Respiratory Failure Clinical Trial
Official title:
Hyperoxia, Erythropoiesis and Tissue Oxygenation in Critically Ill Patient
Prospective observational study in 40 adult critically ill patients. Patients were eligible if they were mechanically ventilated with an FiO2 ≤0.5 and PaO2/FiO2 ≥200 mmHg and hemodynamically stable with a hemoglobin ≥9 g/dL, no acute bleeding or need for blood transfusions, no renal failure, no chronic obstructive pulmonary disease. Twenty patients (hyperoxia group) underwent a 2-hour exposure to normobaric hyperoxia (FiO2 1.0), 20 patients were evaluated as controls. Serum erythropoietin (EPO) was measured at baseline, 24h and 48h. Serum Glutathione (GSH) and reacting oxygen species (ROS) were assessed at baseline (t0), after 2 hours of hyperoxia (t1) and 2 hours after the return to baseline FiO2 (t2). Sidestream dark field videomicroscopy was applied sublingually to assess the microvascular response to hyperoxia. Near infrared spectroscopy with a vascular occlusion test was applied at t0, t1, t2.
Interventions:
Forty patients were enrolled in total. The first 20 patients (hyperoxia group) underwent a
2-hour period of normobaric hyperoxia (FiO2 1.0), according to the protocol applied in. No
variation in the FiO2 was applied for the other 20 patients (control group). All patients
were enrolled in the morning and hyperoxia was performed in the time range between 10am-2pm
in order to minimize variability due to the circadian rhythm of EPO production. No
variations to sedation or vasopressor dose were applied during the study period.
Measurements:
On the study day, measurements were taken at 2-hour intervals: baseline (t0), under 1.0 FiO2
(t1) and after returning to baseline FiO2 (t2). These included: body temperature, heart rate
(HR), mean arterial pressure (MAP), arterial oxygen saturation (SaO2), arterial partial
pressure of oxygen (PaO2) and carbon dioxide (PaCO2), PaO2/FiO2, arterial pH, bicarbonate,
base excess) and central venous saturation (ScvO2) blood gases, arterial lactates,
evaluation of the sublingual microcirculation and tissue oxygenation. The same measurements
were performed in the control group at 2-hour intervals. In 24 patients (12 patients per
group), arterial blood samples (10 mL) were taken at each time point and immediately
centrifuged; plasma and serum were stored at -70°C for subsequent analyses. Serum EPO,
reticulocyte count, hemoglobin (Hb) and hematocrit were measured at 8am in all patients on
the study day, at 24 and 48 hours.
Microcirculation measurements with sidestream dark field imaging The sublingual
microcirculation was evaluated with sidestream dark field (SDF) videomicroscopy (Microscan,
Microvision Medical, Amsterdam, NL). This technique has been described in details elsewhere.
Poor-quality images were discarded, and three images for each time point were selected and
analyzed by using a computer software package (Automated Vascular Analysis Software;
Microvision Medical BV). According to the consensus report on the performance and evaluation
of microcirculation using SDF imaging, total vessel density (TVD), perfused vessel density
(PVD), De Backer score, proportion of perfused vessels (PPV), microcirculatory flow index
(MFI), flow heterogeneity index (FHI) and blood flow velocity (BFV) were calculated in small
or medium vessels (diameter ≤ or >20 μm, respectively), as previously described. In addition
to discontinuous microvascular measurements at 2-hour intervals, the investigators evaluated
the early response of the microcirculation to variations in the FiO2 on one and the same
site of sublingual mucosa in order to detect even minute changes in the microvascular
density and flow. Directly after obtaining measurements from 5 different sites, the SDF
probe was placed in a stable position and manipulated to avoid any pressure artifacts or
secretions interfering with the analysis. By manually supporting the microscope, continuous
video recording was performed for at least 2 minutes during the variation of the FiO2 (start
or end of hyperoxia). Video clips of 10 s (2 per time point) corresponding to before
(baseline or 2h FiO2 1.0) and after (2 min FiO2 1.0 or 2 min after returning to baseline
FiO2) the variation of FiO2 were subsequently selected and analyzed.
Evaluation of peripheral tissue oxygenation and microvascular reactivity with near infrared
spectroscopy.
Near-infrared reflectance spectrophotometry (NIRS) (InSpectra™ Model 650; Hutchinson
Technology Inc., Hutchinson, USA) was used to measure peripheral tissue oxygen saturation
(StO2) and tissue Hb index (THI) at baseline and during a vascular occlusion test (VOT). A
15 mm-sized probe was placed on the skin of the thenar eminence, and a sphygmomanometer cuff
was placed around the (upper) arm to occlude the brachial artery. After a 3-minute period of
StO2 signal stabilization, arterial inflow was arrested by inflation of the cuff to 50 mmHg
above the systolic arterial pressure. The cuff was kept inflated until the StO2 decreased to
40% and then released. StO2 was continuously recorded during the reperfusion phase until
stabilization. The StO2 downslope (%/minute) was calculated from the regression line of the
first minute of StO2 decay after occlusion, providing an index of O2 consumption rate. The
StO2 upslope (%/minute) was obtained from the regression line of StO2 increase in the
reperfusion phase. The area under the curve (AUC) of the hyperemic response was also
calculated. StO2 upslope and the AUC of the StO2 reflect microvascular reactivity. All the
parameters were calculated by using a computer software package (version 3.03 InSpectra
Analysis Program; Hutchinson Technology Inc.).
Immunoassays :
Levels of ROS and GSH were measured in accordance with the instructions of the manufacturer.
Statistical analysis:
Statistical analysis was performed by using GraphPad Prism version 6 (GraphPad Software,
USA). Normality of distribution was checked by using the Kolmogorov-Smirnov test. Data were
presented as mean ± standard deviation or median [1st-3rd quartile], as appropriate. One-way
analysis of variance (ANOVA) for repeated measures with Bonferroni post-hoc test or Friedman
test with Dunn's multiple comparison test were used to evaluate changes over time in the
same group. Two-way ANOVA for repeated measures with Bonferroni post-hoc test was used to
evaluate differences between the two groups, where applicable. For non-normally distributed
variables, the Mann-Whitney U test was applied to evaluate difference between the two groups
at the same time point. A Spearman correlation coefficient was calculated to assess
correlations between variables. The alpha level of significance was set a priori at 0.05.
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Observational Model: Case Control, Time Perspective: Prospective
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