Mohammad A. Obeid scite author profile

Non-ionic surfactant vesicles (NISV) are colloidal particles that provide a useful delivery system for drugs and vaccines. One of the methods that is used for NISV preparation is microfluidics in which the lipid components dissolved in organic phase are mixed with an aqueous medium to prepare the particles through self-assembly of the lipids. In this work, we examined the effect of using different types of aqueous media on the characteristics of the NISV prepared by microfluidics. Five aqueous media were tested: phosphate buffered saline, HEPES buffer, Tris buffer, normal saline and distilled water. The resulting particles were tested for their physical characteristics and cytotoxicity. The aqueous media were found to have significant effects on the physical characteristics of the particles, as well as their overall stability under different conditions and their cytotoxicity to different human cell lines. Careful consideration should be taken when choosing the aqueous media for preparing NISV through microfluidics. This is an important factor that will also have implications with respect to the entrapped material, but which in addition may help to design vesicles for different uses based on changing the preparation medium.

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Lipid-based nanoparticles for cancer treatment

Obeid

Tate

Mullen

et al. 2018

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Delivering Natural Products and Biotherapeutics to Improve Drug Efficacy

et al. 2017

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Due to the increasing problem of drug resistance, new and improved medicines are required. Natural products and biotherapeutics offer a vast resource for new drugs; however, challenges, including the cost and time taken for traditional drug discovery processes and the subsequent lack of investment from the pharmaceutical industry, are associated with these areas. New techniques are producing compounds with appropriate activity at a faster rate. While the formulation of these combined with drug-delivery systems offers a promising approach for expanding the drug developments available to modern medicine. Here, various classes of drug-delivery systems are described and the advantages they bring to small molecule and biotherapeutic targeting are highlighted. This is an attractive approach to the pharmaceutical industry and the rising trend in research in this area is examined in brief. New medicines are constantly being developed or repurposed, aimed at curing or preventing diseases or conditions where therapeutic product availability is lacking, or to reduce side effects, improve quality of life, reduce the burden on the cost of healthcare systems, while significantly extending patients' lives. However, drug discovery, research and development (R&D) can be an extensive process lasting over 7-10 years, with an average cost of $2.6 billion for each successful drug that reaches the market [1]. These substantial cost and time factors originate from the scientific, technical and regulatory challenges that are needed to fully understand the drug mechanisms of action and physiological interactions for complex diseases at molecular level. Achieving viable commercial success subsequently

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Mohammad A. Obeid

The effects of hydration media on the characteristics of non-ionic surfactant vesicles (NISV) prepared by microfluidics

Lipid-based nanoparticles for cancer treatment

Delivering Natural Products and Biotherapeutics to Improve Drug Efficacy

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