Antihelmintic or Anthelmintics Drugs-MOA, Uses, Adverse effects

Antihelmintic or anthelmintics Drugs:

Antihelmintic or Anthelmintics are drugs that either expel (vermifuge) or kill (vermicide) infesting helminths.

Terms:

Vermicidal: Antihelmintic drugs which kill the worms

Vermifuge: Antihelmintic drugs which affect the worm in such a way that help to expel the worms.

Classifications of Antihelmintic or Anthelmintics drugs:

Based on worm specific:

•  For Roundworm, Hookworm, Pinworm:

• • Albendazole
  • Mebendazole
  • Pyrantel pamoate
  • Piperazine
  • Levamisole

• For Threadworm:

• • Ivermectin
  • Albendazole

• For whipworms, Trichinella spiralis:

• • Albendazole
  • Mebendazole

• For Filariasis:

• • Diethylcarbamazine citrate
  • Ivermectin
  • Albendazole

• For Tapeworms:

• • Praziquantel
  • Niclosamide
  • Albendazole

• For Hydatid worm:

• • Albendazole
  • Mebendazole

Drug Therapy of worms:

Mebendazole:

• It is a benzimidazole derivative
• It is a broad spectrum of antihelmintic or anthelmintics activity
• It is poorly(˂10%) absorbed
• It has produced a nearly 100% cure rate/reduction in egg count in the roundworm, hookworm (both species), Enterobius, and Trichuris infestations, but is much less active on Strongyloides.
• Up to 75% cure rate has been reported in tapeworms, but H. nana is relatively insensitive
• Trichinella spiralis from intestines, but efficacy in killing larvae that have migrated to muscles is unsure.
• Prolonged treatment has been  shown to cause regression of hydatid cyst in the liver

Mechanism of action:

The site of action: appears to be the microtubular protein ‘β-tubulin’ of the parasite.

• It binds to the tubulin of susceptible worms with high affinity and inhibits its microtubule polymerization.
• Intracellular microtubules in the cells of the worm are gradually lost.
• In addition, it blocks glucose uptake in the parasite and depletes its glycogen stores.
• The hatching of nematode eggs and their larvae is also inhibited.
• Ascaris ova are killed.
• Affected parasites are expelled in the feces

Slow acting drug: 2-3 days for parasitic clearance from the gut.

Adversely affects the ova  of the pinworm and the hookworm

Pharmacokinetics:

• Mebendazole is administered orally
• Poorly absorbed from the GI tract
• Highly plasma proteins binding nature & metabolized in the liver
• Most of the oral dose is excreted in feces (75–90%)
• The fraction absorbed is excreted mainly as inactive metabolites in urine/feces.

Adverse effects:

• The systemic toxicity of mebendazole is low because of its poor absorption.
• It is well tolerated & rarely causes gastrointestinal adverse drugs effects:-
  • Diarrhea, nausea, anorexia, vomiting, and abdominal pain
• Allergic reactions, loss of hair, and granulocytopenia (at high doses)
• Embryotoxic and teratogenic in animals
• Should be avoided in pregnancy and children below one year

Uses:

Highly effective against intestinal nematodes such as Roundworm, Hookworm, Whipworm, Pinworm, and mixed worm infestations.

• Tapeworm (Taenia) infestation
• Hydatid cysts of the liver: may cause bone marrow aplasia, hence Albendazole is preferred.
• More effective than albendazole in trichuriasis

Dose and administration:

• For roundworm, hookworm, whipworm:-100 mg orally twice a day for 3 consecutive days. It does not require fasting or purging, is well-tolerated, & is comparatively cheap.
• Pinworm (Enterobius): 100 mg single dose, but repeatedly after 2–3 weeks to kill the ova that have developed later. Strictly hygienic measures & simultaneous treatment of all children in the family or class are advocated to cut down autoinfection & person-to-person infection or transmission. 

This holds true of enterobiasis, disregarding the drug used.

• Trichinosis: 200 mg BD for 4 days; but it is a less effective drug than albendazole.
• Hydatid disease: 200–400 mg BD or TDS for 3–4 weeks; but is a less effective drug than albendazole

 

Albendazole:

• It is a benzimidazole derivative.
• It is a broad spectrum of anthelmintics or antihelmintic activity and excellent tolerability of its predecessor.
• It has the advantage of single-dose administration in many common intestinal worm infestations and is cost-effective.
• It also has larvicidal actions in hydatid disease, roundworm, and hookworm
• Ovicidal properties in roundworm, hookworm, and whipworm (Trichuris)

The mechanism of action similar to Mebendazole.

Pharmacokinetics:

• It is given orally
• Better bioavailability than mebendazole
• It is enhanced when the drug is taken with a fatty meal (this may help in treating neurocysticercosis and hydatid disease).
• The fraction absorbed is converted by the first-pass metabolism to its sulfoxide metabolites which have potent anthelmintic action.
• Will distributed in the tissues, bile, CSF, and hydatid cyst.
• T1/2: 8-12 hours

Side effects:

• Mild, mainly GI disturbances
• Few patients have felt dizziness
• Prolonged use, as in hydatid or in cysticercosis, has caused headache, fever, alopecia, jaundice, liver damage, bone marrow depression, and neutropenia.

Uses:

• Ascaris, hookworm, Enterobius, and Trichuris: a single dose of a drug is 400 mg for in case of adults and children above 2 yrs, 200 mg for 1–2 yr age. Three-day treatment may be needed in heavy trichuriasis conditions.
• Weak microfilaricidal
• Tapeworms and strongyloidiasis: dose is 400 mg daily for 3 consecutive days. The efficacy in strongyloidiasis is low, and it is the second choice drug to ivermectin.
• Trichinosis:
• Neurocysticercosis: choice for the treatment of neurocysticercosis(Usually 8–15 days course of 400 mg BD (15 mg/kg/day) is employed.
• Cutaneous larva migrans: Albendazole is 400 mg daily for three days
• Hydatid disease: 400 mg BD for four weeks, repeat after two weeks if required, up to 3 courses treatment.

It is the preferred treatment given before and after surgery as well as inoperable cases.

• Filariasis: Added to diethylcarbamazine (DEC) or ivermectin, albendazole has adjuvant value in treating lymphatic filariasis
• Cysticercosis:
  • Drug of choice because of a short course
  • Less toxicity than praziquantel
  • Better penetration into CSF and cost-effective
  • Given 400mg bid for 21 days
  • Glucocorticoids are started prior to albendazole to reduce the intensity of the inflammatory reaction to the dead parasites.

Pyrantel pamoate:

• Efficacy against Ascaris, Enterobius, and Ancylostoma is high and equivalent to that of mebendazole.
• Lower cure rates of about 60 percent have been obtained in the case of Necator infestation.
• It is less active against Strongyloides conditions and inactive against Trichuris and other worms.

Mechanism of action:

• Pyrantel causes activation of nicotinic cholinergic receptors in the intestinal as well as extra-intestinal worms resulting in persistent depolarization → slowly developing contracture and spastic paralysis.
• An anticholinesterase action has also been demonstrated.
• Only 10–15 percent of an oral dose of pyrantel pamoate is absorbed in the body: this is partly or partially metabolized and excreted in the urine.

Adverse effects:

• Mild and include GI disturbances
• Abdominal pain
• Headache
• Drowsiness
• Skin rashes

Uses:

• Roundworm, Pinworm, Hookworm infestation
• It can be used during pregnancy and in children below 2 years

Piperazine:

Roundworm and pinworm

Mechanism of action:

• Acts as a GABA agonist and causes hyperpolarization of Ascaris muscle resulting in flaccid paralysis of the worms which are then easily expelled by peristaltic movements. (N.B. Opening of Cl¯ channels causes relaxation and depresses responsiveness to contractile action of ACh= Hperpolariztion)
• This eliminates the danger of worm migration

Adverse effects:

• Wide margin of safety, common:

• • Nausea, vomiting, diarrhea, and urticarial

• Rare :

• • Muscular incoordination, hypotonia, ataxia
  • Worm wabble: the dropping of objects, clumsiness, and gait abnormalities
• The drug is safe during pregnancy

Levamisole:

• It causes sustained contracture of the somatic muscle of the worm by an irreversible, non-competitive depolarization type of neuromuscular block
• Interference with carbohydrate metabolism

Adverse effects:

• Nausea, vomiting, abdominal pain, diarrhea, giddiness, and drowsiness
• Not active against larvae and hence follow-up re-evaluation of treated patients.