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. Postdoctoral Associate in Developing Methods to Improve Efficiency and Robustness of Clinical Trials Using Historical Controls and Real-World Data DESCRIPTION Duke University and North Carolina State University
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clinical trials by harnessing external historical controls or another type of auxiliary information from existing clinical trials or real-world data. The Postdoc Associate will use analytic and Monte Carlo
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, surveillance, control, survivorship, quality of life, health disparities and social determinants of health. Our projects are both US-based and international, and given our transdisciplinary focus, our projects
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retrievals of species such as ammonia or nitrogen oxides. The candidate should be capable of working both independently and collaboratively and have a good command of English. Time Frame: Initial appointment
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to precisely shift microbiomes to desired metabolic states. Our research combines multiplexed measurements of single cells, populations and ecosystems with concepts from nonlinear dynamical systems, control
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experiments to understand and control the dynamics of microbial communities in time and space. Ongoing projects address questions on bacterial responses to antibiotics, the implications of horizontal gene
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digital holography and electronic systems for control and analysis of instruments, applying these systems to the study of human diseases, and acquiring and analyzing clinical data sets. Programming skills
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, peripheral stimulation for bladder control, and non-invasive brain stimulation. The strong interdisciplinary and collaborative environment at Duke is ideal for continued scientific and professional development
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the forefront of epitranscriptomics research and develops cutt ing-edge methods to understand functional roles of RNA methylation in the control of gene expression. We have several exciting projects aimed at new
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Activities: Research Topic: Gene Therapy for Respiratory Dysfunction in Duchenne Muscular Dystrophy Job Description: Our lab is focused on gene therapy and the control of breathing in neuromuscular disorders