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Procalcitonin not helpful in critically ill COPD
Clinical question: Can a procalcitonin (PCT)–guided strategy safely reduce antibiotic exposure in patients admitted to the ICU with severe acute exacerbations of chronic obstructive pulmonary disease (COPD) with or without pneumonia?
Background: Studies have demonstrated PCT-based strategies can safely reduce antibiotic use in patients without severe lower respiratory tract infections, community-acquired pneumonia, or acute exacerbations of COPD. The data on safety of PCT-based strategies in critically ill patients is limited.
Study design: Prospective, multicenter, randomized, controlled trial.
Setting: ICUs of 11 hospitals in France, including 7 tertiary care hospitals.
Synopsis: In this study 302 patients admitted to the ICU with severe exacerbations of COPD with or without pneumonia were randomly assigned to groups with antibiotic therapy guided by a PCT protocol or standard guidelines. Overall, the study failed to demonstrate noninferiority of a PCT-based strategy to reduce exposure to antibiotics. Specifically, the adjusted difference in mortality was 6.6% higher (90% confidence interval, 0.3%-13.5%) in the intervention group with no significant reduction in antibiotic exposure.
One limitation of this study was that it was an open trial in which clinicians were aware that their management was being observed.
Bottom line: A PCT-based algorithm was not effective in safely reducing antibiotic exposure in patients with acute exacerbations of COPD admitted to the ICU.
Citation: Daubin C et al. Procalcitonin algorithm to guide initial antibiotic therapy in acute exacerbations of COPD admitted to the ICU: A randomized multicenter study. Intensive Care Med. 2018 Apr;44(4):428-37.
Dr. Agith is a hospitalist in the division of hospital medicine in the department of medicine at Loyola University Chicago, Maywood, Ill.
Clinical question: Can a procalcitonin (PCT)–guided strategy safely reduce antibiotic exposure in patients admitted to the ICU with severe acute exacerbations of chronic obstructive pulmonary disease (COPD) with or without pneumonia?
Background: Studies have demonstrated PCT-based strategies can safely reduce antibiotic use in patients without severe lower respiratory tract infections, community-acquired pneumonia, or acute exacerbations of COPD. The data on safety of PCT-based strategies in critically ill patients is limited.
Study design: Prospective, multicenter, randomized, controlled trial.
Setting: ICUs of 11 hospitals in France, including 7 tertiary care hospitals.
Synopsis: In this study 302 patients admitted to the ICU with severe exacerbations of COPD with or without pneumonia were randomly assigned to groups with antibiotic therapy guided by a PCT protocol or standard guidelines. Overall, the study failed to demonstrate noninferiority of a PCT-based strategy to reduce exposure to antibiotics. Specifically, the adjusted difference in mortality was 6.6% higher (90% confidence interval, 0.3%-13.5%) in the intervention group with no significant reduction in antibiotic exposure.
One limitation of this study was that it was an open trial in which clinicians were aware that their management was being observed.
Bottom line: A PCT-based algorithm was not effective in safely reducing antibiotic exposure in patients with acute exacerbations of COPD admitted to the ICU.
Citation: Daubin C et al. Procalcitonin algorithm to guide initial antibiotic therapy in acute exacerbations of COPD admitted to the ICU: A randomized multicenter study. Intensive Care Med. 2018 Apr;44(4):428-37.
Dr. Agith is a hospitalist in the division of hospital medicine in the department of medicine at Loyola University Chicago, Maywood, Ill.
Clinical question: Can a procalcitonin (PCT)–guided strategy safely reduce antibiotic exposure in patients admitted to the ICU with severe acute exacerbations of chronic obstructive pulmonary disease (COPD) with or without pneumonia?
Background: Studies have demonstrated PCT-based strategies can safely reduce antibiotic use in patients without severe lower respiratory tract infections, community-acquired pneumonia, or acute exacerbations of COPD. The data on safety of PCT-based strategies in critically ill patients is limited.
Study design: Prospective, multicenter, randomized, controlled trial.
Setting: ICUs of 11 hospitals in France, including 7 tertiary care hospitals.
Synopsis: In this study 302 patients admitted to the ICU with severe exacerbations of COPD with or without pneumonia were randomly assigned to groups with antibiotic therapy guided by a PCT protocol or standard guidelines. Overall, the study failed to demonstrate noninferiority of a PCT-based strategy to reduce exposure to antibiotics. Specifically, the adjusted difference in mortality was 6.6% higher (90% confidence interval, 0.3%-13.5%) in the intervention group with no significant reduction in antibiotic exposure.
One limitation of this study was that it was an open trial in which clinicians were aware that their management was being observed.
Bottom line: A PCT-based algorithm was not effective in safely reducing antibiotic exposure in patients with acute exacerbations of COPD admitted to the ICU.
Citation: Daubin C et al. Procalcitonin algorithm to guide initial antibiotic therapy in acute exacerbations of COPD admitted to the ICU: A randomized multicenter study. Intensive Care Med. 2018 Apr;44(4):428-37.
Dr. Agith is a hospitalist in the division of hospital medicine in the department of medicine at Loyola University Chicago, Maywood, Ill.
Perioperative diabetes and HbA1c in mortality
Clinical question: Do preoperative hemoglobin A1c (HbA1c) and perioperative glucose predict outcomes in patients undergoing noncardiac and cardiac surgeries?
Background: Hyperglycemia in the perioperative period has been associated with infection, delayed wound healing, and postoperative mortality. Studies have investigated the effects of HbA1c or hyperglycemia on postoperative outcomes, but none have been performed to assess the effect of one while controlling for the other.
Study design: Retrospective analysis.
Setting: Single-center, Duke University Health System.
Synopsis: Using a database of electronic health records at Duke University Health System, Durham, N.C., investigators reviewed 13,077 surgeries (6,684 noncardiac and 6,393 cardiac) to determine the association of preoperative HbA1c with perioperative glucose and 30-day mortality. For noncardiac surgery, increased average perioperative glucose was associated with increased mortality (P = .04). In cardiac surgery both low and high average glucose was associated with increased mortality (P = .001). By contrast, HbA1c was not a significant predictor of postoperative mortality in cardiac surgery (P = .08), and in noncardiac surgery, HbA1C was negatively associated with 30-day mortality (P = .01). Overall, perioperative glucose was predictive of 30-day mortality, but HbA1c was not associated with 30-day mortality after researchers controlled for glucose.
Because the study is retrospective, no causal relationship can be established. Hospitalists involved in perioperative care should aim for optimization of glucose control regardless of preoperative HbA1c.
Bottom line: Perioperative glucose is related to surgical outcomes, but HbA1c is a less useful indicator of 30-day postoperative mortality.
Citation: Van den Boom W et al. Effect of A1C and glucose on postoperative mortality in noncardiac and cardiac surgeries. Diabetes Care. 2018 Feb;41:782-8.
Clinical question: Do preoperative hemoglobin A1c (HbA1c) and perioperative glucose predict outcomes in patients undergoing noncardiac and cardiac surgeries?
Background: Hyperglycemia in the perioperative period has been associated with infection, delayed wound healing, and postoperative mortality. Studies have investigated the effects of HbA1c or hyperglycemia on postoperative outcomes, but none have been performed to assess the effect of one while controlling for the other.
Study design: Retrospective analysis.
Setting: Single-center, Duke University Health System.
Synopsis: Using a database of electronic health records at Duke University Health System, Durham, N.C., investigators reviewed 13,077 surgeries (6,684 noncardiac and 6,393 cardiac) to determine the association of preoperative HbA1c with perioperative glucose and 30-day mortality. For noncardiac surgery, increased average perioperative glucose was associated with increased mortality (P = .04). In cardiac surgery both low and high average glucose was associated with increased mortality (P = .001). By contrast, HbA1c was not a significant predictor of postoperative mortality in cardiac surgery (P = .08), and in noncardiac surgery, HbA1C was negatively associated with 30-day mortality (P = .01). Overall, perioperative glucose was predictive of 30-day mortality, but HbA1c was not associated with 30-day mortality after researchers controlled for glucose.
Because the study is retrospective, no causal relationship can be established. Hospitalists involved in perioperative care should aim for optimization of glucose control regardless of preoperative HbA1c.
Bottom line: Perioperative glucose is related to surgical outcomes, but HbA1c is a less useful indicator of 30-day postoperative mortality.
Citation: Van den Boom W et al. Effect of A1C and glucose on postoperative mortality in noncardiac and cardiac surgeries. Diabetes Care. 2018 Feb;41:782-8.
Clinical question: Do preoperative hemoglobin A1c (HbA1c) and perioperative glucose predict outcomes in patients undergoing noncardiac and cardiac surgeries?
Background: Hyperglycemia in the perioperative period has been associated with infection, delayed wound healing, and postoperative mortality. Studies have investigated the effects of HbA1c or hyperglycemia on postoperative outcomes, but none have been performed to assess the effect of one while controlling for the other.
Study design: Retrospective analysis.
Setting: Single-center, Duke University Health System.
Synopsis: Using a database of electronic health records at Duke University Health System, Durham, N.C., investigators reviewed 13,077 surgeries (6,684 noncardiac and 6,393 cardiac) to determine the association of preoperative HbA1c with perioperative glucose and 30-day mortality. For noncardiac surgery, increased average perioperative glucose was associated with increased mortality (P = .04). In cardiac surgery both low and high average glucose was associated with increased mortality (P = .001). By contrast, HbA1c was not a significant predictor of postoperative mortality in cardiac surgery (P = .08), and in noncardiac surgery, HbA1C was negatively associated with 30-day mortality (P = .01). Overall, perioperative glucose was predictive of 30-day mortality, but HbA1c was not associated with 30-day mortality after researchers controlled for glucose.
Because the study is retrospective, no causal relationship can be established. Hospitalists involved in perioperative care should aim for optimization of glucose control regardless of preoperative HbA1c.
Bottom line: Perioperative glucose is related to surgical outcomes, but HbA1c is a less useful indicator of 30-day postoperative mortality.
Citation: Van den Boom W et al. Effect of A1C and glucose on postoperative mortality in noncardiac and cardiac surgeries. Diabetes Care. 2018 Feb;41:782-8.