Everything about Bilirubin totally explained
Bilirubin is the yellow breakdown product of normal
heme catabolism. Heme is formed from hemoglobin, a principle component of
red blood cells. Bilirubin is excreted in
bile, and its levels are elevated in certain diseases. It is responsible for the yellow colour of
bruises and the yellow discolouration in
jaundice. Bilirubin reduction in the gut leads to a product called
urobilinogen which is then oxidized to
urobilin which is excreted in the urine.
Chemistry
Bilirubin consists of an open chain of four
pyrrole-like rings (
tetrapyrrole). In
heme, by contrast, these four rings are connected into a larger ring, called a
porphyrin ring.
Bilirubin is very similar to the
pigment phycobilin used by certain algae to capture light energy, and to the pigment
phytochrome used by plants to sense light. All of these contain an open chain of four pyrrolic rings.
Like these other pigments, bilirubin changes its conformation when exposed to light. This is used in the
phototherapy of jaundiced newborns: the
isomer of bilirubin formed upon light exposure is more soluble than the unilluminated isomer.
Several textbooks and research articles show incorrect chemical structures for the two
isoforms of bilirubin.
Function
Bilirubin is created by the activity of
biliverdin reductase on
biliverdin. Bilirubin, when oxidized, reverts to become biliverdin once again. This cycle, in addition to the demonstration of the potent antioxidant activity of bilirubin, has led to the hypothesis that bilirubin's main physiologic role is as a cellular antioxidant.
Metabolism
Erythrocytes (red blood cells) generated in the
bone marrow are destroyed in the
spleen when they get old or damaged. This releases
hemoglobin, which is broken down to
heme, as the globin parts are turned into
amino acids. The heme is then turned into unconjugated bilirubin in the
macrophages of the spleen. This unconjugated bilirubin isn't water soluble. It is then bound to
albumin and sent to the
liver.
In the liver it's conjugated with
glucuronic acid, making it soluble in water. Much of it goes into the bile and thus out into the small intestine. Some of the conjugated bilirubin remains in the large intestine and is metabolised by colonic bacteria to
urobilinogen, which is further metabolized to
stercobilinogen, and finally oxidised to
stercobilin. This stercobilin is what gives feces its brown color. Some of the urobilinogen is reabsorbed, and excreted in the urine along with an oxidized form,
urobilin.
Normally, a tiny amount of bilirubin is excreted in the urine, accounting for the light yellow colour. If the liver’s function is impaired or when biliary drainage is blocked, some of the conjugated bilirubin leaks out of the hepatocytes and appears in the urine, turning it dark amber. The presence of this conjugated bilirubin in the urine can be tested for clinically, and is reported as an increase in urine bilirubin. However, in the disorder
hemolytic anemia, an increased number of red blood cells are broken down, causing an increase in the amount of unconjugated bilirubin in the blood. As stated above, the unconjugated bilirubin isn't water soluble, and thus one won't see an increase in bilirubin in the urine. Because there's no problem with the liver or bile systems, this excess unconjugated bilirubin will go through all of the normal processing mechanisms that occur (for example, conjugation, excretion in bile, metabolism to urobilinogen, reabsorption) and will show up as an increase in urine urobilinogen. This difference between increased urine bilirubin and increased urine urobilinogen is an important one, as it allows clinicians to determine what disorders a patient likely has.
Toxicity
Unconjugated hyperbilirubinaemia in the neonate can lead to accumulation of bilirubin in certain brain regions, a phenomenon known as
kernicterus, with consequent irreversible damage to these areas manifesting as various neurological deficits,
seizures, abnormal
reflexes and eye movements. The neurotoxicity of neonatal hyperbilirubinemia manifests because the
blood-brain barrier has yet to develop fully, and bilirubin can freely pass into the brain interstitium, whereas more developed individuals with increased bilirubin in the blood are protected. Aside from specific chronic medical conditions that may lead to
hyperbilirubinaemia, neonates in general are at increased risk since they lack the intestinal bacteria that facilitate the breakdown and excretion of conjugated bilirubin in the feces (this is largely why the feces of a neonate are paler than those of an adult). Instead the conjugated bilirubin is converted back into the unconjugated form by the enzyme
β-glucuronidase and a large proportion is reabsorbed through the
enterohepatic circulation.
Benefits
Reasonable levels of bilirubin can be beneficial to the organism. Evidence is accumulating that suggests bilirubin can protect tissues against oxidative damage caused by
free radicals and other
reactive oxygen species.
Statistical analysis of people with high normal or slightly elevated bilirubin levels in blood shows that they've a lower risk of developing cardiovascular diseases.
Blood tests
Bilirubin is in one of two forms:
| Abb. |
Name |
Soluble? |
Reaction |
| "BC" |
conjugated |
Yes (bound to glucuronic acid) |
Reacts quickly when dyes are added to the blood specimen. Product is Azobilirubin "Direct bilirubin" |
| "BU" |
unconjugated |
No |
Reacts more slowly. Still produces Azobilirubin. Ethanol makes all bilirubin react promptly. Indirect bilirubin = Total bilirubin - Direct bilirubin |
Total bilirubin measures both BU and BC. Total and direct bilirubin levels can be measured from the blood, but indirect bilirubin is calculated from the total and direct bilirubin.
To further elucidate the causes of jaundice or increased bilirubin, it's usually simpler to look at other
liver function tests (especially the enzymes
ALT,
AST,
GGT,
Alk Phos),
blood film examination (
hemolysis, etc.) or evidence of infective
hepatitis (for example, Hepatitis A, B, C, delta, E, etc).
Bilirubin is an excretion product, and the body doesn't control levels. Bilirubin levels reflect the balance between production and excretion. Thus, there's no "normal" level of bilirubin.
Bilirubin is broken down by light, and therefore blood collection tubes (especially serum tubes) should be protected from such exposure.
Interpretation
Different sources provide
reference ranges which are similar but not identical. Some examples for adults are provided below (different reference ranges are often used for newborns):
| |
μmol/L |
mg/dL |
| total bilirubin |
5.1–17.0 |
0.2-1.9, 0.3–1.0, |
| direct bilirubin |
1.0–5.1 |
0-0.3, |
Mild rises in bilirubin may be caused by
- Hemolysis or increased breakdown of red blood cells.
- Gilbert's syndrome - a genetic disorder of bilirubin metabolism which can result in mild jaundice, found in about 5% of the population.
Moderate rise in bilirubin may be caused by
Drugs (especially anti-psychotic, some sex hormones, and a wide range of other drugs).
Hepatitis (levels may be moderate or high).
Biliary stricture (benign or malignant)
Very high levels of bilirubin may be caused by
Neonatal hyperbilirubinaemia, where the newborn's liver isn't able to properly conjugate the bilirubin (see jaundice).
Unusually large bile duct obstruction, eg stone in common bile duct, tumour obstructing common bile duct etc.
Severe liver failure with cirrhosis.
Severe hepatitis.
Crigler-Najjar syndrome
Dubin-Johnson syndrome
Choledocholithiasis (chronic or acute)
Cirrhosis may cause normal, moderately high or high levels of bilirubin, depending on exact features of the cirrhosis
Indirect bilirubin is fat soluble and direct bilirubin is water soluble.
Jaundice
Jaundice may be noticeable in the sclera (white) of the eyes at levels of about 30-50 μmol/l, and in the skin at higher levels. Jaundice is classified depending upon whether the bilirubin is free or conjugated to glucuronic acid into:
Conjugated jaundice
Unconjugated jaundiceFurther Information
Get more info on 'Bilirubin'.
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