The current study was designed with the aim to investigate anti-anxiety potential of Hibiscus rosa sinensis roots and its possible mechanism of action. For this purpose hole board test, elevated plus maze test and light/dark exploration test were employed. The ethanol extract of plant was administered orally at two different doses i.e. 100 and 500 mg/kg for consecutive 14 days. The results of present investigation indicate that plant extract significantly (p < 0.05) increased the number of head dips and rearings as compared to control on respective days of observation. The extract increased the time of permanence in open arms and the number of head dips in elevated plus maze. In light/dark test, our study indicate that Hibiscus rosa sinensis significantly (p < 0.05) increased the time spent in light compartment and number of entries as compared to control. In addition the anxiolytic effects of HRS at highest tested dose were blocked by flumazenil, a GABA-A receptor antagonist that indicate that Hibiscus rosa sinensis potentiated the GABAergic actions. The results propose that the ethanol extract of Hibiscus rosa sinensis has prospective anxiolytic effect in mice via inhibition of ionotropic GABA receptors, using different behavioral paradigms.
Background: Fungal infections are one of the most prevailing worldwide public health issues. Despite the commercially available antifungal drugs, side effects associated with these agents and resistance may lead to the development of antifungal drugs by using advanced technology. Main body of the abstract: In the current era, nanotechnology is one of the most predominant techniques with massive advantages in the field of medicines and medical sciences. In the last two decades, various nanostructures were developed based on metals, plants, and microorganisms. The aim of the review is to discuss all original researches and to review articles of the last two decades, including earlier and recent development in different types of nanostructures as an antifungal therapy. Published papers in the English language were searched and reviewed from the online databases from January 2007 till May 2021. The search engines included were PubMed, Google, Google scholar, and Sciencedirect. In all the databases, the keywords “fungi”, “antifungal”, “nanomaterials”, “nanostructures” and “nanotechnology” were used for literature search. Short conclusion: The innovative nanostructures are vital for the treatment of different strains of fungal infections i.e. from minor nail infections to major systemic fungal infections. Additionally, nanostructures also enhance the efficacy, solubility, penetration, and drug release to the targeted site of conventional antifungal agents.
Vegetables have great significance and importance as they are not only useful as food but on the other hand, vegetables are a vital source in the treatment and prevention of various ailments, a powerful source of minerals, vitamins, antioxidants, fibers, and amino acids, therefore, help to buildup and heal the body. Mainly concerning cruciferous vegetables, have been famous for marked effects of cardio-protective, antimicrobial, and anti-carcinogenic. The environments of Pakistan are amicable for vegetable production. Raphanus sativus generally named radish is a widespread plant all over the world belongs to the Brassicaceae family. Edible R sativus L. Var. caudatus are green color seed pods, utilized for properties attributed to Raphanus. Different chemical constituents are identified from radish. Various researches show that the whole radish plant has significant pharmacological activity. The current review expands ontypes, phytochemical components, and pharmacological potential and toxic outcomes of the radish plant Keywords: Radish, varieties, constituents, pharmacology, uses, toxicity
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