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Chemotherapy of Helminthic Infections
Helminths (worms) are
multicellular organisms that infect very large numbers of humans and
cause a broad range of diseases. Over 1 billion people are infected with
intestinal nematodes, and many millions are infected with filarial
nematodes, flukes, and tapeworms. They are an even greater problem in
domestic animals. Many drugs, which are directed against a number of
different targets, are available to treat helminthic infections. In many
cases, especially in the developing world, the goal is control of
infection, with elimination of most parasites controlling disease
symptoms and decreasing the transmission of infection. In other cases,
complete elimination of parasites is the goal of therapy, although this
goal can be challenging with certain helminthic infections, because of
both limited efficacy of drugs and frequent reinfection after therapy in
endemic areas.
Table 53–1 lists the major
helminthic infections and provides a guide to the drug of choice and
alternative drugs for each infection. In the text that follows, these
drugs are arranged alphabetically. In general, parasites should be
identified before treatment is started.
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Table 53–1 Drugs for the
Treatment of Helminthic Infections.1
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|
|
Infecting
Organism
|
Drug of
Choice
|
Alternative
Drugs
|
|
Roundworms
(nematodes)
|
|
Ascaris
lumbricoides (roundworm)
|
Albendazole
or pyrantel pamoate or mebendazole
|
Ivermectin,
piperazine
|
|
Trichuris
trichiura (whipworm)
|
Mebendazole
or albendazole
|
Ivermectin
|
|
Necator
americanus (hookworm); Ancylostoma duodenale
(hookworm)
|
Albendazole
or mebendazole or pyrantel pamoate
|
|
|
Strongyloides
stercoralis (threadworm)
|
Ivermectin
|
Albendazole
or thiabendazole
|
|
Enterobius
vermicularis (pinworm)
|
Mebendazole
or pyrantel pamoate
|
Albendazole
|
|
Trichinella
spiralis (trichinosis)
|
Mebendazole
or albendazole; add corticosteroids for severe infection
|
|
|
Trichostrongylus
species
|
Pyrantel
pamoate or mebendazole
|
Albendazole
|
|
Cutaneous
larva migrans (creeping eruption)
|
Albendazole
or ivermectin
|
Thiabendazole
(topical)
|
|
Visceral
larva migrans
|
Albendazole
|
Mebendazole
|
|
Angiostrongylus
cantonensis
|
Albendazole
or mebendazole
|
|
|
Wuchereria
bancrofti (filariasis); Brugia malayi (filariasis); tropical
eosinophilia; Loa loa (loiasis)
|
Diethylcarbamazine
|
Ivermectin
|
|
Onchocerca
volvulus (onchocerciasis)
|
Ivermectin
|
|
|
Dracunculus
medinensis (guinea worm)
|
Metronidazole
|
Thiabendazole
or mebendazole
|
|
Capillaria
philippinensis (intestinal capillariasis)
|
Albendazole
|
Mebendazole
|
|
Flukes
(trematodes)
|
|
Schistosoma
haematobium (bilharziasis)
|
Praziquantel
|
Metrifonate
|
|
Schistosoma
mansoni
|
Praziquantel
|
Oxamniquine
|
|
Schistosoma
japonicum
|
Praziquantel
|
|
|
Clonorchis
sinensis (liver fluke); Opisthorchis species
|
Praziquantel
|
Albendazole
|
|
Paragonimus
westermani (lung fluke)
|
Praziquantel
|
Bithionol
|
|
Fasciola
hepatica (sheep liver fluke)
|
Bithionol
or triclabendazole
|
|
|
Fasciolopsis
buski (large intestinal fluke)
|
Praziquantel
or niclosamide
|
|
|
Heterophyes
heterophyes; Metagonimus yokogawai (small intestinal
flukes)
|
Praziquantel
or niclosamide
|
|
|
Tapeworms
(cestodes)
|
|
Taenia
saginata (beef tapeworm)
|
Praziquantel
or niclosamide
|
Mebendazole
|
|
Diphyllobothrium
latum (fish tapeworm)
|
Praziquantel
or niclosamide
|
|
|
Taenia
solium (pork tapeworm)
|
Praziquantel
or niclosamide
|
|
|
Cysticercosis
(pork tapeworm larval stage)
|
Albendazole
|
Praziquantel
|
|
Hymenolepis
nana (dwarf tapeworm)
|
Praziquantel
|
Niclosamide,
nitazoxanide
|
|
Echinococcus
granulosus (hydatid disease); Echinococcus multilocularis
|
Albendazole
|
|
|
|
1Additional information may be obtained from the
Parasitic Disease Drug Service, Parasitic Diseases Branch, Centers for
Disease Control and Prevention, Atlanta 30333. Telephone 404-639-3670.
Some of the drugs listed are not generally available in the USA.
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Albendazole
Albendazole, a broad-spectrum
oral antihelminthic, is the drug of choice and is approved in the USA for
treatment of hydatid disease and cysticercosis. It is also used in the
treatment of pinworm and hookworm infections, ascariasis, trichuriasis,
and strongyloidiasis.
Chemistry &
Pharmacokinetics
Albendazole is a benzimidazole
carbamate. After oral administration, it is erratically absorbed
(increased with a fatty meal) and then rapidly undergoes first-pass
metabolism in the liver to the active metabolite albendazole sulfoxide.
It reaches variable maximum plasma concentrations about 3 hours after a
400-mg oral dose, and its plasma half-life is 8–12 hours. The sulfoxide
is mostly protein-bound, distributes well to tissues, and enters bile,
cerebrospinal fluid, and hydatid cysts. Albendazole metabolites are
excreted in the urine.
Antihelminthic Actions
Benzimidazoles are thought to
act against nematodes by inhibiting microtubule synthesis. Albendazole
also has larvicidal effects in hydatid disease, cysticercosis,
ascariasis, and hookworm infection and ovicidal effects in ascariasis,
ancylo-stomiasis, and trichuriasis.
Clinical Uses
Albendazole is administered on
an empty stomach when used against intraluminal parasites but with a
fatty meal when used against tissue parasites.
Ascariasis, Trichuriasis, and
Hookworm and Pinworm Infections
For adults and children older
than 2 years of age with ascariasis and hookworm infections, the treatment
is a single dose of 400 mg orally (repeated for 2–3 days for heavy
ascaris infections and in 2 weeks for pinworm infections). These
treatments typically achieve good cure rates and marked reduction in egg
counts in those not cured. For trichuriasis, three daily 400-mg oral
doses of albendazole are now recommended. A recent meta-analysis showed
albendazole to be superior to mebendazole or pyrantel pamoate for
treatment of hookworm infection; other studies showed that three doses of
mebendazole and albendazole increased stool clearance of eggs compared
with single treatments, with albendazole superior to mebendazole. Cure
rates for trichuriasis with single-dose albendazole or mebendazole were
less than 30%, which suggests that the three-dose regimen just noted, or
other drugs (eg, ivermectin), might be superior.
Hydatid Disease
Albendazole is the treatment of
choice for medical therapy and is a useful adjunct to surgical removal or
aspiration of cysts. It is more active against Echinococcus granulosus
than against E multilocularis. Dosing is 400 mg twice daily with
meals for 1 month or longer. Daily therapy for up to 6 months has been
well tolerated. One reported therapeutic strategy is to treat with
albendazole and praziquantel, to assess response after 1 month or more,
and, depending on the response, to then manage the patient with continued
chemotherapy or combined surgical and drug therapy.
Neurocysticercosis
Indications for medical therapy
for neurocysticercosis are controversial, since antihelminthic therapy is
not clearly superior to therapy with corticosteroids alone and may
exacerbate neurologic disease. Therapy is probably most appropriate for
symptomatic parenchymal or intraventricular cysts. Corticosteroids are
usually given with the antihelminthic drug to decrease inflammation
caused by dying organisms. Albendazole is now generally considered the
drug of choice over praziquantel because of its shorter course, lower
cost, improved penetration into the subarachnoid space, and increased
drug levels (as opposed to decreased levels of praziquantel) when
administered with corticosteroids. Albendazole is given in a dosage of
400 mg twice a day for up to 21 days.
Other Infections
Albendazole is the drug of
choice in the treatment of cutaneous larva migrans (400 mg daily for 3
days), visceral larva migrans (400 mg twice daily for 5 days), intestinal
capillariasis (400 mg daily for 10 days), microsporidial infections (400
mg twice daily for 2 weeks or longer), and gnathostomiasis (400 mg twice
daily for 3 weeks). It also has activity against trichinosis (400 mg
twice daily for 1–2 weeks) and clonorchiasis (400 mg twice daily for 1
week). There have been reports of some effectiveness in treatment of
opisthorchiasis, toxocariasis, and loiasis, and conflicting reports of
effectiveness in giardiasis and taeniasis. Albendazole is included in
programs to control lymphatic filariasis, but it appears to be less
active than diethylcarbamazine or ivermectin for this purpose.
Albendazole has been recommended as empiric therapy to treat those who
return from the tropics with persistent unexplained eosinophilia.
Adverse Reactions,
Contraindications, & Cautions
When used for 1–3 days,
albendazole is nearly free of significant adverse effects. Mild and
transient epigastric distress, diarrhea, headache, nausea, dizziness,
lassitude, and insomnia can occur. In long-term use for hydatid disease,
albendazole is well tolerated, but it can cause abdominal distress,
headaches, fever, fatigue, alopecia, increases in liver enzymes, and
pancytopenia.
Blood counts and liver function
studies should be monitored during long-term therapy. The drug should not
be given to patients with known hypersensitivity to other benzimidazole
drugs or to those with cirrhosis. The safety of albendazole in pregnancy
and in children younger than 2 years of age has not been established.
Bithionol
Bithionol is an alternative to
triclabendazole for the treatment of fascioliasis (sheep liver fluke).
Bithionol is also an alternative drug in the treatment of pulmonary
paragonimiasis.
Pharmacokinetics
After ingestion, bithionol
reaches peak blood levels in 4–8 hours. Excretion appears to be mainly
via the kidney.
Clinical Uses
For treatment of paragonimiasis
and fascioliasis, the dosage of bithionol is 30–50 mg/kg in two or three
divided doses, given orally after meals on alternate days for 10–15
doses. For pulmonary paragonimiasis, cure rates are over 90%. For
cerebral paragonimiasis, repeat courses of therapy may be necessary.
Adverse Reactions,
Contraindications, & Cautions
Adverse effects, which occur in
up to 40% of patients, are generally mild and transient, but occasionally
their severity requires interruption of therapy. These problems include
diarrhea, abdominal cramps, anorexia, nausea, vomiting, dizziness, and
headache. Skin rashes may occur after a week or more of therapy,
suggesting a reaction to antigens released from dying worms.
Bithionol should be used with
caution in children younger than 8 years of age because there has been
limited experience in this age group.
Diethylcarbamazine Citrate
Diethylcarbamazine is a drug of
choice in the treatment of filariasis, loiasis, and tropical
eosinophilia. It has been replaced by ivermectin for the treatment of
onchocerciasis.
Chemistry &
Pharmacokinetics
Diethylcarbamazine, a synthetic
piperazine derivative, is marketed as a citrate salt. It is rapidly
absorbed from the gastrointestinal tract; after a 0.5 mg/kg dose, peak
plasma levels are reached within 1–2 hours. The plasma half-life is 2–3
hours in the presence of acidic urine but about 10 hours if the urine is
alkaline, a Henderson-Hasselbalch trapping effect (see Chapter 1). The
drug rapidly equilibrates with all tissues except fat. It is excreted,
principally in the urine, as unchanged drug and the N-oxide metabolite.
Dosage may have to be reduced in patients with persistent urinary
alkalosis or renal impairment.
Antihelminthic Actions
Diethylcarbamazine immobilizes
microfilariae and alters their surface structure, displacing them from
tissues and making them more susceptible to destruction by host defense
mechanisms. The mode of action against adult worms is unknown.
Clinical Uses
The drug should be taken after
meals.
Wuchereria bancrofti, Brugia
malayi, Brugia timori, and Loa loa
Diethylcarbamazine is the drug
of choice for treatment of infections with these parasites because of its
efficacy and lack of serious toxicity. Microfilariae of all species are
rapidly killed; adult parasites are killed more slowly, often requiring
several courses of treatment. The drug is highly effective against adult L
loa. The extent to which W bancrofti and B malayi
adults are killed is not known, but after appropriate therapy
microfilariae do not reappear in the majority of patients.
These infections are treated for
2 or (for L loa) 3 weeks, with initial low doses to reduce the
incidence of allergic reactions to dying microfilariae. This regimen is
50 mg (1 mg/kg in children) on day 1, three 50 mg doses on day 2, three
100 mg doses (2 mg/kg in children) on day 3, and then 2 mg/kg three times
per day to complete the 2–3 week course.
Antihistamines may be given for
the first few days of therapy to limit allergic reactions, and
corticosteroids should be started and doses of diethylcarbamazine lowered
or interrupted if severe reactions occur. Cures may require several
courses of treatment. For patients with high L loa worm burdens
(more than 2500 circulating parasites/mL), strategies to decrease risks
of severe toxicity include apheresis, if available, to remove
microfilariae before treatment with diethylcarbamazine or therapy with
albendazole, which is slower acting and better tolerated, before therapy
with diethylcarbamazine or ivermectin.
Diethylcarbamazine may also be
used for chemoprophylaxis (300 mg weekly or 300 mg on 3 successive days
each month for loiasis; 50 mg monthly for bancroftian and Malayan
filariasis).
Other Uses
For tropical eosinophilia,
diethylcarbamazine is given orally at a dosage of 2 mg/kg three times
daily for 7 days. Diethylcarbamazine is effective in Mansonella
streptocerca infections, since it kills both adults and
microfilariae. Limited information suggests that the drug is not
effective, however, against adult M ozzardi or M perstans
and that it has limited activity against microfilariae of these
parasites. An important application of diethylcarbamazine has been mass
treatment to reduce the prevalence of W bancrofti infection,
generally in combination with ivermectin or albendazole. This strategy
has led to excellent progress in disease control in a number of
countries.
Adverse Reactions,
Contraindications, & Cautions
Reactions to diethylcarbamazine,
which are generally mild and transient, include headache, malaise,
anorexia, weakness, nausea, vomiting, and dizziness. Adverse effects also
occur as a result of the release of proteins from dying microfilariae or
adult worms. Reactions are particularly severe with onchocerciasis, but
diethylcarbamazine is no longer commonly used for this infection, because
ivermectin is equally efficacious and less toxic. Reactions to dying
microfilariae are usually mild in W bancrofti, more intense in B
malayi, and occasionally severe in L loa infections. Reactions
include fever, malaise, papular rash, headache, gastrointestinal
symptoms, cough, chest pain, and muscle or joint pain. Leukocytosis is
common. Eosinophilia may increase with treatment. Proteinuria may also
occur. Symptoms are most likely to occur in patients with heavy loads of
microfilariae. Retinal hemorrhages and, rarely, encephalopathy have been
described.
Between the third and twelfth
days of treatment, local reactions may occur in the vicinity of dying
adult or immature worms. These include lymphangitis with localized
swellings in W bancrofti and B malayi, small wheals in the
skin in L loa, and flat papules in M streptocerca
infections. Patients with attacks of lymphangitis due to W bancrofti
or B malayi should be treated during a quiescent period between
attacks.
Caution is advised when using
diethylcarbamazine in patients with hypertension or renal disease.
Doxycycline
This tetracycline antibiotic is
described in more detail in Chapter 44. Doxycycline has recently been
shown to have significant macrofilaricidal activity against W
bancrofti, suggesting better activity than any other available drug
against adult worms. Activity is also seen against onchocerciasis.
Doxycycline acts indirectly, by killing Wolbachia, an
intracellular bacterial symbiont of filarial parasites. It may prove to
be an important drug for filariasis, both for treatment of active disease
and in mass chemotherapy campaigns.
Ivermectin
Ivermectin is the drug of choice
in strongyloidiasis and onchocerciasis. It is also an alternative drug
for a number of other helminthic infections.
Chemistry &
Pharmacokinetics
Ivermectin, a semisynthetic
macrocyclic lactone, is a mixture of avermectin B1a and B1b.
It is derived from the soil actinomycete Streptomyces avermitilis.
Ivermectin is used only orally
in humans. The drug is rapidly absorbed, reaching maximum plasma
concentrations 4 hours after a 12-mg dose. The drug has a wide tissue
distribution and a volume of distribution of about 50 L. Its half-life is
about 16 hours. Excretion of the drug and its metabolites is almost
exclusively in the feces.
Antihelminthic Actions
Ivermectin appears to paralyze
nematodes and arthropods by intensifying  -aminobutyric acid (GABA)–mediated
transmission of signals in peripheral nerves. In onchocerciasis,
ivermectin is microfilaricidal. It does not effectively kill adult worms
but blocks the release of microfilariae for some months after therapy.
After a single standard dose, microfilariae in the skin diminish rapidly
within 2–3 days, remain low for months, and then gradually increase;
microfilariae in the anterior chamber of the eye decrease slowly over
months, eventually clear, and then gradually return. With repeated doses
of ivermectin, the drug appears to have a low-level macrofilaricidal action
and to permanently reduce microfilarial production.
Clinical Uses
Onchocerciasis
Treatment is with a single oral
dose of ivermectin, 150 mcg/kg, with water on an empty stomach. Doses are
repeated; regimens vary from monthly to less frequent (every 6–12 months)
dosing schedules. After acute therapy, treatment is repeated at 12-month
intervals until the adult worms die, which may take 10 years or longer.
With the first treatment only, patients with microfilariae in the cornea
or anterior chamber may be treated with corticosteroids to avoid
inflammatory eye reactions.
Ivermectin also now plays a key
role in onchocerciasis control. Annual mass treatments have led to major
reductions in disease transmission. However, evidence of diminished
responsiveness after mass administration of ivermectin has raised concern
regarding selection of drug-resistant parasites.
Strongyloidiasis
Treatment consists of two daily
doses of 200 mcg/kg. In immunosuppressed patients with disseminated infection,
repeated treatment is often needed, and cure may not be possible. In this
case, suppressive therapy—ie, once monthly—may be helpful.
Other Parasites
Ivermectin reduces microfilariae
in Brugia malayi and M ozzardi infections but not in M
perstans infections. It has been used with diethylcarbamazine and
albendazole for the control of W bancrofti, but it does not kill
adult worms. In loiasis, although the drug reduces microfilaria
concentrations, it can occasionally induce severe reactions and appears
to be more dangerous in this regard than diethylcarbamazine. Ivermectin
is also effective in controlling scabies, lice, and cutaneous larva
migrans and in eliminating a large proportion of ascarid worms.
Adverse Reactions,
Contraindications, & Cautions
In strongyloidiasis treatment,
infrequent adverse effects include fatigue, dizziness, nausea, vomiting,
abdominal pain, and rashes. In onchocerciasis treatment, adverse effects
are principally from the killing of microfilariae and can include fever,
headache, dizziness, somnolence, weakness, rash, increased pruritus,
diarrhea, joint and muscle pains, hypotension, tachycardia,
lymphadenitis, lymphangitis, and peripheral edema. This reaction starts
on the first day and peaks on the second day after treatment. This
reaction occurs in 5–30% of persons and is generally mild, but it may be
more frequent and more severe in individuals who are not long-term
residents of onchocerciasis-endemic areas. A more intense reaction occurs
in 1–3% of persons and a severe reaction in 0.1%, including high fever,
hypotension, and bronchospasm. Corticosteroids are indicated in these
cases, at times for several days. Toxicity diminishes with repeated
dosing. Swellings and abscesses occasionally occur at 1–3 weeks,
presumably at sites of adult worms.
Some patients develop corneal
opacities and other eye lesions several days after treatment. These are
rarely severe and generally resolve without corticosteroid treatment.
It is best to avoid concomitant
use of ivermectin and other drugs that enhance GABA activity, eg,
barbiturates, benzodiazepines, and valproic acid. Ivermectin should not
be used during pregnancy. Safety in children younger than 5 years has not
been established.
Mebendazole
Mebendazole is a synthetic
benzimidazole that has a wide spectrum of antihelminthic activity and a
low incidence of adverse effects.
Chemistry &
Pharmacokinetics
Less than 10% of orally
administered mebendazole is absorbed. The absorbed drug is protein-bound
(> 90%), is rapidly converted to inactive metabolites (primarily
during its first pass in the liver), and has a half-life of 2–6 hours. It
is excreted mostly in the urine, principally as decarboxylated
derivatives. In addition, a portion of absorbed drug and its derivatives
are excreted in the bile. Absorption is increased if the drug is ingested
with a fatty meal.
Antihelminthic Actions
Mebendazole probably acts by
inhibiting microtubule synthesis; the parent drug appears to be the
active form. Efficacy of the drug varies with gastrointestinal transit
time, with intensity of infection, and perhaps with the strain of
parasite. The drug kills hookworm, ascaris, and trichuris eggs.
Clinical Uses
Mebendazole is indicated for use
in ascariasis, trichuriasis, hookworm and pinworm infections, and certain
other helminthic infections. It can be taken before or after meals; the
tablets should be chewed before swallowing. For pinworm infection, the
dose is 100 mg once, repeated at 2 weeks. For ascariasis, trichuriasis,
hookworm, and trichostrongylus infections, a dosage of 100 mg twice daily
for 3 days is used for adults and for children older than 2 years of age.
Cure rates are good for pinworm infections and ascariasis, but have been
disappointing in recent studies of trichuriasis. Cure rates are also
lower for hookworm infections, but a marked reduction in the worm burden
occurs in those not cured. For intestinal capillariasis, mebendazole is
used at a dosage of 200 mg twice daily for 21 or more days. In trichinosis,
limited reports suggest efficacy against adult worms in the intestinal
tract and tissue larvae. Treatment is three times daily, with fatty
foods, at 200–400 mg per dose for 3 days and then 400–500 mg per dose for
10 days; corticosteroids should be coadministered for severe infections.
Adverse Reactions,
Contraindications, & Cautions
Short-term mebendazole therapy
for intestinal nematodes is nearly free of adverse effects. Mild nausea,
vomiting, diarrhea, and abdominal pain have been reported infrequently.
Rare side effects, usually with high-dose therapy, are hypersensitivity
reactions (rash, urticaria), agranulocytosis, alopecia, and elevation of
liver enzymes.
Mebendazole is teratogenic in
animals and therefore contraindicated in pregnancy. It should be used
with caution in children younger than 2 years of age because of limited
experience and rare reports of convulsions in this age group. Plasma
levels may be decreased by concomitant use of carbamazepine or phenytoin
and increased by cimetidine. Mebendazole should be used with caution in
patients with cirrhosis.
Metrifonate (Trichlorfon)
Metrifonate is a safe, low-cost
alternative drug for the treatment of Schistosoma haematobium
infections. It is not active against S mansoni or S japonicum.
It is not available in the USA.
Chemistry &
Pharmacokinetics
Metrifonate, an organophosphate
compound, is rapidly absorbed after oral administration. After the
standard oral dose, peak blood levels are reached in 1–2 hours; the
half-life is about 1.5 hours. Clearance appears to be through
nonenzymatic transformation to dichlorvos, its active metabolite.
Metrifonate and dichlorvos are well distributed to the tissues and are
completely eliminated in 24–48 hours.
Antihelminthic Actions
The mode of action is thought to
be related to cholinesterase inhibition. This inhibition temporarily
paralyzes the adult worms, resulting in their shift from the bladder
venous plexus to small arterioles of the lungs, where they are trapped,
encased by the immune system, and die. The drug is not effective against S
haematobium eggs; live eggs continue to pass in the urine for several
months after all adult worms have been killed.
Clinical Uses
In the treatment of S
haematobium, an oral dose of 7.5–10 mg/kg is given three times at
14-day intervals. Cure rates on this schedule are 44–93%, with marked
reductions in egg counts in those not cured. Metrifonate was also
effective as a prophylactic agent when given monthly to children in a
highly endemic area, and it has been used in mass treatment programs. In
mixed infections with S haematobium and S mansoni,
metrifonate has been successfully combined with oxamniquine.
Adverse Reactions,
Contraindications, & Cautions
Some studies note mild and
transient cholinergic symptoms, including nausea and vomiting, diarrhea,
abdominal pain, bronchospasm, headache, sweating, fatigue, weakness,
dizziness, and vertigo. These symptoms may begin within 30 minutes and
persist up to 12 hours.
Metrifonate should not be used
after recent exposure to insecticides or drugs that might potentiate
cholinesterase inhibition. Metrifonate is contraindicated in pregnancy.
Niclosamide
Niclosamide is a second-line
drug for the treatment of most tapeworm infections, but it is not
available in the USA.
Chemistry & Pharmacokinetics
Niclosamide is a salicylamide
derivative. It appears to be minimally absorbed from the gastrointestinal
tract—neither the drug nor its metabolites have been recovered from the
blood or urine.
Antihelminthic Actions
Adult worms (but not ova) are
rapidly killed, presumably due to inhibition of oxidative phosphorylation
or stimulation of ATPase activity.
Clinical Uses
The adult dose of niclosamide is
2 g once, given in the morning on an empty stomach. The tablets must be
chewed thoroughly and then swallowed with water.
Taenia saginata (Beef
Tapeworm), T solium (Pork Tapeworm), and Diphyllobothrium latum
(Fish Tapeworm)
A single 2 g dose of niclosamide
results in cure rates of over 85% for D latum and about 95% for T
saginata. It is probably equally effective against T solium.
Cysticercosis can theoretically occur after treatment of T solium
infections, because viable ova are released into the gut lumen after
digestion of segments, but no such cases have been reported.
Other Tapeworms
Most patients treated with
niclosamide for H diminuta and Dipylidium caninum
infections are cured with a 7-day course of treatment; a few require a
second course. Praziquantel is superior for Hymenolepis nana
(dwarf tapeworm) infection. Niclosamide is not effective against cysticercosis
or hydatid disease.
Intestinal Fluke Infections
Niclosamide can be used as an
alternative drug in the treatment of Fasciolopsis buski, Heterophyes
heterophyes, and Metagonimus yokogawai infections. The
standard dose is given every other day for three doses.
Adverse Reactions,
Contraindications, & Cautions
Infrequent, mild, and transitory
adverse events include nausea, vomiting, diarrhea, and abdominal
discomfort. The consumption of alcohol should be avoided on the day of
treatment and for 1 day afterward. The safety of the drug has not been
established in pregnancy or for children younger than 2 years of age.
Oxamniquine
Oxamniquine is an alternative to
praziquantel for the treatment of S mansoni infections. It has
also been used extensively for mass treatment. It is not effective
against S haematobium or S japonicum. It is not available
in the USA.
Pharmacokinetics
Oxamniquine, a semisynthetic
tetrahydroquinoline, is readily absorbed orally; it should be taken with
food. Its plasma half-life is about 2.5 hours. The drug is extensively
metabolized to inactive metabolites and excreted in the urine—up to 75%
in the first 24 hours. Intersubject variations in serum concentration
have been noted, which may explain some treatment failures.
Antihelminthic Actions
Oxamniquine is active against
both mature and immature stages of S mansoni but does not appear
to be cercaricidal. The mechanism of action is unknown. Contraction and
paralysis of the worms results in detachment from terminal venules in the
mesentery and transit to the liver, where many die; surviving females
return to the mesenteric vessels but cease to lay eggs.
Strains of S mansoni in
different parts of the world vary in susceptibility. Oxamniquine has been
effective in instances of praziquantel resistance.
Clinical Uses
Oxamniquine is safe and
effective in all stages of S mansoni disease, including advanced
hepatosplenomegaly. In the acute (Katayama) syndrome, treatment results
in disappearance of acute symptoms and clearance of the infection. The
drug is generally less effective in children, who require higher doses
than adults. It is better-tolerated with food.
Optimal dosage schedules vary
for different regions of the world. In the Western Hemisphere and western
Africa, the adult oxamniquine dosage is 12–15 mg/kg given once. In
northern and southern Africa, standard schedules are 15 mg/kg twice daily
for 2 days. In eastern Africa and the Arabian peninsula, standard dosage
is 15–20 mg/kg twice in 1 day. Cure rates are 70–95%, with marked
reduction in egg excretion in those not cured. In mixed schistosome
infections, oxamniquine has been successfully used in combination with
metrifonate.
Adverse Reactions,
Contraindications, & Cautions
Mild symptoms, starting about 3
hours after a dose and lasting for several hours, occur in more than one
third of patients. Central nervous system symptoms (dizziness, headache,
drowsiness) are most common; nausea and vomiting, diarrhea, colic,
pruritus, and urticaria also occur. Infrequent adverse effects are
low-grade fever, an orange to red discoloration of the urine,
proteinuria, microscopic hematuria, and a transient decrease in
leukocytes. Seizures have been reported rarely.
Since the drug makes many
patients dizzy or drowsy, it should be used with caution in patients
whose work or activity requires mental alertness (eg, no driving for 24
hours). It should be used with caution in those with a history of
epilepsy. Oxamniquine is contraindicated in pregnancy.
Piperazine
Piperazine is an alternative for
the treatment of ascariasis, with cure rates over 90% when taken for 2
days, but it is not recommended for other helminth infections. Piperazine
is available as the hexahydrate and as a variety of salts. It is readily
absorbed, and maximum plasma levels are reached in 2–4 hours. Most of the
drug is excreted unchanged in the urine in 2–6 hours, and excretion is
complete within 24 hours.
Piperazine causes paralysis of
ascaris by blocking acetylcholine at the myoneural junction; unable to
maintain their position in the host, live worms are expelled by normal
peristalsis.
For ascariasis, the dosage of
piperazine (as the hexahydrate) is 75 mg/kg (maximum dose, 3.5 g) orally
once daily for 2 days. For heavy infections, treatment should be
continued for 3–4 days or repeated after 1 week.
Occasional mild adverse effects
include nausea, vomiting, diarrhea, abdominal pain, dizziness, and
headache. Neurotoxicity and allergic reactions are rare. Piperazine
compounds should not be given to women during pregnancy, to patients with
impaired renal or hepatic function, or to those with a history of
epilepsy or chronic neurologic disease.
Praziquantel
Praziquantel is effective in the
treatment of schistosome infections of all species and most other
trematode and cestode infections, including cysticercosis. The drug's
safety and effectiveness as a single oral dose have also made it useful
in mass treatment of several infections.
Chemistry &
Pharmacokinetics
Praziquantel is a synthetic
isoquinoline-pyrazine derivative. It is rapidly absorbed, with a
bioavailability of about 80% after oral administration. Peak serum
concentrations are reached 1–3 hours after a therapeutic dose.
Cerebrospinal fluid concentrations of praziquantel reach 14–20% of the drug's
plasma concentration. About 80% of the drug is bound to plasma proteins.
Most of the drug is rapidly metabolized to inactive mono- and
polyhydroxylated products after a first pass in the liver. The half-life
is 0.8–1.5 hours. Excretion is mainly via the kidneys (60–80%) and bile
(15–35%). Plasma concentrations of praziquantel increase when the drug is
taken with a high-carbohydrate meal or with cimetidine; bioavailability
is markedly reduced with some antiepileptics (phenytoin, carbamazepine)
or with corticosteroids.
Antihelminthic Actions
Praziquantel appears to increase
the permeability of trematode and cestode cell membranes to calcium,
resulting in paralysis, dislodgement, and death.
In schistosome infections of
experimental animals, praziquantel is effective against adult worms and
immature stages, and it has a prophylactic effect against cercarial
infection.
Clinical Uses
Praziquantel tablets are taken
with liquid after a meal; they should be swallowed without chewing
because their bitter taste can induce retching and vomiting.
Schistosomiasis
Praziquantel is the drug of
choice for all forms of schistosomiasis. The dosage is 20 mg/kg per dose
for two (S mansoni and S haematobium) or three (S
japonicum and S mekongi) doses at intervals of 4–6 hours. High
cure rates (75–95%) are achieved when patients are evaluated at 3–6
months; there is marked reduction in egg counts in those not cured. The
drug is effective in adults and children and is generally well tolerated
by patients in the hepatosplenic stage of advanced disease. There is no
standard regimen for acute schistosomiasis (Katayama syndrome), but
standard doses as described above, often with corticosteroids to limit
inflammation from the acute immune response and dying worms, are
recommended. Increasing evidence indicates rare S mansoni drug
resistance, which may be countered with extended courses of therapy (eg,
3–6 days at standard dosing) or treatment with oxamniquine. Effectiveness
of praziquantel for chemoprophylaxis has not been established.
Clonorchiasis, Opisthorchiasis,
and Paragonimiasis
Standard dosing is 25 mg/kg
three times daily for 2 days for each of these fluke infections.
Taeniasis and
Diphyllobothriasis
A single dose of praziquantel,
5–10 mg/kg, results in nearly 100% cure rates for T saginata, T
solium, and D latum infections. Because praziquantel does not
kill eggs, it is theoretically possible that larvae of T solium released
from eggs in the large bowel could penetrate the intestinal wall and give
rise to cysticercosis, but this hazard is probably minimal.
Neurocysticercosis
Albendazole is now the preferred
drug, but when it is not appropriate or available, praziquantel has
similar efficacy. Indications for praziquantel are similar to those for
albendazole. The praziquantel dosage is 100 mg/kg/d in three divided
doses for 1 day, then 50 mg/kg/d to complete a 2- to 4-week course.
Clinical responses to therapy vary from dramatic improvements of seizures
and other neurologic findings to no response and even progression of the
disease. Praziquantel—but not albendazole—has diminished bioavailability
when taken concurrently with a corticosteroid. Recommendations on use of
both antihelminthics and corticosteroids in neurocysticercosis vary.
H nana
Praziquantel is the drug of
choice for H nana infections and the first drug to be highly
effective. A single dose of 25 mg/kg is taken initially and repeated in 1
week.
Hydatid Disease
In hydatid disease, praziquantel
kills protoscoleces but does not affect the germinal membrane.
Praziquantel is being evaluated as an adjunct with albendazole pre- and
postsurgery. In addition to its direct action, praziquantel enhances the
plasma concentration of albendazole.
Other Parasites
Limited trials at a dosage of 25
mg/kg three times a day for 1–2 days indicate effectiveness of
praziquantel against fasciolopsiasis, metagonimiasis, and other forms of
heterophyiasis. Praziquantel was not effective for fascioliasis, however,
even at dosages as high as 25 mg/kg three times daily for 3–7 days.
Adverse Reactions, Contraindications,
& Cautions
Mild and transient adverse
effects are common. They begin within several hours after ingestion of
praziquantel and may persist for about 1 day. Most common are headache,
dizziness, drowsiness, and lassitude; others include nausea, vomiting,
abdominal pain, loose stools, pruritus, urticaria, arthralgia, myalgia,
and low-grade fever. Mild and transient elevations of liver enzymes have
been reported. Several days after starting praziquantel, low-grade fever,
pruritus, and skin rashes (macular and urticarial), sometimes associated
with worsened eosinophilia, may occur, probably due to the release of
proteins from dying worms rather than direct drug toxicity. The intensity
and frequency of adverse effects increase with dosage such that they
occur in up to 50% of patients who receive 25 mg/kg three times in 1 day.
In neurocysticercosis,
neurologic abnormalities may be exacerbated by inflammatory reactions
around dying parasites. Common findings in patients who do not receive
corticosteroids, usually presenting during or shortly after therapy, are
headache, meningismus, nausea, vomiting, mental changes, and seizures
(often accompanied by increased cerebrospinal fluid pleocytosis). More
serious findings, including arachnoiditis, hyperthermia, and intracranial
hypertension, may also occur. Corticosteroids are commonly used with
praziquantel in the treatment of neurocysticercosis to decrease the
inflammatory reaction, but this is controversial and complicated by
knowledge that corticosteroids decrease the plasma level of praziquantel
up to 50%. Praziquantel is contraindicated in ocular cysticercosis,
because parasite destruction in the eye may cause irreparable damage.
Some workers also caution against use of the drug in spinal neurocysticercosis.
The safety of praziquantel in
children younger than age 4 years is not established, but no specific
problems in young children have been documented. Indeed, the drug appears
to be better tolerated in children than in adults. Praziquantel increased
abortion rates in rats and therefore should be avoided in pregnancy if
possible. Because the drug induces dizziness and drowsiness, patients
should not drive during therapy and should be warned regarding activities
requiring particular physical coordination or alertness.
Pyrantel Pamoate
Pyrantel pamoate is a
broad-spectrum antihelminthic highly effective for the treatment of
pinworm, ascaris, and Trichostrongylus orientalis infections. It
is moderately effective against both species of hookworm. It is not effective
in trichuriasis or strongyloidiasis. Oxantel pamoate, an analog of
pyrantel not available in the USA, has been used successfully in the
treatment of trichuriasis; the two drugs have been combined for their
broad-spectrum antihelminthic activity.
Chemistry &
Pharmacokinetics
Pyrantel pamoate is a
tetrahydropyrimidine derivative. It is poorly absorbed from the
gastrointestinal tract and active mainly against luminal organisms. Peak
plasma levels are reached in 1–3 hours. Over half of the administered dose
is recovered unchanged in the feces.
Antihelminthic Actions
Pyrantel is effective against
mature and immature forms of susceptible helminths within the intestinal
tract but not against migratory stages in the tissues or against ova. The
drug is a neuromuscular blocking agent that causes release of
acetylcholine and inhibition of cholinesterase; this results in
paralysis, which is followed by expulsion of worms.
Clinical Uses
The standard dose is 11 mg
(base)/kg (maximum, 1 g), given orally once with or without food. For
pinworm, the dose is repeated in 2 weeks, and cure rates are greater than
95%. The drug is available in the USA without prescription for this
indication.
For ascariasis, a single dose
yields cure rates of 85–100%. Treatment should be repeated if eggs are
found 2 weeks after treatment. For hookworm infections, a single dose is
effective against light infections; but for heavy infections, especially
with N americanus, a 3-day course is necessary to reach 90% cure
rates. A course of treatment can be repeated in 2 weeks.
Adverse Reactions,
Contraindications, & Cautions
Adverse effects are infrequent,
mild, and transient. They include nausea, vomiting, diarrhea, abdominal
cramps, dizziness, drowsiness, headache, insomnia, rash, fever, and
weakness. Pyrantel should be used with caution in patients with liver
dysfunction, because low, transient aminotransferase elevations have been
noted in a small number of patients. Experience with the drug in pregnant
women and children younger than 2 years of age is limited.
Thiabendazole
Thiabendazole is an alternative
to ivermectin or albendazole for the treatment of strongyloidiasis and
cutaneous larva migrans.
Chemistry &
Pharmacokinetics
Thiabendazole is a benzimidazole
compound. Although it is a chelating agent that forms stable complexes
with a number of metals, including iron, it does not bind calcium.
Thiabendazole is rapidly
absorbed after ingestion. With a standard dose, drug concentrations in
plasma peak within 1–2 hours; the half-life is 1.2 hours. The drug is
almost completely metabolized in the liver to the 5-hydroxy form; 90% is
excreted in the urine in 48 hours, largely as the glucuronide or
sulfonate conjugate. Thiabendazole can also be absorbed from the skin.
Antihelminthic Actions
The mechanism of action of
thiabendazole is probably the same as that of other benzimidazoles (see
above). The drug has ovicidal effects against some parasites.
Clinical Uses
The standard dosage, 25 mg/kg
(maximum 1.5 g) twice daily, should be given after meals. Tablets should
be chewed. For strongyloides infection, treatment is for 2 days. Cure
rates are reportedly 93%. A course can be repeated in 1 week if
indicated. In patients with hyperinfection syndrome, the standard dose is
continued twice daily for 5–7 days. For cutaneous larva migrans,
thiabendazole cream can be applied topically, or the oral drug can be
given for 2 days (although albendazole is less toxic and therefore
preferred).
Adverse Reactions,
Contraindications, & Cautions
Thiabendazole is much more toxic
than other benzimidazoles and more toxic than ivermectin, so other agents
are now preferred for most indications. Common adverse effects include
dizziness, anorexia, nausea, and vomiting. Less common problems are epigastric
pain, abdominal cramps, diarrhea, pruritus, headache, drowsiness, and
neuropsychiatric symptoms. Irreversible liver failure and fatal
Stevens-Johnson syndrome have been reported.
Experience with thiabendazole is
limited in children weighing less than 15 kg. The drug should not be used
in pregnancy or in the presence of hepatic or renal disease
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