Search results
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Title
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EFFECT OF BIOCERAMIC FUNCTIONAL GROUPS ON DRUG BINDING AND RELEASE KINETICS
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Author
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Trujillo, Christopher
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Date Created
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2015
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Subjects--Topical
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Materials science, Engineering, Biomedical engineering
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Description
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Bioceramics have been studied extensively as drug delivery systems (DDS). Those studies have aimed to tailor the drug binding and release kinetics to successfully treat infections and other diseases. This research suggests that the drug binding an...
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Title
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Development of injectable bioceramic drug delivery system for solid tumor treatment
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Author
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Haig, James
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Date Created
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2017
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Subjects--Topical
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Materials science, Engineering, Biomedical engineering
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Description
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According to the national cancer institute "In 2016, an estimated 1,685,210 new cases of cancer will be diagnosed in the United States and 595,690 people will die from the disease" and "The number of people living beyond a cancer diagnosis reached...
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Title
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DOPAMINE DETECTION VIA SURFACE ENHANCED RAMAN SCATTERING FOR PARKINSON’S DISEASE
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Author
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Cutler, Eric
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Date Created
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2019
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Subjects--Topical
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Mechanical engineering, Biomedical engineering
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Description
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Motion is controlled via the excitatory or inhibitory responses of the motor pathway by receptors in Substantia Nigra of the brain, modulated by a main neurotransmitter dopamine (DA). Parkinson’s Disease (PD) is the neurological disorder effecting...
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Title
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Design of a Microstrip Antenna and PCB for use in an Electrocorticography Biomedical Implant
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Author
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West, Jakob
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Date Created
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2019
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Subjects--Topical
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Electrical engineering, Biomedical engineering, Electromagnetism
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Description
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An implantable system, that is part of a wireless body area network, is under development for a study monitoring of neural activity in rats with epilepsy. The study will continue over a nine month period to collect data for epilepsy research. This...
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Title
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SINGLE-STEP, REDUCED SHEAR, MICROFLUIDIC EXTRUSION OF BLOOD BRAIN BARRIER
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Author
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Wetzel, Isaac
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Date Created
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2019
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Subjects--Topical
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Biomedical engineering
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Description
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Three-dimensional (3D) bioprinting of living structures with cell-laden biomaterials has been achieved in vitro, however, central nervous system tissues have been limited by the low viability printing of cerebral vessels, using conventional printi...