Complete Inhibition of Human Rotavirus Infection by the Aqueous Extract of Scrophularia Variegata

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Complete Inhibition of Human Rotavirus Infection by the Aqueous Extract of Scrophularia Variegata Publisher

Khales P¹ ; Shahi F² ; Ghorbani S³ ; Esteghamati A⁴ ; Sayyahfar S⁴ ; Khanaliha K⁴ ; Bokharaeisalim F³ ; Kiani SJ³ ; Monavari SH³ ; Minaeian S⁵ ; Farahmand M⁶ ; Poortahmasebi V^{7, 8} ; Faraji F⁵ ; Naghdalipoor M⁴ Show All Authors

Khales P¹
Shahi F²
Ghorbani S³
Esteghamati A⁴
Sayyahfar S⁴
Khanaliha K⁴
Bokharaeisalim F³
Kiani SJ³
Monavari SH³
Minaeian S⁵
Farahmand M⁶
Poortahmasebi V^{7, 8}
Faraji F⁵
Naghdalipoor M⁴
Habib Z³
Saghafi MM^{9, 10}
Tavakoli A⁴

Source: Anti-Infective Agents Published:2023

Abstract

Background: Recently, plant-based medications have been considered promising. Scrophu-laria has been demonstrated to have antibacterial, antifungal, antiparasitic, anticancer, and anti-inflammatory effects; however, no evidence of its antiviral potency is available. Objective: This study aimed to evaluate whether the aqueous extract of Scrophularia variegata has antiviral activity against rotavirus as the leading cause of severe diarrhea and acute gastroenteritis in children. Methods: The neutral red assay was utilized to assess the cytotoxicity of the aqueous extract on the cell line. Cytopathic effect (CPE) inhibition, TCID50 (50% cell culture infectious dose), and real-time PCR assays were performed to determine the extract's impact on human rotavirus at non-toxic dilutions. Results: Cell viability was raised following treatment with the aqueous extract at all dilutions. Rota-virus-induced CPEs were considerably reduced when higher dilutions of the aqueous extract were ap-plied to the infected cells. The most substantial inhibitory effect was observed at the highest dilution with no detectable infectious rotavirus titer using the TCID50 assay and no Ct value using the real-time PCR assay. Conclusion: Our findings show that the aqueous extract of Scrophularia variegata may be a promising candidate for the treatment of rotavirus-induced gastroenteritis. © 2023 Bentham Science Publishers.

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Style	Citing Format
MLA	Khales P, et al.. "Complete Inhibition of Human Rotavirus Infection by the Aqueous Extract of Scrophularia Variegata." Anti-Infective Agents, vol. 21, no. 2, 2023, pp. 86-93.
APA	Khales P, Shahi F, Ghorbani S, Esteghamati A, Sayyahfar S, Khanaliha K, Bokharaeisalim F, Kiani SJ, Monavari SH, Minaeian S, Farahmand M, Poortahmasebi V, Faraji F, Naghdalipoor M, Habib Z, Saghafi MM, Tavakoli A (2023). Complete Inhibition of Human Rotavirus Infection by the Aqueous Extract of Scrophularia Variegata. Anti-Infective Agents, 21(2), 86-93.
Chicago	Khales P, Shahi F, Ghorbani S, Esteghamati A, Sayyahfar S, Khanaliha K, Bokharaeisalim F, et al.. "Complete Inhibition of Human Rotavirus Infection by the Aqueous Extract of Scrophularia Variegata." Anti-Infective Agents 21, no. 2 (2023): 86-93.
Harvard	Khales P et al. (2023) 'Complete Inhibition of Human Rotavirus Infection by the Aqueous Extract of Scrophularia Variegata', Anti-Infective Agents, 21(2), pp. 86-93.
Vancouver	Khales P, Shahi F, Ghorbani S, Esteghamati A, Sayyahfar S, Khanaliha K, et al.. Complete Inhibition of Human Rotavirus Infection by the Aqueous Extract of Scrophularia Variegata. Anti-Infective Agents. 2023;21(2):86-93.
BibTex	@article{ author = {Khales P and Shahi F and Ghorbani S and Esteghamati A and Sayyahfar S and Khanaliha K and Bokharaeisalim F and Kiani SJ and Monavari SH and Minaeian S and Farahmand M and Poortahmasebi V and Faraji F and Naghdalipoor M and Habib Z and Saghafi MM and Tavakoli A}, title = {Complete Inhibition of Human Rotavirus Infection by the Aqueous Extract of Scrophularia Variegata}, journal = {Anti-Infective Agents}, volume = {21}, number = {2}, pages = {86-93}, year = {2023} }
RIS	TY - JOUR AU - Khales P AU - Shahi F AU - Ghorbani S AU - Esteghamati A AU - Sayyahfar S AU - Khanaliha K AU - Bokharaeisalim F AU - Kiani SJ AU - Monavari SH AU - Minaeian S AU - Farahmand M AU - Poortahmasebi V AU - Faraji F AU - Naghdalipoor M AU - Habib Z AU - Saghafi MM AU - Tavakoli A TI - Complete Inhibition of Human Rotavirus Infection by the Aqueous Extract of Scrophularia Variegata JO - Anti-Infective Agents VL - 21 IS - 2 SP - 86 EP - 93 PY - 2023 ER -