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11 - 20 of 304 results for: CSI::certificate

BIO 117: Biology and Global Change (EARTHSYS 111, EARTHSYS 217, ESS 111)

The biological causes and consequences of anthropogenic and natural changes in the atmosphere, oceans, and terrestrial and freshwater ecosystems. Topics: glacial cycles and marine circulation, greenhouse gases and climate change, tropical deforestation and species extinctions, and human population growth and resource use. Prerequisite: Biology or Human Biology core or BIO 81 or graduate standing.
Terms: Win | Units: 4 | UG Reqs: GER: DB-NatSci, WAY-SMA

BIO 144: Conservation Biology: A Latin American Perspective (BIO 234, HUMBIO 112)

Principles and application of the science of preserving biological diversity. Conceptually, this course is designed to explore the major components relevant to the conservation of biodiversity, as exemplified by the Latin American region. The conceptual frameworks and principles, however, should be generally applicable, and provide insights for all regions of the world. All students will be expected to conduct a literature research exercise leading to a written report, addressing a topic of their choosing, derived from any of the themes discussed in class. Prerequisite: BIO 101 or BIO 43 or HUMBIO 2A or BIO 81 and 84 or consent of instructor.
Terms: Spr | Units: 3 | UG Reqs: GER: DB-NatSci

BIO 234: Conservation Biology: A Latin American Perspective (BIO 144, HUMBIO 112)

Principles and application of the science of preserving biological diversity. Conceptually, this course is designed to explore the major components relevant to the conservation of biodiversity, as exemplified by the Latin American region. The conceptual frameworks and principles, however, should be generally applicable, and provide insights for all regions of the world. All students will be expected to conduct a literature research exercise leading to a written report, addressing a topic of their choosing, derived from any of the themes discussed in class. Prerequisite: BIO 101 or BIO 43 or HUMBIO 2A or BIO 81 and 84 or consent of instructor.
Terms: Spr | Units: 3

BIOC 109A: Building Blocks for Chronic Disease (BIO 109A, BIOC 209A, HUMBIO 158)

Researchers have come a long way in developing therapies for chronic disease but a gap remains between current solutions and the ability to address the disease in full. This course provides an overview to the underlying biology of many of these diseases and how they may connect to each other. A "think outside of the box" approach to drug discovery is needed to bridge such a gap in solutions, and this course teaches the building blocks for that approach. Could Legoland provide the answer? This is a guest lecture series with original contributions from prominent thought leaders in academia and industry. Interaction between students and guest lecturers is expected. Students with a major, minor or coterm in Biology: 109A/209A or 109B/209B may count toward degree program but not both.
Terms: Win | Units: 3 | UG Reqs: GER: DB-NatSci, WAY-SMA

BIOC 209A: Building Blocks for Chronic Disease (BIO 109A, BIOC 109A, HUMBIO 158)

Researchers have come a long way in developing therapies for chronic disease but a gap remains between current solutions and the ability to address the disease in full. This course provides an overview to the underlying biology of many of these diseases and how they may connect to each other. A "think outside of the box" approach to drug discovery is needed to bridge such a gap in solutions, and this course teaches the building blocks for that approach. Could Legoland provide the answer? This is a guest lecture series with original contributions from prominent thought leaders in academia and industry. Interaction between students and guest lecturers is expected. Students with a major, minor or coterm in Biology: 109A/209A or 109B/209B may count toward degree program but not both.
Terms: Win | Units: 3

BIOE 256: Technology Assessment and Regulation of Medical Devices (MS&E 256)

Regulatory approval and reimbursement for new health technologies are critical success factors for product commercialization. This course explores the regulatory and payer environment in the U.S. and abroad, as well as common methods of health technology assessment. Students will learn frameworks to identify factors relevant to the adoption of new health technologies, and the management of those factors in the design and development phases of bringing a product to market through case studies, guest speakers from government (FDA) and industry, and a course project.
Terms: Spr | Units: 3

BIOE 273: Biodesign for Digital Health

BioE 273 Summer Quarter enrollment is open only to students in the Masters of Science in Clinical Informatics Management (MCiM) program. It builds on the core course but is targeted at working professionals seeking to harness the power of digital innovations to deliver high-quality, cost-effective healthcare. The course is offered through Stanford Biodesign and reflects the belief that innovation is a process that can be learned, practiced, and perfected; and it all starts with an unmet need. This class offering gives leaders the innovation toolset to drive transformational change in healthcare systems, life sciences businesses, start-ups, and healthcare-focused technology organizations. Over the course of 10 weeks, students will learn about digital health and the Biodesign need-driven innovation process through a dynamic approach that includes lectures, panel discussions, and breakout sessions. The experts represent start-ups, corporations, venture capital firms, accelerators, researc more »
BioE 273 Summer Quarter enrollment is open only to students in the Masters of Science in Clinical Informatics Management (MCiM) program. It builds on the core course but is targeted at working professionals seeking to harness the power of digital innovations to deliver high-quality, cost-effective healthcare. The course is offered through Stanford Biodesign and reflects the belief that innovation is a process that can be learned, practiced, and perfected; and it all starts with an unmet need. This class offering gives leaders the innovation toolset to drive transformational change in healthcare systems, life sciences businesses, start-ups, and healthcare-focused technology organizations. Over the course of 10 weeks, students will learn about digital health and the Biodesign need-driven innovation process through a dynamic approach that includes lectures, panel discussions, and breakout sessions. The experts represent start-ups, corporations, venture capital firms, accelerators, research labs, health organizations, and more. Student teams will take real-world unmet needs in health and healthcare and learn how to apply Biodesign innovation principles to research and evaluate needs, ideate solutions, and objectively assess them against key criteria for satisfying the needs. Again, Summer Quarter enrollment is exclusively for registered MCiM students only. MCiM students must choose Letter Grade. The schedule of class days/times/room #s are listed here: https://stanford.io/31gsL1u
Terms: Aut, Sum | Units: 4

BIOE 393: Bioengineering Departmental Research Colloquium

Required Bioengineering department colloquium for first year Ph.D. and M.S. students. Topics include applications of engineering to biology, medicine, biotechnology, and medical technology, including biodesign and devices, molecular and cellular engineering, regenerative medicine and tissue engineering, biomedical imaging, and biomedical computation.
Terms: Aut | Units: 1 | Repeatable for credit

BIOMEDIN 215: Data Science for Medicine

The widespread adoption of electronic health records (EHRs) has created a new source of big data namely, the record of routine clinical practice as a by-product of care. This graduate class will teach you how to use EHRs and other patient data to discover new clinical knowledge and improve healthcare. Upon completing this course, you should be able to: differentiate between and give examples of categories of research questions and the study designs used to address them, describe common healthcare data sources and their relative advantages and limitations, extract and transform various kinds of clinical data to create analysis-ready datasets, design and execute an analysis of a clinical dataset based on your familiarity with the workings, applicability, and limitations of common statistical methods, evaluate and criticize published research using your knowledge of 1-4 to generate new research ideas and separate hype from reality. Prerequisites: CS 106A or equivalent, STATS 60 or equivalent. Recommended: STATS 216, CS 145, STATS 305
Terms: Aut | Units: 3

CEE 63: Weather and Storms (CEE 263C)

Daily and severe weather and global climate. Topics: structure and composition of the atmosphere, fog and cloud formation, rainfall, local winds, wind energy, global circulation, jet streams, high and low pressure systems, inversions, el Niño, la Niña, atmosphere/ocean interactions, fronts, cyclones, thunderstorms, lightning, tornadoes, hurricanes, pollutant transport, global climate and atmospheric optics.
Terms: Aut | Units: 3 | UG Reqs: GER: DB-NatSci, WAY-SMA
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