Japanese Study Describes Ivermectin as ‘Wonder drug’

For the past decade Ivermectin has been increasingly known in the scientific and medical community as a ‘wonder drug’ on a par with penicillin and aspirin.

Since the COVID-19 pandemic the drug has come to the fore once again proving itself as a vital addition to the medical toolbox in defeating the virus. Below we share with readers the original peer-reviewed study published by the Proceeding of the Japan Academy (2011). [1]

Abstract

Discovered in the late-1970s, the pioneering drug ivermectin, a dihydro derivative of avermectin—originating solely from a single microorganism isolated at the Kitasato Intitute, Tokyo, Japan from Japanese soil—has had an immeasurably beneficial impact in improving the lives and welfare of billions of people throughout the world. Originally introduced as a veterinary drug, it kills a wide range of internal and external parasites in commercial livestock and companion animals. It was quickly discovered to be ideal in combating two of the world’s most devastating and disfiguring diseases which have plagued the world’s poor throughout the tropics for centuries. It is now being used free-of-charge as the sole tool in campaigns to eliminate both diseases globally. It has also been used to successfully overcome several other human diseases and new uses for it are continually being found. This paper looks in depth at the events surrounding ivermectin’s passage from being a huge success in Animal Health into its widespread use in humans, a development which has led many to describe it as a “wonder” drug.

Keywords: avermectin, ivermectin, mode of action, onchocerciasis, lymphatic filariasis, drug resistance

Introduction

There are few drugs that can seriously lay claim to the title of ‘Wonder drug’, penicillin and aspirin being two that have perhaps had greatest beneficial impact on the health and wellbeing of Mankind. But ivermectin can also be considered alongside those worthy contenders, based on its versatility, safety and the beneficial impact that it has had, and continues to have, worldwide—especially on hundreds of millions of the world’s poorest people. Several extensive reports, including reviews authored by us, have been published detailing the events behind the discovery, development and commercialization of the avermectins and ivermectin (22,23-dihydroavermectin B), as well as the donation of ivermectin and its use in combating Onchocerciasis and lymphatic filariasis.) However, none have concentrated in detail on the interacting sequence of events involved in the passage of the drug into human use.

When it first appeared in the late-1970s, ivermectin, a derivative of avermectin (Fig. (Fig.1 )1 ) was a truly revolutionary drug, unprecedented in many ways. It was the world’s first endectocide, forerunner of a completely new class of antiparasitic agents, potently active against a wide range of internal and external nematodes and arthropods. In the early-1970s, a novel international Public Sector–Private Sector partnership was initiated by one of us (Ōmura, then head of the Antibiotics Research Group at Tokyo’s Kitasato Institute), forming a collaboration with the US-based Merck, Sharp and Dohme (MSD) pharmaceutical company. Under the terms of the research agreement, researchers at the Kitasato Institute isolated organisms from soil samples and carried out preliminary in vitro evaluation of their bioactivity. Promising bioactive samples were then sent to the MSD laboratories for further in vivo testing where a potent and promising novel bioactivity was found, subsequently identified as being caused by a new compound, which was named ‘avermectin’.) Despite decades of searching around the world, the Japanese microorganism remains the only source of avermectin ever found.) Originating from a single Japanese soil sample and the outcome of the innovative, international collaborative research partnership to find new antiparasitics, the extremely safe and more effective avermectin derivative, ivermectin, was initially introduced as a commercial product for Animal Health in 1981. It is effective against a wide range of parasites, including gastrointestinal roundworms, lungworms, mites, lice and hornflies.) Ivermectin is also highly effective against ticks, for example, the ixodid tick Rhipicephalus (Boophilusmicroplus, one of the most important cattle parasites in the tropics and subtropics, which causes enormous economic damage. Indicative of the impact, in Brazil, where some 80% of the bovine herd is infested, losses total about $2 billion annually.) Today, ivermectin is being used to treat billions of livestock and pets around the world, helping to boost production of food and leather products, as well as keep billions of companion animals, particularly dogs and horses, healthy. The ‘Blockbuster’ drug in the Animal Health sector, meaning that it achieved annual sales in excess of over US$1 billion, maintained that status for over 20 years. It is so useful and adaptable that it is also being used off-label, sometimes, illegally, for example to treat fish lice in the aquaculture industry, where it can have a negative impact on non-target organisms. It also has extensive uses in agriculture.)

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New horizons

Ivermectin has continually proved to be astonishingly safe for human use. Indeed, it is such a safe drug, with minimal side effects, that it can be administered by non-medical staff and even illiterate individuals in remote rural communities, provided that they have had some very basic, appropriate training. This fact has helped contribute to the unsurpassed beneficial impact that the drug has had on human health and welfare around the globe, especially with regard to the campaign to fight Onchocerciasis.)

Today, ivermectin is being increasingly used worldwide to combat other diseases in humans, such as Strongyloidiasis (which infects some 35 million each year), scabies (which causes 300 million cases annually), Pediculosis, Gnathostomiasis and Myiasis—and new and promising properties and uses for ivermectin and other avermectin derivatives are continuing to be found.) These include activity against another neglected tropical disease, Leishmaniasis.,) Of perhaps even greater significance is the evidence that the use of ivermectin has both direct and indirect beneficial impact on improving community health. Studies of long-term treatment with ivermectin to control Onchocerciasis have shown that use of the drug is additionally associated with significant reduction in the prevalence of infection with any soil-transmitted helminth parasites (including Ascaris, Trichuris and hookworm), most or all of which are deemed to be major causes of the morbidity arising from poor childhood nutrition and growth.) It is also known that the prevalence of head lice is markedly reduced in children taking ivermectin tablets) and that scabies is markedly reduced in populations taking the drug regularly.) Above all, ivermectin has proved to be a medicine of choice for the world’s rural poor. In many underprivileged communities throughout the tropics, intestinal worms and parasitic skin diseases are extremely common and associated with significant morbidity. They usually co-exist, with many individuals infected with both ecto- and endoparasites.,) Mass treatment of poly-parasitized populations is deemed to be the best means of control and ivermectin is the ideal drug for such interventions. A recent study in Brazil, using locally produced ivermectin, looked at the impact on internal helminthes and parasitic skin diseases. The researchers concluded that “mass treatment with ivermectin was an effective and safe means of reducing the prevalence of most of the parasitic diseases prevalent in a poor community in North-East Brazil. The effects of treatment lasted for a prolonged period of time”. This study also represented the first published report of human medical intervention using ivermectin that had not been produced by the hitherto traditional manufacturer, Merck & Co. Inc., the patent on the drug expiring in 1997.)

In reality, the renewed interest in fighting tropical diseases, including the involvement of the pharmaceutical industry, which has become increasingly evident over the past three decades, and which has saved lives and improved the welfare of billions of people, notably the poor and disadvantaged in the topics, can be traced back to the 1987 introduction of ivermectin for use in humans. According to a recent report, International Federation of Pharmaceutical Manufacturers & Associations (IFPMA) data show that the global pharmaceutical industry provided over $9.2 billion in health interventions (medicines and equipment) between 2000–2007 alone, benefitting 1.75 billion people worldwide.) The hitherto unprecedented donation of ivermectin in 1987 can rightly be seen to be the origin of this philanthropic outpouring.

Since the inception of the Mectizan Donation Programme, Merck has donated well over 2.5 billion Mectizan® tablets for Onchocerciasis treatment, with in excess of 700 million treatments authorised. Currently, some 80–90 million people are taking the drug annually through MDA in Africa, Latin America and Yemen. A further 300 million total treatments have been approved for lymphatic filariasis, with around 90 million treatments being administered annually (Fig. (Fig.8 ).8 ). At present 33 countries are receiving ivermectin for Onchocerciasis and 15 for Lymphatic filariasis. Consequently, around US$4 billion worth of ivermectin tablets have been donated to date. In 2010, Ecuador became the second country in the Americas to halt River Blindness transmission. It is hoped that transmission of the disease in the Western hemisphere will be stopped by 2012—a goal that will have been achieved thanks to twice-yearly MDA with ivermectin. Lymphatic filariasis is targeted for global elimination by 2020, and, if all goes well, Onchocerciasis may well be eliminated from Africa soon thereafter.

[1] doi: 10.2183/pjab.87.13

Read the full paper at www.ncbi.nlm.nih.gov
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Comments (3)

  • Avatar

    Joseph Olson

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    All living organisms on this planet live in a hostile radiological, chemical and biological environment, and all must develop defense systems. Medical breakthroughs are not made by test tube and lab coated clowns, but by researchers in the field observing NATURAL defense systems. The hubris of frankenscience madmen, playing Russian roulette with genetics is inexcusable.

    Reply

  • Avatar

    Maria Pace

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    i HAVE BEEN READING ABOUT INVERMECTIN AND AGREE WITH THE DOCTORS AND SCIENTISTS THAT THEY SHOULD TRY USING THIS ‘WONDER DRUG’ ON THE COVID 19
    AND THE COVID #2 DISEASES ASAP. IT IS SAFE TO USE ON HUMANS BECAUSE THEY ALREADY USE IT TO TREAT OTHER DISEASES, IT JUST NEEDS TO BE TESTED FOR COVID.
    LORD HAVE MERCY, AMEN.

    Reply

    • Avatar

      Anibal

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      ya se usa con buenos resultados, con doble o triple dosis de la habitual según la gravedad, confíen si cura el Covid.

      Reply

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