Add to ORKGMuscle protein turnover and amino acid (AA) exchange were studied in 4 patients with chronic renal failure (CRF) and in 5 controls in the postabsorptive state by using the forearm perfusion method together with the systemic infusion of 3H-Phe. In CRF patients muscle protein breakdown is increased and is associated with a parallel increase in protein synthesis. Protein breakdown is inversely related to arterial bicarbonate. Net proteolysis is unchanged. The release of total AA, glutamine and alanine is not different from controls, whereas the release of valine and leucine is reduced and serine uptake tends to be decreased. In conclusion, in postabsorptive patients with CRF, well before the uremic stage, an increased protein breakdown associa...
ABSTRACT There are many causes of altered amino acid and protein metabolism in uremia which may lead...
Protein synthesis and degradation in skeletal muscle of chronically uremic rats. We used the perfuse...
Ribosome and free amino acid content in muscle during hemodialysis. Patients (N =8) with chronic ren...
Muscle protein turnover and amino acid (AA) exchange were studied in 4 patients with chronic renal f...
Skeletal muscle protein synthesis and degradation in patients with chronic renal failure. Muscle pro...
Muscle protein turnover and amino acid (AA) exchange across the forearm were studied in nine postabs...
Muscle exchange of amino acids (AAs) was evaluated by using the arteriovenous-difference technique a...
Protein metabolism in patients with chronic renal failure: Role of uremia and dialysis. Individuals ...
Chronic renal failure and uraemia are characterised by gradual loss of renal function with an accumu...
Metabolic acidosis and skeletal muscle adaptation to low protein diets in chronic uremia. To maintai...
Acidosis, not azotemia, stimulates branched-chain, amino acid catabolism in uremic rats. To investig...
Skeletal muscle biopsies were performed on 12 healthy sedentary subjects and on 22 non-dyalized chro...
In severe chronic renal failure (CRF) with associated metabolic acidosis, abnormalities in protein m...
Plasma and muscle free amino acids in maintenance hemodialysis patients without protein malnutrition...
1. Impaired body growth, loss of lean body mass and negative nitrogen balance are common findings in...
ABSTRACT There are many causes of altered amino acid and protein metabolism in uremia which may lead...
Protein synthesis and degradation in skeletal muscle of chronically uremic rats. We used the perfuse...
Ribosome and free amino acid content in muscle during hemodialysis. Patients (N =8) with chronic ren...
Muscle protein turnover and amino acid (AA) exchange were studied in 4 patients with chronic renal f...
Skeletal muscle protein synthesis and degradation in patients with chronic renal failure. Muscle pro...
Muscle protein turnover and amino acid (AA) exchange across the forearm were studied in nine postabs...
Muscle exchange of amino acids (AAs) was evaluated by using the arteriovenous-difference technique a...
Protein metabolism in patients with chronic renal failure: Role of uremia and dialysis. Individuals ...
Chronic renal failure and uraemia are characterised by gradual loss of renal function with an accumu...
Metabolic acidosis and skeletal muscle adaptation to low protein diets in chronic uremia. To maintai...
Acidosis, not azotemia, stimulates branched-chain, amino acid catabolism in uremic rats. To investig...
Skeletal muscle biopsies were performed on 12 healthy sedentary subjects and on 22 non-dyalized chro...
In severe chronic renal failure (CRF) with associated metabolic acidosis, abnormalities in protein m...
Plasma and muscle free amino acids in maintenance hemodialysis patients without protein malnutrition...
1. Impaired body growth, loss of lean body mass and negative nitrogen balance are common findings in...
ABSTRACT There are many causes of altered amino acid and protein metabolism in uremia which may lead...
Protein synthesis and degradation in skeletal muscle of chronically uremic rats. We used the perfuse...
Ribosome and free amino acid content in muscle during hemodialysis. Patients (N =8) with chronic ren...