Valproic Acid (Total+Free)

CPT: 80164; 80165
Updated on 09/4/2024
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Expected Turnaround Time

Set up and reported Monday through Friday on all shifts and on Sunday during 2nd shift

Set up and reported Monday through Friday on all shifts, and on Sunday during 2nd shift.

Set up and reported Monday through Friday on all shifts and on Sunday during 2nd shift


Specimen Requirements


Specimen

Serum


Volume

2.7 mL


Minimum Volume

1.4 mL (Note: This volume does not allow for repeat testing.)


Container

Red-stopper tube; transfer separated serum to a plastic transport tube. Do not use a serum separator tube; the use of serum separator tubes is not recommended due to slow absorption of the drug by the gel. Depending on the specimen volume and storage time, the decrease in drug level due to absorption may be clinically significant.


Collection

Oral: peak: 1 to 4 hours after dose (influenced by meals); trough: immediately prior to next dose (possibly more useful than peak values).


Storage Instructions

Room temperature


Stability Requirements

Temperature

Period

Room temperature

14 days

Refrigerated

14 days

Frozen

14 days

Freeze/thaw cycles

Stable x3


Causes for Rejection

Gel tube; hemolysis; lipemia


Test Details


Use

Valproate (valproic acid; divalproex sodium, a compound containing sodium valproate and valproic acid) controls absence, myoclonic, and tonic-clonic seizures in generalized, idiopathic, and symptomatic epilepsy. It is most useful in typical absence seizures. Valproate is as effective as ethosuximide in patients with absence seizures alone and is variably effective in atypical absence seizures. Although some clinicians prefer valporate for absence seizure, the American Academy of Pediatrics recommended that it be reserved for use when therapeutic failure or intolerance to ethosuximide occurs, because valproate causes rare but potentially fatal hepatotoxicity. Many neurologists consider valproate the drug of choice for patients with both absence and other generalized seizure types, including tonic-clonic convulsions. Its efficacy is about the same as in patients with the latter type alone. Valproate is an alternative drug in the treatment of complex partial seizures but may be considered for initial therapy in patients with partial and secondarily generalized seizures.

Valproate is the drug of choice in myoclonic epilepsy, with or without generalized tonic-clonic seizures, including juvenile myoclonic epilepsy of Janz, that begins in adolescence or early adulthood. Photosensitive myoclonus is usually easily controlled. Valproate also is effective in the treatment of benign myoclonic epilepsy, postanoxic myoclonus and, with clonazepam, in severe progressive myoclonic epilepsy that is characterized by tonic-clonic seizures as well. It also may be preferred in certain stimulus-sensitive (reflex, startle) epilepsies. Although valproate may be effective for infantile spasms, it is relatively contraindicated in children whose spasms are due to hyperglycinemia or other underlying metabolic (mitochondrial) abnormalities. In general, atonic an akinetic seizures in patients with Lennox-Gastaut syndrome are difficult to control, but valproate is the drug of choice for treatment of mixed seizure types. Since this drug has been useful in some patients who are refractory to all other antiepileptic drugs, it may warrant a trial in nearly all nonresponsive patients regardless of seizure type.

Hepatotoxicity may be fatal, but is idiosyncratic and not preventable by routinely monitoring liver enzymes. Hepatotoxicity occurs in very young children, most often those on multiple anticonvulsants.1 Valproate-induced cytopenias may be dose-related and warrant monitoring of complete blood counts during therapy.2 Encephalopathy with hyperammonemia without liver function test abnormalities may occur.3 Pregnant women in first month are at risk for neural tube defects.

Valproate is absorbed rapidly and completely following oral administration; peak plasma concentrations usually occur within 2 hours after ingestion of liquid preparations and 3-4 hours after ingestion of the delayed-release tablet preparation, divalproex sodium, which contains sodium valproate and valproic acid. Food delays absorption but does not affect bioavailability.

The plasma protein binding of valproate is saturable within the usual therapeutic range (approximately 90% at 75 µg/mL). Usual effective plasma concentrations range from 40-120 µg/mL, but concentrations exceeding 150 µg/mL may be required and tolerated in some patients. With a daily dose of more than 500 mg, plasma concentrations may not increase proportionately because clearance increases with an increase in the free fraction. Daily fluctuations (up to two times higher) in free fraction and clearance also occur as a result of displacement by free fatty acids or circadian influences; thus, when plasma concentrations are being monitored, samples should be taken at a uniform time. Many neurologists recommend measuring trough concentrations. Valproate is eliminated almost exclusively by hepatic metabolism. The metabolic fate is complex. A variety of conjugation and oxidative processes are involved, including entry into pathways (eg,beta oxidation) normally reserved for endogenous fatty acids. As the dose is increased, mitochondrial beta oxidation becomes saturated and increased glucuronidation occurs.

Metabolites may contribute to both antieplieptic and hepatotoxic effects. The antiepileptic activity of valproate (including the time course) is poorly correlated with steady-state valproate plasma concentrations. One unsaturated metabolite, 2-n-propl-4-pentenoic acid (4-ene-VPA), has been proposed as a key hepatotoxic metabolite. The formation of this metabolite is increased by concomitant use of phenytoin, phenobarbital, carbamazepine, and other drugs that induce cytochrome P450.

The half-life of valproate in adults is 12-16 hours. In epileptic patients receiving polytherapy, the half-life is approximately 9 hours, although 5 hours also has been reported. The half-lives in school age children and young adolescents are well within the range of values in adults. Elimination half-lives are longer in neonates and generally shorter during middle and late infancy. Although hepatic clearance is reduced, the half-life in geriatric patients is approximately 15 hours. This has been attributed to the larger free fraction observed in this age group, especially in those with hypoalbuminemia.


Methodology

Immunoassay


Footnotes

1. Dreifuss FE, Santilli N, Langer DH, Sweeney KP, Moline KA, Menander KB. Valproic Acid Hepatic Fatalities: A Retrospective Review. Neurology. 1987 Mar;37(3):379-385.3102998
2. Watts RG, Emanuel PD, Zuckerman KS, Howard TH. Valproic Acid Induced Cytopenias: Evidence for a Dose-Related Suppression of Hematopoesis. J Pediatr. 1990 Sep;117(3):495-499.2118175
3. Zaret BS, Beckner RR, Marini AM, Wagle W, Passarelli C. Sodium Valproate-Induced Hyperammonemia Without Clinical Hepatic Dysfunction. Neurology. 1982 Feb;32(2):206-208.6798491

References

AMA, Division of Drugs and Toxicology, Drug Evaluations Subscription, Chicago, IL: American Medical Association, Fall 1992.

LOINC® Map

Order Code Order Code Name Order Loinc Result Code Result Code Name UofM Result LOINC
706499 Valproic Acid (Total+Free) 57775-9 007260 Valproic Acid (Depakote)(R),S ug/mL 4086-5
706499 Valproic Acid (Total+Free) 57775-9 070790 Free Valproic Acid (Depakote) ug/mL 4087-3

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