Arnaldo Dubin

Increasing arterial blood pressure with norepinephrine does not improve microcirculatory blood flow: a prospective study

IntroductionOur goal was to assess the effects of titration of a norepinephrine infusion to increasing levels of mean arterial pressure (MAP) on sublingual microcirculation.MethodsTwenty septic shock patients were prospectively studied in two teaching intensive care units. The patients were mechanically ventilated and required norepinephrine to maintain a mean arterial pressure (MAP) of 65 mmHg. We measured systemic hemodynamics, oxygen transport and consumption (DO2 and VO2), lactate, albumin-corrected anion gap, and gastric intramucosal-arterial PCO2 difference (ΔPCO2). Sublingual microcirculation was evaluated by sidestream darkfield (SDF) imaging. After basal measurements at a MAP of 65 mmHg, norepinephrine was titrated to reach a MAP of 75 mmHg, and then to 85 mmHg. Data were analyzed using repeated measurements ANOVA and Dunnett test. Linear trends between the different variables and increasing levels of MAP were calculated.ResultsIncreasing doses of norepinephrine reached the target values of MAP. The cardiac index, pulmonary pressures, systemic vascular resistance, and left and right ventricular stroke work indexes increased as norepinephrine infusion was augmented. Heart rate, DO2 and VO2, lactate, albumin-corrected anion gap, and ΔPCO2 remained unchanged. There were no changes in sublingual capillary microvascular flow index (2.1 ± 0.7, 2.2 ± 0.7, 2.0 ± 0.8) and the percent of perfused capillaries (72 ± 26, 71 ± 27, 67 ± 32%) for MAP values of 65, 75, and 85 mmHg, respectively. There was, however, a trend to decreased capillary perfused density (18 ± 10,17 ± 10,14 ± 2 vessels/mm2, respectively, ANOVA P = 0.09, linear trend P = 0.045). In addition, the changes of perfused capillary density at increasing MAP were inversely correlated with the basal perfused capillary density (R2 = 0.95, P < 0.0001).ConclusionsPatients with septic shock showed severe sublingual microcirculatory alterations that failed to improve with the increases in MAP with norepinephrine. Nevertheless, there was a considerable interindividual variation. Our results suggest that the increase in MAP above 65 mmHg is not an adequate approach to improve microcirculatory perfusion and might be harmful in some patients.

Quantitative assessment of the microcirculation in healthy volunteers and in patients with septic shock.

Objective: The microcirculation of septic patients has been characterized only semiquantitatively. Our goal was to characterize the sublingual microcirculation in healthy volunteers and patients with septic shock quantitatively. Our hypotheses were that 1) hyperdynamic blood flow is absent in septic shock; 2) nonsurvivors show more severe alterations than survivors; and 3) quantitative and semiquantitative microcirculatory parameters have a similar performance. Design: Prospective, observational study. Setting: Teaching intensive care unit in a university-affiliated hospital. Subjects: Twenty-five normal volunteers and 25 patients with septic shock. Interventions: None. Measurements and Main Results: The sublingual microcirculation was evaluated by means of sidestream dark field imaging. Semiquantitative and quantitative microcirculatory parameters were determined through the use of applied software. Septic patients showed decreased perfused capillary density (13.2 ± 4.4 mm/mm2 vs. 16.6 ± 1.6 mm/mm2), proportion of perfused capillaries (0.78 ± 0.23 vs. 1.00 ± 0.01), microvascular flow index (2.15 ± 0.61 vs. 2.97 ± 0.03), and red blood cell velocity (830 ± 183 µm/sec vs. 1332 ± 187 µm/sec) along with increased heterogeneity flow index (1.64 ±1.14 vs. 0.25 ± 0.19) compared with controls. No differences were found in total capillary density (16.9 ± 2.2 vs. 16.7 ± 1.6). Only 4% of capillaries analyzed showed red blood cell velocities >75th percentile of the velocities of the normal volunteers. The nonsurvivors exhibited decreased perfused capillary density, proportion of perfused capillaries, and microvascular flow index along with increased heterogeneity flow index compared with the survivors. The correlations between microvascular flow index and proportion of perfused capillaries, total capillary density and number of grid-crossing capillaries, and red blood cell velocities and microvascular flow index gave high R2 values (0.92, 0.65, and 0.52, respectively; p < .0001 for all). Conclusions: The main characteristics of sublingual microcirculation in patients with septic shock are hypoperfusion and increased flow heterogeneity. Hyperdynamic microvascular blood flow was not found. Nonsurvivors showed more severe alterations than survivors. Quantitative and semiquantitative microcirculatory variables displayed similar behaviors.

Comparison of three different methods of evaluation of metabolic acid-base disorders.

Objectives:The Stewart approach states that pH is primarily determined by Pco2, strong ion difference (SID), and nonvolatile weak acids. This method might identify severe metabolic disturbances that go undetected by traditional analysis. Our goal was to compare diagnostic and prognostic performances of the Stewart approach with a) the traditional analysis based on bicarbonate (HCO−3) and base excess (BE); and b) an approach relying on HCO−3, BE, and albumin-corrected anion gap (AGcorrected). Design:Prospective observational study. Setting:A university-affiliated hospital intensive care unit (ICU). Patients:Nine hundred thirty-five patients admitted to the ICU. Interventions:None. Measurements and Main Results:The Stewart approach detected an arterial metabolic alteration in 131 (14%) of patients with normal HCO−3 and BE, including 120 (92%) patients with metabolic acidosis. However, 108 (90%) of these patients had an increased AGcorrected. The Stewart approach permitted the additional diagnosis of metabolic acidosis in only 12 (1%) patients with normal HCO−3, BE, and AGcorrected. On the other hand, the Stewart approach failed to identify 27 (3%) patients with alterations otherwise observed with the use of HCO−3, BE, and AGcorrected (16 cases of acidosis and 11 of alkalosis). SID and BE, and strong ion gap (SIG) and AGcorrected, were tightly correlated (R2 = .86 and .97, p < .0001 for both) with narrow 95% limits of agreement (8 and 3 mmol/L, respectively). Areas under receiver operating characteristic curves to predict 30-day mortality were 0.83, 0.62, 0.61, 0.60, 0.57, 0.56, and 0.67 for Sepsis-related Organ Failure Assessment (SOFA) score, SIG, AGcorrected, SID, BE, HCO−3, and lactates, respectively (SOFA vs. the rest, p < .0001). Conclusions:In this large group of critically ill patients, diagnostic performance of the Stewart approach exceeded that of HCO−3 and BE. However, when AGcorrected was included in the analysis, the Stewart approach did not offer any diagnostic or prognostic advantages.

Comparison of 6% hydroxyethyl starch 130/0.4 and saline solution for resuscitation of the microcirculation during the early goal-directed therapy of septic patients ☆,☆☆

PURPOSE The aim of this study was to show that 6% hydroxyethyl starch (HES) 130/0.4 achieves a better resuscitation of the microcirculation than normal saline solution (SS), during early goal-directed therapy (EGDT) in septic patients. MATERIALS AND METHODS Patients with severe sepsis were randomized for EGDT with 6% HES 130/0.4 (n = 9) or SS (n = 11). Sublingual microcirculation was evaluated by sidestream dark field imaging 24 hours after the beginning of EGDT. RESULTS On admission, there were no differences in Sequential Organ Failure Assessment score, mean arterial pressure, lactate, or central venous oxygen saturation. After 24 hours, no difference arose in those parameters. Sublingual capillary density was similar in both groups (21 ± 8 versus 20 ± 3 vessels/mm(2)); but capillary microvascular flow index, percent of perfused capillaries, and perfused capillary density were higher in 6% HES 130/0.4 (2.5 ± 0.5 versus 1.6 ± 0.7, 84 ± 15 versus 53 ± 26%, and 19 ± 6 versus 11 ± 5 vessels/mm(2), respectively, P < .005). CONCLUSIONS Fluid resuscitation with 6% HES 130/0.4 may have advantages over SS to improve sublingual microcirculation. A greater number of patients would be necessary to confirm these findings.

Persistent villi hypoperfusion explains intramucosal acidosis in sheep endotoxemia.

Objective: To test the hypothesis that persistent villi hypoperfusion explains intramucosal acidosis after endotoxemic shock resuscitation. Design: Controlled experimental study. Setting: University-based research laboratory. Subjects: A total of 14 anesthetized, mechanically ventilated sheep. Interventions: Sheep were randomly assigned to endotoxin (n = 7) or control groups (n = 7). The endotoxin group received 5 &mgr;g/kg endotoxin, followed by 4 &mgr;g·kg−1·hr−1 for 150 mins. After 60 mins of shock, hydroxyethylstarch resuscitation was given to normalize oxygen transport for an additional 90 mins. Measurements and Main Results: Endotoxin infusion decreased mean arterial blood pressure, cardiac output, and superior mesenteric artery blood flow (96 ± 10 vs. 51 ± 20 mm Hg, 145 ± 30 vs. 90 ± 30 mL·min−1·kg−1, and 643 ± 203 vs. 317 ± 93 mL·min−1·kg−1, respectively; p < .05 vs. basal), whereas it increased intramucosal–arterial Pco2 (&Dgr;Pco2) and arterial lactate (3 ± 3 vs. 14 ± 8 mm Hg, and 1.5 ± 0.5 vs. 3.7 ± 1.3 mmol/L; p < .05). Sublingual, and serosal and mucosal intestinal microvascular flow indexes, and the percentage of perfused ileal villi were reduced (3.0 ± 0.1 vs. 2.3 ± 0.4, 3.2 ± 0.2 vs. 2.4 ± 0.6, 3.0 ± 0.0 vs. 2.0 ± 0.2, and 98% ± 3% vs. 76% ± 10%; p < .05). Resuscitation normalized mean arterial blood pressure (92 ± 13 mm Hg), cardiac output (165 ± 32 mL·min−1·kg−1), superior mesenteric artery blood flow (683 ± 192 mL·min−1·kg−1), and sublingual and serosal intestinal microvascular flow indexes (2.8 ± 0.5 and 3.5 ± 0.7). Nevertheless, &Dgr;Pco2, lactate, mucosal intestinal microvascular flow indexes, and percentage of perfused ileal villi remained altered (10 ± 6 mm Hg, 3.7 ± 0.9 mmol/L, 2.3 ± 0.4, and 78% ± 11%; p < .05). Conclusions: In this model of endotoxemia, fluid resuscitation corrected both serosal intestinal and sublingual microcirculation but was unable to restore intestinal mucosal perfusion. Intramucosal acidosis might be due to persistent villi hypoperfusion.

International study on microcirculatory shock occurrence in acutely ill patients

Objectives:Microcirculatory alterations are associated with adverse outcome in subsets of critically ill patients. The prevalence and significance of microcirculatory alterations in the general ICU population are unknown. We studied the prevalence of microcirculatory alterations in a heterogeneous ICU population and its predictive value in an integrative model of macro- and microcirculatory variables. Design:Multicenter observational point prevalence study. Setting:The Microcirculatory Shock Occurrence in Acutely ill Patients study was conducted in 36 ICUs worldwide. Patients:A heterogeneous ICU population consisting of 501 patients. Interventions:None. Measurements and Main Results:Demographic, hemodynamic, and laboratory data were collected in all ICU patients who were 18 years old or older. Sublingual Sidestream Dark Field imaging was performed to determine the prevalence of an abnormal capillary microvascular flow index (< 2.6) and its additional value in predicting hospital mortality. In 501 patients with a median Acute Physiology and Chronic Health Evaluation II score of 15 (10–21), a Sequential Organ Failure Assessment score of 5 (2–8), and a hospital mortality of 28.4%, 17% exhibited an abnormal capillary microvascular flow index. Tachycardia (heart rate > 90 beats/min) (odds ratio, 2.71; 95% CI, 1.67–4.39; p < 0.001), mean arterial pressure (odds ratio, 0.979; 95% CI, 0.963–0.996; p = 0.013), vasopressor use (odds ratio, 1.84; 95% CI, 1.11–3.07; p = 0.019), and lactate level more than 1.5 mEq/L (odds ratio, 2.15; 95% CI, 1.28–3.62; p = 0.004) were independent risk factors for hospital mortality, but not abnormal microvascular flow index. In reference to microvascular flow index, a significant interaction was observed with tachycardia. In patients with tachycardia, the presence of an abnormal microvascular flow index was an independent, additive predictor for in-hospital mortality (odds ratio, 3.24; 95% CI, 1.30–8.06; p = 0.011). This was not true for nontachycardic patients nor for the total group of patients. Conclusions:In a heterogeneous ICU population, an abnormal microvascular flow index was present in 17% of patients. This was not associated with mortality. However, in patients with tachycardia, an abnormal microvascular flow index was independently associated with an increased risk of hospital death.

Peripheral arterial blood pressure monitoring adequately tracks central arterial blood pressure in critically ill patients: an observational study

IntroductionInvasive arterial blood pressure monitoring is a common practice in intensive care units (ICUs). Accuracy of invasive blood pressure monitoring is crucial in evaluating the cardiocirculatory system and adjusting drug therapy for hemodynamic support. However, the best site for catheter insertion is controversial. Lack of definitive information in critically ill patients makes it difficult to establish guidelines for daily practice in intensive care. We hypothesize that peripheral and central mean arterial blood pressures are interchangeable in critically ill patients.MethodsThis is a prospective, observational study carried out in a surgical-medical ICU in a teaching hospital. Fifty-five critically ill patients with clinical indication of invasive arterial pressure monitoring were included in the study. No interventions were made. Simultaneous measurements were registered in central (femoral) and peripheral (radial) arteries. Bias and precision between both measurements were calculated with Bland-Altman analysis for the whole group. Bias and precision were compared between patients receiving high doses of vasoactive drugs (norepinephrine or epinephrine >0.1 μg/kg/minute or dopamine >10 μg/kg/minute) and those receiving low doses (norepinephrine or epinephrine <0.1 μg/kg/minute or dopamine <10 μg/kg/minute).ResultsCentral mean arterial pressure was 3 ± 4 mmHg higher than peripheral mean arterial pressure for the whole population and there were no differences between groups (3 ± 4 mmHg for both groups).ConclusionMeasurement of mean arterial blood pressure in radial or femoral arteries is clinically interchangeable. It is not mandatory to cannulate the femoral artery, even in critically ill patients receiving high doses of vasoactive drugs.

Effects of levosimendan and dobutamine in experimental acute endotoxemia: a preliminary controlled study

ObjectiveTo test the hypothesis that levosimendan increases systemic and intestinal oxygen delivery (DO2) and prevents intramucosal acidosis in septic shock.DesignProspective, controlled experimental study.SettingUniversity-based research laboratory.SubjectsNineteen anesthetized, mechanically ventilated sheep.InterventionsEndotoxin-treated sheep were randomly assigned to three groups: control (n = 7), dobutamine (10 μg/kg/min, n = 6) and levosimendan (100 μg/kg over 10 min followed by 100 μg/kg/h, n = 6) and treated for 120 min.Measurements and main resultsAfter endotoxin administration, systemic and intestinal DO2 decreased (24.6 ± 5.2 vs 15.3 ± 3.4 ml/kg/min and 105.0 ± 28.1 vs 55.8 ± 25.9 ml/kg/min, respectively; p < 0.05 for both). Arterial lactate and the intramucosal–arterial PCO2 difference (ΔPCO2) increased (1.4 ± 0.3 vs 3.1 ± 1.5 mmHg and 9 ± 6 vs 23 ± 6 mmHg mmol/l, respectively; p < 0.05). Systemic DO2 was preserved in the dobutamine-treated group (22.3 ± 4.7 vs 26.8 ± 7.0 ml/min/kg, p = NS) but intestinal DO2 decreased (98.9 ± 0.2 vs 68.0 ± 22.9 ml/min/kg, p < 0.05) and ΔPCO2 increased (12 ± 5 vs 25 ± 11 mmHg, p < 0.05). The administration of levosimendan prevented declines in systemic and intestinal DO2 (25.1 ± 3.0 vs 24.0 ± 6.3 ml/min/kg and 111.1 ± 18.0 vs 98.2 ± 23.1 ml/min/kg, p = NS for both) or increases in ΔPCO2 (7 ± 7 vs 10 ± 8, p = NS). Arterial lactate increased in both the dobutamine and levosimendan groups (1.6 ± 0.3 vs 2.5 ± 0.7 and 1.4 ± 0.4 vs. 2.9 ± 1.1 mmol/l, p = NS between groups).ConclusionsCompared with dobutamine, levosimendan increased intestinal blood flow and diminished intramucosal acidosis in this experimental model of sepsis.

The distinct clinical profile of chronically critically ill patients: a cohort study

IntroductionOur goal was to describe the epidemiology, clinical profiles, outcomes, and factors that might predict progression of critically ill patients to chronically critically ill (CCI) patients, a still poorly characterized subgroup.MethodsWe prospectively studied all patients admitted to a university-affiliated hospital intensive care unit (ICU) between 1 July 2002 and 30 June 2005. On admission, we recorded epidemiological data, the presence of organ failure (multiorgan dysfunction syndrome (MODS)), underlying diseases (McCabe score), acute respiratory distress syndrome (ARDS) and shock. Daily, we recorded MODS, ARDS, shock, mechanical ventilation use, lengths of ICU and hospital stay (LOS), and outcome. CCI patients were defined as those having a tracheotomy placed for continued ventilation. Clinical complications and time to tracheal decannulation were registered. Predictors of progression to CCI were identified by logistic regression.ResultsNinety-five patients (12%) fulfilled the CCI definition and, compared with the remaining 690 patients, these CCI patients were sicker (APACHE II, 21 ± 7 versus 18 ± 9 for non-CCI patients, p = 0.005); had more organ dysfunctions (SOFA 7 ± 3 versus 6 ± 4, p < 0.003); received more interventions (TISS 32 ± 10 versus 26 ± 8, p < 0.0001); and had less underlying diseases and had undergone emergency surgery more frequently (43 versus 24%, p = 0.001). ARDS and shock were present in 84% and 83% of CCI patients, respectively, versus 44% and 48% in the other patients (p < 0.0001 for both). CCI patients had higher expected mortality (38% versus 32%, p = 0.003), but observed mortality was similar (32% versus 35%, p = 0.59). Independent predictors of progression to CCI were ARDS on admission, APACHE II and McCabe scores (odds ratio (OR) 2.26, p < 0.001; OR 1.03, p < 0.01; and OR 0.34, p < 0.0001, respectively). Lengths of mechanical ventilation, ICU and hospital stay were 33 (24 to 50), 39 (29 to 55) and 55 (37 to 84) days, respectively. Tracheal decannulation was achieved at 40 ± 19 days.ConclusionCCI patients were a severely ill population, in which ARDS, shock, and MODS were frequent on admission, and who suffered recurrent complications during their stay. However, their prognosis was equivalent to that of the other ICU patients. ARDS, APACHE II and McCabe scores were independent predictors of evolution to chronicity.

Intramucosal–arterial PCO2 gap fails to reflect intestinal dysoxia in hypoxic hypoxia

IntroductionAn elevation in intramucosal–arterial PCO2 gradient (ΔPCO2) could be determined either by tissue hypoxia or by reduced blood flow. Our hypothesis was that in hypoxic hypoxia with preserved blood flow, ΔPCO2 should not be altered.MethodsIn 17 anesthetized and mechanically ventilated sheep, oxygen delivery was reduced by decreasing flow (ischemic hypoxia, IH) or arterial oxygen saturation (hypoxic hypoxia, HH), or no intervention was made (sham). In the IH group (n = 6), blood flow was lowered by stepwise hemorrhage; in the HH group (n = 6), hydrochloric acid was instilled intratracheally. We measured cardiac output, superior mesenteric blood flow, gases, hemoglobin, and oxygen saturations in arterial blood, mixed venous blood, and mesenteric venous blood, and ileal intramucosal PCO2 by tonometry. Systemic and intestinal oxygen transport and consumption were calculated, as was ΔPCO2. After basal measurements, measurements were repeated at 30, 60, and 90 minutes.ResultsBoth progressive bleeding and hydrochloric acid aspiration provoked critical reductions in systemic and intestinal oxygen delivery and consumption. No changes occurred in the sham group. ΔPCO2 increased in the IH group (12 ± 10 [mean ± SD] versus 40 ± 13 mmHg; P < 0.001), but remained unchanged in HH and in the sham group (13 ± 6 versus 10 ± 13 mmHg and 8 ± 5 versus 9 ± 6 mmHg; not significant).DiscussionIn this experimental model of hypoxic hypoxia with preserved blood flow, ΔPCO2 was not modified during dependence of oxygen uptake on oxygen transport. These results suggest that ΔPCO2 might be determined primarily by blood flow.