Pseudocholinesterase deficiency

Pseudocholinesterase deficiency is an autosomal recessive inherited blood plasma enzyme abnormality in which the body's production of butyrylcholinesterase (BCHE; pseudocholinesterase aka PCE) is impaired. People who have this abnormality may be sensitive to certain anesthetic drugs, including the muscle relaxants succinylcholine and mivacurium as well as other ester local anesthetics. Pseudocholinesterase deficiency is an autosomal recessive inherited blood plasma enzyme abnormality in which the body's production of butyrylcholinesterase (BCHE; pseudocholinesterase aka PCE) is impaired. People who have this abnormality may be sensitive to certain anesthetic drugs, including the muscle relaxants succinylcholine and mivacurium as well as other ester local anesthetics. Genes encoding cholinesterase 1 (CHE1) and CHE2 have been mapped to 3q26.1-q26.2. One gene is silent, whereas the other is responsible for the defect in cholinesterase. Specifically there are sixteen possible genotypes, expressed as ten phenotypes, six of these phenotypes are associated with a marked reduction in the hydrolysis of succinylcholine. The plasma cholinesterase activity level is genetically determined by four alleles identified as silent (s), usual allele (u), dibucaine (d), or fluoride (f); also this allele can be absent (a) . The inherited defect is caused by either the presence of an atypical PCE or complete absence of the enzyme. Cholinesterases are enzymes that facilitate hydrolysis of the esters of choline. Acetylcholine, the most commonly encountered of these esters, is the mediator of the whole cholinergic system. Acetylcholine is immediately inactivated “in situ” by a specific acetylcholinesterase in the ganglions of the autonomic nervous system (preganglionic and postganglionic in the parasympathetic nervous system and almost exclusively preganglionic in the sympathetic nervous system), in the synapses of the central nervous system, and in the neuromuscular junctions. The affinity of PCE is lower for acetylcholine, but higher for other esters of choline, such as butyrylcholine, benzoylcholine, and succinylcholine, and for aromatic esters (e.g., procaine, chloroprocaine, tetracaine). Normal PCE is produced in the liver, has a plasma half-life of 8 to 12 days, and can be found in plasma, erythrocytes, glial tissue, liver, pancreas, and bowel. When succinylcholine is used for anesthesia, its high plasma concentration immediately after intravenous injection decreases rapidly in normal individuals because of the rapid action of plasma PCE. In case of an atypical PCE or complete absence of PCE, the effect of the injected succinylcholine can last for up to 10 hours. For homozygosity, the incidence is approximately 1:2,000-4,000, whereas the incidence for heterozygosity increases to up to 1:500. The variant EaEa genotype, homozygous absent, is approximately 1:3200. The gene for the dibucaine-resistant atypical cholinesterase appears to be widely distributed. Among Caucasians, males are affected almost twice as often as females. The frequency for heterozygosity is low among black people, Japanese and non-Japanese Orientals, South Americans, Australian aborigines, and Arctic Inuit (in general). However, there are a few Inuit populations (e.g., Alaskan Inuit) with an unusually high gene frequency for PCE deficiency. A relatively high frequency also was reported among Jews from Iran and Iraq, Caucasians from North America, Great Britain, Portugal, Yugoslavia, and Greece. Multiple studies done both in and outside India have shown an increased prevalence of pseudocholinesterase deficiency amongst the Arya Vysya community. A study performed in the Indian State of Tamil Nadu in Coimbatore, on 22 men and women from this community showed that 9 of them had pseudocholinesterase deficiency, which translates to a prevalence that is 4000-fold higher than that in European and American populations. Pseudocholinesterase deficiency (anesthesia sensitivity) is an autosomal recessive condition common within the Persian and Iraqi Jewish populations. Approximately one in 10 Persian Jews are known to have a mutation in the gene causing this disorder and thus one in 100 couples will both carry the mutant gene and each of their children will have a 25% chance of having two mutant genes, and thus be affected with this disorder. This means that one out of 400 Persian Jews is affected with this condition. The effects are varied depending on the particular drug given. When anesthetists administer standard doses of these anesthetic drugs to a person with pseudocholinesterase deficiency, the patient experiences prolonged paralysis of the respiratory muscles, requiring an extended period of time during which the patient must be mechanically ventilated. Eventually the muscle-paralyzing effects of these drugs will wear off despite the deficiency of the pseudocholinesterase enzyme. If the patient is maintained on a mechanical respirator until normal breathing function returns, there is little risk of harm to the patient. However, because it is rare in the general population, it is sometimes overlooked when a patient does not wake-up after surgery. If this happens, there are two major complications that can arise. First, the patient may lie awake and paralyzed, while medical providers try to determine the cause of the patient’s unresponsiveness. Second, the breathing tube may be removed before the patient is strong enough to breathe properly, potentially causing respiratory arrest. This enzyme abnormality is a benign condition unless a person with pseudocholinesterase deficiency is exposed to the offending pharmacological agents.