Yves Debaveye

Early versus Late Parenteral Nutrition in Critically Ill Adults

BACKGROUND Controversy exists about the timing of the initiation of parenteral nutrition in critically ill adults in whom caloric targets cannot be met by enteral nutrition alone. METHODS In this randomized, multicenter trial, we compared early initiation of parenteral nutrition (European guidelines) with late initiation (American and Canadian guidelines) in adults in the intensive care unit (ICU) to supplement insufficient enteral nutrition. In 2312 patients, parenteral nutrition was initiated within 48 hours after ICU admission (early-initiation group), whereas in 2328 patients, parenteral nutrition was not initiated before day 8 (late-initiation group). A protocol for the early initiation of enteral nutrition was applied to both groups, and insulin was infused to achieve normoglycemia. RESULTS Patients in the late-initiation group had a relative increase of 6.3% in the likelihood of being discharged alive earlier from the ICU (hazard ratio, 1.06; 95% confidence interval [CI], 1.00 to 1.13; P=0.04) and from the hospital (hazard ratio, 1.06; 95% CI, 1.00 to 1.13; P=0.04), without evidence of decreased functional status at hospital discharge. Rates of death in the ICU and in the hospital and rates of survival at 90 days were similar in the two groups. Patients in the late-initiation group, as compared with the early-initiation group, had fewer ICU infections (22.8% vs. 26.2%, P=0.008) and a lower incidence of cholestasis (P<0.001). The late-initiation group had a relative reduction of 9.7% in the proportion of patients requiring more than 2 days of mechanical ventilation (P=0.006), a median reduction of 3 days in the duration of renal-replacement therapy (P=0.008), and a mean reduction in health care costs of €1,110 (about

Acute outcomes and 1-year mortality of intensive care unit-acquired weakness. A cohort study and propensity-matched analysis

1,600) (P=0.04). CONCLUSIONS Late initiation of parenteral nutrition was associated with faster recovery and fewer complications, as compared with early initiation. (Funded by the Methusalem program of the Flemish government and others; EPaNIC ClinicalTrials.gov number, NCT00512122.).

Effect of tolerating macronutrient deficit on the development of intensive-care unit acquired weakness: a subanalysis of the EPaNIC trial

RATIONALE Intensive care unit (ICU)-acquired weakness is a frequent complication of critical illness. It is unclear whether it is a marker or mediator of poor outcomes. OBJECTIVES To determine acute outcomes, 1-year mortality, and costs of ICU-acquired weakness among long-stay (≥8 d) ICU patients and to assess the impact of recovery of weakness at ICU discharge. METHODS Data were prospectively collected during a randomized controlled trial. Impact of weakness on outcomes and costs was analyzed with a one-to-one propensity-score-matching for baseline characteristics, illness severity, and risk factor exposure before assessment. Among weak patients, impact of persistent weakness at ICU discharge on risk of death after 1 year was examined with multivariable Cox proportional hazards analysis. MEASUREMENTS AND MAIN RESULTS A total of 78.6% were admitted to the surgical ICU; 227 of 415 (55%) long-stay assessable ICU patients were weak; 122 weak patients were matched to 122 not-weak patients. As compared with matched not-weak patients, weak patients had a lower likelihood for live weaning from mechanical ventilation (hazard ratio [HR], 0.709 [0.549-0.888]; P = 0.009), live ICU (HR, 0.698 [0.553-0.861]; P = 0.008) and hospital discharge (HR, 0.680 [0.514-0.871]; P = 0.007). In-hospital costs per patient (+30.5%, +5,443 Euro per patient; P = 0.04) and 1-year mortality (30.6% vs. 17.2%; P = 0.015) were also higher. The 105 of 227 (46%) weak patients not matchable to not-weak patients had even worse prognosis and higher costs. The 1-year risk of death was further increased if weakness persisted and was more severe as compared with recovery of weakness at ICU discharge (P < 0.001). CONCLUSIONS After careful matching the data suggest that ICU-acquired weakness worsens acute morbidity and increases healthcare-related costs and 1-year mortality. Persistence and severity of weakness at ICU discharge further increased 1-year mortality. Clinical trial registered with www.clinicaltrials.gov (NCT 00512122).

Early versus late parenteral nutrition in critically Ill children

BACKGROUND Patients who are critically ill can develop so-called intensive-care unit acquired weakness, which delays rehabilitation. Reduced muscle mass, quality, or both might have a role. The Early Parenteral Nutrition Completing Enteral Nutrition in Adult Critically Ill Patients (EPaNIC) trial (registered with ClinicalTrials.gov, number NCT00512122) showed that tolerating macronutrient deficit for 1 week in intensive-care units (late parenteral nutrition [PN]) accelerated recovery compared with early PN. The role of weakness was unclear. Our aim was to assess whether late PN and early PN differentially affect muscle weakness and autophagic quality control of myofibres. METHODS In this prospectively planned subanalysis of the EPaNIC trial, weakness (MRC sum score) was assessed in 600 awake, cooperative patients. Skeletal muscle biopsies, harvested from 122 patients 8 days after randomisation and from 20 matched healthy controls, were studied for autophagy and atrophy. We determined the significance of differences with Mann-Whitney U, Median, Kruskal-Wallis, or χ(2) (exact) tests, as appropriate. FINDINGS With late PN, 105 (34%) of 305 patients had weakness on first assessment (median day 9 post-randomisation) compared with 127 (43%) of 295 patients given early PN (absolute difference -9%, 95% CI -16 to -1; p=0·030). Weakness recovered faster with late PN than with early PN (p=0·021). Myofibre cross-sectional area was less and density was lower in critically ill patients than in healthy controls, similarly with early PN and late PN. The LC3 (microtubule-associated protein light chain 3) II to LC3I ratio, related to autophagosome formation, was higher in patients given late PN than early PN (p=0·026), reaching values almost double those in the healthy control group (p=0·0016), and coinciding with less ubiquitin staining (p=0·019). A higher LC3II to LC3I ratio was independently associated with less weakness (p=0·047). Expression of mRNA encoding contractile myofibrillary proteins was lower and E3-ligase expression higher in muscle biopsies from patients than in control participants (p≤0·0006), but was unaffected by nutrition. INTERPRETATION Tolerating a substantial macronutrient deficit early during critical illness did not affect muscle wasting, but allowed more efficient activation of autophagic quality control of myofibres and reduced weakness. FUNDING UZ Leuven, Research Foundation-Flanders, the Flemish Government, and the European Research Council.

Tissue-specific glucose toxicity induces mitochondrial damage in a burn injury model of critical illness.

BACKGROUND Recent trials have questioned the benefit of early parenteral nutrition in adults. The effect of early parenteral nutrition on clinical outcomes in critically ill children is unclear. METHODS We conducted a multicenter, randomized, controlled trial involving 1440 critically ill children to investigate whether withholding parenteral nutrition for 1 week (i.e., providing late parenteral nutrition) in the pediatric intensive care unit (ICU) is clinically superior to providing early parenteral nutrition. Fluid loading was similar in the two groups. The two primary end points were new infection acquired during the ICU stay and the adjusted duration of ICU dependency, as assessed by the number of days in the ICU and as time to discharge alive from ICU. For the 723 patients receiving early parenteral nutrition, parenteral nutrition was initiated within 24 hours after ICU admission, whereas for the 717 patients receiving late parenteral nutrition, parenteral nutrition was not provided until the morning of the 8th day in the ICU. In both groups, enteral nutrition was attempted early and intravenous micronutrients were provided. RESULTS Although mortality was similar in the two groups, the percentage of patients with a new infection was 10.7% in the group receiving late parenteral nutrition, as compared with 18.5% in the group receiving early parenteral nutrition (adjusted odds ratio, 0.48; 95% confidence interval [CI], 0.35 to 0.66). The mean (±SE) duration of ICU stay was 6.5±0.4 days in the group receiving late parenteral nutrition, as compared with 9.2±0.8 days in the group receiving early parenteral nutrition; there was also a higher likelihood of an earlier live discharge from the ICU at any time in the late-parenteral-nutrition group (adjusted hazard ratio, 1.23; 95% CI, 1.11 to 1.37). Late parenteral nutrition was associated with a shorter duration of mechanical ventilatory support than was early parenteral nutrition (P=0.001), as well as a smaller proportion of patients receiving renal-replacement therapy (P=0.04) and a shorter duration of hospital stay (P=0.001). Late parenteral nutrition was also associated with lower plasma levels of γ-glutamyltransferase and alkaline phosphatase than was early parenteral nutrition (P=0.001 and P=0.04, respectively), as well as higher levels of bilirubin (P=0.004) and C-reactive protein (P=0.006). CONCLUSIONS In critically ill children, withholding parenteral nutrition for 1 week in the ICU was clinically superior to providing early parenteral nutrition. (Funded by the Flemish Agency for Innovation through Science and Technology and others; ClinicalTrials.gov number, NCT01536275.).

Glycemic Control Modulates Arginine and Asymmetrical-Dimethylarginine Levels during Critical Illness by Preserving Dimethylarginine-Dimethylaminohydrolase Activity

Objective: In critically ill patients, preventing hyperglycemia (HG) with insulin therapy partially prevented organ dysfunction and protected mitochondria. A study in a rabbit model of critical illness indicated that lower blood glucose level, rather than higher insulinemia, is a key factor in such organ protection. In this model, we now investigated the impact of blood glucose lowering vs. hyperinsulinemia (HI) on mitochondria in relation to organ damage. We assessed whether such effects on mitochondria are mediated indirectly via organ perfusion or directly via reducing cellular glucose toxicity. Design: Prospective, randomized laboratory investigation. Setting: University laboratory. Subjects: Three-month-old male rabbits. Interventions: After induction of critical illness by burn injury, followed by fluid-resuscitation and parenteral nutrition, rabbits were allocated to four groups, each a combination of normal or elevated blood glucose levels with normal or elevated insulin levels. This required alloxan administration, immediately followed by intravenous insulin and glucose infusions titrated to the respective targets. Measurements and Main Results: In liver, the reduced damage by glucose lowering was not explained by better perfusion/oxygen delivery. Abnormal mitochondrial ultrastructure and function was present in the two hyperglycemic groups, most pronounced with concomitant HI. Affected mitochondrial respiratory chain enzyme activities were reduced to 25% to 62% of values in healthy rabbits, in the presence of up to five-fold increased tissue levels of glucose. This was accompanied by elevated levels of dicarbonyls, which may mediate direct toxicity of cellular glucose overload and accelerated glycolysis. The abnormalities were also present in myocardium, although to a lesser extent, and absent in skeletal muscle. Conclusions: In a rabbit model of critical illness, HG evokes cellular glucose overload in liver and myocardium inducing mitochondrial dysfunction, which explained the HG-induced organ damage. Maintenance of normoglycemia, but not HI, protects against such mitochondrial and organ damage.

Hyperglycemic kidney damage in an animal model of prolonged critical illness

In the context of the hypercatabolic response to stress, critically ill patients reveal hyperglycemia and elevated levels of asymmetrical-dimethylarginine (ADMA), an endogenous inhibitor of nitric oxide synthases. Both hyperglycemia and elevated ADMA levels predict increased morbidity and mortality. Tight glycemic control by intensive insulin therapy lowers circulating ADMA levels, and improves morbidity and mortality. Methylarginines are released from proteins during catabolism. ADMA is predominantly cleared by the enzyme dimethylarginine-dimethylaminohydrolase (DDAH) in different tissues, whereas its symmetrical isoform (SDMA) is cleared via the kidneys. Therefore, glycemic control or glycemia-independent actions of insulin on protein breakdown and/or on DDAH activity resulting in augmented ADMA levels may explain part of the clinical benefit of intensive insulin therapy. Therefore, we investigated in our animal model of prolonged critical illness the relative impact of maintaining normoglycemia and of glycemia-independent action of insulin over 7 d in a four-arm design on plasma and tissue levels of ADMA and SDMA, on proteolysis as revealed by surrogate parameters as changes of body weight, plasma urea to creatinine ratio, and plasma levels of SDMA, and on tissue DDAH activity. We found that ADMA levels remained normal in the two normoglycemic groups and increased in hyperglycemic groups. SDMA levels in the investigated tissues remained largely unaffected. The urea to creatinine ratio indicated reduced proteolysis in all but normoglycemic/normal insulin animals. DDAH activity deteriorated in hyperglycemic compared with normoglycemic groups. Insulin did not affect this finding independent of glycemic control action. Conclusively, maintenance of normoglycemia and not glycemia-independent actions of insulin maintained physiological ADMA plasma and tissue levels by preserving physiological DDAH activity.

Regulation of Tissue Iodothyronine Deiodinase Activity in a Model of Prolonged Critical Illness

Acute kidney injury frequently complicates critical illness and increases mortality; maintaining normoglycemia with insulin has been shown to reduce the incidence of intensive care unit (ICU)-acquired kidney injury. Here we tested the mechanisms by which this intervention might achieve its goal, using a rabbit model of burn-induced prolonged critical illness in which blood glucose and insulin were independently regulated at normal or elevated levels. Hyperglycemia caused elevated plasma creatinine and severe morphological kidney damage that correlated with elevated cortical glucose levels. Renal cortical perfusion and oxygen delivery were lower in hyperglycemic/hyperinsulinemic rabbits, compared to other groups, but this did not explain the elevated creatinine. Mitochondrial respiratory chain activities were severely reduced in the hyperglycemic groups (30-40% residual activity), and were inversely correlated with plasma creatinine and cortical glucose. These activities were much less affected by normoglycemia, and hyperinsulinemia was not directly protective. Mitochondrial damage, evident at day 3, preceded the structural injury evident at 7 days. Our study found that hyperglycemia evoked cellular glucose overload in the kidneys of critically ill rabbits, and this was associated with mitochondrial dysfunction and renal injury. Normoglycemia, independent of insulinemia, protected against this damage.

Augmented Renal Clearance in the Critically Ill: How to Assess Kidney Function

BACKGROUND The low plasma triiodothyronine (T3) observed during prolonged critical illness can be explained in part by suppressed hepatic deiodinase type I (D1) and increased D3 activity. Infusion of thyrotropin-releasing hormone (TRH) can restore D1 and D3 activity in critically ill rabbits, but it remains unknown whether this is a direct effect of TRH or the TRH-induced rise in circulating thyroxine (T4) and T3. METHODS To answer this specific question, burn-injured rabbits randomly received a 4-day treatment with saline, T4, T3, T4+T3, or TRH, started on day 4 of the illness. Plasma iodothyronine concentrations, D1 and D3 activity, and T3-responsive gene expression were quantified in liver and kidney. RESULTS Infusion of T4, T3, or TRH increased circulating T3 levels and hepatic D1 activity. Co-infusion of T3 with T4 enhanced T4 to T3 conversion as demonstrated by lower T4, higher T3, and lower reverse T3 (rT3) levels and tended to further increase hepatic D1 activity. Hepatic D1 activity correlated positively with circulating T3 and the T3/rT3 ratio, but not with T4, rT3, or thyroid-stimulating hormone. CONCLUSIONS During prolonged critical illness, D1 activity is primarily regulated via changes in circulating T3, suggesting that the low plasma T3 concentrations may be important in sustaining low D1 activity in this condition.

Withholding parenteral nutrition during critical illness increases plasma bilirubin but lowers the incidence of biliary sludge

BACKGROUND: Augmented renal clearance in critically ill patients can result in underdosing of life-saving drugs, potentially leading to therapeutic failure. To detect this phenomenon, correct assessment of the kidney function is essential. Currently, little is known about the validity of mathematical formulas to estimate renal function in this subset of patients. OBJECTIVE: To evaluate the validity of different methods to estimate kidney function in critically ill patients with augmented renal clearance by comparing measured renal clearance with estimated clearance using different formulas. METHODS: An observational, retrospective, single-center study was conducted in a 34-bed surgical intensive care unit (SICU) of the University Hospitals Leuven, Leuven, Belgium. Adults admitted to the SICU in 2010 with a measured creatinine clearance (CrCl) of 120 mL/min or more (based on 24-hour urinary collection) were included. The measured clearance values were compared with estimated clearance values as calculated by the Cockcroft-Gault (CrClCG) method and the re-expressed 4-variable Modification of Diet in Renal Disease estimated glomerular filtration rate (eGFR) formula. Spearman rank order correlation was performed to determine the relationship between measured and estimated clearances. Bland-Altman plots were evaluated to assess bias and limits of agreement between the 2 methods. RESULTS: Records on 1317 patients were screened. Augmented renal clearance was present in 390 patients. Spearman correlation showed fair correlation between measured and estimated clearances (rs = 0.343; p < 0.001 [CrClCG] and rs = 0.290; p < 0.001 [eGFR]). Bias was −11.2 mL/min with limits of agreement (–131.7; 109.3 mL/min [CrClCG]) and −19.9 mL/min with limits of agreement (–170.4; 130.7 mL/min [eGFR]). CONCLUSIONS: Estimated renal clearances, such as the eGFR estimated by the MDRD formula or CrCl estimated by CG, showed poor agreement with measured CrCl values in our critically ill population displaying augmented renal clearance. Clinicians should be cautious when interpreting kidney function based on estimating equations in this subset of patients. Instead, measured CrCl using urinary collection is recommended in patients suspected of displaying augmented renal clearance.