Difference between revisions of "Blake Dewey"

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{{h2|Blake Dewey}}
 
{{h2|Blake Dewey}}
  
I am currently a 2nd year Ph.D. student in the Departement of Electrical and Computer Engineering. My research interests include rapid MRI acquisition and myelin imaging with applications to Multiple Sclerosis research. I am co-advised by Dr. Jerry Prince and Dr. Peter van Zijl (Department of Radiology) and supported in part by the Hopkins MS Clinic and Dr. Peter Calabresi.
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I am an Assistant Professor of Neurology at the Johns Hopkins University School of Medicine. My research focuses on the analysis and modeling of large clinical imaging datasets to further translational research and precision medicine goals. My current work centers on neurodegeneration and it's effects in multiple sclerosis and other neurological disorders.
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I earned my Doctor of Philosophy in Electrical Engineering at the Johns Hopkins Whiting School of Engineering, where I focused on artificial intelligence solutions to data harmonization in magnetic resonance imaging (MRI). After a post-doctoral research fellowship in neuroimmunology, I started as Neurology faculty, working to engage clinically acquired imaging data in translational research and clinical feedback.
  
 
==Education==
 
==Education==
  
*B.A., Vanderbilt University, Physics, Mathematics, 2013
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*Ph.D., Johns Hopkins University, Electrical Engineering, 2021
 
 
==Journal Articles==
 
*Dula, A. N., Arlinghaus, L. R., Dortch, R. D., '''Dewey, B. E.''', Whisenant, J. G., Ayers, G. D., et al. (2013). Amide proton transfer imaging of the breast at 3 T: establishing reproducibility and possible feasibility assessing chemotherapy response. Magnetic Resonance in Medicine, 70(1), 216–224. http://doi.org/10.1002/mrm.24450
 
*Dula, A. N., '''Dewey, B. E.''', Arlinghaus, L. R., Williams, J. M., Klomp, D., Yankeelov, T. E., & Smith, S. (2015). Optimization of 7-T chemical exchange saturation transfer parameters for validation of glycosaminoglycan and amide proton transfer of fibroglandular breast tissue. Radiology, 275(1), 255–261. http://doi.org/10.1148/radiol.14140762
 
*Jeong, H.-K., '''Dewey, B. E.''', Hirtle, J. A. T., Lavin, P., Sriram, S., Pawate, S., et al. (2015). Improved diffusion tensor imaging of the optic nerve using multishot two-dimensional navigated acquisitions. Magnetic Resonance in Medicine, 74(4), 953–963. http://doi.org/10.1002/mrm.25469
 
*Dula, A. N., Pawate, S., Dethrage, L. M., Conrad, B. N., '''Dewey, B. E.''', Barry, R. L., & Smith, S. A. (2016). Chemical exchange saturation transfer of the cervical spinal cord at 7 T. NMR in Biomedicine, 29(9), 1249–1257. http://doi.org/10.1002/nbm.3581
 
*Sethi, V., Nair, G., Absinta, M., Sati, P., Venkataraman, A., Ohayon, J., et al. (2016). Slowly eroding lesions in multiple sclerosis. Multiple Sclerosis (Houndmills, Basingstoke, England), 50(5), 135245851665540. http://doi.org/10.1177/1352458516655403
 
*Sweeney, E. M., Shinohara, R. T., '''Dewey, B. E.''', Schindler, M. K., Muschelli, J., Reich, D. S., et al. (2016). Relating multi-sequence longitudinal intensity profiles and clinical covariates in incident multiple sclerosis lesions. NeuroImage: Clinical, 10, 1–17. http://doi.org/10.1016/j.nicl.2015.10.013
 
*Mejia, A. F., Sweeney, E. M., '''Dewey, B.''', Nair, G., Sati, P., Shea, C., et al. (2016). Statistical estimation of T1 relaxation times using conventional magnetic resonance imaging. Neuroimage, 133, 176–188. http://doi.org/10.1016/j.neuroimage.2015.12.037
 
*Suttner, L. H., Mejia, A., '''Dewey, B.''', Sati, P., Reich, D. S., & Shinohara, R. T. (2016). Statistical estimation of white matter microstructure from conventional MRI. NeuroImage: Clinical, 12, 615–623. http://doi.org/10.1016/j.nicl.2016.09.010
 
*Xia, Z., Steele, S. U., Bakshi, A., Clarkson, S. R., White, C. C., Schindler, M. K., et al. (2017). Assessment of Early Evidence of Multiple Sclerosis in a Prospective Study of Asymptomatic High-Risk Family Members. JAMA Neurology. http://doi.org/10.1001/jamaneurol.2016.5056
 
  
==Conference Publications==
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*M.S.E., Johns Hopkins University, Electrical and Computer Engineering, 2018
*'''Dewey, B.E.''', Jeong, H.-K., Hirtle, J.A.T., Anderson, A.W., Gore, J.C., Smith, S.A. Comparison of traditional and novel DTI acquisition schemes for human spinal cord. Proc Intl Soc Mag Res Med (2012).
 
*'''Dewey, B.E.''', Sati, P., Roy, S., Vuolo, L., Shea, C., Pham, D., Reich, D.S. Automated Segmentation of Multiple Sclerosis Brain Lesions at 7T. Proc Intl Soc Mag Res Med (2014).
 
*'''Dewey, B.E.''', Vuolo, L., Shea, C.D., Inati, S.J., Reich, D.S., Sati, P.  Central Vein Detection in MS Lesions using FLAIR* at 7T. ECTRIMS (2014).
 
*'''Dewey, B.E.''', Carass, A., Blitz, A.M., Prince, J.L. Efficient Multi-Atlas Registration using an Intermediate Template Image. SPIE (2017)
 
  
==Thesis==
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*B.A., Vanderbilt University, Physics, Mathematics, 2013
*'''B Dewey'''. Simulation and optimization of pulsed Chemical Exchange Saturation Transfer for clinical application at 3T. Vanderbilt University. 2013
 

Latest revision as of 19:13, 14 October 2024

Blake Dewey

I am an Assistant Professor of Neurology at the Johns Hopkins University School of Medicine. My research focuses on the analysis and modeling of large clinical imaging datasets to further translational research and precision medicine goals. My current work centers on neurodegeneration and it's effects in multiple sclerosis and other neurological disorders.

I earned my Doctor of Philosophy in Electrical Engineering at the Johns Hopkins Whiting School of Engineering, where I focused on artificial intelligence solutions to data harmonization in magnetic resonance imaging (MRI). After a post-doctoral research fellowship in neuroimmunology, I started as Neurology faculty, working to engage clinically acquired imaging data in translational research and clinical feedback.

Education

  • Ph.D., Johns Hopkins University, Electrical Engineering, 2021
  • M.S.E., Johns Hopkins University, Electrical and Computer Engineering, 2018
  • B.A., Vanderbilt University, Physics, Mathematics, 2013