Aciclovir chemical structure
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Acyclovir

Aciclovir (INN) or acyclovir (USAN), marketed as Zovirax®, is one of the main antiviral drugs. Its discovery has been seen as the start of a new era in antiviral therapy, as it is extremely selective and low in cytotoxicity. However, it has a very narrow spectrum, only effective against certain viruses such as HSV-1, HSV-2, and VZV, with limited effectiveness against active EBV, and has hardly any effect against human cytomegalovirus (CMV). It is about 10 times more potent against HSV than VZV. more...

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It does not eradicate latent herpes, and does not work very well against genital herpes in women. Aciclovir is rather different from other nucleoside analogues, for it contains only a partial nucleoside structure as the sugar ring is replaced by an open-chain structure.

Mode of action

Aciclovir is converted into monophosphate form only by viral thymidine kinase, which is far more effective (3000 times) in phosphorylation than cellular thymidine kinase. Subsequently, the monophosphate form is further phosphorylated into the active triphosphate form, aciclo-GTP, by cellular kinases. Aciclo-GTP is a very potent inhibitor of viral DNA polymerase; it has approximately 100 times higher affinity to viral than cellular polymerase. Its monophosphate form also incorporates into the viral DNA, resulting in chain termination. It has also been shown that the viral enzymes cannot remove acyclo-GMP from the chain, which results in inhibition of further activity of DNA polymerase. Acyclo-GTP is fairly rapidly metabolised within the cell, possibly by cellular phosphatases.

Pharmacokinetics

Aciclovir suffers from low water solubility, and also from poor oral absorption, which is only 20%. Orally administered the peak plasma concentration will be reached in 1-2 hours. If large doses are required, aciclovir must be administered intravenously. Aciclovir has a high distribution rate, only 30 % is protein-bound in plasma. The half-life of aciclovir is approximately 3 hours. Aciclovir can also be given topically for treatment of herpes infections of mucous membrane and skin, such as genital herpes or recurrent herpes labialis (cold sore). Prophylactic administration is possible, and is often used for patients who are under immunosuppressant drugs or radiotherapy or for those who are suffering from recurrent genital infection herpes simplex.

Metabolism

The excretion of aciclovir takes place via the renal system, partly by glomerular filtration and partly by tubular secretion. Renal problems have been reported when given in large, fast doses intravenously, due to the crystallisation of aciclovir in the kidneys.

Side effects

Since aciclovir can be incorporated also into the cellular DNA, it is a chromosome mutagen, therefore, its use should be avoided during pregnancy. However it has not been shown to cause any teratogenic nor carcinogenic effects. The acute toxicity (LD50) of aciclovir when given orally is greater than 1mg/kg, due to the low absorption rate from the gastrointestinal tract. Single cases have been reported, where extremely high (up to 80mg/kg) doses have been accidentally given intravenously without causing any side effects. The most common adverse effects are local irritation at the site of injection, headache when given orally, and a stinging and burning sensation when administered topically. The resistance towards aciclovir evolves rather rapidly, although this has not much hindered its clinical use. Resistant forms are most likely viruses that have a mutation in their thymidine kinase or DNA polymerase.

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Acyclovir can reduce genital herpes recurrence at delivery
From American Family Physician, 6/15/04 by Anne D. Walling

Although only 5 to 10 percent of women of reproductive age in the United States report having clinical genital herpes infection (HSV), up to 30 percent have antibody evidence of infection and risk transmitting the infection to their infants during delivery. Current policies to limit neonatal transmission focus on cesarean delivery for women who have symptoms near term. However, because of the large number of asymptomatic carriers, more than 70 percent of neonatal HSV cases occur in children born to women without obvious HSV infection. Sheffield and colleagues reviewed the evidence for effective prophylaxis therapy with acyclovir during the last month of pregnancy.

The authors searched electronic databases, conference proceedings, bibliographies, and registries of trials for prospective, randomized controlled trials of acyclovir in pregnant women with HSV infection. If necessary, authors were contacted for nonpublished data pertinent to the meta-analysis. From the original 22 identified studies, only five met inclusion criteria for methodologic quality. These five studies involved 799 pregnant women.

The combined results of the studies showed a significant reduction in clinical HSV transmission at delivery, regardless of the dosage of acyclovir. Overall, the rate of recurrence was 4 percent in patients receiving treatment compared with 15 percent in the placebo group. Patients receiving acyclovir also were significantly less likely to undergo cesarean delivery. In four studies, viral culture was used at delivery to detect HSV. None of the 339 patients who received acyclovir antenatally had HSV detected at delivery compared with 15 (5 percent) of the 293 patients who received placebo. No cases of neonatal HSV occurred in the 799 deliveries.

The authors concluded that the type of HSV did not influence the results. They also examined the effect of different dosages of acyclovir. The odds ratio for HSV recurrence at delivery was 0.13 in two studies using 800 mg of acyclovir per day. When 1,200 mg of acyclovir was used, the odds ratio of 0.34 was just statistically significantly improved. For HSV detection at delivery, the odds ratio for treatment with 1,200 mg was not significantly better than that for 800 mg (0.13 compared with 0.09).

The authors conclude that prophylactic acyclovir therapy from the 36th week of pregnancy reduces the risks of clinical HSV in the mother at delivery, cesarean delivery, and asymptomatic viral shedding at delivery. Similar results were noticed regardless of type of HSV disease and dosage of acyclovir.

Sheffield JS, et al. Acyclover prophylaxis to prevent herpes simplex virus recurrence at delivery: a systematic review. Obstet Gynecol December 2003;102:1396-403.

COPYRIGHT 2004 American Academy of Family Physicians
COPYRIGHT 2004 Gale Group

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