18 affective-computing-"https:"-"https:"-"https:"-"UCL" Postdoctoral positions at University of Maryland, Baltimore
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between various imaging modalities and multi-omics during aging and development. • Implementing computationally intensive algorithms on high-performance computational clusters
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testing and computational simulations (e.g., finite element analysis, fluid-structure interaction). This work will contribute to improving our understanding of valve biomechanics, inform device design, and
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of required components and explaining/resolving technical issues. Compile, analyze, and interpret research data using various relevant computer software applications. Conduct library research and participates
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which early-life gut microbial metabolism shapes host immunity. We welcome applicants with backgrounds in computational biology, molecular microbiology, and/or basic immunology to apply for the following
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of Obstetrics, Gynecology and Reproductive Sciences. Dr. Burd’s research focuses on understanding the maternal infection and inflammation's impact on preterm birth and adverse neurological outcomes in offspring
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molecular and cellular evaluations of conditions affecting long-term graft outcomes in solid organ transplant recipients. Overall, we apply systems biology approaches toward implementation of precision
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, strongly motivated researcher with knowledge of MR physics. Working knowledge of computer languages (e.g. Matlab) and statistical analysis software for imaging processing of structural and functional MRI
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Program (MRNTP) services that provides Referral to UMMC- Level IV NICU Referral to UMMC PICU providing ECMO and post-cardiac surgery care Vermont-Oxford Network. Reporting on Quality Metrics UM SJMC is a
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pluripotent stem cells (hiPSCs). Primary responsibility is to utilize the CRISPR/Cas9 genomic engineering technology to examine the impact of genomic ablation of the candidate target genes on iPSC-CM and animal
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of these small molecules by identifying their cellular targets using cell biological and biochemical approaches. Second goal is to utilize CRISPR/Cas9 genomic engineering technology to examine the impact of