Critically Ill Clinical Trial
Official title:
Comparison of Effect of Enteral Versus Parenteral Glutamine Supplement on Intestinal Permeability and Outcome of Critically Ill Patients
Glutamine is a major fuel for the intestinal tract and immune cells and therefore affects
the intestinal permeability (IP) and infection rate at critically ill patients. The
preferential route of glutamine supplementation at critically ill patients still remains
open. Therefore the researchers will investigate IP, infection rate and treatment outcome at
patients supplemented with either parenteral or enteral glutamine.
A prospective randomized single blind study is performed at mechanically ventilated.
Patients were randomly assigned to either parenteral (group P) or enteral (group E)
glutamine supplemented group. Early enteral feeding is started in both groups. Patients
are/will be treated with glutamine for five days. IP will be measured using
lactulose/mannitol test (L/M) on the fourth day.
The patients who fulfilled the described criteria were randomly assigned to groups P or E
using sequentially numbered containers for concealed randomization. Those in group P
received the continuous infusion of parenteral glutamine dipeptide supplement (Dipeptiven
100ml, Fresenius Kabi) and were fed enterally with a standard commercial enteral polymeric
diet without added glutamine (Ensure, Abbott Ross). The patients in group E received the
enteral glutamine supplement as continuous administration of a standard commercial enteral
diet supplemented with glutamine (Alitraq, Abbott Ross). The dose of the enteral glutamine,
in a form of a free acid in this diet, depended on the volume of enteral food. Both groups
of patients were treated with the glutamine supplement for five days. The other therapeutic
procedures did not differ between the groups. All the patients were on continuous gastric
feeding for 20 hours daily, starting with 20ml/hour. The enteral nutrition was started in 24
hours following admission. The gastric residual was measured three times daily, and when
less than 250ml, the feeding volume was gradually increased up to 100ml/hour. If needed from
day two onwards, the patients in all three groups received additional parenteral amino acid
and glucose solutions to reach the goal 20kcal/kg/day and 0.15g nitrogen/kg/day.
Intestinal permeability (IP) was measured on day 4 using the lactulose/mannitol (L/M) test.
For the study purpose, the patients were fasted 6 hours before the test. The test was
performed with 5g of mannitol (M) and 10g of lactulose (L) mixed in 100ml of water. The
mixture was given as a bolus via nasogastric tube. At the same time, 4ml of 20%
chlorhexidine was added into an empty urine bag. The urine was collected in this bag for six
hours. Then 5ml of urine was sampled from the bag and stored at -20˚C until analysis. Two
hours after the test enteral feeding via nasogastric tube was started. Urinary L and M were
determined simultaneously with thin-layer chromatography14, a new method in our laboratory
for lactulose and mannitol determination. The method enabled determination of lactulose and
mannitol in urine on the same amino HPTLC plate after densitometric quantification of
lactulose by use of fluorescence mode, and mannitol by use of absorption mode after
detection with AgNO3 reagent. The new method resulted in shorter analysis time, lower
consumption of chemicals and HPTLC plates, increased sensitivity (lower limits of detection)
and fewer problems with interfering compounds at determination of lactulose than the
previously used two separate methods for determination of both analytes.14 The separation
and quantification using this method are highly reproducible, yielding standard errors of
less than 2.5% for retention times and less than 3.5% for quantitation.15,16 The
investigators in the laboratory were blinded for the study groups. L/M index was calculated
from urinary concentrations (c) of L and M using the following formula: L/M = c L / (c M x
2). L/M test was not performed at the beginning of the study because unstable trauma and
septic patients were also included in the study, and at these patients, urine collection is
difficult to perform.
Nosocomial infections were recorded during the entire ICU stay as recommended by the Centre
for Disease Control in Atlanta.17,18 Nosocomial pneumonia was diagnosed when
Hospital-Acquired Pneumonia Risk Index was 6 or more.19 The infections that were present
upon admission or diagnosed within the first two days of ICU treatment were marked as
acquired before ICU admission. All diagnosed infections were treated according to the
results of microbiological tests and/or according to infection control guidelines. Acute
inflammatory response was measured with C-reactive protein (CRP) levels. The blood samples
for its determination were obtained at baseline and the end of the study.
Acute Physiology and Chronic Health Evaluation II (APACHE II) score was calculated upon
admission. Each patient's ICU and hospital length of stay (LOS) and six month survival was
recorded.
All participants were blinded to interventions. The ICU-staff was not blinded to group
assignment, but they did not take part in the outcome assessment and on the other hand, the
outcome assessors and laboratory personnel were blinded to group assignment.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Outcomes Assessor), Primary Purpose: Treatment
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