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Year in review 2010: Critical Care--Cardiology.
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PMID:  22152086     Owner:  NLM     Status:  MEDLINE    
We review key research papers in cardiology and intensive care published during 2010 in Critical Care and quote related studies published in other journals if appropriate. Papers were grouped into the following categories: cardiovascular therapies, biomarkers, hemodynamic monitoring, cardiovascular diseases, and microcirculation.
Daniel De Backer; Sabino Scolletta
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Publication Detail:
Type:  Journal Article; Review     Date:  2011-12-05
Journal Detail:
Title:  Critical care (London, England)     Volume:  15     ISSN:  1466-609X     ISO Abbreviation:  Crit Care     Publication Date:  2011  
Date Detail:
Created Date:  2012-03-27     Completed Date:  2013-06-12     Revised Date:  2013-06-27    
Medline Journal Info:
Nlm Unique ID:  9801902     Medline TA:  Crit Care     Country:  England    
Other Details:
Languages:  eng     Pagination:  241     Citation Subset:  IM    
Department of Intensive Care, Erasme University Hospital, Université Libre de Bruxelles, Route de Lennik 808, B-1070 Brussels, Belgium.
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MeSH Terms
Critical Care / methods*
Critical Illness / therapy
Heart Diseases / therapy*

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Journal ID (nlm-ta): Crit Care
Journal ID (iso-abbrev): Crit Care
ISSN: 1364-8535
ISSN: 1466-609X
Publisher: BioMed Central
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Copyright ©2011 BioMed Central Ltd
Print publication date: Year: 2011
Electronic publication date: Day: 5 Month: 12 Year: 2011
pmc-release publication date: Day: 5 Month: 12 Year: 2012
Volume: 15 Issue: 6
First Page: 241 Last Page: 241
PubMed Id: 22152086
ID: 3388636
Publisher Id: cc10542
DOI: 10.1186/cc10542

Year in review 2010: Critical Care - cardiology
Daniel De Backer1 Email:
Sabino Scolletta1 Email:
1Department of Intensive Care, Erasme University Hospital, Université Libre de Bruxelles, Route de Lennik 808, B-1070 Brussels, Belgium

Cardiovascular therapies

Vasopressor agents are the cornerstone of therapy for patients with septic shock. However, the time at which vasopressor agents should be introduced is controversial. Hamzaoui and colleagues evaluated the hemodynamic effects of early administration of norepinephrine in 105 patients with septic shock with life-threatening hypotension [1]. These patients had already received a limited amount of fluids (1,000 ml saline). Norepinephrine significantly increased the mean arterial pressure. The cardiac index increased from 3.2 ± 1.0 to 3.6 ± 1.1 l/minute/m2, which can be related to the beta (increase in heart rate or in contractility) or alpha (increase in preload by venous constriction) adrenergic effects of norepinephrine. The heart rate remained unchanged but the stroke volume increased, as a result of an increase in preload (global end-diastolic volume (GEDV) index increased from 694 ± 148 to 742 ± 168 ml/m2) and in contractility (cardiac function index increased from 4.7 ± 1.5 to 5.0 ± 1.6/minute). This effect was also observed in patients with poor cardiac contractility.

Another important issue covered is whether beta-blockers agents have some protective effects during critical diseases [2]. In this post hoc analysis of a large trial in 314 critically ill patients with acute respiratory failure, oral beta-blockers at admission were associated with a lower risk of in-hospital (hazard ratio 0.33 (0.14 to 0.74), P = 0.007) and 1-year mortality (hazard ratio 0.29 (0.16 to 0.51), P = 0.0003). The beneficial effect of oral beta-blockers at admission holds true in patients with acute renal failure related to cardiac or noncardiac causes. In addition, administration of oral beta-blockers before hospital discharge had additional beneficial effects on 1-year mortality. These results should be cautiously scrutinized. Information was only available on use of beta-blockers prior to admission and at hospital discharge, but not during the acute stage of the disease. The statement 'cessation of established therapy appears to be hazardous' is valid only for cessation at hospital discharge, while putting beta-blockers on hold during the decompensated stages was not investigated. Nevertheless, these results emphasize that every effort should be made to reintroduce usual therapy as soon as possible in patients admitted to the ICU and previously treated with beta-blockers.

Recently it has been shown that post-discharge mortality in patients with heart failure increased in the last two decades while 30-day and in-hospital mortality rates decreased over time [3]. Physicians should hence pay attention not only to implementing the best therapies for acute diseases but also to resuming therapies that may improve long-term outcome when these best therapies need to be transiently withheld.

Left heart failure can contribute to weaning failure [4,5]. Using echocardiography in 117 patients before and during the weaning trial, Caille and colleagues observed that - compared with successfully weaned patients - patients who failed weaning exhibited at baseline a significantly lower left ventricular ejection fraction and higher filling pressures (mitral E/E' 7.0 (5.0 to 9.2) vs. 5.6 (5.2 to 6.3), P = 0.04) [6]. Th is association is suggestive but does not prove that heart dysfunction contributed to weaning failure, as filling pressures increased in patients with altered cardiac function both in successful and in unsuccessful weaning trials. Interventional trials can only prove a causal link. Therapeutic options include continuous positive airway pressure and inotropic agents [7], but the effects of vasodilatory agents have not been well defined. Routsi and colleagues evaluated the hemodynamic effects of nitroglycerin in 12 chronic obstructive pulmonary disease patients who failed ≥3 consecutive weaning trials [8]. While the mean systemic arterial pressure, the rate-pressure product, the mean pulmonary arterial pressure, and the pulmonary artery occlusion pressure increased in failing trials, these variables remained stable during nitroglycerin administration. These favorable hemodynamic effects were associated with a successful spontaneous breathing trial and extubation in 92% and 88% of patients, respectively. Nitroglycerin can thus facilitate the weaning by restoring weaning-induced cardiovascular compromise.


Myocardial dysfunction is frequent in septic shock. The prognostic significance of tissue Doppler imaging and cardiac biomarkers (B-type natriuretic peptide (BNP), N-terminal pro-B-type natriuretic peptide P (NTproBNP), and troponin T) was investigated in 20 patients with septic shock [9]. An index of left ventricular filling pressures was significantly higher in hospital non-survivors and was one of the strongest predictors of outcome, with an area under the receiver operating characteristic (ROC) curve of 0.94, while for troponin T it was 0.86, for BNP 0.78, and for NTproBNP 0.67. Multiple logistic regression reported that systolic (ejection fraction) and diastolic dysfunctions, in addition to fluid balance and norepinephrine dosages, were independent predictors of BNP concentration. This study confirmed the important role of myocardial dysfunction in septic shock.

Copeptin is a in an indicator of vasopressin release. Potocki and colleagues evaluated the prognostic value of Copeptin, the C-terminal part of the vasopressin prohormone, alone and combined with NTproBNP in 287 patients admitted with acute dyspnea [10]. Copeptin levels were elevated in nonsurvivors (n = 29) compared with survivors at 30 days. When adjusted for common cardiovascular risk factors and NTproBNP, Copeptin was the strongest independent predictor for short-term mortality in all patients and especially in patients with acute decompensated heart failure.

In addition to risk stratification at baseline, biomarkers can also be used to evaluate the response to therapy. In a multicenter Italian observational study, in 287 patients with acutely decompensated heart failure, the evaluated changes in BNP at 24 hours and at discharge predicted adverse events [11]. There were 78 events through follow up (180 days), and in 58 of these patients the BNP level at discharge was >300 pg/ml. BNP reductions >25.6% at 24 hours and >46% at discharge were associated with less adverse events. These data indicate that the magnitude of the decrease in BNP and the absolute level of BNP at hospital discharge are predictors of adverse events.

Finally, the usefulness of lactate to detect hemodynamic impairment was evaluated in 1,176 patients with acute myocardial infarction [12]. Th e study population was divided into tertiles with lactate levels ≤1.1 (n = 410), 1.2 to 1.7 (n = 398) and ≥1.8 mmol/l (n = 368). Factors independently associated with higher lactate levels were hypotension, heart rate, thrombolysis in myocardial infarction flow 0 to 1, diabetes, and nonsmoking. Mortality at 30 days in the three groups was 2.0%, 1.5%, and 6.5%, respectively. Lactate measurements at admission in patients with acute myocardial infarction may help to improve risk stratification.

Hemodynamic monitoring
Cardiac output measurements

This year several studies focused on the validation of new hemodynamic devices or on the validation of existing devices in specific conditions. Pulse wave analysis allows determination of cardiac output (CO). As the different techniques use different algorithms, with or without calibration, their ability to measure CO and to detect changes in CO may vary [13]. In 17 postoperative cardiac surgery patients, the accuracy, bias, and trending ability of LiDCO™ (LiDCO Ltd, Cambridge, UK), PiCCO™ (Pulsion, Munich, Germany) and FloTrac™ (Edwards Lifesciences, Irvine, CA, USA) were compared with pulmonary artery catheter CO determinations (bolus thermodilution or continuously determined). The changes in CO with the four techniques were evaluated during several interventions (volume, vasopressor/dilator, and inotrope). The mean CO values were similar. The mean CO bias for each paired method was -0.18 l/minute (pulmonary artery catheter-LiDCO™), 0.24 l/minute (pulmonary artery catheter-PiCCO™), -0.43 l/minute (pulmonary artery catheter-FloTrac™), 0.06 l/minute (LiDCO™-PiCCO™), -0.63 l/minute (LiDCO™- FloTrac™) and -0.67 l/minute (PiCCO™-FloTrac™), with limits of agreement of 1.56, 2.22, 3.37, 2.03, 2.97, and 3.44 l/minute, respectively. The instantaneous directional changes between any paired CO measurements displayed good concordance but poor correlation (r2 = 0.36, 0.11, 0.08, 0.20, 0.23, and 0.11, respectively). These techniques thus display similar mean CO values, they often trend differently in response to therapy, and they show different interdevice agreement.

In another trial, CO provided by the FloTrac™ and PiCCO™ devices was compared with transpulmonary thermodilution before and after volume and norepinephrine administration in 80 septic patients [14]. The changes in CO induced by fluid expansion, and especially norepinephrine, were more adequately detected by the PiCCO™ than by the FloTrac™ device (better ROC curve area). Even though these data seem to indicate that FloTrac™ is less reliable than PiCCO™ to detect changes in CO, the methodology used by the authors favored PiCCO™ as this device was calibrated by transpulmonary thermodilution at baseline so that the only source of error with PiCCO™ could be post-intervention errors while FloTrac™ was submitted to potential errors at baseline as well as after the intervention.

Volumetric indices

In addition to CO measurements, calibrated devices may also provide additional measurements such as extra-vascular lung water (EVLW) and GEDV. In 30 consecutive autopsies, the measurements obtained with transpulmonary thermodilution (PiCCO™) were compared with postmortem lung weight [15]. EVLW determined using transpulmonary single thermodilution within 48 hours of death correlated closely with postmortem lung weight (r = 0.904, P < 0.001) but underestimated high values:

EVLW(ml)=0.56×lung weight(g)-58.0.

In 27 critically ill children, Lemson and colleagues evaluated the relationship between a chest X-ray score of pulmonary edema, markers of oxygenation, and EVLW [16]. The median EVLW index was 16 ml/kg (range 6 to 31). There was no significant correlation between EVLW and chest X-ray score or markers of oxygenation. These data indicate neither that chest X-ray and the oxygenation index are proportional to the degree of edema or that EVLW cannot be reliably measured in children. Future research should address this issue.

Finally, the site of injection of fluid bolus for transpulmonary thermodilution was also evaluated [17]. Transpulmonary thermodilution requires indicator injection via a central venous catheter usually placed via superior vena cava access. However, femoral access is sometimes used. Transpulmonary thermodilution and its derived variables, GEDV and EVLW, were compared in 24 patients using injections from both sites. The femoral site overestimated the jugular site (bias: cardiac index 0.3 l/minute/m2, GEDV 241 ml/m2, and EVLW 0.8 ml/kg) with wide limits of agreement (cardiac index 0.7 l/minute/m2, GEDV 250 ml/m2, and EVLW 3.5 ml/kg). The bias is due to a longer transit time from the femoral site, while repeatability of measurements mostly accounts for the wide limits of agreement.

A new system has been developed estimating GEDV and EVLW from a different analysis of the transpulmonary thermodilution curve [18]. The new system (VolumeView™; Edwards Lifesciences) was compared with the PiCCO™ system (PulsioCath; Pulsion) in 11 anesthetized and mechanically ventilated pigs. Measurements were made during inotropic stimulation, hypovolemia, hypervolemia, and after inducing acute lung injury (oleic acid). GEDV obtained with both techniques correlated closely (r2 = 0.79), with a mean bias of -11 ± 80 ml (reference-new) and a percentage error of 14%. EVLW also closely correlated (r2 = 0.97), with a mean bias of -5 ± 72 ml and a percentage error of 15%. In these experimental conditions, the new and current systems to assess GEDV and EVLW agreed.

Mixed venous saturation and central venous saturation

Controversy remains regarding the relationship between central venous saturation (ScvO2) and mixed venous saturation (SvO2) in patients with sepsis or septic shock, and little is known on the potential influence of the source (splanchnic or nonsplanchnic) of sepsis on this relationship. In this prospective observational two-center study, ScvO2 and SvO2 were concurrently determined during the first 24 hours after admission in a group of 53 patients with severe sepsis [19]. A total of 265 paired blood samples were obtained. The bias was minimal, as ScvO2 overestimated SvO2 by less than 5%, but limits of agreement were wide (14%). Similar bias and agreement were observed for changes in ScvO2 and SvO2. The distribution of the ScvO2-SvO2 difference was similar in survivors and nonsurvivors, and in patients with sepsis of splanchnic and nonsplanchnic origin.

To further explore which factors affect the gradient between ScvO2 and SvO2, Mozina and Podbregar evaluated whether this gradient may be predicted by measurements of thenar muscle tissue oxygenation (StO2) measured with near-infrared spectroscopy [20]. During transient arterial occlusion, StO2 decreases more slowly in sepsis/septic shock patients. In 52 patients with severe left heart failure and severe sepsis/septic shock, the ScvO2-SvO2 difference correlated with plasma lactate (Pearson coefficient = 0.400, P = 0.003) and the StO2 deoxygenation rate (Pearson coefficient = 0.651, P = 0.001). This relationship was not affected by dobutamine therapy. It is difficult to know whether this association is due to a common mechanism or just reflects severity of disease.

In an interventional trial, Futier and colleagues evaluated whether the central venous-to-arterial carbon dioxide difference (P(cv-a)CO2) could be used to identify persistent low flow after optimization of preload during major abdominal surgery [21]. This trial was a secondary analysis of a study involving 70 adult patients randomized to restricted or conventional fluid administration during surgery [22]. In patients with complications (34% of total), both mean and minimal ScvO2 were lower than in patients without complications. A minimal ScvO2 <70% was independently associated with the development of postoperative complications. P(cv-a)CO2 was larger in patients with complications (7.8 ± 2 vs. 5.6 ± 2 mmHg, P < 0.001), even when considering only patients with normal ScvO2. P(cv-a)CO2 >5 mmHg identified patients with normal ScvO2 who develop complications. The next step would be to evaluate whether implementing P(cv-a) CO2 in addition to ScvO2 would lead to better outcomes during goal-directed therapy for high-risk surgery.

In a retrospective analysis of 256 pediatric (<6 years old) patients submitted to cardiac surgery, Ranucci and colleagues evaluated whether the lowest ScvO2 and the peak lactate value during cardiopulmonary bypass, alone or in combination, may be predictive of major morbidity and mortality [23]. Both the nadir ScvO2 and peak lactate during cardiopulmonary bypass were independently associated with major morbidity and mortality. A combined index (ScvO2 <68% and peak lactate >3 mmol/l) provided the highest sensitivity and specificity for major morbidity. Altogether these results suggest that either addition of P(cv-a)CO2 or lactate may help to identify patients at risk of complications and poor outcome after high-risk surgery.

Fluid responsiveness

Benes and colleagues investigated whether stroke volume variation (SVV), an index of fluid responsiveness, could help to optimize fluid therapy in high-risk surgery [24]. Patients (n = 120) undergoing elective intraabdominal surgery were randomly assigned to a control group and a SVV group (SVV <10%). SVV was measured by the Vigileo/FloTrac system (Edwards Lifesciences). The patients in the SVV group received more colloid intraoperatively and experienced a lower number of hypotensive events. Lactate levels at the end of surgery were lower in this SVV group. Fewer SVV patients developed complications (18 (30%) vs. 35 (58.3%), P = 0.0033) and the overall number of complications was also reduced (34 vs. 77, P = 0.0066). No difference in mortality and ICU length of stay was found.

SVV and pulse-pressure variation, however, necessitate a relatively large tidal volume [25,26] and an absence of respiratory movements [27]. In addition, large pulse-pressure variation can be observed in patients with acute cor pulmonale [28]. Wyler von Ballmoos and colleagues evaluated whether pulse-pressure variation could predict the response to fluid challenge in 22 patients with pulmonary hypertension (cardiac surgery n = 15, septic shock n = 7) [29]. Pulse-pressure variation failed to predict volume responsiveness (ROC curve area = 0.555, P = 0.485). The same group conducted an experimental study in endotoxic pigs with pulmonary hypertension [30]. Pulse-pressure variation failed to predict volume responsiveness (ROC curve area = 0.604, P = 0.461), even after hemorrhage (20% of estimated blood volume). Even though these studies were limited by the multiple fluid challenges performed in a limited number of patients/animals, these results suggest that pulse-pressure variation should cautiously be interpreted in patients with pulmonary hypertension.

Cardiovascular diseases

Patients with septic shock may develop atrial fibrillation. In a 13-month observational period, new-onset atrial fibrillation occurred in 23 (46%) of the 50 patients with septic shock [31]. ICU mortality in septic shock patients with new-onset atrial fibrillation was higher compared with patients with maintained sinus rhythm (44% vs. 22%, P = 0.14), especially when restoration of sinus rhythm failed (71.4% vs. 21.4%, P = 0.015). It remains uncertain whether atrial fibrillation was a marker of severity or contributed to the poor outcome.

Another important issue is the development of ventricular dysfunction after cardiac surgery [32]. In 108 high-risk patients undergoing valve replacement for aortic stenosis, the authors evaluated which factors were associated with left ventricular dysfunction during weaning from cardiopulmonary bypass. Doppler-derived pulmonary flow indices and tissue Doppler imaging could not be obtained in 14 patients, poor systolic left ventricular was documented in 12 patients, and diastolic dysfunction in 89 patients. During weaning from cardiopulmonary bypass, 38 patients (40%) required inotropic and/or mechanical circulatory support. By multivariate regression analysis, three independent variables predicted left ventricular systolic dysfunction: age, aortic clamping time, and transmitral flow propagation velocity. The best cut-off value for the propagation velocity to predict left ventricular dysfunction was 40 cm/s (sensitivity 72% and specificity 94%). This study underscores the role of diastolic dysfunction in the development of post-bypass cardiovascular failure.

Biguanide intoxication is characterized by profound lactic acidosis. In a retrospective analysis covering a 5-year period, the outcome of patients with metformin-associated lactic acidosis and with lactic acidosis of other origin were compared [33]. Metformin-associated lactic acidosis was diagnosed in 10 of 197 patients admitted with lactic acidosis. Compared with lactic acidosis of other origin, arterial blood pH was significantly lower in metformin-associated lactic acidosis (6.78 (6.5 to 6.94) vs. 7.20 (6.46 to 7.35)) and lactate was higher (18.7 ± 5.3 vs. 11.2 ± 6.1 mmol/l). Overall mortality, however, was comparable (metformin-associated lactic acidosis 50%, lactic acidosis of other origin 74%). Compared with similarly severe lactic acidosis of other origin, the prognosis of metformin-associated lactic acidosis is significantly better.

As biguanide intoxication is associated with oxygen handling in the mitochondria, Protti and colleagues evaluated whether oxygen consumption would be altered in these patients [34]. The authors investigated 24 patients with lactic acidosis due to biguanide intoxication. In 11 patients the oxygen consumption could be measured from the pulmonary artery catheter, and in 13 patients only the arterio-venous difference in oxygen content was available. On day 1, oxygen consumption was markedly depressed (67 ± 28 ml/minute/m2) despite a normal CO.

The arterio-venous difference in oxygen content was abnormally low (around 2.0 to 2.5 ml oxygen/100 ml). Resolution of lactic acidosis was paralleled by an increase in oxygen consumption and arterio-venous difference in oxygen content. Plasma lactate and oxygen consumption were inversely correlated. These results suggest that biguanides directly impair oxygen consumption by mitochondrial toxicity.


Microcirculatory dysfunction is now recognized as potentially contributing to sepsis-associated organ dysfunction [35-37]. To evaluate what could be the mechanisms implicated in the development of microvascular dysfunction in sepsis, Doerschug and colleagues evaluated the relationship between the reoxygenation rate in thenar muscle oxygen saturation (StO2 reoxygenation rate) after transient arterial occlusion and plasma levels of renin activity and angiotensin II concentration in 30 patients with severe sepsis and 10 healthy subjects [38]. Angiotensin II and plasma renin activity were elevated in septic subjects and the degree of elevation correlated negatively with the StO2 reoxygenation rate. These factors also correlated with the extent of organ failure realized during the first day of sepsis. The rennin-angiotensin system may thus be implicated in the development of microvascular dysfunction, but a causative mechanism cannot be ascertained from these data.

White blood cell adhesion and rolling may also be implicated in the development of microcirculatory dysfunction [39]. Ploppa and colleagues evaluated whether interactions of cell activation, shear stress, and platelets at sites of endothelial injury may explain the maldistribution of activated leukocytes during sepsis away from local sites of infection towards disseminated accumulation at remote sites [40]. Human umbilical venous endothelial cells and polymorphonuclear neutrophils were activated with endotoxin. Adhesion of activated polymorphonuclear neutrophils was highly dependent on shear stress, with marked adhesion of polymorphonuclear neutrophils at low shear stress even in the presence of antagonists. Presence of a platelet-covered endothelial injury with high surface density of P-selectin was the strongest activator for adhesion. Platelets increased neutrophil adhesion. L-selectin shedding and integrin dysfunction render leukocyte adhesion increasingly susceptible to shear stress and alternative adhesion receptors. These effects inhibit recruitment in normally perfused sites with intact endothelium and promote maldistribution towards sites with compromised perfusion or endothelial injury.

As classical resuscitation strategies have minimal or variable impact on microcirculatory alterations [41,42], new therapeutic options are needed. Levosimendan may potentially improve the microcirculation. Morelli and colleagues randomized 40 septic shock patients to receive levosimendan 0.2 μg/kg/minute or dobutamine 5 μg/kg/minute for 24 hours [43]. The sublingual microvascular perfusion increased more in the levosimendan group than in the control group (changes in microcirculatory flow index 47% vs. 10%, P < 0.001) and the heterogeneity index decreased in the levosimendan group but not in the control group (-93% vs. 0%, P < 0.001). These data suggest that levosimendan may better preserve the microcirculation than dobutamine.

Recombinant human activated protein C may also improve the microcirculation [44,45]. In sheep with septic shock and acute lung injury resulting from smoke inhalation injury [46], recombinant human activated protein C significantly attenuated the changes in micro-vascular blood flow to the kidney and spleen compared with control animals (P < 0.05 each), while blood flow to the ileum and pancreas remained similar between groups. The cerebral blood flow stabilized at baseline levels in sheep treated with recombinant human activated protein C while it significantly increased in controls, due to a loss of cerebral autoregulation. In addition, recombinant human activated protein C reduced indicators of heart tissue injury (malondialdehyde and nitrotyrosine).

Modulation of the inflammatory response may also be a way to limit microvascular dysfunction. Lectin-like oxidized low-density lipoprotein receptor-1 (LOX-1), the major endothelial receptor for oxidized low-density lipoprotein, is also involved in leukocyte recruitment. A study in endotoxic rats evaluated with intravital microscopy the effects of LOX-1 inhibition on leukocyte adherence and capillary perfusion within the intestinal microcirculation [47]. LOX-1 antibody administration significantly decreased expression of LOX-1 as well as plasma levels of monocyte chemoattractant protein-1. LOX-1 inhibition significantly reduced leukocyte adhesion in intestinal submucosal venules. LOX-1 represents a novel target for the modulation of the inflammatory response within the microcirculation in sepsis but its impact on organ function, and especially on infection control, remains to be determined.

Even though controversial, high-volume hemofiltration is sometimes applied in severe hyperdynamic septic shock patients. Ruiz and colleagues evaluated the impact of high-volume hemofiltration on the sublingual microcirculation in septic shock patients [48]. In this uncontrolled study, 12 septic shock patients (norepinephrine requirements >0.3 μg/kg/minute and cardiac index >3.0 l/minute/m2) who underwent a 12-hour high-volume hemofiltration were investigated. The microcirculatory flow index increased after 12 hours of high-volume hemofiltration and this increase persisted 6 hours after stopping the hemofiltration. Other microcirculatory indices were unaffected. The value of this therapy remains to be determined.

Microcirculatory perfusion is also altered in patients with cardiogenic shock [49], and the evolution of these alterations is associated with outcome [50]. An intra-aortic balloon pump is frequently used to mechanically support the heart and may initially be associated with an improvement in microcirculatory perfusion [51]. Fifteen patients deemed ready for discontinuing intra-aortic balloon pump support were investigated during and 10 minutes after temporarily stopping the balloon pump [52]. Ceasing intra-aortic balloon pump support lowered the mean arterial pressure and increased diastolic pressure. The perfused density of small vessels increased from 5.47 ± 1.76 to 6.63 ± 1.90 (P = 0.0039). These data suggest the intra-aortic balloon pump impairs microvascular perfusion in recovered patients, in opposition to its effects at initiation of therapy.


BNP: B-type natriuretic peptide; CO: cardiac output; EVLW: extravascular lung water; GEDV: global end-diastolic volume; LOX-1: lectin-like oxidized low-density lipoprotein receptor-1; NTproBNP: N-terminal pro-B-type natriuretic peptide; P(cv-a)CO2: central venous-to-arterial carbon dioxide difference; ROC: receiver operating characteristic; ScvO2: central venous saturation; StO2: thenar muscle tissue oxygenation; SvO2: mixed venous saturation; SVV: stroke volume variation.

Competing interests

DDB received honoraria for lectures and grant for studies from Edwards Lifesciences and Pulsion, and grants for studies from LiDCO and Vytech. SS received grant for studies from Vytech.

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