Faculty and Staff
Samantha L Wilson PhD
Associate Member, Department of Biochemistry and Biomedical Sciences Full Biography
Dr. Wilson’s research program focuses on understanding placental development and function, and the etiology of placental dysfunction conditions. The Wilson Pregnancy lab uses multi-omics data (e.g. epigenomics, genomics, transcriptomics) to characterize molecular signatures of the placenta and investigate how molecular changes change over gestation and are associated with placental dysfunction. Another research theme of the lab is developing non-invasive methods to assess placental and pregnancy health. For this theme, we are focused on characterizing cell-free DNA profiles and using machine learning approaches to develop predictive classification models for placental dysfunction conditions. The majority of our work at this time is computational.
Samantha L Wilson PhD
Associate Member, Department of Biochemistry and Biomedical Sciences Full Biography
Dr. Wilson’s research program focuses on understanding placental development and function, and the etiology of placental dysfunction conditions. The Wilson Pregnancy lab uses multi-omics data (e.g. epigenomics, genomics, transcriptomics) to characterize molecular signatures of the placenta and investigate how molecular changes change over gestation and are associated with placental dysfunction. Another research theme of the lab is developing non-invasive methods to assess placental and pregnancy health. For this theme, we are focused on characterizing cell-free DNA profiles and using machine learning approaches to develop predictive classification models for placental dysfunction conditions. The majority of our work at this time is computational.
Samantha L Wilson PhD
Associate Member, Department of Biochemistry and Biomedical Sciences Full Biography
Dr. Wilson’s research program focuses on understanding placental development and function, and the etiology of placental dysfunction conditions. The Wilson Pregnancy lab uses multi-omics data (e.g. epigenomics, genomics, transcriptomics) to characterize molecular signatures of the placenta and investigate how molecular changes change over gestation and are associated with placental dysfunction. Another research theme of the lab is developing non-invasive methods to assess placental and pregnancy health. For this theme, we are focused on characterizing cell-free DNA profiles and using machine learning approaches to develop predictive classification models for placental dysfunction conditions. The majority of our work at this time is computational.
Samantha L Wilson PhD
Associate Member, Department of Biochemistry and Biomedical Sciences Full Biography
Dr. Wilson’s research program focuses on understanding placental development and function, and the etiology of placental dysfunction conditions. The Wilson Pregnancy lab uses multi-omics data (e.g. epigenomics, genomics, transcriptomics) to characterize molecular signatures of the placenta and investigate how molecular changes change over gestation and are associated with placental dysfunction. Another research theme of the lab is developing non-invasive methods to assess placental and pregnancy health. For this theme, we are focused on characterizing cell-free DNA profiles and using machine learning approaches to develop predictive classification models for placental dysfunction conditions. The majority of our work at this time is computational.
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