Excerpt from Uremic Encephalopathy

Synonyms, Key Words, and Related Terms: uremic state, uremia, uremic coma, uremic dementia, dialysis encephalopathy, uremic encephalopathy, UE, dialysis dementia, dialysis disequilibrium syndrome, renal failure, RF, end-stage renal disease, ESRD, progressive renal insufficiency, multiorgan failure

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Background: Uremia describes the final stage of progressive renal insufficiency and the resultant multiorgan failure. It results from accumulating metabolites of proteins and amino acids and concomitant failure of renal catabolic, metabolic, and endocrinologic processes. No single metabolite has been identified as the sole cause of uremia. Uremic encephalopathy (UE) is one of many manifestations of renal failure (RF).

Pathophysiology: The exact cause of UE is unknown. Accumulating metabolites of proteins and amino acids affect the entire neuraxis. Several organic substances accumulate, including urea, guanidine compounds, uric acid, hippuric acid, various amino acids, polypeptides, polyamines, phenols and conjugates of phenols, phenolic and indolic acids, acetoin, glucuronic acid, carnitine, myoinositol, sulfates, phosphates, and middle molecules. Levels of some of the guanidine compounds, including guanidinosuccinic acid, methylguanidine, guanidine, and creatinine, increase in patients with uremia who are or who are not receiving dialysis.

Patients with terminal RF have >100-fold increases in levels of guanidinosuccinic acid and guanidine, 20-fold increases in levels of methylguanidine, and 5-fold increase in levels of creatinine in various regions of the brain. Disturbance in the kynurenic pathway, by which tryptophan is converted to neuroactive kynurenines, has also been implicated. Levels of 2 kynurenines, 3-hydroxykynurenine and kynurenine, are elevated in rats with chronic renal insufficiency; these changes lead to alterations in cellular metabolism, cellular damage, and eventual cell death. Kynurenine can induce convulsions.

Abnormalities that may be associated with UE include acidosis, hyponatremia, hyperkalemia, hypocalcemia, hypermagnesemia, overhydration, and dehydration.

No single abnormality is precisely correlated with the clinical features of UE. Increased levels of glycine, organic acids (from phenylalanine), and free tryptophan and decreased levels of gamma-aminobutyric acid (GABA) in the CSF may be responsible for early phases of the disorder. In rats with RF, brain levels of creatine phosphate, adenosine triphosphate (ATP), and glucose are increased, whereas levels of adenosine monophosphate (AMP), adenosine diphosphate (ADP), and lactate are decreased. This finding suggests that the uremic brain uses less ATP and produces less ADP, AMP, and lactate than healthy brains, consistent with a generalized decrease in metabolic function.

Transketolase, found mainly in myelinated neurons, is a thiamine-dependent enzyme of the pentose phosphate pathway; it maintains axon-cylinder myelin sheaths. Plasma, CSF, and low-molecular-weight (<500 Da) dialysate fractions from patients with uremia substantially inhibit this enzyme. Erythrocyte transketolase activity is lower in nondialyzed patients than in dialyzed patients. Guanidinosuccinic acid can inhibit transketolase.

Synaptosome studies of uremic rats have shown altered function of the sodium ATP and other metabolic pumps. Methylguanidine can induce a condition similar to UE that includes seizures and uremic twitch-convulsive syndrome. Guanidinosuccinic acid can also inhibit excitatory synaptic transmission in the CA1 region of the rat hippocampus, an effect that may contribute to cognitive symptoms in UE.

Guanidinosuccinic acid, methylguanidine, guanidine, and creatinine inhibited responses to GABA and glycine (inhibitory amino acids) in cultured mouse neurons. Guanidino compounds (GCs) inhibit nitric oxide synthase (NOS) modulators in vivo and in vitro. Accumulation of asymmetric dimethylarginine (ADMA), a NOS inhibitor, has been observed in patients with uremia; this accumulation induces hypertension and possibly increases ischemic vulnerability to the uremic brain.

UE involves many hormones, levels of several of which are elevated. Such hormones include parathyroid hormone (P .....