You know things are bad when the U.S. Food & Drug Administration posts a drug warning on social media that reads, “You are not a horse. You are not a cow.”
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That’s what the agency did in August to discourage consumption of ivermectin, an anti-parasitic medication most often used as a livestock dewormer that’s become a sought-after yet unproven drug to treat or prevent COVID-19.
“People are devastated by COVID-19, so they want a quick fix or a magic-bullet solution,” says Dan Uslan, MD, clinical chief of infectious diseases for UCLA Health. “But it is painstaking scientific testing, not magical thinking, that reveals what works well. Unfortunately, with ivermectin, the studies have really not found that it is an effective medication, either for treatment or for prevention.”
The FDA and the National Institutes of Health caution against using ivermectin for COVID-19. But that hasn’t stopped people from seeking prescriptions, which have skyrocketed to 88,000 a week nationally from a pre-pandemic baseline of 3,600 a week, according to the Centers for Disease Control and Prevention.
Ivermectin is FDA approved for use in humans to treat river blindness, a parasitic condition caused by blackfly bites. “Ivermectin in doses we use to treat parasitic infections is generally a very safe drug,” Dr. Uslan says.
However, because the medication is so often used in animals it’s available without prescription in many farm and feed stores, and people have been clearing the shelves. Calls to poison-control centers have spiked as individuals have self-medicated with ivermectin preparations intended for a 1,500-pound cow or horse. There have also been reports of people ingesting topical formulations.
“Ivermectin is potentially a very toxic drug,” Dr. Uslan says. “There have been lots of cases of liver problems and liver failure, severe GI upset and even things like seizure and coma.”
In March and again in August, the FDA issued a warning against using ivermectin for COVID-19.
In laboratory studies, ivermectin has been shown to kill the virus that causes COVID-19, Dr. Uslan says. In theory, the drug works to interfere with how the virus gets into cells.
“There is some scientific rationale for why it would be a good medication for treating viral infections like COVID-19,” he says.
Studies of its use in people with COVID-19, however, have not yielded any meaningful results, Dr. Uslan says. Ongoing scientific studies, including one at the University of Oxford, are exploring whether ivermectin is effective as a treatment for COVID-19.
What causes the fervor around unproven remedies for COVID — such as ivermectin now and hydroxychloroquine earlier — is a profound desire for a way to treat or cure this devastating virus, Dr. Uslan says.
“People are desperate for a medication that is highly effective against COVID-19,” he says. "Especially an oral medication that could be used for not only treatment of people, but even prevention of infection.”
The only outpatient COVID-19 treatment currently available is monoclonal antibody therapy, used under emergency use authorization with high-risk patients. For hospitalized patients, treatment may include steroids or the antiviral drug remdesivir.
Scientists are looking to develop an oral antiviral medication for COVID-19, much like Tamiflu targets influenza.
“That’s an area of active study,” Dr. Uslan says. “But ivermectin is not that thing.”
Meanwhile, he says, the best, scientifically proven ways to prevent COVID-19 remain vaccination against the virus and regular use of face masks.
Ivermectin is an antiparasitic drug.[7] After its discovery in ,[8] its first uses were in veterinary medicine to prevent and treat heartworm and acariasis.[9] Approved for human use in ,[10] it is used to treat infestations including head lice, scabies, river blindness (onchocerciasis), strongyloidiasis, trichuriasis, ascariasis and lymphatic filariasis.[9][11][12][13] It works through many mechanisms to kill the targeted parasites,[11] and can be taken by mouth, or applied to the skin for external infestations.[11][14] It belongs to the avermectin family of medications.[11]
William Campbell and Satoshi Ōmura were awarded the Nobel Prize in Physiology or Medicine for its discovery and applications.[15] It is on the World Health Organization's List of Essential Medicines,[16][17] and is approved by the US Food and Drug Administration (FDA) as an antiparasitic agent.[18] In , it was the 314th most commonly prescribed medication in the United States, with more than 200,000 prescriptions.[19] It is available as a generic medicine.[20][21] Ivermectin is available in a fixed-dose combination with albendazole.[22]
Misinformation has been widely spread claiming that ivermectin is beneficial for treating and preventing COVID-19.[23][24] Such claims are not backed by credible scientific evidence.[25][26][27] Multiple major health organizations, including the US Food and Drug Administration,[28] the US Centers for Disease Control and Prevention,[29] the European Medicines Agency,[26] and the World Health Organization have advised that ivermectin is not recommended for the treatment of COVID-19.[26][30]
Ivermectin is used to treat human diseases caused by roundworms and a wide variety of external parasites.[31]
For river blindness (onchocerciasis) and lymphatic filariasis, ivermectin is typically given as part of mass drug administration campaigns that distribute the drug to all members of a community affected by the disease.[32] Adult worms survive in the skin and eventually recover to produce larval worms again; to keep the worms at bay, ivermectin is given at least once per year for the 10–15-year lifespan of the adult worms.[33]
The World Health Organization (WHO) considers ivermectin the drug of choice for strongyloidiasis.[34] Ivermectin is also the primary treatment for Mansonella ozzardi and cutaneous larva migrans.[35]: 294 [35]: 299 The US Centers for Disease Control and Prevention (CDC) recommends ivermectin, albendazole, or mebendazole as treatments for ascariasis.[36][note 1] Ivermectin is sometimes added to albendazole or mebendazole for whipworm treatment, and is considered a second-line treatment for gnathostomiasis.[35]: 299 [35]: 201 When co-administered, ivermectin and albendazole act in synergy.[39] Ivermectin targets the parasite's nervous and muscular systems, causing paralysis, while albendazole disrupts the parasite's metabolism and energy production.[39] This dual approach immobilizes and kills the parasite and improves the treatment's effectiveness.[39]
In January , the Committee for Medicinal Products for Human Use (CHMP) of the European Medicines Agency (EMA) adopted a positive scientific opinion for ivermectin/albendazole for the treatment of infections caused by several types of worm parasites including lymphatic filariasis, a neglected tropical disease.[39] Ivermectin/albendazole is indicated for use in people aged five years of age or older, for the treatment of soil-transmitted helminth infections, caused by different types of intestinal parasitic worms, which are spread through soil contaminated by human feces in areas with poor sanitation.[39] Among the worms responsible for these diseases are hookworms (Ancylostoma duodenale, Necator americanus), roundworms (Ascaris lumbricoides), whipworms (Trichuris trichiura) and a roundworm called Strongyloides stercoralis.[39] Ivermectin/albendazole is also indicated for the treatment of microfilaraemia (the presence of worm larvae in the blood) in people with lymphatic filariasis.[39] Lymphatic filariasis is a neglected tropical disease commonly known as elephantiasis, which impairs the lymphatic system and can lead to the abnormal enlargement of body parts, causing pain, severe disability and social stigma.[39] Ivermectin/albendazole is indicated for the treatment of cases of lymphatic filariasis caused by Wuchereria bancrofti, a parasite which is responsible for 90% of cases worldwide.[39]
Ivermectin is also used to treat infection with parasitic arthropods. Scabies – infestation with the mite Sarcoptes scabiei – is most commonly treated with topical permethrin or oral ivermectin. A single application of permethrin is more efficacious than a single treatment of ivermectin.[citation needed] For most scabies cases, ivermectin is used in a two-dose regimen: the first dose kills the active mites, but not their eggs. Over the next week, the eggs hatch, and a second dose kills the newly hatched mites.[40][41] The two-dose regimen of ivermectin has similar efficacy to the single dose permethrin treatment. Ivermectin is, however, more effective than permethrin when used in the mass treatment of endemic scabies.[42]
For severe "crusted scabies", where the parasite burden is orders of magnitude higher than usual, the CDC recommends up to seven doses of ivermectin over the course of a month, along with a topical antiparasitic.[41] Both head lice and pubic lice can be treated with oral ivermectin, an ivermectin lotion applied directly to the affected area, or various other insecticides.[43][44] Ivermectin is also used to treat rosacea and blepharitis, both of which can be caused or exacerbated by Demodex folliculorum mites.[45][46]
The only absolute contraindication to the use of ivermectin is hypersensitivity to the active ingredient or any component of the formulation.[47][48] In children under the age of five or those who weigh less than 15 kilograms (33 pounds),[49] there is limited data regarding the efficacy or safety of ivermectin, though the available data demonstrate few adverse effects.[50] However, the American Academy of Pediatrics cautions against use of ivermectin in such patients, as the blood–brain barrier is less developed, and thus there may be an increased risk of particular CNS side effects such as encephalopathy, ataxia, coma, or death.[51] The American Academy of Family Physicians also recommends against use in these patients, given a lack of sufficient data to prove drug safety.[52] Ivermectin is secreted in very low concentration in breast milk.[53] It remains unclear if ivermectin is safe during pregnancy.[54]
Side effects, although uncommon, include fever, itching, and skin rash when taken by mouth;[11] and red eyes, dry skin, and burning skin when used topically for head lice.[55] It is unclear if the drug is safe for use during pregnancy, but it is probably acceptable for use during breastfeeding.[56]
Ivermectin is considered relatively free of toxicity in standard doses (around 300 μg/kg).[57][58] Based on the data drug safety sheet for ivermectin,[a] side effects are uncommon. However, serious adverse events following ivermectin treatment are more common in people with very high burdens of larval Loa loa worms in their blood.[59] Those who have over 30,000 microfilaria per milliliter of blood risk inflammation and capillary blockage due to the rapid death of the microfilaria following ivermectin treatment.[59]
One concern is neurotoxicity after large overdoses, which in most mammalian species may manifest as central nervous system depression,[58] ataxia, coma, and death,[60][28] as might be expected from potentiation of inhibitory chloride channels.[61]
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Since drugs that inhibit the enzyme CYP3A4 often also inhibit P-glycoprotein transport, the risk of increased absorption past the blood-brain barrier exists when ivermectin is administered along with other CYP3A4 inhibitors. These drugs include statins, HIV protease inhibitors, many calcium channel blockers, lidocaine, benzodiazepines, and glucocorticoids such as dexamethasone.[62]
During a typical treatment course, ivermectin can cause minor aminotransferase elevations. In rare cases it can cause mild clinically apparent liver disease.[63]
To provide context for the dosing and toxicity ranges, the LD50 of ivermectin in mice is 25 mg/kg (oral), and 80 mg/kg in dogs, corresponding to an approximated human-equivalent dose LD50 range of 2.02–43.24 mg/kg,[64] which is far more than its FDA-approved usage (a single dose of 0.150–0.200 mg/kg to be used for specific parasitic infections).[3] While ivermectin has also been studied for use in COVID-19, and while it has some ability to inhibit SARS-CoV-2 in vitro, achieving 50% inhibition in vitro was found to require an estimated oral dose of 7.0 mg/kg (or 35x the maximum FDA-approved dosage),[65] high enough to be considered ivermectin poisoning.[64] Despite insufficient data to show any safe and effective dosing regimen for ivermectin in COVID-19, doses have been taken far more than FDA-approved dosing, leading the CDC to issue a warning of overdose symptoms including nausea, vomiting, diarrhea, hypotension, decreased level of consciousness, confusion, blurred vision, visual hallucinations, loss of coordination and balance, seizures, coma, and death. The CDC advises against consuming doses intended for livestock or doses intended for external use and warns that increasing misuse of ivermectin-containing products is increasing harmful overdoses.[66]
Ivermectin and its related drugs act by interfering with the nerve and muscle functions of helminths and insects.[58] The drug binds to glutamate-gated chloride channels common to invertebrate nerve and muscle cells.[67] The binding pushes the channels open, which increases the flow of chloride ions and hyper-polarizes the cell membranes,[58] paralyzing and killing the invertebrate.[67] Ivermectin is safe for mammals (at the normal therapeutic doses used to cure parasite infections) because mammalian glutamate-gated chloride channels only occur in the brain and spinal cord: the causative avermectins usually do not cross the blood–brain barrier, and are unlikely to bind to other mammalian ligand-gated channels.[67]
Ivermectin can be given by mouth, topically, or via injection. Oral doses are absorbed into systemic circulation; the alcoholic solution form is more orally available than tablet and capsule forms. Ivermectin is widely distributed in the body.[68]
Ivermectin does not readily cross the blood-brain barrier of mammals due to the presence of P-glycoprotein (the MDR1 gene mutation affects the function of this protein).[69] Crossing may still become significant if ivermectin is given at high doses, in which case brain levels peak 2–5 hours after administration. In contrast to mammals, ivermectin can cross the blood-brain barrier in tortoises, often with fatal consequences.[70]
Ivermectin is metabolized into eight different products by human CYP3A4, two of which (M1, M2) remain toxic to mosquitos. M1 and M2 also have longer elimination half-lives of about 55 hours. CYP3A5 produces a ninth metabolite.[6]
Fermentation of Streptomyces avermitilis yields eight closely related avermectin homologues, of which B1a and B1b form the bulk of the products isolated. In a separate chemical step, the mixture is hydrogenated to give ivermectin, which is an approximately 80:20 mixture of the two 22,23-dihydroavermectin compounds.[71][72][7]
Ivermectin is a macrocyclical lactone.[73]
The avermectin family of compounds was discovered by Satoshi Ōmura of Kitasato University and William Campbell of Merck.[7] In , Ōmura isolated a strain of Streptomyces avermitilis from woodland soil near a golf course along the southeast coast of Honshu, Japan.[7] Ōmura sent the bacteria to William Campbell, who showed that the bacterial culture could cure mice infected with the roundworm Heligmosomoides polygyrus.[7] Campbell isolated the active compounds from the bacterial culture, naming them "avermectins" and the bacterium Streptomyces avermitilis for the compounds' ability to clear mice of worms (in Latin: a 'without', vermis 'worms').[7] Of the various avermectins, Campbell's group found the compound "avermectin B1" to be the most potent when taken orally.[7] They synthesized modified forms of avermectin B1 to improve its pharmaceutical properties, eventually choosing a mixture of at least 80% 22,23-dihydroavermectin B1a and up to 20% 22,23-dihydroavermectin B1b, a combination they called "ivermectin".[7][74]
The discovery of ivermectin has been described as a combination of "chance and choice." Merck was looking for a broad-spectrum anthelmintic, which ivermectin is; however, Campbell noted that they "...also found a broad-spectrum agent for the control of ectoparasitic insects and mites."[75]
Merck began marketing ivermectin as a veterinary antiparasitic in .[7] By , ivermectin was registered for use in 46 countries and was administered massively to cattle, sheep, and other animals.[76] By the late s, ivermectin was the bestselling veterinary medicine in the world.[7] Following its blockbuster success as a veterinary antiparasitic, another Merck scientist, Mohamed Aziz, collaborated with the World Health Organization to test the safety and efficacy of ivermectin against onchocerciasis in humans.[10] They found it to be highly safe and effective,[77] triggering Merck to register ivermectin for human use as "Mectizan" in France in .[10] A year later, Merck CEO Roy Vagelos agreed that Merck would donate all ivermectin needed to eradicate river blindness.[10] In , that donation would be expanded to include ivermectin used to treat lymphatic filariasis.[10]
Ivermectin earned the title of "wonder drug" for the treatment of nematodes and arthropod parasites.[78] Ivermectin has been used safely by hundreds of millions of people to treat river blindness and lymphatic filariasis.[7]
Half of the Nobel Prize in Physiology or Medicine was awarded jointly to Campbell and Ōmura for discovering ivermectin, "the derivatives of which have radically lowered the incidence of river blindness and lymphatic filariasis, as well as showing efficacy against an expanding number of other parasitic diseases".[15][79]
The initial price proposed by Merck in was US$6 per treatment, which was unaffordable for patients who most needed ivermectin.[88] The company donated hundreds of millions of courses of treatments since in more than 30 countries.[88] Between and , using donated ivermectin to prevent river blindness, the program is estimated to have prevented seven million years of disability at a cost of US$257 million.[89]
Ivermectin is considered an inexpensive drug.[90] As of , ivermectin tablets (Stromectol) in the United States were the least expensive treatment option for lice in children at approximately US$9.30, while Sklice, an ivermectin lotion, cost around US$300 for 120 mL (4 US fl oz).[91]
As of , the cost effectiveness of treating scabies and lice with ivermectin has not been studied.[92][93]
It is sold under the brand names Heartgard, Sklice,[94] and Stromectol[3] in the United States, Ivomec worldwide by Merial Animal Health, Mectizan in Canada by Merck, Iver-DT[95] in Nepal by Alive Pharmaceutical and Ivexterm in Mexico by Valeant Pharmaceuticals International. In Southeast Asian countries, it is marketed by Delta Pharma Ltd. under the trade name Scabo 6. The formulation for rosacea treatment is sold under the brand name Soolantra.[4] While in development, it was assigned the code MK-933 by Merck.[96]
Ivermectin has been researched in laboratory animals, as a potential treatment for trichinosis[32] and trypanosomiasis.[97]
Ivermectin has also been tested on zebrafish infected with Pseudocapillaria tomentosa.[98]
Ivermectin is also of interest in the prevention of malaria, as it is toxic to both the malaria plasmodium itself and the mosquitos that carry it.[99][100] A direct effect on malaria parasites could not be shown in an experimental infection of volunteers with Plasmodium falciparum.[101] Use of ivermectin at higher doses necessary to control malaria is probably safe, though large clinical trials have not yet been done to definitively establish the efficacy or safety of ivermectin for prophylaxis or treatment of malaria.[102][57] Mass drug administration of a population with ivermectin to treat and prevent nematode infestation is effective for eliminating malaria-bearing mosquitos and thereby potentially reducing infection with residual malaria parasites.[103] Whilst effective in killing malaria-bearing mosquitos, a Cochrane review found that, to date, the evidence shows no significant impact on reducing incidence of malaria transmission from the community administration of ivermectin.[102]
One alternative to ivermectin is moxidectin, which has been approved by the Food and Drug Administration for use in people with river blindness.[104] Moxidectin has a longer half-life than ivermectin and may eventually supplant ivermectin as it is a more potent microfilaricide, but there is a need for additional clinical trials, with long-term follow-up, to assess whether moxidectin is safe and effective for treatment of nematode infection in children and women of childbearing potential.[105][106]
There is tentative evidence that ivermectin kills bedbugs, as part of integrated pest management for bedbug infestations.[31][107][108] However, such use may require a prolonged course of treatment which is of unclear safety.[109]
In , ivermectin was demonstrated as a novel ligand of the farnesoid X receptor,[110][111] a therapeutic target for nonalcoholic fatty liver disease (NAFLD).[112]
During the COVID-19 pandemic, ivermectin was researched for possible utility in preventing and treating COVID-19, but no good evidence of benefit was found.[25][113]
Ivermectin is routinely used to control parasitic worms in the gastrointestinal tract of ruminant animals. These parasites normally enter the animal when it is grazing, pass the bowel, and set and mature in the intestines, after which they produce eggs that leave the animal via its droppings and can infest new pastures. Ivermectin is only effective in killing some of these parasites, because of an increase in anthelmintic resistance.[114] This resistance has arisen from the persistent use of the same anthelmintic drugs for the past 40 years.[115][116] Additionally, the use of Ivermectin for livestock has a profound impact on dung beetles, such as T. lusitanicus, as it can lead to acute toxicity within these insects.[117]
In dogs, ivermectin is routinely used as prophylaxis against heartworm.[118] Dogs with defects in the P-glycoprotein gene (MDR1), often collie-like herding dogs, can be severely poisoned by ivermectin. The mnemonic "white feet, don't treat" refers to Scotch collies that are vulnerable to ivermectin.[119] Some other dog breeds (especially the Rough Collie, the Smooth Collie, the Shetland Sheepdog, and the Australian Shepherd), also have a high incidence of mutation within the MDR1 gene (coding for P-glycoprotein) and are sensitive to the toxic effects of ivermectin.[120][121] For dogs, the insecticide spinosad may have the effect of increasing the toxicity of ivermectin.[122][123]
A 0.01% ivermectin topical preparation for treating ear mites in cats is available.[124] Clinical evidence suggests 7-week-old kittens are susceptible to ivermectin toxicity.[125]
Ivermectin is sometimes used as an acaricide in reptiles, both by injection and as a diluted spray. While this works well in some cases, care must be taken, as several species of reptiles are very sensitive to ivermectin. Use in turtles is particularly contraindicated.[126]
A characteristic of the antinematodal action of ivermectin is its potency: for instance, to combat Dirofilaria immitis in dogs, ivermectin is effective at 0.001 milligram per kilogram of body weight when administered orally.[74]
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