Safety of oral administration of high doses of ivermectin by means of biocompatible polyelectrolytes formulation

Madrid, Rafael R.M.; Mathews, Patrick D.; Patta, Ana C.M.F.; Gonzales, Anai; Ramirez, Carlos A.B.; Rigoni, Vera L.S.; Tavares‐Dias, Marcos; Mertins, Omar

doi:10.1016/j.heliyon.2020.e05820

Cited by 12 publications

(15 citation statements)

References 39 publications

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“…Most of the safety and pharmacokinetic data on oral administered ivermectin are from doses of 0.15–0.20 mg/kg. In an animal study by Rafael et al doses of ivermectin in the range of 0.22–0.86 mg/kg were not harmful to intestinal tissue and blood cells in general [17] .…”

Section: Discussionmentioning

confidence: 95%

Intravenous veterinary ivermectin in a COVID-19 patient causing neurotoxicity

Porubčin

Rovňáková

Zahornacký

et al. 2022

IDCases

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Ivermectin administration for Coronavirus disease 2019 (COVID-19) infection has gained a lot of attention recently. Although ivermectin has a relatively good safety profile, serious adverse events may occur in patients given doses that are presumed experimental. Ivermectin for human use is available only as an oral formulation. Parenteral administration, as a subcutaneous injection, is possible in veterinary medicine only. In this brief report we describe an unprecedented case of a patient with severe neurotoxicity after intravenous administration of veterinary ivermectin for confirmed COVID-19 infection. The patient required hospitalization in the intensive care unit (ICU). The toxic serum concentration of ivermectin was determined by liquid chromatography/mass spectrometry - time of flight (LC/MS-TOF) with the value of 187.74 ng/mL.

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Section: Discussionmentioning

confidence: 95%

Intravenous veterinary ivermectin in a COVID-19 patient causing neurotoxicity

Porubčin

Rovňáková

Zahornacký

et al. 2022

IDCases

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“…The structural changes established by SAXS suggested that the biopolymers were successfully incorporated to the cubosomal lipid structures, rendering the obtained nanoparticles pH-responsive vehicles. Both biopolymers have been incorporated in different types of nanoparticles [44,54,57]. However, they built-up a promising new nanostructured material in association with lipid-based cubosomes by tailoring liquid crystalline structure and poly-charged shells, which can render stronger interaction and deeper penetration in the mucosal layers of intestine.…”

Section: Discussionmentioning

confidence: 99%

“…The described pH-responsiveness, related to the structural features of the biopolymertailored cubosomes, may represent important advantages for the development of colloidal vehicles for biomedical applications where pH variation plays an important role. Previously, the combination of CHarg and ALG in the production of micro and nanoparticles as drug delivery systems has shown great potential for in vivo oral administration [54,[56][57][58][59]. Indeed, the gastrointestinal tract presents extreme pH variation to which drug delivery devices can be developed to respond in a manner to provide localized, optimized, and prolonged delivery of the carried bioactives.…”

Section: Charge Transitions In the Biopolymer Complexes Imparting Ph-responsiveness Of The Cubosome Particlesmentioning

confidence: 99%

“…A recent SAXS study has shown that lipids associated with the polysaccharide chitosan can assemble into certain cubic phases depending on the lipid/polymer mass ratio and the degree of hydration [55]. Moreover, the association of chitosan and chitosan-N-arginine with alginate, another polysaccharide with advantageous characteristics, allowed the production of pH-sensitive nanoparticles as drug delivery systems for the anthelmintic drugs ivermectin, mebendazole and praziquantel [56][57][58][59]. Indeed, chitosan and alginate are oppositely charged polyelectrolytes in aqueous medium, which renders the association of both macromolecules pH-dependent [54].…”

Section: Introductionmentioning

confidence: 99%

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Cubosomal lipid nanoassemblies with pH-sensitive shells created by biopolymer complexes: A synchrotron SAXS study

Mathews

Mertins

Angelov

et al. 2022

Journal of Colloid and Interface Science

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“…One hundred and eighty adult specimens of C. schwartzi, bought from a commercial provider, were employed in similar conditions as described in our previous studies (Madrid et al, 2021;Mathews et al, 2018;Patta et al, 2020). The fish were divided into three aquariums with 15 L of dechlorinated water, previously conditioned to adequate water conditions for the species, with a constant temperature of 28°C using thermostat systems (Hopar Aquarium Heater H-606 150W), constant pH 6.8 and adjusted physicochemical parameters (Seachem Prime water conditioner), and submitted to constant filtration and aeration (Aquatech FE25 Filtration System) with the water flow rate adjusted to 250 L/h.…”

Section: Experimental Animalsmentioning

confidence: 99%

High compliance and effective treatment of fish endoparasitic infections with oral drug delivery nanobioparticles: Safety of intestinal tissue and blood parameters

Madrid

Mertins

Tavares‐Dias³

et al. 2021

Journal of Fish Diseases

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Parasite infections in fish require constant surveillance and strategies for efficient treatments which guarantee the fish health, their sale value and the non-propagation of pathogens in new environments. Fish treatments based on nanotechnology become of increasing interest since nanoparticles have been shown as efficient materials for optimizing administration of bioactives. In this study a chitosan derivative, alginate and praziquantel conjugated nanobioparticle of effective action for oral treatment of digenetic trematodes in highly infected Corydoras schwartzi was evaluated in terms of histological and hematological safety. The inherent absence of alterations in intestinal tissue and the reversible blood cells counting during a period up to 35 days showed the safety of the drug delivery nanobioparticles, which thus represent a promising strategy for effective applications in pathogens treatments by oral administration.

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Safety of oral administration of high doses of ivermectin by means of biocompatible polyelectrolytes formulation

Cited by 12 publications

References 39 publications

Intravenous veterinary ivermectin in a COVID-19 patient causing neurotoxicity

Intravenous veterinary ivermectin in a COVID-19 patient causing neurotoxicity

Cubosomal lipid nanoassemblies with pH-sensitive shells created by biopolymer complexes: A synchrotron SAXS study

High compliance and effective treatment of fish endoparasitic infections with oral drug delivery nanobioparticles: Safety of intestinal tissue and blood parameters

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