Nutritional Status and Enteral Absorption Capability After Brain Death

Not Applicable

Completed

Conditions: Brain Death

Interventions: Dietary Supplement: enteral feeding with Oxepa® and Glutasolve®

Registration Number: NCT00858390

Lead Sponsor: The University of Texas Health Science Center, Houston

Brief Summary: The investigators propose to assess 36 donors' nutritional status using accepted parameters (prealbumin, resting energy expenditure); to assess nutrient intestinal absorption through 13Curacil breath tests; and to evaluate serum concentrations of IL-6 and TNFalpha to determine if continuing or initiating enteral feeding and nutritional supplementation is effective in restoring or maintaining nutritional parameters.

Detailed Description: There are an estimated 98,000 people in need of organ transplants in the United States (OPTN). Only a fraction of the need is met with the organs that become available. Therefore interventions are needed to maximize the viability of available organs and improve donor organ procurement and successful transplantation.

Improving the nutritional status of potential donors after they are declared brain dead could favorably impact subsequent organ procurement. Improved nutrition may improve organ viability by reducing the negative effects of inflammatory cytokines and catecholamines, and through reducing translocation of bacteria or endotoxin from the intestine.

In our preliminary work the investigators show significantly elevated inflammatory cytokines (IL-6 and TNFalpha) in unfed donors and a correlation with improved graft survival in recipients with lower plasma concentrations of IL-6.

The investigators propose to assess 36 donors' nutritional status using accepted parameters (prealbumin, resting energy expenditure); to assess nutrient intestinal absorption through 13Curacil breath tests; and to evaluate serum concentrations of IL-6 and TNFalpha to determine if continuing or initiating enteral feeding and nutritional supplementation is effective in restoring or maintaining nutritional parameters. Additionally, half of the group will be randomized to receive a nutritional supplement via naso/oro-duodenal feeding tube with a commercially available formula containing omega-3 and omega-6 fatty acids, and antioxidants plus glutamine (Oxepa® plus Glutasolve). The intervention through its anti-inflammatory and antioxidant functions has the potential to improve organ function (e.g. improved myocardial function (Wischmeyer 2003), and improved oxygenation (Pacht 2003; Pontes-Arruda 2006; Singer 2006)). Through improved organ function and/or a suppression of inflammatory cytokine production (e.g., IL-6 and TNFalpha) more organs are expected to be appropriate for procurement/transplantation.

If enteral nutrition reduces the inflammatory response commonly documented after brain death and, in doing so, improves organ procurement, enteral feeding could be immediately employed toward improving donor care practices. Furthermore, reducing the level of inflammatory molecules in donor organs may reduce the risk of rejection.