Gail Welsby scite author profile

The current research work encompasses the development, characterization, and evaluation of self-assembled phospholipidic nano-mixed miceller system (SPNMS) of a poorly soluble BCS Class IV xanthone bioactive, mangiferin (Mgf) functionalized with co-delivery of vitamin E TPGS. Systematic optimization using I-optimal design yielded self-assembled phospholipidic nano-micelles with a particle size of < 60 nm and > 80% of drug release in 15 min. The cytotoxicity and cellular uptake studies performed using MCF-7 and MDA-MB-231 cell lines demonstrated greater kill and faster cellular uptake. The ex vivo intestinal permeability revealed higher lymphatic uptake, while in situ perfusion and in vivo pharmacokinetic studies indicated nearly 6.6- and 3.0-folds augmentation in permeability and bioavailability of Mgf. In a nutshell, vitamin E functionalized SPNMS of Mgf improved the biopharmaceutical performance of Mgf in rats for enhanced anticancer potency.Electronic supplementary materialThe online version of this article (10.1007/s13346-018-0498-4) contains supplementary material, which is available to authorized users.

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Clathrin-mediated endocytic uptake of PUFA enriched self-nanoemulsifying lipidic systems (SNELS) of an anticancer drug against triple negative cancer and DMBA induced preclinical tumor model

Khurana

Kumar

Gaspar

et al. 2018

Materials Science and Engineering: C

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The current studies envisage unravelling the underlying cellular internalisation mechanism of the systematically developed docetaxel (DTH) polyunsaturated fatty acid (PUFA) enriched self-nanoemulsifying lipidic micellar systems (SNELS). The concentration-, time- and cytotoxicity-related effects of DTH-SNELS on triple negative breast cancer (TNBC) MDA-MB-231 and non-TNBC MCF-7 cell lines were assessed through Presto-blue assay. Subsequently, rhodamine-123 (Rh-123) loaded SNELS were employed for evaluating their internalisation through flow cytometry and fluorescence microscopy, establishing it to be "clathrin-mediated" endocytic pathway. Apoptosis assay (65% cell death) and cell cycle distribution (47% inhibition at G2/M phase) further corroborated the cytotoxicity of DTH-SNELS towards cancerous cells. Biodistribution, histopathology and haematology studies indicated insignificant toxicity of the optimized formulation on vital organs. Preclinical anticancer efficacy studies using 7,12-dimethylbenzantracene (DMBA)-induced model construed significant reduction in breast tumor-volume. Overall, extensive in vitro and in vivo studies indicated the intracellular localization and cytotoxicity, suggesting DTH-SNELS as promising delivery systems for breast tumor therapeutics including TNBC.

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Pharmacological effects of asiatic acid in glioblastoma cells under hypoxia

et al. 2017

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Glioblastoma multiforme is the most common and malignant primary brain tumor in adults. Despite current treatment options including surgery followed by radiation and chemotherapy with temozolomide and cisplatin, the median survival rate remains low (<16 months). Combined with increasing drug resistance and the inability of some compounds to cross the blood–brain barrier, novel compounds are being sought for the treatment of this disease. Here, we aimed to examine the pharmacological effect of Asiatic acid (AA) in glioblastoma under hypoxia. To investigate the effects of AA on cell viability, proliferation, apoptosis, and wound healing, SVG p12 fetal glia and U87-MG grade IV glioblastoma cells were cultured under normoxic (21% O2) and hypoxic (1% O2) conditions. In normoxia, AA reduced cell viability in U87-MG cells in a time and concentration-dependent manner. A significant decrease in viability, compared to cisplatin, was observed following 2 h of AA treatment with no significant changes in cell proliferation or cell cycle progression observed. Under hypoxia, a significantly greater number of cells underwent apoptosis in comparison to cisplatin. While cisplatin showed a reduction in wound healing in normoxia, a significantly greater reduction was observed following AA treatment. An overall reduction in wound healing was observed under hypoxia. The results of this study show that AA has cytotoxic effects on glioma cell lines and has the potential to become an alternative treatment for glioblastoma.Electronic supplementary materialThe online version of this article (doi:10.1007/s11010-017-2965-5) contains supplementary material, which is available to authorized users.

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Phytochemicals - an alternative therapy for glioblastoma?

Salim¹,

Snape²,

Welsby³

et al. 2018

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NEURO-ONCOLOGY • JANUARY 2018alone: 78% were contacted by telephone, 22% via email63% reported seizure activity, 37% had medication queries 29% attended A&E/admitted to hospital despite our advice71% avoided hospital/GP appointments and/or attending A&E CONCLUSION: Tumour related epilepsy data provided from a large neuro-oncology service at KCH is worthy of being shared. It can highlight the importance of an integrated neuro-oncology service which is accessible to patients through various means: email, telephone, clinics. A personalized service adjusted to the needs of patients. Moreover by utilising the expertise of the Neurologist we have shown that an integrated service may reduce the use of hard-pressed NHS resources in primary care settings and within hospitals.

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P51 * Preparation of Asiatic Acid Loaded Nanoparticles for Delivery Across the Blood Brain Barrier and Its Effects on Glioblastoma Cells in Vitro

Thakor¹,

Welsby²,

Wan³

et al. 2014

Neuro-Oncology

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Gail Welsby

Improving the biopharmaceutical attributes of mangiferin using vitamin E-TPGS co-loaded self-assembled phosholipidic nano-mixed micellar systems

Clathrin-mediated endocytic uptake of PUFA enriched self-nanoemulsifying lipidic systems (SNELS) of an anticancer drug against triple negative cancer and DMBA induced preclinical tumor model

Pharmacological effects of asiatic acid in glioblastoma cells under hypoxia

Phytochemicals - an alternative therapy for glioblastoma?

P51 * Preparation of Asiatic Acid Loaded Nanoparticles for Delivery Across the Blood Brain Barrier and Its Effects on Glioblastoma Cells in Vitro

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