Acetazolamide loaded-silver nanoparticles: A potential treatment for murine trichinellosis

Trichinellosis is a global food-borne disease caused by viviparous parasitic nematodes of the genus Due to the lack of effective, safe therapy and the documented adverse effects of traditional therapy, this study aimed to evaluate the therapeutic effect of acetazolamide-loaded silver nanoparticles (...

Full description

Saved in:
Bibliographic Details
Published inJournal of helminthology Vol. 97; p. e86
Main Authors Abdel Hamed, E F, Taha, A A, Abdel Ghany, S M, Saleh, A A, Fawzy, E M
Format Journal Article
LanguageEnglish
Published England Cambridge University Press 16.11.2023
Subjects
Acetazolamide
Acetazolamide - pharmacology
Acetazolamide - therapeutic use
Adults
Albinism
Animals
Antioxidants
Antioxidants - pharmacology
Bioavailability
Drug dosages
Encephalitis
Enzymes
Foodborne diseases
Histopathology
Infections
Inflammation
Intestine
Larva
Larvae
Male
Metal Nanoparticles - therapeutic use
Mice
Mortality
Nanoparticles
Oxidative stress
Parasites
Parasitic diseases
Protozoa
Rodent Diseases
Scanning electron microscopy
Scavenging
Serum
Silver
Silver - pharmacology
Therapy
Trichinella spiralis
Trichinellosis
Trichinellosis - parasitology
Viviparity
Worms
AgNPs
Trichinella spiralis
antioxidant capacity
acetazolamide
Online AccessGet full text

Cover

More Information
Summary:Trichinellosis is a global food-borne disease caused by viviparous parasitic nematodes of the genus Due to the lack of effective, safe therapy and the documented adverse effects of traditional therapy, this study aimed to evaluate the therapeutic effect of acetazolamide-loaded silver nanoparticles (AgNPs) on murine trichinellosis. Fifty male Swiss albino mice were divided into five groups of ten mice each: Group I, normal control group; Group II, infected with and not treated; Group III, infected and given AgNPs; Group IV, infected and treated with acetazolamide; and Group V, infected and treated with acetazolamide-loaded AgNPs. Mice were infected orally with 250 larvae. The efficacy was assessed by counting adults and larvae, measuring serum total antioxidant capacity, and observing the histopathological and ultrastructural alterations. Acetazolamide-loaded AgNPs treatment exhibited the highest percentage of reduction (84.72% and 80.74%) for the intestinal adults and the muscular larvae of infected animals, respectively. Furthermore, during the intestinal and muscular phases, the serum of the same group had the best free-radical scavenging capacity (antioxidant capacity), which reduced tissue damage induced by oxidative stress. Histopathologically, the normal intestinal and muscular architecture was restored in the group treated with acetazolamide-loaded AgNPs, in addition to the reduced inflammatory infiltrate that alleviated inflammation compared to infected animals. Our results confirmed the marked destruction of the ultrastructural features of adults and larvae. Acetazolamide-loaded AgNPs are a promising therapy against infection.
ISSN:0022-149X
1475-2697
DOI:10.1017/S0022149X23000731