The effect of rate and extent of weight loss on urea salvage in obese male subjects
The effect of rate and extent of weight loss on urea salvage in obese male subjects
It is well established that in human subjects a proportion of urea production undergoes hydrolysis in the gastrointestinal tract with release of N potentially available for amino acid synthesis. Previous studies have suggested adaptive changes in urea kinetics, with more urea-N retained within the metabolic pool during reduced dietary intakes of energy and protein. We therefore investigated the effect of rate and extent of weight loss on adaptive changes in urea kinetics in two groups (each n 6) of obese men (mean age 43 (SD 12) years, BMI 34·8 (SD 2·9)kg/m2) during either total starvation for 6d or a very-low-energy diet (2·55MJ/d) for 21d. Subjects were resident in the Human Nutrition Unit of the Rowett Research Institute (Aberdeen, Scotland, UK) and lost 6 and 9% initial body weight within the starvation and dieting groups respectively. Changes in urea-N metabolism were assessed by stable isotope tracer kinetics using [15N15N]urea infused intravenously for 36h before, during and after weight loss. In response to weight loss, urea production decreased (P<0·01) by 25% from 278 to 206mmol urea-N/h per kg within the dieting group only. However, no changes were observed in the proportion of urea being hydrolysed in the gastrointestinal tract (range 20–25%) or in the proportion of N retained for anabolic purposes (80–85% urea-N from gastrointestinal hydrolysis) within either group. It was concluded that no adaptive changes in urea kinetics occurred in response to either the different rate or extent of weight loss.
urea kinetics, weight loss, obesity
221-231
Faber, Peter
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Johnstone, Alexandra M.
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Gibney, Eileen R.
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Elia, Marinos
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Stubbs, R. James
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Roger, Paula L.
ee97f914-6dfb-45d0-af15-4339d9c0f9c6
Milne, Eric
0e33bc11-030f-4deb-ae94-f2c06d36f543
Buchan, William
fe839e79-6aff-48a0-8b05-8f7d863f34d1
Lobley, Gerald E.
6b99d68b-a47e-4dd7-b059-698446c9ec13
2003
Faber, Peter
f0ae92d4-e429-4bf7-8efb-828249f32b54
Johnstone, Alexandra M.
175934fc-7e7c-484b-9ff7-cd35b7eda1a4
Gibney, Eileen R.
2f257add-83b3-49a7-b3a6-103869369428
Elia, Marinos
964bf436-e623-46d6-bc3f-5dd04c9ef4c1
Stubbs, R. James
e683bc6e-07ac-4808-b721-6dfe4c8112cf
Roger, Paula L.
ee97f914-6dfb-45d0-af15-4339d9c0f9c6
Milne, Eric
0e33bc11-030f-4deb-ae94-f2c06d36f543
Buchan, William
fe839e79-6aff-48a0-8b05-8f7d863f34d1
Lobley, Gerald E.
6b99d68b-a47e-4dd7-b059-698446c9ec13
Faber, Peter, Johnstone, Alexandra M., Gibney, Eileen R., Elia, Marinos, Stubbs, R. James, Roger, Paula L., Milne, Eric, Buchan, William and Lobley, Gerald E.
(2003)
The effect of rate and extent of weight loss on urea salvage in obese male subjects.
British Journal of Nutrition, 90 (1), .
(doi:10.1079/BJN2003859).
Abstract
It is well established that in human subjects a proportion of urea production undergoes hydrolysis in the gastrointestinal tract with release of N potentially available for amino acid synthesis. Previous studies have suggested adaptive changes in urea kinetics, with more urea-N retained within the metabolic pool during reduced dietary intakes of energy and protein. We therefore investigated the effect of rate and extent of weight loss on adaptive changes in urea kinetics in two groups (each n 6) of obese men (mean age 43 (SD 12) years, BMI 34·8 (SD 2·9)kg/m2) during either total starvation for 6d or a very-low-energy diet (2·55MJ/d) for 21d. Subjects were resident in the Human Nutrition Unit of the Rowett Research Institute (Aberdeen, Scotland, UK) and lost 6 and 9% initial body weight within the starvation and dieting groups respectively. Changes in urea-N metabolism were assessed by stable isotope tracer kinetics using [15N15N]urea infused intravenously for 36h before, during and after weight loss. In response to weight loss, urea production decreased (P<0·01) by 25% from 278 to 206mmol urea-N/h per kg within the dieting group only. However, no changes were observed in the proportion of urea being hydrolysed in the gastrointestinal tract (range 20–25%) or in the proportion of N retained for anabolic purposes (80–85% urea-N from gastrointestinal hydrolysis) within either group. It was concluded that no adaptive changes in urea kinetics occurred in response to either the different rate or extent of weight loss.
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Published date: 2003
Keywords:
urea kinetics, weight loss, obesity
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Local EPrints ID: 25478
URI: http://eprints.soton.ac.uk/id/eprint/25478
ISSN: 0007-1145
PURE UUID: 37f8753b-fbe6-4013-808e-8f20ef23b62c
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Date deposited: 07 Apr 2006
Last modified: 15 Mar 2024 07:03
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Author:
Peter Faber
Author:
Alexandra M. Johnstone
Author:
Eileen R. Gibney
Author:
R. James Stubbs
Author:
Paula L. Roger
Author:
Eric Milne
Author:
William Buchan
Author:
Gerald E. Lobley
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