μm)和其他血管的以下微循环参数:总血管密度和灌注血管密度(TVD、PVD)、灌注血管比例(PPV)、微血管血流指数(MFI)和异质性指数(HI)。
与基线相比,CA期间小血管微循环仅部分得以保留:TVD从15.64(13.59 - 18.48)显著降至12.51(10.57 - 13.98)mm/mm²,PVD从15.57(13.56 - 17.80)降至5.53(4.17 - 6.60)mm/mm²,PPV从99.64(98.05 - 100.00)降至38.97(27.60 - 46.29)%,MFI从3.00(3.00 - 3.08)降至1.29(1.08 - 1.58),HI从0.08(0.00 - 0.23)增至1.5(0.71 - 2.00),TVD的p = 0.0003,其他参数的p < 0.0001。正在进行CPR时小血管的微循环达到基线值的59 - 85%:TVD为13.33(12.11 - 1)
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