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Main Authors: Elgendy, Wesam M A, El-Wahsh, Hany M, Naguib, Doaa, Elmahy, Rasha A, Morsy, Suzan Awad AbdelGhany, Ahmed, Ashraf Fawzy Mosa, Abdow, Marim Fayz, Alhussainy, Nabeel Hussain, Al Braikan, Faten Abdullah, Bendari, Ahmed, Abu-Okail, Akram, Elhosyni, Amira Mohamed AbdelHady
Format: Artículo científico
Language:en
Published: Acta parasitologica 2026
Online Access:https://pubmed.ncbi.nlm.nih.gov/41915255/
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author Elgendy, Wesam M A
El-Wahsh, Hany M
Naguib, Doaa
Elmahy, Rasha A
Morsy, Suzan Awad AbdelGhany
Ahmed, Ashraf Fawzy Mosa
Abdow, Marim Fayz
Alhussainy, Nabeel Hussain
Al Braikan, Faten Abdullah
Bendari, Ahmed
Abu-Okail, Akram
Elhosyni, Amira Mohamed AbdelHady
author_facet Elgendy, Wesam M A
El-Wahsh, Hany M
Naguib, Doaa
Elmahy, Rasha A
Morsy, Suzan Awad AbdelGhany
Ahmed, Ashraf Fawzy Mosa
Abdow, Marim Fayz
Alhussainy, Nabeel Hussain
Al Braikan, Faten Abdullah
Bendari, Ahmed
Abu-Okail, Akram
Elhosyni, Amira Mohamed AbdelHady
Elgendy, Wesam M A
El-Wahsh, Hany M
Naguib, Doaa
Elmahy, Rasha A
Morsy, Suzan Awad AbdelGhany
Ahmed, Ashraf Fawzy Mosa
Abdow, Marim Fayz
Alhussainy, Nabeel Hussain
Al Braikan, Faten Abdullah
Bendari, Ahmed
Abu-Okail, Akram
Elhosyni, Amira Mohamed AbdelHady
collection PubMed - marine biology
contents Therapeutic Impact of Plant-Derived Extracts and their Silver Nanoparticle-Loaded Extracts on the Zoonotic Parasite Hymenolepis Nana Infection. Elgendy, Wesam M A El-Wahsh, Hany M Naguib, Doaa Elmahy, Rasha A Morsy, Suzan Awad AbdelGhany Ahmed, Ashraf Fawzy Mosa Abdow, Marim Fayz Alhussainy, Nabeel Hussain Al Braikan, Faten Abdullah Bendari, Ahmed Abu-Okail, Akram Elhosyni, Amira Mohamed AbdelHady BACKGROUND: Hymenolepis nana (H. nana) is a neglected zoonotic cestode that commonly infects humans and is typically treated with praziquantel (PZQ). Due to concerns about drug resistance and adverse effects, this study explored the antiparasitic activity of aqueous extracts from Artemisia alba, Moringa oleifera, and Ceratonia siliqua, as well as their corresponding silver-nanoparticles (AgNPs)-loaded extracts, against H. nana infection. METHODS: Ten groups of male albino mice were used: a healthy control group, an infected untreated group, and six infected groups treated with the aqueous extracts of A. alba, M. oleifera, and C. siliqua, along with their silver nanoparticle-loaded extracts. Two additional infected groups received either AgNPs alone or PZQ. The study assessed parasitological parameters, particularly egg count per gram (EPG), alongside jejunal histopathology and liver and kidney function markers. RESULTS: All treated groups exhibited a significant reduction in H. nana infection. Both forms of A. alba, as well as AgNPs and PZQ, achieved a complete (100%) reduction in fecal EPG. In contrast, the aqueous extracts of M. oleifera and C. siliqua produced a 75% reduction. AgNPs and PZQ did not improve renal or hepatic function. All plant extracts demonstrated hepatoprotective effects, while the aqueous and AgNPs-loaded extracts of A. alba and M. oleifera also showed renoprotective activity. CONCLUSION: Aqueous extracts of Artemisia alba, Moringa oleifera, and Ceratonia siliqua, along with their AgNPs-loaded counterparts, exhibited significant antiparasitic effects against H. nana. Among them, A. alba showed the highest efficacy in both its extract and AgNPs-loaded extract.
format Artículo científico
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institution PubMed
language en
publishDate 2026
publisher Acta parasitologica
record_format pubmed
spellingShingle Therapeutic Impact of Plant-Derived Extracts and their Silver Nanoparticle-Loaded Extracts on the Zoonotic Parasite Hymenolepis Nana Infection.
Elgendy, Wesam M A
El-Wahsh, Hany M
Naguib, Doaa
Elmahy, Rasha A
Morsy, Suzan Awad AbdelGhany
Ahmed, Ashraf Fawzy Mosa
Abdow, Marim Fayz
Alhussainy, Nabeel Hussain
Al Braikan, Faten Abdullah
Bendari, Ahmed
Abu-Okail, Akram
Elhosyni, Amira Mohamed AbdelHady
Therapeutic Impact of Plant-Derived Extracts and their Silver Nanoparticle-Loaded Extracts on the Zoonotic Parasite Hymenolepis Nana Infection. Elgendy, Wesam M A El-Wahsh, Hany M Naguib, Doaa Elmahy, Rasha A Morsy, Suzan Awad AbdelGhany Ahmed, Ashraf Fawzy Mosa Abdow, Marim Fayz Alhussainy, Nabeel Hussain Al Braikan, Faten Abdullah Bendari, Ahmed Abu-Okail, Akram Elhosyni, Amira Mohamed AbdelHady BACKGROUND: Hymenolepis nana (H. nana) is a neglected zoonotic cestode that commonly infects humans and is typically treated with praziquantel (PZQ). Due to concerns about drug resistance and adverse effects, this study explored the antiparasitic activity of aqueous extracts from Artemisia alba, Moringa oleifera, and Ceratonia siliqua, as well as their corresponding silver-nanoparticles (AgNPs)-loaded extracts, against H. nana infection. METHODS: Ten groups of male albino mice were used: a healthy control group, an infected untreated group, and six infected groups treated with the aqueous extracts of A. alba, M. oleifera, and C. siliqua, along with their silver nanoparticle-loaded extracts. Two additional infected groups received either AgNPs alone or PZQ. The study assessed parasitological parameters, particularly egg count per gram (EPG), alongside jejunal histopathology and liver and kidney function markers. RESULTS: All treated groups exhibited a significant reduction in H. nana infection. Both forms of A. alba, as well as AgNPs and PZQ, achieved a complete (100%) reduction in fecal EPG. In contrast, the aqueous extracts of M. oleifera and C. siliqua produced a 75% reduction. AgNPs and PZQ did not improve renal or hepatic function. All plant extracts demonstrated hepatoprotective effects, while the aqueous and AgNPs-loaded extracts of A. alba and M. oleifera also showed renoprotective activity. CONCLUSION: Aqueous extracts of Artemisia alba, Moringa oleifera, and Ceratonia siliqua, along with their AgNPs-loaded counterparts, exhibited significant antiparasitic effects against H. nana. Among them, A. alba showed the highest efficacy in both its extract and AgNPs-loaded extract.
title Therapeutic Impact of Plant-Derived Extracts and their Silver Nanoparticle-Loaded Extracts on the Zoonotic Parasite Hymenolepis Nana Infection.
url https://pubmed.ncbi.nlm.nih.gov/41915255/