The Effect of Intravenous Nutrition in Patients Undergoing Abdominal Surgery
Loss of muscle protein and mass are the main causes of fatigue after bowel surgery which may result in a longer hospital stay and a higher rate of complications. This problem is especially important for patients after surgery for bowel cancer because cancer itself causes a waste of muscle protein. Anesthesiologists can decrease these negative effects of surgery by choosing the type of pain treatment (analgesia) and by giving nutrition (sugar and protein). Our group recently observed that optimal pain relief with epidural catheters (these are placed in the so called epidural space, which lies between the spine and the skin of the back) in combination with a low calorie protein diet intravenously (through the vein) maintains the body's protein stores after bowel surgery.
The goal of our new research program is to find out whether this protein saving effect depends on how protein depleted the patient is before surgery. In other words we would like to answer the question: do cancer patients who show protein wasting before the operation benefit more from feeding than patients who show no signs of protein wasting? A second goal of this program is to find out if we need to use sugar as part of the diet or whether the infusion of protein alone is sufficient. Just giving protein would make feeding not only easier but also would avoid the increase in the patient's own blood sugar during and after the operation, which typically occurs when sugar is given intravenously during that period.
|Postoperative Protein Catabolism||Other: Intravenous nutrition with glucose and amino acids Other: Intravenous nutrition with amino acids|
|Study Design:||Allocation: Non-Randomized
Intervention Model: Parallel Assignment
Masking: Single (Participant)
Primary Purpose: Treatment
|Official Title:||THE PROTEIN SPARING EFFECT OF PERIOPERATIVE NUTRITION: How Important is the Patient's Catabolic State Before Surgery and do we Need Glucose?|
- protein balance [ Time Frame: two days after surgery ]
- albumin synthesis [ Time Frame: two days after surgery ]
- fibrinogen synthesis [ Time Frame: two days after surgery ]
- total plasma protein synthesis [ Time Frame: two days after surgery ]
- mRNA expression of ubiquitin [ Time Frame: two days after surgery ]
|Study Start Date:||November 2009|
|Study Completion Date:||July 2011|
|Primary Completion Date:||June 2011 (Final data collection date for primary outcome measure)|
Experimental: Glucose and amino acids
Perioperative nutrition with glucose and amino acids
Other: Intravenous nutrition with glucose and amino acids
Glucose and amino acids intravenously starting 20 hours before the operation until the second postoperative day. Glucose provides 50% and amino acids 20% of each patient`s measured resting energy expenditure.
Active Comparator: Amino acids only
Perioperative nutrition with amino acids only
Other: Intravenous nutrition with amino acids
Amino acids intravenously starting 20 hours before the operation until the second postoperative day. Amino acids providing 20% of each patient`s measured resting energy expenditure.
- Goals The overall goal of perioperative nutrition support is to abolish protein wasting and to promote anabolic processes by directing amino acids into protein synthesis rather than oxidation. Protein repletion and enhancement of anabolism appear to be particularly important in cancer patients who enter major abdominal surgery in a catabolic state.
Objectives The objectives of this research program are
- to examine whether the anabolic effects of hypocaloric nutrition depend on the degree of catabolism before the operation and thus identify patients who benefit the most from perioperative nutrition support (study I)
- to investigate whether excluding glucose from hypocaloric nutrition, i.e. infusing an isonitrogenous amount of amino acids without glucose avoids hyperglycemia and, thus, accentuates the patient's anabolic response to feeding (study II).
In order to confirm the validity of our assumptions we will perform two consecutive studies in two distinct patient populations. For the assessment of the patients' catabolic state and obtaining insight into the biochemical mechanisms, whereby the effects of nutrition are mediated, stable isotope tracer kinetics will be applied. Using primed continuous infusions of L-[1-13C]leucine and [6,6-2H2]glucose we will quantitate the whole body dynamics of protein and glucose metabolism, i.e. protein breakdown, amino acid oxidation, protein synthesis, glucose production and glucose uptake before and after surgery. A positive protein balance (difference between protein synthesis and protein breakdown) will be used as an indicator of anabolism. Anabolic processes at the organ level (liver, muscle), i.e. fractional synthesis rates of the acute phase proteins albumin and fibrinogen and muscle protein synthesis will be determined using L-[2H5]phenylalanine infusions. Skeletal muscle protein catabolism will be characterized by measuring the mRNA expression of ubiquitin and two of its key ligases in muscle (MAFbx/atrogen-1 and MuRF-1).
Please refer to this study by its ClinicalTrials.gov identifier: NCT01414946
|Royal Victoria Hospital, McGill University Health Centre|
|Montreal, Quebec, Canada, H3A 1A1|
|Principal Investigator:||Thomas Schricker, MD PhD||Department of Anaesthesia, McGill University Health Centre|