Elevated arterial ammonia is associated with several complications of liver disease as it predicts mortality for in-patients and decompensation, hospitalization and death in out-patients with cirrhosis. In this review, our aim was to estimate how the individual organs contribute to arterial ammonia based on published data from human studies. The brain removes ammonia from arterial blood in a concentration-dependent fashion. Ammonia that is released from the gut to portal blood is mainly from metabolism of glutamine in the enterocytes using this as a source of energy. Ammonia produced by bacterial metabolism of urea and proteins only partially reach portal blood and is likely recycled into bacterial proteins. In general, the liver efficiently removes ammonia from arterial or portal blood in proportion to the delivered concentration. As a result,- and in some contrast to conventional wisdom-, the hepato-splanchnic region only contributes marginally to arterial ammonia; even during a simulated upper GI bleed. The only exception is acute liver failure where hepatocyte necrosis allows large quantities of portal ammonia to pass. The kidneys release ammonia from glutamine metabolism into systemic blood. The renal ammonia release increases during a simulated upper GI bleed or hypokalemia where it becomes a major source of elevated arterial ammonia. In the resting state, muscles remove ammonia in a concentration-dependent manner and muscles are the primary ammonia lowering organ in most situations with elevated arterial ammonia. During strenuous exercise, muscles produce large amounts of ammonia into systemic blood. Thus, the complete pattern of ammonia metabolism is very dynamic and illustrates the difficulties in designing ammonia lowering therapies.
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