Sort by
Refine Your Search
-
Category
-
Program
-
Field
-
cells at the choroid plexuses on brain development. Our lab investigates how immune cells and signals shape brain development, activity, and aging. In this project, we aim to dissect the contribution
-
which neural network effectively conveys this information are central questions in the field of hearing and neuroscience in general. We are developing several complementary approaches to answer
-
Postdoctoral position: Developing a human lymphoid organ-on-chip to evaluate candidate mRNA vaccines
A post-doctoral position is available to develop a 3D model of a human lymph node and apply this model to preclinical vaccine evaluation. The successful applicant will join the team of Lisa
-
; developing our partnership programme with industry; contributing to a quality management system; and the organization of webinars and other dissemination activities, including publications. Support from
-
of the auditory nerve [2] and brainstem to simulate neurograms and guide the development of diagnostic tools based on Auditory Brainstem Responses (ABRs). Despite normal audiograms, individuals with ANSD often
-
) developing models forecasting influenza epidemics accounting for epidemic dynamics by age groups. Successful applicants will be supervised by Prof Simon Cauchemez . They will collaborate with other members
-
co-managed by two deputies: Christian Vestergaard, a theoretical physicist, and François Laurent, an applied mathematician and software engineer. The laboratory’s research is centred on uncovering
-
immune cells in Alzheimer’s disease. Our lab investigates how immune cells and signals shape brain development, activity, and aging. In this project, we aim to dissect the contribution of adaptive immune
-
redefinition of behavioral features or pose challenges in their detection. The projects To address these challenges, we propose developing a Bayesian Program Synthesis (BPS) methodology for generating synthetic
-
Epidemiology and Neuropathology unit, headed by Pr. Hervé Bourhy. The team develops cutting-edge research to understand the basis and consequences of neurotropism. The ANR-funded project N3CoV is an innovative