Albumin

Decreased circulating concentrations of albumin may be the result of either decreased production or increased loss. Levels are normally lower in the second and third trimesters of pregnancy because of increased plasma volume.

Aspartate and Alanine Amino Transferase

The enzymes AST and ALT catalyze the transfer of the α‐amino groups of alanine and aspartate to the α‐keto‐group of ketoglutaric acid, forming pyruvic and oxaloacetic acid, respectively. Whereas ALT is located primarily in the hepatocytes, AST is more widely distributed, including skeletal and cardiac muscle, red and white blood cells, brain, pancreas, and kidney. Within the hepatocyte, ALT is located primarily in the cytosol, whereas AST is located in the mitochondria (80%) and, to a lesser degree, in the cytosol. The reference ranges will vary between laboratories but the upper limit of normal is higher in males than females and should be considered in the light of body weight.

In most cases of liver damage, both AST and ALT are elevated. Very high levels (> 500 iu/l) are seen in fulminant hepatic failure, ischemic hepatitis, acute Budd–Chiari syndrome, hepatic necrosis from drugs or hepatic artery ligation.

Historically, there was much emphasis placed on the ratio of AST to ALT. In general, serum ALT levels are higher than serum AST in liver diseases, while AST is greater in some cases of alcohol‐related injury, steatosis, myopathy, ischemic hepatitis, hemolysis, thyroid disease, after strenuous exercise, and sepsis. In some instances, this increase is due to AST from non‐hepatic sources (such as muscle) or hepatic mitochondrial damage leading to a rise in mitochondrial AST (mAST). Although the ratio of AST to mAST may be helpful in defining liver causes of raised transaminases, mAST is rarely measured in clinical practice. Rarely, AST may bind to immunoglobulin A, leading to elevated measured levels; this is seen occasionally in association with liver malignancy.

Low levels of ALT and AST may be seen in patients on long‐term hemodialysis, and this may be due, in part, to pyridoxine deficiency. In those in the very advanced stage of fulminant hepatic failure, serum transaminase activity falls; this may be a sign of necrotic liver rather than improvement in liver function.

Alkaline Phosphatase

Alkaline phosphatases (ALPs) are in a family of enzymes that hydrolyze phosphate esters. There are several isoenzymes which differ in distribution and substrate. Isoenzymes are found in the liver, bone, intestine, placenta, leukocytes, and kidney. Within the liver, where are two isoenzymes, the ALP is distributed in sinusoidal and canalicular membranes, as well as the cytosol.

There are several different approaches to the measurement of ALP and laboratory values and normal ranges vary according to methodology. The normal range of ALP is dependent on:

• age: levels are high in the newborn and in puberty and fall in middle age and rise again in the elderly
  
• sex: levels are higher in men than women
  
• height and weight: levels correlate directly with weight and inversely with height
  
• smoking: is associated with increase in levels
  
• pregnancy: levels tend to rise in pregnancy because of placental ALP.

Elevated levels of ALP are seen in association with:

• liver and biliary disease (see below)
  
• bone disease where levels are increased where there is increased osteoblastic activity (such as following fractures, Paget’s disease of the bone, and some cancers, but not in osteoporosis)
  
• pregnancy
  
• chronic renal failure and some renal malignancies
  
• some malignancies
  
• congestive heart failure
  
• some infections
  
• systemic inflammation
  
• bowel disease, including celiac disease.

Gamma‐Glutamyl Transferase

GGT catalyzes the transfer of peptide γ‐glutamyl groups to other amino acids, as well as being involved in the metabolism of some glutathione conjugates of drugs, and is also associated with oxidative stress. There are several isoenzymes. The enzyme is widely distributed in membranes including liver, biliary tree and gall bladder, spleen, pancreas, kidney, heart, and lung. Within the liver, GGT is distributed throughout the liver and in the biliary tree but is concentrated in the biliary epithelial cells in the small bile ductules. There is a correlation between higher levels of GGT with heart disease, stroke, and type 2 diabetes. The reference range is dependent on:

• Age: high in newborns and in adults, increases with age.
  
• Sex: levels are higher in men than women.

Levels of GGT are elevated in several scenarios:

• Alcohol and drugs: GGT levels can be induced by alcohol consumption and a number of enzyme‐inducing drugs such as phenytoin and barbiturates
  
• Pancreatic disease
  
• Lung disease
  
• Renal failure
  
• Liver disease: in general, levels of GGT parallel those of hepatic ALP and GGT may be a more sensitive indicator of liver disease than ALP. The exception is with some forms of very rare genetic familial intrahepatic cholestasis syndromes. A raised GGT in the presence of excess alcohol consumption is not necessarily a sign of liver disease. Patients with NAFLD will very frequently have GGT elevations.