Add to ORKGMetabolic acidosis causes a cooperative participation of different organs such as the liver, kidney, and muscle in restoring acid-base balance. In splanchnic organs, metabolic acidosis has repercussions on several nitrogen metabolism pathways. The decrease in urea synthesis due to reduced activity of urea cycle enzymes, ammonia uptake and amino acid transport, and changes in glutamine metabolism support renal ammoniagenesis thus offering a response to rid the body of excess protons. While some of the mechanisms are adaptive others may be harmful for the body. Metabolic acidosis may have effects on splanchnic protein turnover. In severe acidosis, synthesis of secreted liver proteins may be reduced. Acidosis may also modulate the response of ...
AbstractIt is well recognized that the kidney responds to sustained metabolic acidosis with a variet...
Metabolic acidosis: An unrecognized cause of morbidity in the patient with chronic kidney disease. I...
Influence of ammonia and pH on protein and amino acid metabolism in LLC-PK1 cells. Metabolic acidosi...
Metabolic acidosis causes a cooperative participation of different organs such as the liver, kidney,...
Uraemia in end-stage renal disease patients leads to wasting of lean tissue, partly through the effe...
1. Impaired body growth, loss of lean body mass and negative nitrogen balance are common findings in...
Influence of ammonia and pH on protein and amino acid metabolism in LLC-PK1 cells. Metabolic acidosi...
Renal nitrogen metabolism primarily involves urea and ammonia metabolism, and is essential to normal...
Patients with liver disease have reduced urea synthesis capacity resulting in reduced capacity to de...
Patients with liver disease have reduced urea synthesis capacity resulting in reduced capacity to de...
Patients with liver disease have reduced urea synthesis capacity resulting in reduced capacity to de...
Patients with liver disease have reduced urea synthesis capacity resulting in reduced capacity to de...
Patients with liver disease have reduced urea synthesis capacity resulting in reduced capacity to de...
ABSTRACT There are many causes of altered amino acid and protein metabolism in uremia which may lead...
Metabolic acidosis and skeletal muscle adaptation to low protein diets in chronic uremia. To maintai...
AbstractIt is well recognized that the kidney responds to sustained metabolic acidosis with a variet...
Metabolic acidosis: An unrecognized cause of morbidity in the patient with chronic kidney disease. I...
Influence of ammonia and pH on protein and amino acid metabolism in LLC-PK1 cells. Metabolic acidosi...
Metabolic acidosis causes a cooperative participation of different organs such as the liver, kidney,...
Uraemia in end-stage renal disease patients leads to wasting of lean tissue, partly through the effe...
1. Impaired body growth, loss of lean body mass and negative nitrogen balance are common findings in...
Influence of ammonia and pH on protein and amino acid metabolism in LLC-PK1 cells. Metabolic acidosi...
Renal nitrogen metabolism primarily involves urea and ammonia metabolism, and is essential to normal...
Patients with liver disease have reduced urea synthesis capacity resulting in reduced capacity to de...
Patients with liver disease have reduced urea synthesis capacity resulting in reduced capacity to de...
Patients with liver disease have reduced urea synthesis capacity resulting in reduced capacity to de...
Patients with liver disease have reduced urea synthesis capacity resulting in reduced capacity to de...
Patients with liver disease have reduced urea synthesis capacity resulting in reduced capacity to de...
ABSTRACT There are many causes of altered amino acid and protein metabolism in uremia which may lead...
Metabolic acidosis and skeletal muscle adaptation to low protein diets in chronic uremia. To maintai...
AbstractIt is well recognized that the kidney responds to sustained metabolic acidosis with a variet...
Metabolic acidosis: An unrecognized cause of morbidity in the patient with chronic kidney disease. I...
Influence of ammonia and pH on protein and amino acid metabolism in LLC-PK1 cells. Metabolic acidosi...