Everything about Microspheres
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  • Fluorescent Microspheres Used for Experiments in Plant Canopies

    Fluorescent Microspheres - Polymer Spheres - 1g/cc

    Fluorescent Microspheres – Polymer Spheres – 1g/cc

    The University of Utah in collaboration with USDA Labs in Corvallis, OR performed five field campaigns in commercial vineyards in Oregon’s Willamette Valley.  Among the methodologies developed over the five-years experiment was the use of fluorescent microsheres as a fungal spore analog.  The microspheres used were inert fluorescing polyethylene micropsheres in four separate colors manufactured by Cospheric.

    The article attached below outlines the technology developed as well as microspheres sampling and meteorological equipment used in the experiments.  The authors of the article conclude that “these techniques have enabled for incredibly detailed research into particle plume dynamics in a vineyard.”

    NMiller_Poster_Methods

     

     

  • Microspheres Used as a Drug Delivery System

    There has been numerous studies done and articles published in scientific publications about the advantages of microspheres as a drug delivery system vs conventional approach to drug delivery.  Design, Development and Future Application of Microspheres by Divya Rawat , U.K> Singh and Faizi Muzaffar,  Kharvel Subharti College of Pharmacy, published in PharmaTutor discusses the types of microspheres that posses the properties needed for various drug delivery systems, their advantages and limitations.  The micropsheres best suitable to be used in biomedical applications, research and lab experiments are polystyrene.  According to the article: “Polystyrene microspheres are typically used in biomedical applications due to their ability to facilitate procedures such as cell sorting and immune precipitation. Proteins and ligands adsorb onto polystyrene readily and permanently, which makes polystyrene microspheres suitable for medical research and biological laboratory experiments. Polyethylene microspheres are commonly used as permanent or temporary filler. Lower melting temperature enables polyethylene microspheres to create porous structures in ceramics and other materials. High sphericity of polyethylene microspheres, as well as availability of colored and fluorescent microspheres, makes them highly desirable for flow visualization and fluid flow analysis, microscopy techniques, health sciences, process troubleshooting and numerous research applications.”

    Another research paper that discusses advantages and disadvantages of microspheres use for drug delivery, as well as techniques to prepare microsheres and principle behind drug delivery system is Microspheres as Drug Carriers for Controlled Drug Delivery: a Review by Nisha Sharma, Neha Purwar and Prakash Chandra Gupta, University Institute of Pharmacy, C.S.J.M. University, Kanpur, India published in International Journal of Pharmaceutical Sciences and Research.  Polymer microspheres were used for the experiment. The authors conclude that “microspheres are better choice of drug delivery system than many other types of drug delivery system. In future by combining various other strategies, microspheres will find the central and significant place in novel drug delivery, particularly in diseased cell sorting, diagnostics, gene & genetic materials, safe, targeted, specific and effective in-vitro delivery and supplements as miniature version of diseased organ and tissues in the body.”