Anti-parasitic activity of nano Citrullus colocynthis and nano Capparis spinose against Trichomonas vaginalis in vitro

Advances in soft nanoparticle-based platforms for human and veterinary trichomoniasis therapy: A scoping review

This scoping review focuses on drug delivery systems based on soft materials designed for the administration of drugs with anti-Trichomonas vaginalis activity. It primarily examines their use in addressing human trichomoniasis, exploring their physicochemical characteristics, in vitro and in vivo evaluation and identifying existing challenges and gaps. Given the economic burden and the One Health approach, formulations developed aiming at treating animal infections - cattle and poultry - were also discussed. The review involved searching electronic databases, such as PubMed, Scopus, and Web of Science, to find studies published until May 2024; out of the 103 articles retrieved, 18 fulfilled the eligibility criteria. This study investigated soft-nanoparticle formulations, including polymericand lipid-based systems, and their incorporation into suitable formulations for topical application, including hydrogels and polymeric films. Additionally, the discussion covered toxicology and highlighted the knowledge gaps related to the potential use of these formulations in humans. Anti-trichomonas soft nano-based formulations emerge as promising candidates for treating gynecological and animal infections. In conclusion, further preclinical testing is necessary, as none of the formulations have progressed to human clinical trials and have only been evaluated in animal models.

Design and Antimalarial Evaluation of Polydopamine-Modified Methyl Artelinate Nanoparticles

Targeted nanodrug delivery systems are highly anticipated for the treatment of malaria. It is known that Plasmodium can induce new permeability pathways (NPPs) on the membrane of infected red blood cells (iRBCs) for their nutrient uptake. The NPPs also enable the uptake of nanoparticles (NPs) smaller than 80 nm. Additionally, Plasmodium maintains a stable, slightly acidic, and reductive internal environment with higher glutathione (GSH) levels. Based on this knowledge, methyl artelinate (MA, a prodrug-like derivative of dihydroartemisinin) nanoparticles (MA-PCL-NPs) were developed using poly(ethylene glycol)-b-poly(ε-caprolactone) (mPEG-PCL) by a thin-film dispersion method and were further coated with polydopamine (PDA) to obtain MA-PCL@PDA-NPs with a particle size of ∼30 nm. The biomaterial PDA can be degraded in slightly acidic and reductive environments, thereby serving as triggers for drug release. MA could generate reactive oxygen species and decrease GSH levels, consequently causing parasite damage. The in vitro release experiment results indicated that the cumulative release percentage of MA from MA-PCL@PDA-NPs was considerably higher in phosphate buffer with 10 mM GSH at pH 5.5 (88.10%) than in phosphate buffer without GSH at pH 7.4 (16.98%). The green fluorescence within iRBCs of coumarin 6, the probe of NPs (C6-PCL@PDA-NPs), could be reduced significantly after adding the NPP inhibitor furosemide (p < 0.001), which demonstrated that MA-PCL@PDA-NPs could be ingested into iRBCs through NPPs. In vivo antimalarial pharmacodynamics in Plasmodium berghei K173-bearing mice showed that the inhibition ratio of MA-PCL@PDA-NPs (93.96%) was significantly higher than that of commercial artesunate injection (AS-Inj, 63.33%). The above results showed that the developed MA-PCL@PDA-NPs possessed pH-GSH dual-responsive drug release characteristics and targeting efficacy for iRBCs, leading to higher antimalarial efficacy against Plasmodium.

Detection of Trichomonas vaginalis by microscopy and molecular methods in women referred to health centers in Tabriz, Northwest Iran

Trichomoniasis is a parasitic disease that affects the human reproductive and urinary systems, representing a substantial non-viral sexually transmitted infection worldwide. Given its impact on reproductive health, and the limited available information on the prevalence of Trichomonas vaginalis, this study aimed to evaluate the prevalence of T. vaginalis among women referred to health centers in Tabriz, Northwest Iran. Study was conducted on 448 suspicious women who attended to 29Bahman hospital in Tabriz, Northwest Iran, during September 2020 to September 2021. Demographic data were collected according to the study protocol. Vaginal discharges were obtained using sterile swabs, and the prevalence of T. vaginalis was determined using Papanicolauo staining and PCR method. Among the 448 cases studied, 48 (10.7%) samples were suspected as a T. vaginalis infection, while 4 (0.89%) confirmed using the PCR method. The mean age of infected individuals was 41.7 ± 9.4 years. No statistical correlation was observed between inflammation, method of contraception and infection (p = 0.8). The present study revealed a relatively low prevalence of T. vaginalis infection within the study population. Additionally, the utilization of the PCR method can be beneficial in confirming suspected samples.

Nanomaterials as a Potential Target for Infectious Parasitic Agents

Despite the technological advancement in the era of personalized medicine and therapeutics development, infectious parasitic causative agents remain one of the most challenging areas of research and development. The disadvantages of conventional parasitic prevention and control are the emergence of multiple drug resistance as well as the non-specific targeting of intracellular parasites, which results in high dose concentration needs and subsequently intolerable cytotoxicity. Nanotechnology has attracted extensive interest to reduce medication therapy adverse effects including poor bioavailability and drug selectivity. Numerous nanomaterials-based delivery systems have previously been shown in animal models to be effective in the treatment of various parasitic infections. This review discusses a variety of nanomaterials-based antiparasitic procedures and techniques as well as the processes that allow them to be targeted to different parasitic infections. This review focuses on the key prerequisites for creating novel nanotechnology-based carriers as a potential option in parasite management, specifically in the context of human-related pathogenic parasitic agents.

Citrullus colocynthis (L.) Schrad.: A Promising Pharmaceutical Resource for Multiple Diseases

Citrullus colocynthis (L.) Schrad. (Cucurbitaceae) is widely distributed in the desert areas of the world. The fruit bodies of C. colocynthis are recognized for their wide range of nutraceutical potential, as well as medicinal and pharmaceutical uses. The plant has been reported for various uses, such as asthma, bronchitis, cancer, colic, common cold, cough, diabetes, dysentery, and jaundice. The fruit has been extensively studied for its biological activities, which include insecticide, antitumor, and antidiabetic effects. Numerous bioactive compounds have been reported in its fruit bodies, such as essential oils, fatty acids, glycosides, alkaloids, and flavonoids. Of these, flavonoids or caffeic acid derivatives are the constituents associated with the inhibition of fungal or bacterial growth, whereas eudesmane sesquiterpenes or sesquiterpene lactones are most active against insects, mites, and nematodes. In this review, the scientific evidence for the biological activity of C. colocynthis against insecticide, cytotoxic, and antidiabetic effects is summarized.

Effects of green synthesized zinc nanoparticles alone and along with albendazole against hydatid cyst protoscoleces

Background

The current investigation aims to green synthesized the zinc nanoparticles (ZnNPs) using Lavandula angustifolia extract by microwave technique and its protoscolicidal effects alone and combined with albendazole against hydatid cyst protoscoleces.

Methods

Different concentrations of the ZnNPs (50, 100, and 200 μg/ml) alone and combined with albendazole (ALZ, 100 μg/ml) were treated with hydatid cyst protoscoleces obtained from liver of infected sheep for 5–60 min in vitro and ex vivo. Eosin exclusion examination was used to assess the viability of protoscoleces. The induction of apoptosis in hydatid cyst protoscoleces was assessed by measurement of the Caspase-3 activity of protoscoleces treated with various concentrations of ZnNPs.

Results

The size of green synthesized ZnNPs was ranged from 30 to 80 nm, most of these nanoparticles were between 50 and 60 nm in size. In vitro, the highest scolicidal effect of ZnNPs was observed at the concentration of 200 μg/ml, where it killed 81.6% of protoscolices. While the combination of these nanoparticles with ALZ, especially at the concentration of 200 μg/ml, completely killed the protoscolices after 10 min’ exposure. However, compared to in vitro assay, the drugs tested took longer to show their protoscolicidal effect.

Conclusion

Based on the obtained results, ZnNPs particularly in combination with albendazole displayed the potent protoscolicidal in vitro and ex vivo as an intraperitoneal model of administration of agents to hydatid cyst treatment; nevertheless, additional investigations are mandatory to evaluate the efficacy and safety Zn NPs as a favorable protoscolicidal agent in clinical setting.

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ZnNPs particularly in combination with albendazole displayed the relevant protoscolicidal in vitro effects.

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ZnNPs particularly in combination with albendazole displayed the potent protoscolicidal ex vivo effects.

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ZnNPs induced the apoptosis through the activation of caspase-3 enzyme.

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Additional investigations are mandatory to evaluate the its efficacy and safety in clinical setting.