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<p class="MsoNormal"><b><span lang="EN-GB" style="font-size:14.0pt">PhD position in the lab of Prof. Gregoire Courtine at EPFL (Lausanne, Switzerland)<o:p></o:p></span></b></p>
<p class="MsoNormal"><b><span lang="EN-GB"><o:p> </o:p></span></b></p>
<p class="MsoNormal"><b><span lang="EN-GB">A computational approach to personalize and optimize clinical treatments for restoring locomotion to people paralyzed by spinal cord injury
<o:p></o:p></span></b></p>
<p class="MsoNormal"><b><span lang="EN-GB"><o:p> </o:p></span></b></p>
<p class="MsoNormal"><b><span lang="EN-GB">Location:<o:p></o:p></span></b></p>
<p class="MsoNormal" style="text-align:justify"><span lang="EN-GB">The laboratory of Prof. Gregoire Courtine at the Swiss Federal Institute of Technology (EPFL) in Lausanne, Switzerland, is looking to fill a fully funded PhD position. The qualified candidate
will benefit from joining a very dynamic and multidisciplinary group working at the interface of computational neuroscience, neuroengineering, prosthetics and biology. EPFL provides state-of-the-art facilities and is one of the leading technical universities
worldwide. PhD salaries at EPFL rank the highest in the world.<o:p></o:p></span></p>
<p class="MsoNormal"><b><span lang="EN-GB"><o:p> </o:p></span></b></p>
<p class="MsoNormal"><b><span lang="EN-GB">Description:<o:p></o:p></span></b></p>
<p class="MsoNormal" style="margin-bottom:12.0pt;text-align:justify;background:white">
<span style="color:#212121">A therapy based on epidural electrical stimulation (EES) of the spinal cord can restore the ability to walk to people paralyzed by spinal cord injury. EES does this by recruiting sensory axons within dorsal spinal roots that enter
the spinal cord between the vertebrae. Yet, clinically available electrode arrays used to deliver the EES were not designed to target individual spinal roots. Data driven design of the electrode arrays has the potential to substantially improve the specificity
of spinal EES and, therefore, dramatically improve the recovery of people with spinal cord injury. The efficacy of EES could be further enhanced through computational algorithms capable of designing EES protocols that fully utilize the interaction between
the electrode array and patient’s anatomy. These two developments are critical for deployment of the EES-based therapy to clinics around the world to help millions of people suffering from spinal cord injury.<o:p></o:p></span></p>
<p class="MsoNormal" style="margin-bottom:12.0pt;text-align:justify;background:white">
<span style="color:#212121">We have created a computational pipeline capable of creating detailed computational models of individual persons’ spinal columns from MRI scans and fMRI recordings. These hybrid models are composed of 3D finite element models (FEM)
to characterize the electric current and potential in the spinal cord of individuals, and various abstractions of compartmental cable models and network models of spinal cord neuronal populations and their connections to calculate the effects of EES on the
spinal networks and, in turn, the activation of muscles. This computational approach has the potential to optimize the efficacy of EES on a personalized basis, lead to novel superior electrode array designs, and further our understanding of the mechanisms
by which spinal cord controls movement. <o:p></o:p></span></p>
<p class="MsoNormal" style="mso-margin-bottom-alt:auto;text-align:justify;background:white">
<span style="color:#212121">The successful candidate will work to automatize our computational pipeline in order to make the described approaches useful in applied clinical practice. They will work on the development of efficient and robust computer vision
algorithms to automatically segment medical imaging datasets. They will also further develop our computational pipeline to enable automatic definition of personalized EES stimulation protocols. Furthermore, they will implement a computational framework around
our pipeline that can perform a large-scale and diverse sensitivity and uncertainty analysis. This framework will be critical to enhance the efficacy and explore possible novel applications of spinal cord EES.<o:p></o:p></span></p>
<p class="MsoNormal"><b><span lang="EN-GB">Prerequisites:<o:p></o:p></span></b></p>
<p class="MsoListParagraphCxSpFirst" style="margin-left:20.5pt;mso-add-space:auto;text-indent:-18.0pt;mso-list:l0 level1 lfo2">
<![if !supportLists]><span lang="EN-GB"><span style="mso-list:Ignore">-<span style="font:7.0pt "Times New Roman"">
</span></span></span><![endif]><span lang="EN-GB">Master’s Degree in Physics, Computer Science, Mathematics, Microengineering, Electrical Engineering or related<o:p></o:p></span></p>
<p class="MsoListParagraphCxSpMiddle" style="margin-left:20.5pt;mso-add-space:auto;text-indent:-18.0pt;mso-list:l0 level1 lfo2">
<![if !supportLists]><span lang="EN-GB"><span style="mso-list:Ignore">-<span style="font:7.0pt "Times New Roman"">
</span></span></span><![endif]><span lang="EN-GB">Proficiency in Python, Matlab and C++<o:p></o:p></span></p>
<p class="MsoListParagraphCxSpLast" style="margin-left:20.5pt;mso-add-space:auto;text-indent:-18.0pt;mso-list:l0 level1 lfo2">
<![if !supportLists]><span lang="EN-GB"><span style="mso-list:Ignore">-<span style="font:7.0pt "Times New Roman"">
</span></span></span><![endif]><span lang="EN-GB">Experience with Finite Element Models, compartmental cable models, neurobiomechanical models and Machine Learning<o:p></o:p></span></p>
<p class="MsoNormal"><b><span lang="EN-GB">Contact:<o:p></o:p></span></b></p>
<p class="MsoNormal"><span lang="EN-GB">Applications including a CV and a cover letter should be sent to andreas.rowald@epfl.ch<o:p></o:p></span></p>
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