75 research outputs found

    Ozonated oils as antimicrobial systems in topical applications. Their characterization, current applications, and advances in improved delivery techniques

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    The search for a wide spectrum of antimicrobial agents that can avoid resistance while maintaining reasonable side effects has led to ozonated oils experiencing an increase in scientific interest and clinical applications. The treatment of vegetable oils with ozone leads to the creation of a reservoir of ozone that slowly releases into the skin thanks to the fact that ozone can be held as ozonides of unsaturated fatty acids. Interest in the use of ozonated oils has meant that several ozonated-vegetable-oil-containing products have been commercialized as cosmetic and pharmaceutical agents, and in innovative textile products with antibacterial activity. New approaches to the delivery of ozonated oils have very recently appeared in an attempt to improve their characteristics and reduce drawbacks, such as an unpleasant odor, high viscosity and undesired effects on skin, including irritation and rashes. The present review focuses on the current status of delivery agents that use ozonated oils as antimicrobial agents in topical (dermal, skin, and soft tissues) treatments. Challenges and future opportunities for these delivery systems will also be discussed

    Effect of Multimodal Pore Channels on Cargo Release from Mesoporous Silica Nanoparticles

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    Mesoporous silica nanoparticles (MSNs) with multimodal pore channels were fully characterized by TEM, nitrogen adsorption-desorption, and DLS analyses. MSNs with average diameter of 200 nm with dual pore channel zones with pore diameters of 1.3–2.6 and 4 nm were tested for their use in drug delivery application. Important role of the multimodal pore systems present on MSNs on the quantitative release of model drug ibuprofen was investigated. The results obtained revealed that the release profile for ibuprofen clearly shows distinct zones which can be attributed to the respective porous channel zones present on the particles. The fluctuations in the concentration of ibuprofen during the prolonged release from MSNs were caused by the multimodal pore channel systems

    Lipid Nano- and Microparticles: An Overview of Patent-Related Research

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    The traits of lipid biocompatibility and versatility have led to many nano- and microparticulate lipid formulations being engineered, over the last two decades, in the form of spheres and capsules, using solid and liquid lipids as the matrices. This review describes the main types of lipid nano- and microparticles, as well as their preparation methods, administration routes, and main fields of application. It will also provide a synthetic overview of the main patents that have been filed. Patenting activity in the lipid nanoparticle field has been ongoing for 25 years and has been driven by the boom in the use of nanotechnology as an innovative tool for disease treatment and potential commercial interest in a fully biocompatible vehicle. Initially, activity was mainly focused on technological aspects, and later focus shifted more to usage and composition. An increasing number of patents are also being filed by Emerging Countries. However, the most important limitation here is the low number of marketed products, which is mainly caused by regulatory restrictions and economic reasons
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