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Bilirubin (BR) (from the Latin for "red bile") is a red-orange compound that occurs in the normal catabolic pathway that breaks down heme in vertebrates.This catabolism is a necessary process in the body's clearance of waste products that arise from the destruction of aged or abnormal red blood cells. [3]
Heme breakdown. Degradation begins ... This form of bilirubin is excreted from the liver in bile. Excretion of bilirubin from liver to biliary canaliculi is an active ...
Biliverdin results from the breakdown of the heme moiety of hemoglobin in erythrocytes. Macrophages break down senescent erythrocytes and break the heme down into biliverdin along with hemosiderin, in which biliverdin normally rapidly reduces to free bilirubin. [1] [3] Biliverdin is seen briefly in some bruises as a green color.
Process of heme breakdown that leads to the production of bilirubin, in extravascular hemolysis. During intravascular hemolysis , red blood cells are broken down within the vasculature , allowing hemoglobin from the ruptured red blood cells to form haptoglobin-hemoglobin complexes with haptoglobin , which will be internalized and degraded by ...
Bilirubin, a yellow bilin, is a breakdown product of heme Bilins , bilanes or bile pigments are biological pigments formed in many organisms as a metabolic product of certain porphyrins . Bilin (also called bilichrome) was named as a bile pigment of mammals , but can also be found in lower vertebrates , invertebrates , as well as red algae ...
The heme is ultimately converted to bilirubin and removed in stool and urine. [44] Hemoglobin may be cleared directly by the kidneys resulting in fast clearance of free hemoglobin but causing the continued loss of hemosiderin loaded renal tubular cells for many days.
Stercobilin results from breakdown of the heme moiety of hemoglobin found in erythrocytes (red blood cells). Macrophages break down senescent erythrocytes and break the heme down into biliverdin, which rapidly reduces to free bilirubin.
The total average daily production of bilirubin in humans is 4 mg/kg. 80% of which is derived from haemoglobin (Hb) produced by erythrocyte breakdown, with the remaining from heme proteins, like myoglobin and cytochrome, turnover. [5] Hb is broken down into globin and haem, which then undergoes a multi-step enzymatic degradation process. [4]