Piagnerelli Michaël, Vanderelst Julie, Rousseau Alexandre, Monteyne Daniel, Perez-Morga David, Biston Patrick, Zouaoui Boudjeltia Karim
Intensive Care, CHU-Charleroi Marie-Curie, Université Libre de Bruxelles, Charleroi, Belgium.
Experimental Medicine Laboratory, CHU-Charleroi Vésale, ULB 222 Unit, Université Libre de Bruxelles, Montigny-le-Tilleul, Belgium.
Front Physiol. 2022 Feb 28;13:849910. doi: 10.3389/fphys.2022.849910. eCollection 2022.
Acute respiratory distress syndrome due to coronavirus disease 2019 (COVID-19) is associated with high mortality. Several studies have reported that the microcirculation responds adequately to hypoxia in COVID-19 patients by increasing oxygen availability, in contrast to the inadequate response observed in patients with bacterial sepsis. Red blood cells (RBCs), the key cells for oxygen transport, and notably their rheology, are altered during bacterial sepsis, but few data are available in patients with COVID-19.
In this prospective, non-interventional study, shape was assessed on admission (or inclusion for the volunteers) using Pearson's second coefficient of dissymmetry (PCD) on the histogram obtained with a flow cytometer technique. A null value represents a perfect spherical shape. RBC deformability was determined using ektacytometry by the elongation index in relation to the shear stress (0.3 to 50 Pa) applied to the RBC membrane. A higher elongation index indicates greater RBC deformability. Results were compared across groups. Scanning electronic microscopy was performed on RBCs from COVID-19 patients. RBC shape and deformability were also assessed on days 3 and 7 in COVID-19 patients.
Forty-nine ICU patients were included (30 with COVID-19 ARDS and 19 with bacterial sepsis). ARDS was more severe in patients with COVID-19 than in those with sepsis (PaO/FiO 99 [73-154] vs. 270 [239-295] mmHg < 0.001) and mechanical ventilation was more frequently required (87 vs. 21%; < 0.001). Mortality was significantly higher in COVID-19 patients (15/30 [50%] vs. 4/19 [21%], = 0.046). RBCs were significantly more spherical in septic patients (PCD -0.40 [-0.56; -0.18]) than in healthy volunteers (PCD -0.54 [-0.66; -0.49]) but not than in COVID-19 patients (-0.48 [-0.55; -0.43]). In COVID-19 non-survivors ( = 11), sphericity was more marked on day 7 (PCD -0.40 [-0.47; -0.28]) than on day 1 (PCD vs. -0.49 [-0.59; -0.44]); = 0.045. At ICU admission, RBC deformability was altered for all shear stress values studied in septic patients compared to COVID-19 patients and healthy volunteers (maximum elongation index for septic patients: 0.600 [0.594-0.630] vs. 0.646 [0.637-0.653] for COVID-19 patients and 0.640 [0.635-0.650] for healthy volunteers; both < 0.001). In the 18 COVID-19 patients studied for 7 days, RBC deformability did not change over time and was not related to outcome. At day 1, RBCs from COVID-19 patients showed a normal structure on scanning electronic microscopy.
In contrast to the significantly altered shape and decreased deformability in patients with bacterial sepsis, RBCs from severely hypoxemic COVID-19 patients had normal deformability on admission, and this pattern did not change over the first week despite a more spherical shape in non-survivors. As RBCs are the key cell for oxygen transport, this maintenance of normal deformability may contribute to the adequate microcirculatory response to severe hypoxia of the microcirculation that has been observed in these patients.
2019冠状病毒病(COVID-19)所致急性呼吸窘迫综合征与高死亡率相关。多项研究报告称,与细菌性脓毒症患者观察到的反应不足相反,COVID-19患者的微循环通过增加氧供应对缺氧有充分反应。红细胞(RBC)是氧运输的关键细胞,尤其是其流变学特性,在细菌性脓毒症期间会发生改变,但COVID-19患者的数据较少。
在这项前瞻性、非干预性研究中,在入院时(或志愿者纳入时)使用流式细胞仪技术获得的直方图上的皮尔逊第二不对称系数(PCD)评估形状。零值代表完美的球形。使用激光衍射法通过与施加于RBC膜的剪切应力(0.3至50 Pa)相关的伸长指数来测定RBC变形性。较高的伸长指数表明RBC变形性更大。对各组结果进行比较。对COVID-19患者的RBC进行扫描电子显微镜检查。还在COVID-19患者的第3天和第7天评估RBC形状和变形性。
纳入49例重症监护病房患者(30例COVID-19急性呼吸窘迫综合征患者和19例细菌性脓毒症患者)。COVID-19患者的急性呼吸窘迫综合征比脓毒症患者更严重(氧合指数99 [73 - 154] vs. 270 [239 - 295] mmHg,P < 0.001),且更频繁需要机械通气(87% vs. 21%;P < 0.001)。COVID-19患者的死亡率显著更高(15/30 [50%] vs. 4/19 [21%],P = 0.046)。脓毒症患者的RBC比健康志愿者的RBC更呈球形(PCD -0.40 [-0.56; -0.18]),但不比COVID-19患者的更球形(-0.48 [-0.55; -0.43])。在COVID-19非幸存者(n = 11)中,第7天的球形度比第1天更明显(PCD -0.40 [-0.47; -0.28] vs. -0.49 [-0.59; -0.44]);P = 0.045。在重症监护病房入院时,与COVID-19患者和健康志愿者相比,脓毒症患者在所有研究的剪切应力值下RBC变形性均发生改变(脓毒症患者的最大伸长指数:0.600 [0.594 - 0.630],COVID-19患者为0.646 [0.637 - 0.653],健康志愿者为0.640 [0.635 - 0.650];均P < 0.001)。在研究了7天的18例COVID-19患者中,RBC变形性未随时间变化,且与预后无关。在第1天,COVID-19患者的RBC在扫描电子显微镜下显示结构正常。
与细菌性脓毒症患者形状显著改变和变形性降低相反,严重低氧血症的COVID-19患者的RBC在入院时变形性正常,尽管非幸存者的形状更呈球形,但在第一周内这种模式并未改变。由于RBC是氧运输的关键细胞,这种正常变形性的维持可能有助于这些患者已观察到的微循环对严重缺氧的充分反应。
