Studies on ameliorative potentials of quercetin nanoparticles against imidacloprid induced subacute genotoxicity and histopathological alteration in Swiss albino mice.

IF 2.4 4区医学 Q3 CHEMISTRY, MEDICINAL Drug Development and Industrial Pharmacy Pub Date : 2025-01-01 Epub Date: 2025-01-03 DOI:10.1080/03639045.2024.2447872

Vipin, Preeti Bagri, Kajal Bhardwaj, Vinay Kant, Deepika Lather

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Abstract

Objective: Genotoxicity assays include micronucleus test, comet assay, and malformed sperm head used to investigate the protective potential of quercetin (Que) and Que nanoparticles against imidacloprid (IMI)-induced genotoxicity in Swiss albino mice.

Methods: The ionic gelation procedure was used to synthesize the Que nanoparticles and characterized for their hydrodynamic diameter, zeta potential, scanning electron microscopy (SEM), transmission electron microscopy (TEM), FT-IR, and encapsulation efficiency. A total of 48 mice were taken in eight groups with six animals in each group. Groups 1, 2, 3, and 4 received 3% gum acacia, 22 mg/kg IMI, 25 mg/kg Que and 25 mg/kg Que nanoparticles high dose (QNPs (HD)), respectively. Groups 5, 6, 7, and 8 received 22 mg/kg IMI + 25 mg/kg Que (IMI + Que), 22 mg/kg IMI + 25 mg/kg Que nanoparticles (IMI + QNPs (HD)), 22 mg/kg IMI + 12.5 mg/kg Que nanoparticle medium dose (IMI + QNPs (MD)), and 22 mg/kg IMI + 6.25 mg/kg Que nanoparticles low dose (IMI + QNPs (LD)), respectively.

Results: The IMI causes genotoxicity in bone marrow cells by increasing the frequency of micronuclei and the comet tail length. Additionally, IMI is mutagenic to germ cells, as determined by a test for aberrant sperm heads. Both Que and Que nanoparticles lessen the genotoxicity that IMI induces when administered together or separately. Histopathological findings also revealed degenerative changes in bone marrow and testes in IMI administered group as compared to control.

Conclusion: Quercetin and Que nanoparticles showed marked ameliorative effect by restoring the degenerative changes produced by IMI.

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槲皮素纳米颗粒对吡虫啉亚急性遗传毒性和瑞士白化小鼠组织病理学改变的改善作用研究。

目的：通过微核试验、彗星试验和畸形精子头试验，探讨槲皮素和槲皮素纳米颗粒对吡虫啉致瑞士白化小鼠遗传毒性的保护作用。方法：采用离子凝胶法制备槲皮素纳米颗粒，并对其水动力直径、zeta电位、SEM、TEM、FT-IR、包封效率等进行表征。48只小鼠分为8组，每组6只。1、2、3、4组分别给予3%金合木、22 mg/kg吡虫啉（IMI）、25 mg/kg槲皮素（Que）和25 mg/kg槲皮素纳米颗粒高剂量[QNPs (HD)]。5、6、7、8组分别给予22 mg/kg吡虫啉+ 25 mg/kg槲皮素（IMI + Que）、22 mg/kg吡虫啉+ 25 mg/kg槲皮素纳米颗粒[IMI + QNPs (HD)]、22 mg/kg吡虫啉+ 12.5 mg/kg槲皮素纳米颗粒中剂量[IMI + QNPs (MD)]和22 mg/kg吡虫啉+ 6.25 mg/kg槲皮素纳米颗粒低剂量[IMI + QNPs (LD)]。结果：吡虫啉通过增加微核频率和彗尾长度对骨髓细胞产生遗传毒性。此外，吡虫啉对生殖细胞具有诱变性，这是通过对异常精子头的测试确定的。槲皮素和槲皮素纳米颗粒都能减轻吡虫啉在一起或单独给药时引起的遗传毒性。组织病理学结果还显示，与对照组相比，吡虫啉给药组骨髓和睾丸出现退行性改变。结论：槲皮素和槲皮素纳米颗粒对吡虫啉所致的退行性改变具有明显的改善作用。

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来源期刊

Drug Development and Industrial Pharmacy 医学-药学

CiteScore

6.80

自引率

0.00%

发文量

审稿时长

4.5 months

期刊介绍： The aim of Drug Development and Industrial Pharmacy is to publish novel, original, peer-reviewed research manuscripts within relevant topics and research methods related to pharmaceutical research and development, and industrial pharmacy. Research papers must be hypothesis driven and emphasize innovative breakthrough topics in pharmaceutics and drug delivery. The journal will also consider timely critical review papers.