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Wikipedia

Jaundice

May 04, 2023

"Icteric" redirects here. For the physiological event, see Ictal. For the songbird Icteria, see Yellow-breasted chat. For Jaundice in babies, see Neonatal jaundice.
"Yellowing" redirects here. For discoloration of ABS plastic, see Retr0bright.

Jaundice, also known as icterus, is a yellowish or greenish pigmentation of the skin and sclera due to high bilirubin levels.[3][6] Jaundice in adults is typically a sign indicating the presence of underlying diseases involving abnormal heme metabolism, liver dysfunction, or biliary-tract obstruction.[7] The prevalence of jaundice in adults is rare, while jaundice in babies is common, with an estimated 80% affected during their first week of life.[8] The most commonly associated symptoms of jaundice are itchiness,[2] pale feces, and dark urine.[4]

Jaundice
Other namesIcterus[1]
Jaundice of the skin caused by pancreatic cancer
Pronunciation
SpecialtyGastroenterology, hepatology, general surgery
SymptomsYellowish coloration of skin and sclera, itchiness[2][3]
CausesHigh bilirubin levels[3]
Risk factorsPancreatic cancer, Pancreatitis, Liver disease, Certain infections
Diagnostic methodBlood bilirubin, liver panel[3]
Differential diagnosisCarotenemia, taking rifampin[4]
TreatmentBased on the underlying cause[5]

Normal levels of bilirubin in blood are below 1.0 mg/dl (17 μmol/L), while levels over 2–3 mg/dl (34–51 μmol/L) typically result in jaundice.[4][9] High blood bilirubin is divided into two types – unconjugated and conjugated bilirubin.[10]

Causes of jaundice vary from relatively benign to potentially fatal.[10] High unconjugated bilirubin may be due to excess red blood cell breakdown, large bruises, genetic conditions such as Gilbert's syndrome, not eating for a prolonged period of time, newborn jaundice, or thyroid problems.[4][10] High conjugated bilirubin may be due to liver diseases such as cirrhosis or hepatitis, infections, medications, or blockage of the bile duct,[4] due to factors including gallstones, cancer, or pancreatitis.[4] Other conditions can also cause yellowish skin, but are not jaundice, including carotenemia, which can develop from eating large amounts of foods containing carotene — or medications such as rifampin.[4]

Treatment of jaundice is typically determined by the underlying cause.[5] If a bile duct blockage is present, surgery is typically required; otherwise, management is medical.[5] Medical management may involve treating infectious causes and stopping medication that could be contributing to the jaundice.[5] Jaundice in newborns may be treated with phototherapy or exchanged transfusion depending on age and prematurity when the bilirubin is greater than 4–21 mg/dl (68–360 μmol/L).[9] The itchiness may be helped by draining the gallbladder, ursodeoxycholic acid, or opioid antagonists such as naltrexone.[2] The word "jaundice" is from the French jaunisse, meaning "yellow disease".[11][12]

Signs and symptoms

 
A 4-year-old boy with icteric sclera due to G6PD deficiency

The most common signs of jaundice in adults are a yellowish discoloration of the white area of the eye (sclera) and skin[13] with scleral icterus presence indicating a serum bilirubin of at least 3 mg/dl.[14] Other common signs include dark urine (bilirubinuria) and pale (acholia) fatty stool (steatorrhea).[15] Because bilirubin is a skin irritant, jaundice is commonly associated with severe itchiness.[16][17]

Eye conjunctiva has a particularly high affinity for bilirubin deposition due to high elastin content. Slight increases in serum bilirubin can, therefore, be detected early on by observing the yellowing of sclerae. Traditionally referred to as scleral icterus, this term is actually a misnomer, because bilirubin deposition technically occurs in the conjunctival membranes overlying the avascular sclera. Thus, the proper term for the yellowing of "white of the eyes" is conjunctival icterus.[18]

A much less common sign of jaundice specifically during childhood is yellowish or greenish teeth. In developing children, hyperbilirubinemia may cause a yellow or green discoloration of teeth due to bilirubin deposition during the process of tooth calcification.[19] While this may occur in children with hyperbilirubinemia, tooth discoloration due to hyperbilirubinemia is not observed in individuals with adult-onset liver disease. Disorders associated with a rise in serum levels of conjugated bilirubin during early development can also cause dental hypoplasia.[20]

Causes

 
Types of jaundice

Jaundice is a sign indicating the presence of an underlying diseases involving abnormal bilirubin metabolism, liver dysfunction, or biliary-tract obstruction. In general, jaundice is present when blood levels of bilirubin exceed 3 mg/dl.[14] Jaundice is classified into three categories, depending on which part of the physiological mechanism the pathology affects. The three categories are:

Category Definition
Prehepatic/hemolytic The pathology occurs prior to the liver metabolism, due to either intrinsic causes to red blood cell rupture or extrinsic causes to red blood cell rupture.
Hepatic/hepatocellular The pathology is due to damage of parenchymal liver cells.
Posthepatic/cholestatic The pathology occurs after bilirubin conjugation in the liver, due to obstruction of the biliary tract and/or decreased bilirubin excretion.[21]

Prehepatic causes

Prehepatic jaundice is most commonly caused by a pathological increased rate of red blood cell (erythrocyte) hemolysis. The increased breakdown of erythrocytes → increased unconjugated serum bilirubin → increased deposition of unconjugated bilirubin into mucosal tissue.[22] These diseases may cause jaundice due to increased erythrocyte hemolysis:[23]

Hepatic causes

 
Microscopy of a biopsy of a cholestatic liver showing bilirubin pigment (brown pigment), H&E stain

Hepatic jaundice is caused by abnormal liver metabolism of bilirubin.[27] The major causes of hepatic jaundice are significant damage to hepatocytes due to infectious, drug/medication-induced, autoimmune etiology, or less commonly, due to inheritable genetic diseases.[28] The following is a partial list of hepatic causes to jaundice:[citation needed]

Posthepatic causes (Obstructive jaundice)

Posthepatic jaundice (obstructive jaundice), is caused by a blockage of bile ducts that transport bile containing conjugated bilirubin out of the liver for excretion.[29] This is a list of conditions that can cause posthepatic jaundice:

Pathophysiology

 

Jaundice is typically caused by an underlying pathological process that occurs at some point along the normal physiological pathway of heme metabolism. A deeper understanding of the anatomical flow of normal heme metabolism is essential to appreciate the importance of prehepatic, hepatic, and posthepatic categories. Thus, an anatomical approach to heme metabolism precedes a discussion of the pathophysiology of jaundice.[citation needed]

Normal heme metabolism

Prehepatic metabolism

When red blood cells complete their lifespan of about 120 days, or if they are damaged, they rupture as they pass through the reticuloendothelial system, and cell contents including hemoglobin are released into circulation. Macrophages phagocytose free hemoglobin and split it into heme and globin. Two reactions then take place with the heme molecule. The first oxidation reaction is catalyzed by the microsomal enzyme heme oxygenase and results in biliverdin (green color pigment), iron, and carbon monoxide. The next step is the reduction of biliverdin to a yellow color tetrapyrrole pigment called bilirubin by cytosolic enzyme biliverdin reductase. This bilirubin is "unconjugated", "free", or "indirect" bilirubin. Around 4 mg of bilirubin per kg of blood are produced each day.[31] The majority of this bilirubin comes from the breakdown of heme from expired red blood cells in the process just described. Roughly 20% comes from other heme sources, however, including ineffective erythropoiesis, and the breakdown of other heme-containing proteins, such as muscle myoglobin and cytochromes.[31] The unconjugated bilirubin then travels to the liver through the bloodstream. Because this bilirubin is not soluble, it is transported through the blood bound to serum albumin.[citation needed]

Hepatic metabolism

Once unconjugated bilirubin arrives in the liver, liver enzyme UDP-glucuronyl transferase conjugates bilirubin + glucuronic acidbilirubin diglucuronide (conjugated bilirubin). Bilirubin that has been conjugated by the liver is water-soluble and excreted into the gallbladder.[citation needed]

Posthepatic metabolism

Bilirubin enters the intestinal tract via bile. In the intestinal tract, bilirubin is converted into urobilinogen by symbiotic intestinal bacteria. Most urobilinogen is converted into stercobilinogen and further oxidized into stercobilin. Stercobilin is excreted via feces, giving stool its characteristic brown coloration.[32] A small portion of urobilinogen is reabsorbed back into the gastrointestinal cells. Most reabsorbed urobilinogen undergoes hepatobiliary recirculation. A smaller portion of reabsorbed urobilinogen is filtered into the kidneys. In the urine, urobilinogen is converted to urobilin, which gives urine its characteristic yellow color.[32]

Abnormalities in heme metabolism and excretion

One way to understand jaundice pathophysiology is to organize it into disorders that cause increased bilirubin production (abnormal heme metabolism) or decreased bilirubin excretion (abnormal heme excretion).[citation needed]

Prehepatic pathophysiology

Prehepatic jaundice results from a pathological increase in bilirubin production: an increased rate of erythrocyte hemolysis causes increased bilirubin production, leading to increased deposition of bilirubin in mucosal tissues and the appearance of a yellow hue.[citation needed]

Hepatic pathophysiology

Hepatic jaundice (hepatocellular jaundice) is due to significant disruption of liver function, leading to hepatic cell death and necrosis and impaired bilirubin transport across hepatocytes. Bilirubin transport across hepatocytes may be impaired at any point between hepatocellular uptake of unconjugated bilirubin and hepatocellular transport of conjugated bilirubin into the gallbladder. In addition, subsequent cellular edema due to inflammation causes mechanical obstruction of the intrahepatic biliary tract. Most commonly, interferences in all three major steps of bilirubin metabolism — uptake, conjugation, and excretion — usually occur in hepatocellular jaundice. Thus, an abnormal rise in both unconjugated and conjugated bilirubin will be present. Because excretion (the rate-limiting step) is usually impaired to the greatest extent, conjugated hyperbilirubinemia predominates.[33]

The unconjugated bilirubin still enters the liver cells and becomes conjugated in the usual way. This conjugated bilirubin is then returned to the blood, probably by rupture of the congested bile canaliculi and direct emptying of the bile into the lymph exiting the liver. Thus, most of the bilirubin in the plasma becomes the conjugated type rather than the unconjugated type, and this conjugated bilirubin, which did not go to the intestine to become urobilinogen, gives the urine a dark color.[34][clarification needed]

Posthepatic pathophysiology

Posthepatic jaundice, also called obstructive jaundice, is due to the blockage of bile excretion from the biliary tract, which leads to increased conjugated bilirubin and bile salts there. In complete obstruction of the bile duct, conjugated bilirubin cannot access the intestinal tract, disrupting further bilirubin conversion to urobilinogen and, therefore, no stercobilin or urobilin is produced. In obstructive jaundice, excess conjugated bilirubin is filtered into the urine without urobilinogen. Conjugated bilirubin in urine (bilirubinuria) gives urine an abnormally dark brown color. Thus, the presence of pale stool (stercobilin absent from feces) and dark urine (conjugated bilirubin present in urine) suggests an obstructive cause of jaundice. Because these associated signs are also positive in many hepatic jaundice conditions, they cannot be a reliable clinical feature to distinguish obstructive versus hepatocellular jaundice causes.[35]

Diagnosis

 
Biliary-tract dilation due to obstruction as seen on CT scan (frontal plane)
 
Biliary-tract dilation due to obstruction as seen on CT scan (axial plane)

Most people presenting with jaundice have various predictable patterns of liver panel abnormalities, though significant variation does exist. The typical liver panel includes blood levels of enzymes found primarily from the liver, such as the aminotransferases (ALT, AST), and alkaline phosphatase (ALP); bilirubin (which causes the jaundice); and protein levels, specifically, total protein and albumin. Other primary lab tests for liver function include gamma glutamyl transpeptidase (GGT) and prothrombin time (PT).[36] No single test can differentiate between various classifications of jaundice. A combination of liver function tests and other physical examination findings is essential to arrive at a diagnosis.[37]

Laboratory tests

Prehepatic jaundice Hepatic jaundice Posthepatic jaundice
Total serum bilirubin Normal / increased Increased Increased
Conjugated bilirubin Normal Increased Increased
Unconjugated bilirubin Normal / increased Increased Normal
Urobilinogen Normal / increased Decreased Decreased / negative
Urine color Normal[38] Dark (urobilinogen, conjugated bilirubin) Dark (conjugated bilirubin)
Stool color Brown Slightly pale Pale, white
Alkaline phosphatase levels Normal Increased Highly increased
Alanine transferase and aspartate transferase levels Highly increased Increased
Conjugated bilirubin in urine Not present Present Present

Some bone and heart disorders can lead to an increase in ALP and the aminotransferases, so the first step in differentiating these from liver problems is to compare the levels of GGT, which are only elevated in liver-specific conditions. The second step is distinguishing from biliary (cholestatic) or liver causes of jaundice and altered laboratory results. ALP and GGT levels typically rise with one pattern while aspartate aminotransferase (AST) and alanine aminotransferase (ALT) rise in a separate pattern. If the ALP (10–45 IU/L) and GGT (18–85 IU/L) levels rise proportionately as high as the AST (12–38 IU/L) and ALT (10–45 IU/L) levels, this indicates a cholestatic problem. If the AST and ALT rise is significantly higher than the ALP and GGT rise, though, this indicates a liver problem. Finally, distinguishing between liver causes of jaundice, comparing levels of AST and ALT can prove useful. AST levels typically are higher than ALT. This remains the case in most liver disorders except for hepatitis (viral or hepatotoxic). Alcoholic liver damage may have fairly normal ALT levels, with AST 10 times higher than ALT. If ALT is higher than AST, however, this is indicative of hepatitis. Levels of ALT and AST are not well correlated to the extent of liver damage, although rapid drops in these levels from very high levels can indicate severe necrosis. Low levels of albumin tend to indicate a chronic condition, while the level is normal in hepatitis and cholestasis.[citation needed]

Laboratory results for liver panels are frequently compared by the magnitude of their differences, not the pure number, as well as by their ratios. The AST:ALT ratio can be a good indicator of whether the disorder is alcoholic liver damage (above 10), some other form of liver damage (above 1), or hepatitis (less than 1). Bilirubin levels greater than 10 times normal could indicate neoplastic or intrahepatic cholestasis. Levels lower than this tend to indicate hepatocellular causes. AST levels greater than 15 times normal tend to indicate acute hepatocellular damage. Less than this tend to indicate obstructive causes. ALP levels greater than 5 times normal tend to indicate obstruction, while levels greater than 10 times normal can indicate drug (toxin) induced cholestatic hepatitis or cytomegalovirus infection. Both of these conditions can also have ALT and AST greater than 20 times normal. GGT levels greater than 10 times normal typically indicate cholestasis. Levels 5–10 times tend to indicate viral hepatitis. Levels less than 5 times normal tend to indicate drug toxicity. Acute hepatitis typically has ALT and AST levels rising 20–30 times normal (above 1000) and may remain significantly elevated for several weeks. Acetaminophen toxicity can result in ALT and AST levels greater than 50 times than normal.[citation needed]

Laboratory findings depend on the cause of jaundice:

  • Urine: conjugated bilirubin present, urobilinogen > 2 units but variable (except in children)
  • Plasma proteins show characteristic changes.
  • Plasma albumin level is low, but plasma globulins are raised due to an increased formation of antibodies.

Unconjugated bilirubin is hydrophobic, so cannot be excreted in urine. Thus, the finding of increased urobilinogen in the urine without the presence of bilirubin in the urine (due to its unconjugated state) suggests hemolytic jaundice as the underlying disease process.[39] Urobilinogen will be greater than 2 units, as hemolytic anemia causes increased heme metabolism; one exception being the case of infants, where the gut flora has not developed). Conversely, conjugated bilirubin is hydrophilic and thus can be detected as present in the urine — bilirubinuria — in contrast to unconjugated bilirubin, which is absent in the urine.[40]

Imaging

Medical imaging such as ultrasound, CT scan, and HIDA scan are useful for detecting bile-duct blockage.[40]

Differential diagnosis

  • Yellow discoloration of the skin, especially on the palms and the soles, but not of the sclera or inside the mouth, is often due to carotenemia—a harmless condition.[41]
  • Yellow discoloration of the skin can also rarely occur with hypercupremia, whether from Wilson's disease or from another metabolic derangement. Similarly, a golden-ish ring at the edges of the irises can occur (Kayser-Fleischer ring).

Treatment

Treatment of jaundice varies depending on the underlying cause.[5] If a bile duct blockage is present, surgery is typically required; otherwise, management is medical.[5][42][43][44]

Complications

Hyperbilirubinemia, more precisely hyperbilirubinemia due to the unconjugated fraction, may cause bilirubin to accumulate in the grey matter of the central nervous system, potentially causing irreversible neurological damage, leading to a condition known as kernicterus. Depending on the level of exposure, the effects range from unnoticeable to severe brain damage and even death. Newborns are especially vulnerable to hyperbilirubinemia-induced neurological damage, so must be carefully monitored for alterations in their serum bilirubin levels.[citation needed]

Individuals with parenchymal liver disease who have impaired hemostasis may develop bleeding problems.[45]

Epidemiology

Jaundice in adults is rare.[46][47][48] Under the five year DISCOVERY programme in the UK, annual incidence of jaundice was 0.74 per 1000 individuals over age 45, although this rate may be slightly inflated due to the main goal of the programme collecting and analyzing cancer data in the population.[49] Jaundice is commonly associated with severity of disease with an incidence of up to 40% of patients requiring intensive care in ICU experiencing jaundice.[48] The causes of jaundice in the intensive care setting is both due to jaundice as the primary reason for ICU stay or as a morbidity to an underlying disease (i.e. sepsis).[48]

In the developed world, the most common causes of jaundice are blockage of the bile duct or medication-induced. In the developing world, the most common cause of jaundice is infectious such as viral hepatitis, leptospirosis, schistosomiasis, or malaria.[4]

Risk factors

Risk factors associated with high serum bilirubin levels include male gender, white ethnicities, and active smoking.[50] Mean serum total bilirubin levels in adults were found to be higher in men (0.72 ± 0.004 mg/dl) than women (0.52 ± 0.003 mg/dl).[50] Higher bilirubin levels in adults are found also in non-Hispanic white population (0.63 ± 0.004 mg/dl) and Mexican American population (0.61 ± 0.005 mg/dl) while lower in non-Hispanic black population (0.55 ± 0.005 mg/dl).[50] Bilirubin levels are higher in active smokers.[50]

Special populations

Neonatal jaundice

Main article: Neonatal jaundice

Symptoms

Jaundice in infants presents with yellowed skin and icteral sclerae. Neonatal jaundice spreads in a cephalocaudal pattern, affecting the face and neck before spreading down to the trunk and lower extremities in more severe cases.[51] Other symptoms may include drowsiness, poor feeding, and in severe cases, unconjugated bilirubin can cross the blood-brain barrier and cause permanent neurological damage (kernicterus).

Causes

The most common cause of jaundice in infants is normal physiologic jaundice. Pathologic causes of neonatal jaundice include:

Pathophysiology

Transient neonatal jaundice is one of the most common conditions occurring in newborns (children under 28 days of age) with more than 80 per cent experienceing jaundice during their first week of life.[53] Jaundice in infants, as in adults, is characterized by increased bilirubin levels (infants: total serum bilirubin greater than 5 mg/dL).

Normal physiological neonatal jaundice is due to immaturity of liver enzymes involved in bilirubin metabolism, immature gut microbiota, and increased breakdown of fetal hemoglobin (HbF).[54] Breast milk jaundice is caused by an increased concentration of β-glucuronidase in breast milk, which increases bilirubin deconjugation and reabsorption of bilirubin, leading to persistence of physiologic jaundice with unconjugated hyperbilirubinemia. Onset of breast milk jaundice is within 2 weeks after birth and lasts for 4–13 weeks.[citation needed]

While most cases of newborn jaundice are not harmful, when bilirubin levels are very high, brain damage — kernicterus — may occur[55][8] leading to significant disability.[56] Kernicterus is associated with increased unconjugated bilirubin (bilirubin which is not carried by albumin). Newborns are especially vulnerable to this damage, due to increased permeability of the blood–brain barrier occurring with increased unconjugated bilirubin, simultaneous to the breakdown of fetal hemoglobin and the immaturity of gut flora. This condition has been rising in recent years. as babies spend less time in sunlight.[citation needed]

Treatment

Jaundice in newborns is usually transient and dissipates without medical intervention. In cases when serum bilirubin levels are greater than 4–21 mg/dl (68–360 μmol/L), infant may be treated with phototherapy or exchanged transfusion depending on the infant's age and prematurity status.[9] A bili light is often the tool used for early treatment, which often consists of exposing the baby to intensive phototherapy.[57] A 2014 systematic review found no evidence indicating whether outcomes were different for hospital-based versus home-based treatment.[58] A 2021 Cochrane systematic review found that sunlight can be used to supplement phototherapy, as long as care is taken to prevent overheating and skin damage.[59] There was not sufficient evidence to conclude that sunlight by itself is an effective treatment.[59] Bilirubin count is also lowered through excretion — bowel movements and urination —so frequent and effective feedings are vital measures to decrease jaundice in infants.[60]

Etymology

Jaundice comes from the French jaune, meaning yellow, jaunisse meaning "yellow disease". The medical term for it is icterus from the Greek word ikteros.[61] The origin of the word icterus is quite bizarre, coming from an ancient belief that jaundice could be cured by looking at the yellow bird icteria.[62] The term icterus is sometimes incorrectly used to refer to jaundice specifically of sclera.[61][63]

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External links

  •   The dictionary definition of jaundice at Wiktionary
  •   Media related to Jaundice at Wikimedia Commons

May 04, 2023
jaundice, icteric, redirects, here, physiological, event, ictal, songbird, icteria, yellow, breasted, chat, babies, neonatal, jaundice, yellowing, redirects, here, discoloration, plastic, retr0bright, been, suggested, that, cholemia, merged, into, this, articl. Icteric redirects here For the physiological event see Ictal For the songbird Icteria see Yellow breasted chat For Jaundice in babies see Neonatal jaundice Yellowing redirects here For discoloration of ABS plastic see Retr0bright It has been suggested that Cholemia be merged into this article Discuss Proposed since April 2023 Jaundice also known as icterus is a yellowish or greenish pigmentation of the skin and sclera due to high bilirubin levels 3 6 Jaundice in adults is typically a sign indicating the presence of underlying diseases involving abnormal heme metabolism liver dysfunction or biliary tract obstruction 7 The prevalence of jaundice in adults is rare while jaundice in babies is common with an estimated 80 affected during their first week of life 8 The most commonly associated symptoms of jaundice are itchiness 2 pale feces and dark urine 4 JaundiceOther namesIcterus 1 Jaundice of the skin caused by pancreatic cancerPronunciation ˈ dʒ ɔː n d ɪ s JAWN dissSpecialtyGastroenterology hepatology general surgerySymptomsYellowish coloration of skin and sclera itchiness 2 3 CausesHigh bilirubin levels 3 Risk factorsPancreatic cancer Pancreatitis Liver disease Certain infectionsDiagnostic methodBlood bilirubin liver panel 3 Differential diagnosisCarotenemia taking rifampin 4 TreatmentBased on the underlying cause 5 Normal levels of bilirubin in blood are below 1 0 mg dl 17 mmol L while levels over 2 3 mg dl 34 51 mmol L typically result in jaundice 4 9 High blood bilirubin is divided into two types unconjugated and conjugated bilirubin 10 Causes of jaundice vary from relatively benign to potentially fatal 10 High unconjugated bilirubin may be due to excess red blood cell breakdown large bruises genetic conditions such as Gilbert s syndrome not eating for a prolonged period of time newborn jaundice or thyroid problems 4 10 High conjugated bilirubin may be due to liver diseases such as cirrhosis or hepatitis infections medications or blockage of the bile duct 4 due to factors including gallstones cancer or pancreatitis 4 Other conditions can also cause yellowish skin but are not jaundice including carotenemia which can develop from eating large amounts of foods containing carotene or medications such as rifampin 4 Treatment of jaundice is typically determined by the underlying cause 5 If a bile duct blockage is present surgery is typically required otherwise management is medical 5 Medical management may involve treating infectious causes and stopping medication that could be contributing to the jaundice 5 Jaundice in newborns may be treated with phototherapy or exchanged transfusion depending on age and prematurity when the bilirubin is greater than 4 21 mg dl 68 360 mmol L 9 The itchiness may be helped by draining the gallbladder ursodeoxycholic acid or opioid antagonists such as naltrexone 2 The word jaundice is from the French jaunisse meaning yellow disease 11 12 Contents 1 Signs and symptoms 2 Causes 2 1 Prehepatic causes 2 2 Hepatic causes 2 3 Posthepatic causes Obstructive jaundice 3 Pathophysiology 3 1 Normal heme metabolism 3 1 1 Prehepatic metabolism 3 1 2 Hepatic metabolism 3 1 3 Posthepatic metabolism 3 2 Abnormalities in heme metabolism and excretion 3 2 1 Prehepatic pathophysiology 3 2 2 Hepatic pathophysiology 3 2 3 Posthepatic pathophysiology 4 Diagnosis 4 1 Laboratory tests 4 2 Imaging 4 3 Differential diagnosis 5 Treatment 6 Complications 7 Epidemiology 7 1 Risk factors 8 Special populations 8 1 Neonatal jaundice 8 1 1 Symptoms 8 1 2 Causes 8 1 3 Pathophysiology 8 1 4 Treatment 9 Etymology 10 References 11 External linksSigns and symptoms Edit A 4 year old boy with icteric sclera due to G6PD deficiency The most common signs of jaundice in adults are a yellowish discoloration of the white area of the eye sclera and skin 13 with scleral icterus presence indicating a serum bilirubin of at least 3 mg dl 14 Other common signs include dark urine bilirubinuria and pale acholia fatty stool steatorrhea 15 Because bilirubin is a skin irritant jaundice is commonly associated with severe itchiness 16 17 Eye conjunctiva has a particularly high affinity for bilirubin deposition due to high elastin content Slight increases in serum bilirubin can therefore be detected early on by observing the yellowing of sclerae Traditionally referred to as scleral icterus this term is actually a misnomer because bilirubin deposition technically occurs in the conjunctival membranes overlying the avascular sclera Thus the proper term for the yellowing of white of the eyes is conjunctival icterus 18 A much less common sign of jaundice specifically during childhood is yellowish or greenish teeth In developing children hyperbilirubinemia may cause a yellow or green discoloration of teeth due to bilirubin deposition during the process of tooth calcification 19 While this may occur in children with hyperbilirubinemia tooth discoloration due to hyperbilirubinemia is not observed in individuals with adult onset liver disease Disorders associated with a rise in serum levels of conjugated bilirubin during early development can also cause dental hypoplasia 20 Causes Edit Types of jaundice Jaundice is a sign indicating the presence of an underlying diseases involving abnormal bilirubin metabolism liver dysfunction or biliary tract obstruction In general jaundice is present when blood levels of bilirubin exceed 3 mg dl 14 Jaundice is classified into three categories depending on which part of the physiological mechanism the pathology affects The three categories are Category DefinitionPrehepatic hemolytic The pathology occurs prior to the liver metabolism due to either intrinsic causes to red blood cell rupture or extrinsic causes to red blood cell rupture Hepatic hepatocellular The pathology is due to damage of parenchymal liver cells Posthepatic cholestatic The pathology occurs after bilirubin conjugation in the liver due to obstruction of the biliary tract and or decreased bilirubin excretion 21 Prehepatic causes Edit Prehepatic jaundice is most commonly caused by a pathological increased rate of red blood cell erythrocyte hemolysis The increased breakdown of erythrocytes increased unconjugated serum bilirubin increased deposition of unconjugated bilirubin into mucosal tissue 22 These diseases may cause jaundice due to increased erythrocyte hemolysis 23 Sickle cell anemia 24 Spherocytosis 25 Thalassemia 26 Pyruvate kinase deficiency Glucose 6 phosphate dehydrogenase deficiency Microangiopathic hemolytic anemia Hemolytic uremic syndrome Severe malaria in endemic countries Hepatic causes Edit Microscopy of a biopsy of a cholestatic liver showing bilirubin pigment brown pigment H amp E stain Hepatic jaundice is caused by abnormal liver metabolism of bilirubin 27 The major causes of hepatic jaundice are significant damage to hepatocytes due to infectious drug medication induced autoimmune etiology or less commonly due to inheritable genetic diseases 28 The following is a partial list of hepatic causes to jaundice citation needed Acute hepatitis Chronic hepatitis Hepatotoxicity Cirrhosis Drug induced hepatitis Alcoholic liver disease Gilbert s syndrome found in about 5 of the population results in induced mild jaundice Crigler Najjar syndrome type I Crigler Najjar syndrome type II LeptospirosisPosthepatic causes Obstructive jaundice Edit Posthepatic jaundice obstructive jaundice is caused by a blockage of bile ducts that transport bile containing conjugated bilirubin out of the liver for excretion 29 This is a list of conditions that can cause posthepatic jaundice Choledocholithiasis common bile duct gallstones It is the most common cause of obstructive jaundice Pancreatic cancer of the pancreatic head Biliary tract strictures Biliary atresia Primary biliary cholangitis Cholestasis of pregnancy Acute Pancreatitis Chronic Pancreatitis Pancreatic pseudocysts Mirizzi s syndrome Parasites liver flukes of the Opisthorchiidae and Fasciolidae 30 Pathophysiology Edit Jaundice is typically caused by an underlying pathological process that occurs at some point along the normal physiological pathway of heme metabolism A deeper understanding of the anatomical flow of normal heme metabolism is essential to appreciate the importance of prehepatic hepatic and posthepatic categories Thus an anatomical approach to heme metabolism precedes a discussion of the pathophysiology of jaundice citation needed Normal heme metabolism Edit Prehepatic metabolism Edit When red blood cells complete their lifespan of about 120 days or if they are damaged they rupture as they pass through the reticuloendothelial system and cell contents including hemoglobin are released into circulation Macrophages phagocytose free hemoglobin and split it into heme and globin Two reactions then take place with the heme molecule The first oxidation reaction is catalyzed by the microsomal enzyme heme oxygenase and results in biliverdin green color pigment iron and carbon monoxide The next step is the reduction of biliverdin to a yellow color tetrapyrrole pigment called bilirubin by cytosolic enzyme biliverdin reductase This bilirubin is unconjugated free or indirect bilirubin Around 4 mg of bilirubin per kg of blood are produced each day 31 The majority of this bilirubin comes from the breakdown of heme from expired red blood cells in the process just described Roughly 20 comes from other heme sources however including ineffective erythropoiesis and the breakdown of other heme containing proteins such as muscle myoglobin and cytochromes 31 The unconjugated bilirubin then travels to the liver through the bloodstream Because this bilirubin is not soluble it is transported through the blood bound to serum albumin citation needed Hepatic metabolism Edit Once unconjugated bilirubin arrives in the liver liver enzyme UDP glucuronyl transferase conjugates bilirubin glucuronic acid bilirubin diglucuronide conjugated bilirubin Bilirubin that has been conjugated by the liver is water soluble and excreted into the gallbladder citation needed Posthepatic metabolism Edit Bilirubin enters the intestinal tract via bile In the intestinal tract bilirubin is converted into urobilinogen by symbiotic intestinal bacteria Most urobilinogen is converted into stercobilinogen and further oxidized into stercobilin Stercobilin is excreted via feces giving stool its characteristic brown coloration 32 A small portion of urobilinogen is reabsorbed back into the gastrointestinal cells Most reabsorbed urobilinogen undergoes hepatobiliary recirculation A smaller portion of reabsorbed urobilinogen is filtered into the kidneys In the urine urobilinogen is converted to urobilin which gives urine its characteristic yellow color 32 Abnormalities in heme metabolism and excretion Edit One way to understand jaundice pathophysiology is to organize it into disorders that cause increased bilirubin production abnormal heme metabolism or decreased bilirubin excretion abnormal heme excretion citation needed Prehepatic pathophysiology Edit Prehepatic jaundice results from a pathological increase in bilirubin production an increased rate of erythrocyte hemolysis causes increased bilirubin production leading to increased deposition of bilirubin in mucosal tissues and the appearance of a yellow hue citation needed Hepatic pathophysiology Edit Hepatic jaundice hepatocellular jaundice is due to significant disruption of liver function leading to hepatic cell death and necrosis and impaired bilirubin transport across hepatocytes Bilirubin transport across hepatocytes may be impaired at any point between hepatocellular uptake of unconjugated bilirubin and hepatocellular transport of conjugated bilirubin into the gallbladder In addition subsequent cellular edema due to inflammation causes mechanical obstruction of the intrahepatic biliary tract Most commonly interferences in all three major steps of bilirubin metabolism uptake conjugation and excretion usually occur in hepatocellular jaundice Thus an abnormal rise in both unconjugated and conjugated bilirubin will be present Because excretion the rate limiting step is usually impaired to the greatest extent conjugated hyperbilirubinemia predominates 33 The unconjugated bilirubin still enters the liver cells and becomes conjugated in the usual way This conjugated bilirubin is then returned to the blood probably by rupture of the congested bile canaliculi and direct emptying of the bile into the lymph exiting the liver Thus most of the bilirubin in the plasma becomes the conjugated type rather than the unconjugated type and this conjugated bilirubin which did not go to the intestine to become urobilinogen gives the urine a dark color 34 clarification needed Posthepatic pathophysiology Edit Posthepatic jaundice also called obstructive jaundice is due to the blockage of bile excretion from the biliary tract which leads to increased conjugated bilirubin and bile salts there In complete obstruction of the bile duct conjugated bilirubin cannot access the intestinal tract disrupting further bilirubin conversion to urobilinogen and therefore no stercobilin or urobilin is produced In obstructive jaundice excess conjugated bilirubin is filtered into the urine without urobilinogen Conjugated bilirubin in urine bilirubinuria gives urine an abnormally dark brown color Thus the presence of pale stool stercobilin absent from feces and dark urine conjugated bilirubin present in urine suggests an obstructive cause of jaundice Because these associated signs are also positive in many hepatic jaundice conditions they cannot be a reliable clinical feature to distinguish obstructive versus hepatocellular jaundice causes 35 Diagnosis Edit Biliary tract dilation due to obstruction as seen on CT scan frontal plane Biliary tract dilation due to obstruction as seen on CT scan axial plane Most people presenting with jaundice have various predictable patterns of liver panel abnormalities though significant variation does exist The typical liver panel includes blood levels of enzymes found primarily from the liver such as the aminotransferases ALT AST and alkaline phosphatase ALP bilirubin which causes the jaundice and protein levels specifically total protein and albumin Other primary lab tests for liver function include gamma glutamyl transpeptidase GGT and prothrombin time PT 36 No single test can differentiate between various classifications of jaundice A combination of liver function tests and other physical examination findings is essential to arrive at a diagnosis 37 Laboratory tests Edit Prehepatic jaundice Hepatic jaundice Posthepatic jaundiceTotal serum bilirubin Normal increased Increased IncreasedConjugated bilirubin Normal Increased IncreasedUnconjugated bilirubin Normal increased Increased NormalUrobilinogen Normal increased Decreased Decreased negativeUrine color Normal 38 Dark urobilinogen conjugated bilirubin Dark conjugated bilirubin Stool color Brown Slightly pale Pale whiteAlkaline phosphatase levels Normal Increased Highly increasedAlanine transferase and aspartate transferase levels Highly increased IncreasedConjugated bilirubin in urine Not present Present PresentSome bone and heart disorders can lead to an increase in ALP and the aminotransferases so the first step in differentiating these from liver problems is to compare the levels of GGT which are only elevated in liver specific conditions The second step is distinguishing from biliary cholestatic or liver causes of jaundice and altered laboratory results ALP and GGT levels typically rise with one pattern while aspartate aminotransferase AST and alanine aminotransferase ALT rise in a separate pattern If the ALP 10 45 IU L and GGT 18 85 IU L levels rise proportionately as high as the AST 12 38 IU L and ALT 10 45 IU L levels this indicates a cholestatic problem If the AST and ALT rise is significantly higher than the ALP and GGT rise though this indicates a liver problem Finally distinguishing between liver causes of jaundice comparing levels of AST and ALT can prove useful AST levels typically are higher than ALT This remains the case in most liver disorders except for hepatitis viral or hepatotoxic Alcoholic liver damage may have fairly normal ALT levels with AST 10 times higher than ALT If ALT is higher than AST however this is indicative of hepatitis Levels of ALT and AST are not well correlated to the extent of liver damage although rapid drops in these levels from very high levels can indicate severe necrosis Low levels of albumin tend to indicate a chronic condition while the level is normal in hepatitis and cholestasis citation needed Laboratory results for liver panels are frequently compared by the magnitude of their differences not the pure number as well as by their ratios The AST ALT ratio can be a good indicator of whether the disorder is alcoholic liver damage above 10 some other form of liver damage above 1 or hepatitis less than 1 Bilirubin levels greater than 10 times normal could indicate neoplastic or intrahepatic cholestasis Levels lower than this tend to indicate hepatocellular causes AST levels greater than 15 times normal tend to indicate acute hepatocellular damage Less than this tend to indicate obstructive causes ALP levels greater than 5 times normal tend to indicate obstruction while levels greater than 10 times normal can indicate drug toxin induced cholestatic hepatitis or cytomegalovirus infection Both of these conditions can also have ALT and AST greater than 20 times normal GGT levels greater than 10 times normal typically indicate cholestasis Levels 5 10 times tend to indicate viral hepatitis Levels less than 5 times normal tend to indicate drug toxicity Acute hepatitis typically has ALT and AST levels rising 20 30 times normal above 1000 and may remain significantly elevated for several weeks Acetaminophen toxicity can result in ALT and AST levels greater than 50 times than normal citation needed Laboratory findings depend on the cause of jaundice Urine conjugated bilirubin present urobilinogen gt 2 units but variable except in children Plasma proteins show characteristic changes Plasma albumin level is low but plasma globulins are raised due to an increased formation of antibodies Unconjugated bilirubin is hydrophobic so cannot be excreted in urine Thus the finding of increased urobilinogen in the urine without the presence of bilirubin in the urine due to its unconjugated state suggests hemolytic jaundice as the underlying disease process 39 Urobilinogen will be greater than 2 units as hemolytic anemia causes increased heme metabolism one exception being the case of infants where the gut flora has not developed Conversely conjugated bilirubin is hydrophilic and thus can be detected as present in the urine bilirubinuria in contrast to unconjugated bilirubin which is absent in the urine 40 Imaging Edit Medical imaging such as ultrasound CT scan and HIDA scan are useful for detecting bile duct blockage 40 Differential diagnosis Edit Yellow discoloration of the skin especially on the palms and the soles but not of the sclera or inside the mouth is often due to carotenemia a harmless condition 41 Yellow discoloration of the skin can also rarely occur with hypercupremia whether from Wilson s disease or from another metabolic derangement Similarly a golden ish ring at the edges of the irises can occur Kayser Fleischer ring Treatment EditTreatment of jaundice varies depending on the underlying cause 5 If a bile duct blockage is present surgery is typically required otherwise management is medical 5 42 43 44 Complications EditHyperbilirubinemia more precisely hyperbilirubinemia due to the unconjugated fraction may cause bilirubin to accumulate in the grey matter of the central nervous system potentially causing irreversible neurological damage leading to a condition known as kernicterus Depending on the level of exposure the effects range from unnoticeable to severe brain damage and even death Newborns are especially vulnerable to hyperbilirubinemia induced neurological damage so must be carefully monitored for alterations in their serum bilirubin levels citation needed Individuals with parenchymal liver disease who have impaired hemostasis may develop bleeding problems 45 Epidemiology EditJaundice in adults is rare 46 47 48 Under the five year DISCOVERY programme in the UK annual incidence of jaundice was 0 74 per 1000 individuals over age 45 although this rate may be slightly inflated due to the main goal of the programme collecting and analyzing cancer data in the population 49 Jaundice is commonly associated with severity of disease with an incidence of up to 40 of patients requiring intensive care in ICU experiencing jaundice 48 The causes of jaundice in the intensive care setting is both due to jaundice as the primary reason for ICU stay or as a morbidity to an underlying disease i e sepsis 48 In the developed world the most common causes of jaundice are blockage of the bile duct or medication induced In the developing world the most common cause of jaundice is infectious such as viral hepatitis leptospirosis schistosomiasis or malaria 4 Risk factors Edit Risk factors associated with high serum bilirubin levels include male gender white ethnicities and active smoking 50 Mean serum total bilirubin levels in adults were found to be higher in men 0 72 0 004 mg dl than women 0 52 0 003 mg dl 50 Higher bilirubin levels in adults are found also in non Hispanic white population 0 63 0 004 mg dl and Mexican American population 0 61 0 005 mg dl while lower in non Hispanic black population 0 55 0 005 mg dl 50 Bilirubin levels are higher in active smokers 50 Special populations EditNeonatal jaundice Edit Main article Neonatal jaundice Symptoms Edit Jaundice in infants presents with yellowed skin and icteral sclerae Neonatal jaundice spreads in a cephalocaudal pattern affecting the face and neck before spreading down to the trunk and lower extremities in more severe cases 51 Other symptoms may include drowsiness poor feeding and in severe cases unconjugated bilirubin can cross the blood brain barrier and cause permanent neurological damage kernicterus Causes Edit The most common cause of jaundice in infants is normal physiologic jaundice Pathologic causes of neonatal jaundice include Formula jaundice 52 Hereditary spherocytosis Glucose 6 phosphate dehydrogenase deficiency Pyruvate kinase deficiency ABO Rh blood type autoantibodies Alpha 1 antitrypsin deficiency Alagille syndrome genetic defect resulting in hypoplastic intrahepatic bile ducts Progressive familial intrahepatic cholestasis Pyknocytosis due to vitamin deficiency Cretinism congenital hypothyroidism Sepsis or other infectious causesPathophysiology Edit Transient neonatal jaundice is one of the most common conditions occurring in newborns children under 28 days of age with more than 80 per cent experienceing jaundice during their first week of life 53 Jaundice in infants as in adults is characterized by increased bilirubin levels infants total serum bilirubin greater than 5 mg dL Normal physiological neonatal jaundice is due to immaturity of liver enzymes involved in bilirubin metabolism immature gut microbiota and increased breakdown of fetal hemoglobin HbF 54 Breast milk jaundice is caused by an increased concentration of b glucuronidase in breast milk which increases bilirubin deconjugation and reabsorption of bilirubin leading to persistence of physiologic jaundice with unconjugated hyperbilirubinemia Onset of breast milk jaundice is within 2 weeks after birth and lasts for 4 13 weeks citation needed While most cases of newborn jaundice are not harmful when bilirubin levels are very high brain damage kernicterus may occur 55 8 leading to significant disability 56 Kernicterus is associated with increased unconjugated bilirubin bilirubin which is not carried by albumin Newborns are especially vulnerable to this damage due to increased permeability of the blood brain barrier occurring with increased unconjugated bilirubin simultaneous to the breakdown of fetal hemoglobin and the immaturity of gut flora This condition has been rising in recent years as babies spend less time in sunlight citation needed Treatment Edit Jaundice in newborns is usually transient and dissipates without medical intervention In cases when serum bilirubin levels are greater than 4 21 mg dl 68 360 mmol L infant may be treated with phototherapy or exchanged transfusion depending on the infant s age and prematurity status 9 A bili light is often the tool used for early treatment which often consists of exposing the baby to intensive phototherapy 57 A 2014 systematic review found no evidence indicating whether outcomes were different for hospital based versus home based treatment 58 A 2021 Cochrane systematic review found that sunlight can be used to supplement phototherapy as long as care is taken to prevent overheating and skin damage 59 There was not sufficient evidence to conclude that sunlight by itself is an effective treatment 59 Bilirubin count is also lowered through excretion bowel movements and urination so frequent and effective feedings are vital measures to decrease jaundice in infants 60 Etymology EditJaundice comes from the French jaune meaning yellow jaunisse meaning yellow disease The medical term for it is icterus from the Greek word ikteros 61 The origin of the word icterus is quite bizarre coming from an ancient belief that jaundice could be cured by looking at the yellow bird icteria 62 The term icterus is sometimes incorrectly used to refer to jaundice specifically of sclera 61 63 References Edit Torre DM Lamb GC Ruiswyk JV Schapira RM 2009 Kochar s Clinical Medicine for Students Lippincott Williams amp Wilkins p 101 ISBN 9780781766999 a b c Bassari R Koea JB February 2015 Jaundice associated pruritis a review of pathophysiology and treatment World Journal of Gastroenterology 21 5 1404 13 doi 10 3748 wjg 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