223 computer-programmer-"the"-"IMPRS-ML"-"FEMTO-ST-institute" positions at Stanford University
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The goal of the Childhood Research in Obesity Prevention (CROP) program at Stanford University is to advance child health equity. To achieve this goal, the program seeks to translate clinical, community, and
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a desire to help build a women’s sports medicine program. Expertise in hip arthroscopy is a plus. The successful candidate will join the Department of Orthopaedic Surgery at the Assistant
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, we will expand our capacity to serve children and families at a critical juncture in their journey. Duties include: * Plan and perform research tasks requiring initiative and judgment by applying basic
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to serve children and families at a critical juncture in their journey towards identification and treatment of developmental delays. Duties include: * Plan and perform organizational tasks requiring
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at home; empowers family to evaluate child's intervention plan holistically; and provides emotional support to reduce stress. * Connects patient family to regional centers and family resource centers
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and procedures. Direct process improvement for organization or program. Responsible for overseeing the finances for area of responsibility as well as developing, monitoring, and analyzing a complex
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productions. Establish and maintain relationships with internal and external university partners. Operate as account manager on deliverables, program metrics, and status reports. Work cross-departmentally
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for complex functions or programs with significant business, regulatory and/or technical challenges requiring subject matter expertise. May provide development of program or function from initial concept
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an ACGME-accredited program, and have medical licensure in California by the start date. We are particularly interested in candidates who have strong experience in clinical care and program building
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independent program of research focusing on understanding genetic mechanisms and/or translationally applying these findings to developing novel treatments to improve outcomes in pediatric neurogenetic disease