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November 15, 2014 - created by
Milton Bertrand,
2 B.E.S.T. Scholars, 0 endorses, 0 followers, 6 views
Brain Expansions Scholastic Training, Inc. (B.E.S.T., Inc.), a not-for-profit organization dedicated to creating a long-lasting positive impact in the lives of underrepresented and disadvantaged... moreBrain Expansions Scholastic Training, Inc. (B.E.S.T., Inc.), a not-for-profit organization dedicated to creating a long-lasting positive impact in the lives of underrepresented and disadvantaged youth with specific encouragement and exposure to health-related careers. B.E.S.T., Inc is dedicated to mapping a successful path of success for every student and preparing them for academic success and community service. B.E.S.T., Inc. promotes a high level of academic, excellence by learning using the skills taught in memory training and chess education. Partnerships with businesses, universities, educators, community groups, youth and parents will be fostered in order to maximize each child’s future success in their school, workplace, and society. less
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November 17, 2009 - created by
Milton Bertrand,
12 Bio-medical Engineers, 0 endorses, 0 followers, 88 views
Biomedical engineering uses engineering principles and techniques to the medical field. It applies the design and problem solving skills of engineering with medical and biological sciences to improve... moreBiomedical engineering uses engineering principles and techniques to the medical field. It applies the design and problem solving skills of engineering with medical and biological sciences to improve diagnosis of healthcare and treatment of diseases.Compared to other engineering disciplines, Biomedical engineering has recently surfaced as its own discipline; this process is common as a new field transitions from being an interdisciplinary specialization among already-established fields, to being considered a field in itself.The work in BME consists mostly of research and development; this work spans a broad of subfields such as Bioinstrumentation, Biomaterials, Cellular, Tissue, Genetics Engineering, Biomechanics, Clinical Engineering, Orthopedic Bioengineering, Rehabilitation Engineering, and Systems Physiology. Some of BME applications include the development of biocompatibility materials, and therapeutic medical devices. These range from clinical equipments to micro-implants. Some medical equipment includes MRI and EEG. .The field of Biomedical engineering is highly interdisciplinary; it is overlapping with other engineering disciplines and medical fields. Because of this diversity, it is typical for a biomedical engineer to concentrate on a specific subfield or group of related subfields. There are many different taxonomic breakdowns within BME, as well as varying views about how best to organize them and manage any internal overlap; the main major areas of BME could be found in the earlier paragraph.Oftentimes, disciplines within BME are classified by their association(s) with other, more established engineering fields, which can include: Chemical Engineering that is associated with biochemical, molecular and tissue engineering. Electrical engineering is often associated with bioelectrical, neural engineering, bioinstrumentation, optical engineering and medical devices. Mechanical engineering is associated with biomechanics, medical devices and modeling of biological systems. less
2 B.E.S.T. Scholars
0 endorses, 0 followers, 6 views
12 Bio-medical Engineers
0 endorses, 0 followers, 88 views
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