A developed high-performance thin-layer chromatography method for the determination of baicalin in Oroxylum indicum L. and its antioxidant activity

Nanotransethosomal dual-drug loaded gel of methotrexate and mangiferin as a potent synergistic intervention for rheumatoid arthritis via transdermal delivery

The goal of this study is to assess the potential advantages of utilising methotrexate (MTH), and mangiferin (MFR), in nanoparticulate configuration which is transethosomes (TRS), which could result in increased stability and solubility, as well as improved infiltration into the arthritic tissues under investigation. The synthesised MTH-MFR-TRS demonstrated a particle size of 151.7 nm and a PDI of 0.1199. Additionally, the zeta potential was observed to be favourable at -30.43 mV. Supplementary evaluations were performed, comprising transmission electron microscopy (TEM), confocal microscopy and skin permeation analysis. The CLSM study revealed that the MTH-MFR-TRS gel formulation demonstrated enhanced permeation of MTH and MFR through the skin layers in comparison with MTH-MFR suspension gel. The results of the in vivo investigation indicate that the MTH-MFR-TRS gel displays favourable anti-arthritic characteristics compared to the diclofenac standard gel. The aforementioned phenomenon was evidenced by means of histopathological investigations and radiographic scrutiny. The study at hand has validated the utility of TRS vesicles as a carrier for the transdermal administration of MTH and MFR, thereby offering a promising therapeutic approach for the management of rheumatoid arthritis.

Recent advances in the analytical methods for quantitative determination of antioxidants in food matrices

Antioxidants are crucial in reducing oxidative stress and enhancing health, necessitating precise quantification in food matrices. Advanced techniques such as biosensors and nanosensors offer high sensitivity and specificity, enabling real-time monitoring and accurate antioxidant quantification in complex food systems. These technologies herald a new era in food analysis, improving food quality and safety through sophisticated detection methods. Their application facilitates comprehensive antioxidant profiling, driving innovation in food technology to meet the rising demand for nutritional optimization and food integrity. These are complemented by electrochemical techniques, spectroscopy, and chromatography. Electrochemical methods provide rapid response times, spectroscopy offers versatile chemical composition analysis, and chromatography excels in precise separation and quantification. Collectively, these methodologies establish a comprehensive framework for food analysis, essential for improving food quality, safety, and nutritional value. Future research should aim to refine these analytical methods, promising significant advancements in food and nutritional science.

Mechanism of synergistic action of colistin with resveratrol and baicalin against mcr-1-positive Escherichia coli

The rising incidence of colistin (COL) resistance poses a significant challenge, undermining the therapeutic efficacy of COL against life-threatening bacterial infections. Therefore, the urgent identification and development of new therapeutics are imperative. It has been proven that combinations of antibiotics and promising non-antibiotic agents could be a potential strategy to combat infections caused by MDR pathogens. Due to various antimicrobial properties, medicinal plants have attracted significant attention, which could be promising adjuvant. In this study, we investigated the synergistic effects of combining COL with resveratrol (RST) and baicalin (BAI) against mcr-1-positive Escherichia coli through antibiotic susceptibility testing, checkerboard method and time-killing assays. The mechanisms of combination treatment were analyzed using SEM, fluorometric assays and transcriptome analysis. The molecular docking assay was conducted to elucidate potential interactions between RST, BAI and the MCR-1 protein. Finally, we assessed the in vivo efficacy of combination against mcr-1-positive Escherichia coli. The results demonstrated that the combination of RST, BAI and COL showed significant synergistic activity both in vitro and in vivo. Further mechanistic study revealed that the combination could increase the membrane-damaging ability of COL, disrupt the homeostasis of proton motive force (PMF), inhibit the activity of efflux pumps and impair ATP supply. The molecular docking revealed that RST and BAI could bind to MCR-1 stably, indicating the combination of RST and BAI may be an effective MCR-1 inhibitor. Our findings demonstrated that the combination of RST and BAI might be potential COL adjuvant, providing an alternative approach to address mcr-1-positive Escherichia coli infections.

Synergistically engineered nanotransethosomes for co-delivery of methotrexate and baicalin for enhanced transdermal delivery against rheumatoid arthritis: formulation, characterisation and in vivo pharmacodynamic evaluation

Background: Rheumatoid arthritis (RA) is a systemic autoimmune disease that significantly impacts the quality of life of those affected. Owing to the complex pathophysiology of RA, it is not possible for any singular treatment to entirely impede the progression of the disease. Hence, the current study aimed to adopt a holistic and synergistic approach towards the management of RA by means of a co-delivery strategy involving methotrexate (MTH), a conventional slow-acting anti-rheumatic drug, and baicalin (BCN), a bioactive phytochemical using a transethosomal (TRS) gel formulation.Purpose: The present study aims to evaluate the potential benefits of administering MTH and BCN in nanoparticulate form, which may lead to improved stability and solubility, as well as enhanced penetration into the arthritic tissues of interest.Methods and results: The MTH-BCN-TRS that were synthesised exhibited small particle size of 151.3 nm and polydispersity index of 0.125, as well as a favourable zeta potential of -32.22 mV. Additional assessments were conducted, including a pharmacokinetic analysis, TEM, skin permeation analysis and confocal microscopy. According to the Confocal laser scanning microscopy (CLSM) study, the formulated MTH-BCN-TRS gel exhibited superior MTH and BCN permeation through the skin layers when compared to the MTH-BCN suspension gel. The MTT experiment on Raw 264.7 and SW982 cell lines revealed a considerable reduction (p < .05) in the IC50 value of the MTH-BCN-TRS formulation (9.2 mM and 43.2 mM, respectively) in comparison to the drug suspension. According to the findings of the in vivo study, it was found that the MTH-BCN-TRS gel exhibits significantly promising anti-arthritic properties when compared to the conventional diclofenac gel. This was demonstrated through histopathological studies and radiographic analysis. Furthermore, skin irritation investigation on Wistar albino rats confirmed that the formulated MTH-BCN-TRS is a safe option for topical treatment on the skin. The present study has confirmed that the formulated TRS vesicles are a valuable carrier for the transdermal delivery of MTH and BCN, which may be used for the management of rheumatoid arthritis.

Nose to brain delivery of naringin loaded transniosomes for epilepsy: formulation, characterisation, blood-brain distribution and invivo pharmacodynamic evaluation

The current work limns the preparation of naringin-loaded transnioosomes (NRN-TN) to enhance NRN solubility, permeation and bioavailability via nasal mucosa for intranasal delivery. NRN-TN was created by the thin-film hydration technique, and with the BBD (Box-Behnken design), optimisation was carried out. NRN-TNopt was characterised for the vesicle size, PDI (Polydispersity index), zeta potential, entrapment efficiency (EE) and in vitro NRN release. For further assessment, nasal permeation study, study of Blood-brain distribution, TEM (Transmission Electron Microscopy), and CLSM (Confocal Scanning Laser Microscopy) were conducted withal. The NRN-TNopt exhibited spherical as well as sealed vesicles with a considerable small size of 151.3 nm, an EE of 75.23 percent, a PDI of 0.1257, and an in vitro release of 83.32 percent. CLSM investigation revealed that the new formulation allows for higher NRN permeation across nasal mucosa than the NRN solution. The blood-brain distribution investigation revealed that intranasally administered NRN-TN had a greater Cmax and AUC0-24 h than orally administered NRN-TN. Seizure activity and neuromuscular coordination as measured by the rotarod test, biochemical estimate of oxidative stress indicators, and histological investigations demonstrated that the NRN-TN has superior anti-epileptic potential in comparison to the standard diazepam. In addition, nasal toxicity studies demonstrate that the NRN-TN formulation is safer for intranasal administration. This study confirmed that the created TN vesicle formulation is a valuable carrier for the intranasal administration of NRN for the treatment of epilepsy.

Nanotransethosomes for enhanced transdermal delivery of mangiferin against rheumatoid arthritis: formulation, characterization, invivo pharmacokinetic and pharmacodynamic evaluation

The present research study limns the preparation of MNF loaded transethosomes (MNF-TE) to improve MNF solubility, bioavailability and permeation through skin layers for transdermal delivery. MNF-TE was formulated using thin-film hydration method and optimization was done using Box-Behnken design (BBD). MNF-TEopt was characterized for Polydispersity index (PDI), vesicle size, entrapment efficiency, zeta potential and in vitro MNF release. For further evaluation, Pharmacokinetic study, Transmission electron microscopy (TEM), Skin permeation study and Confocal scanning laser microscopy (CLSM) were performed withal. The MNF-TEopt presented spherical and sealed shape vesicles with small vesicle size of 148.6 nm, entrapment efficiency of 74.23%, PDI of 0.1139 and in vitro release of 65.32%. The CLSM study unveiled that the developed formulation has greater permeation of MNF across the skin layers in comparison with the MNF suspension gel. The pharmacokinetic study demonstrated C_max and AUC_0-24 h of 6.94 ± 0.51 μg/ml and 43.92 ± 7.90 μg.h/ml via transdermal route in comparison to C_max and AUC_0-24 h of 3.74 ± 1.91 μg/ml and 22.96 ± 9.76 μg.h/ml presented by MNF-TE oral administration. The in vivo study revealed that the MNF-TE gel has good anti-arthritic potential in comparison with the standard diclofenac gel which was evinced by radiographic analysis and histopathological studies. Further, skin irritation study on Wistar albino rats confirm that the developed MNF-TE formulation is safer for skin application. The current investigation corroborated that the prepared TE vesicle formulation is a treasured carrier for the MNF transdermal delivery for the management of rheumatoid arthritis.

Linalool-Incorporated Synergistically Engineered Modified Liposomal Nanocarriers for Enhanced Transungual Delivery of Terbinafine against Onychomycosis

This work investigates the synthesis of linalool-containing invasomes for terbinafine (TBF-IN) in order to increase the solubility, bioavailability, and nail permeability of terbinafine (TBF) for transungual administration. TBF-IN was created utilising the thin-film hydration technique, and with the Box-Behnken design (BBD), optimisation was carried out. TBF-INopt were investigated for vesicle size, zeta potential, PDI (Polydispersity index), entrapment efficiency (EE) and in vitro TBF release. In addition, nail permeation analysis, TEM (transmission electron microscopy), and CLSM (confocal scanning laser microscopy) were performed for further evaluation. The TBF-INopt exhibited spherical as well as sealed vesicles with a considerably small size of 146.3 nm, an EE of 74.23 per cent, a PDI of 0.1612, and an in vitro release of 85.32 per cent. The CLSM investigation revealed that the new formulation had better TBF nail penetration than the TBF suspension gel. The antifungal investigation demonstrated that the TBF-IN gel has superior antifungal activity against Trichophyton rubrum and Candida albicans compared to the commercially available terbinafine gel. In addition, an investigation of skin irritation using Wistar albino rats indicates that the TBF-IN formulation is safe for topical treatment. This study confirmed that the invasomal vesicle formulation is an effective vehicle for the transungual delivery of TBF for the treatment of onychomycosis.

Application of QbD based approach in development and validation of RP-HPLC method for simultaneous estimation of methotrexate and baicalin in dual-drug-loaded liposomes

The present study delineates the development of a novel, rugged and sensitive stability-indicating risk-based HPLC method for the concurrent estimation of methotrexate (MTX) and baicalin (BCL) in dual-drug-loaded-nanopharmaceuticals based on an analytical quality-by-design approach. Preliminary screening trials along with systemic risk analysis were performed, endeavouring to explicate the critical method attributes, namely pH, percentage of orthophosphoric acid and percentage of acetonitrile, that influence the critical quality attributes. Box-Behnken design was utilized for the optimization of the tailing factor as the response for MTX and BCL in a short run time. The chromatographic conditions were optimized by performing 17 experimental runs using design expert software. The chromatographic conditions were selected after the analysis of the optimized zone within the confines of the design space: water:acetonitrile adjusted to a pH of 3.0 with 0.05% orthophosphoric acid (60:40, %v/v) was the mobile phase, the flow rate was 1.0 ml/min and an analytical C₁₈ column was used at an isobestic wavelength of 282 nm. Furthermore, the optimized method was validated in accordance with the International Council for Harmonisation of Technical Requirements for Registration of Pharmaceuticals for Human Use guidelines and was found to be within the prescribed limits. Therefore, the developed reversed-phase-high-performance liquid chromatography method has a high degree of practical utility for synchronous detection of MTX and BCL in pharmaceutical nano-dosage forms such as protein-based nanoparticles, nanocrystals, polymeric nanoparticles and metallic nanoparticles in in vivo and in vitro studies.

Spanlastics as a Potential Approach for Enhancing the Nose-To-Brain Delivery of Piperine: In Vitro Prospect and In Vivo Therapeutic Efficacy for the Management of Epilepsy

The present study delineates the preparation of piperine-loaded spanlastics (PIP-SPL) to improve piperine (PIP) solubility, bioavailability, and permeation through nasal mucosa for intranasal delivery. PIP-SPL was formulated using the thin-film hydration method and optimization was performed using Box-Behnken design (BBD). PIP-SPL optimized formulation (PIP-SPLopt) was characterized for polydispersity index (PDI), vesicle size, entrapment efficiency, zeta potential, and in vitro PIP release. For further evaluation, blood-brain distribution study, transmission electron microscopy (TEM), nasal permeation study, and confocal scanning laser microscopy (CLSM) were performed withal. The PIP-SPLopt presented spherical and sealed shape vesicles with a small vesicle size of 152.4 nm, entrapment efficiency of 72.93%, PDI of 0.1118, and in vitro release of 82.32%. The CLSM study unveiled that the developed formulation has greater permeation of PIP across the nasal mucosa in comparison with the PIP suspension. The blood-brain distribution study demonstrated higher C_max and AUC_0-24h of PIP-SPL via the intranasal route in comparison to PIP-SPL via oral administration. The in vivo study revealed that the PIP-SPL has good antiepileptic potential in comparison with the standard diazepam, which was evinced by seizure activity, neuromuscular coordination by rotarod test, biochemical estimation of oxidative stress markers, and histopathological studies. Furthermore, nasal toxicity study confirm that the developed PIP-SPL formulation is safer for intranasal application. The current investigation corroborated that the prepared spanlastic vesicle formulation is a treasured carrier for the PIP intranasal delivery for the management of epilepsy.