Recently diagnosed immunodeficiency is associated with a much better prognosis in ECMO-treated severe ARDS. However, low 6-month survival of our large cohort of immunocompromised patients supports restricting ECMO to patients with realistic oncological/therapeutic prognoses, acceptable functional status and few pre-ECMO mortality-risk factors.
OBJECTIVE -We performed a randomized trial to compare three insulin-titration protocols for tight glycemic control (TGC) in a surgical intensive care unit: an absolute glucose (Matias) protocol, a relative glucose change (Bath) protocol, and an enhanced model predictive control (eMPC) algorithm.
RESEARCH DESIGN AND METHODS-A total of 120 consecutive patients after cardiac surgery were randomly assigned to the three protocols with a target glycemia range from 4.4 to 6.1 mmol/l. Intravenous insulin was administered continuously or in combination with insulin boluses (Matias protocol). Blood glucose was measured in 1-to 4-h intervals as requested by the protocols.RESULTS -The eMPC algorithm gave the best performance as assessed by time to target (8.8 Ϯ 2.2 vs. 10.9 Ϯ 1.0 vs. 12.3 Ϯ 1.9 h; eMPC vs. Matias vs. Bath, respectively; P Ͻ 0.05), average blood glucose after reaching the target (5.2 Ϯ 0.1 vs. 6.2 Ϯ 0.1 vs. 5.8 Ϯ 0.1 mmol/l; P Ͻ 0.01), time in target (62.8 Ϯ 4.4 vs. 48.4 Ϯ 3.28 vs. 55.5 Ϯ 3.2%; P Ͻ 0.05), time in hyperglycemia Ͼ8.3 mmol/l (1.3 Ϯ 1.2 vs. 12.8 Ϯ 2.2 vs. 6.5 Ϯ 2.0%; P Ͻ 0.05), and sampling interval (2.3 Ϯ 0.1 vs. 2.1 Ϯ 0.1 vs. 1.8 Ϯ 0.1 h; P Ͻ 0.05). However, time in hypoglycemia risk range (2.9 -4.3 mmol/l) in the eMPC group was the longest (22.2 Ϯ 1.9 vs. 10.9 Ϯ 1.5 vs. 13.1 Ϯ 1.6; P Ͻ 0.05). No severe hypoglycemic episode (Ͻ2.3 mmol/l) occurred in the eMPC group compared with one in the Matias group and two in the Bath group.CONCLUSIONS -The eMPC algorithm provided the best TGC without increasing the risk of severe hypoglycemia while requiring the fewest glucose measurements. Overall, all protocols were safe and effective in the maintenance of TGC in cardiac surgery patients.
Diabetes Care 32:757-761, 2009
Aims
Ventricular septal rupture (VSR) became a rare mechanical complication of myocardial infarction in the era of percutaneous coronary interventions but is associated with extreme mortality in patients who present with cardiogenic shock (CS). Promising outcomes have been reported with the use of circulatory support allowing haemodynamic stabilization, followed by delayed repair. Therefore, we analysed our experience with an early use of Veno‐Arterial Extracorporeal Membrane Oxygenation (V‐A ECMO) for postinfarction VSR.
Methods and results
We conducted a retrospective search of institutional database for patients presenting with postinfarction VSR from January 2007 to June 2016. Data from 31 consecutive patients (mean age 69.5 ± 9.1 years) who were admitted to hospital were analysed. Seven out of 31 patients with VSR who were in refractory CS received V‐A ECMO support preoperatively. ECMO improved end‐organ perfusion with decreased lactate levels 24 hours after implantation (7.9 mmol/L vs. 1.6 mmol/L, p = 0.01), normalized arterial pH (7.25 vs. 7.40, p < 0.04), improved mean arterial pressure (64 mmHg vs. 83 mmHg, p < 0.01) and lowered heart rate (115/min vs. 68/min, p < 0.01). Mean duration of ECMO support was 12 days, 5 out of 7 patients underwent surgical repair, 4 were weaned from ECMO, 3 survived 30 days and 2 survived more than 1 year. The most frequent complication (5 patients) and the cause of death (3 patients) was bleeding.
Conclusions
Our experience suggests that early V‐A ECMO in patients with VSR and refractory CS might prevent irreversible multiorgan failure by improved end‐organ perfusion. Bleeding complications remain an important limitation of this approach.
Perioperative initiation of intensive insulin therapy during cardiac surgery reduces postoperative morbidity in nondiabetic patients while having a minimal effect in diabetic subjects.
Aim. In postcardiac surgery patients, we assessed the performance of a system for intensive intravenous insulin therapy using continuous glucose monitoring (CGM) and enhanced model predictive control (eMPC) algorithm. Methods. Glucose control in eMPC-CGM group (n = 12) was compared with a control (C) group (n = 12) treated by intravenous insulin infusion adjusted according to eMPC protocol with a variable sampling interval alone. In the eMPC-CGM group glucose measured with a REAL-Time CGM system (Guardian RT) served as input for the eMPC adjusting insulin infusion every 15 minutes. The accuracy of CGM was evaluated hourly using reference arterial glucose and Clarke error-grid analysis (C-EGA). Target glucose range was 4.4–6.1 mmol/L. Results. Of the 277 paired CGM-reference glycemic values, 270 (97.5%) were in clinically acceptable zones of C-EGA and only 7 (2.5%) were in unacceptable D zone. Glucose control in eMPC-CGM group was comparable to C group in all measured values (average glycemia, percentage of time above, within, and below target range,). No episode of hypoglycemia (<2.9 mmol) occurred in eMPC-CGM group compared to 2 in C group. Conclusion. Our data show that the combination of eMPC algorithm with CGM is reliable and accurate enough to test this approach in a larger study population.
Hemodynamic effectiveness of methylene blue (MB) was tested in patients with refractory distributive shock. A retrospective analysis of 20 critically-ill patients who developed refractory shock was performed. Patients were divided into two study groups as responders with positive hemodynamic response to MB administration (defined as 10% decrease of norepinephrine dose) and non-responders. Hemodynamic, outcome data and baseline tissue hypoxia-related parameters including ratio of central venous-to-arterial carbon dioxide tension to arterio-venous oxygen content (P(v-a)CO2/C(a-v)O2) were compared between the groups. There were 9 (45%) responders and 11 (55%) non-responders to single bolus of MB administration. Dose of MB did not differ between responders and non-responders (1.3 ± 0.5 vs. 1.3 ± 0.4 mg/kg respectively, P = 0.979). MB responders had lower baseline P(v-a) CO2/C(a-v)O2 (1.79 ± 0.73 vs. 3.24 ± 1.18, P = 0.007), higher pH (7.26 ± 0.11 vs. 7.16 ± 0.10, P = 0.037) and lower lactate levels at 12 hours post MB administration (3.4 ± 2.7 vs. 9.9 ± 2.2 mmol/L, P = 0.002) compared to non-responders. Methylene blue represents a non-adrenergic vasopressor with only limited effectiveness in patients with refractory distributive shock. Profound tissue hypoxia with high degree of anaerobic metabolism was associated with the loss of hemodynamic responsiveness to its administration.
Immunocompetent cells including lymphocytes play a key role in the development of adipose tissue inflammation and obesity-related cardiovascular complications. The aim of the study was to explore the relationship between epicardial adipose tissue lymphocytes and coronary artery disease (CAD). To this end, we studied the content and phenotype of lymphocytes in peripheral blood, subcutaneous adipose tissue (SAT), and epicardial adipose tissue (EAT) in subjects with and without CAD undergoing elective cardiac surgery. Eleven subjects without CAD (non-CAD group) and 22 age-, BMI-, and HbA1C-matched individuals with CAD were included into the study. Blood, SAT, and EAT samples were obtained at the beginning of surgery. Lymphocyte populations were quantified as % of CD45+ cells using flow cytometry. Subjects with CAD had a higher total lymphocyte amount in EAT compared with SAT (32.24±7.45 vs. 11.22±1.34%, p=0.025) with a similar trend observed in non-CAD subjects (29.68±7.61 vs. 10.13±2.01%, p=0.067). T (CD3+) cells were increased (75.33±2.18 vs. 65.24±4.49%, p=0.032) and CD3- cells decreased (21.17±2.26 vs. 31.64±4.40%, p=0.028) in EAT of CAD relative to the non-CAD group. In both groups, EAT showed an elevated percentage of B cells (5.22±2.43 vs. 0.96±0.21%, p=0.039 for CAD and 12.49±5.83 vs. 1.16±0.19%, p=0.016 for non-CAD) and reduced natural killer (NK) cells (5.96±1.32 vs. 13.22±2.10%, p=0.012 for CAD and 5.32±1.97 vs. 13.81±2.72%, p=0.022 for non-CAD) relative to SAT. In conclusion, epicardial adipose tissue in subjects with CAD shows an increased amount of T lymphocytes relative to non-CAD individuals as well as a higher number of total and B lymphocytes and reduced NK cells as compared with corresponding SAT. These changes could contribute to the development of local inflammation and coronary atherosclerosis.
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