Sort by
Refine Your Search
-
Listed
-
Category
-
Field
-
use cellular and animal models together with novel molecular imaging techniques to understand the molecular mechanisms underlying the diseases. Our goals are to identify novel biomarkers and medically
-
with proven experience in cell and molecular biology, who wants to discover new medicines to treat cancer and other age-related diseases. Our research group is an international team surrounded by strong
-
imaging and bioenergetic assays to address our research questions. We consist in a group of seven people with different academic levels and backgrounds, educationally and culturally, and we have ongoing
-
expanding and evaluating dedicated data-driven imaging networks and processing algorithms for improved cardiovascular diagnosis, pushing 4D Flow MRI into previously inaccessible domains through a combination
-
and adaptations as well as pathophysiological processes. The appointment will be at the Department of Physiology and Pharmacology, Karolinska Institutet. For more information please visit: https://ki.se
-
role in applying advanced imaging methods for processing and evaluating PET, MRI imaging data, performing statistical analyses, and preparing scientific manuscripts under supervision. The group provides
-
neuroscience, immunology or neuroinflammation. Documented practical experience with animal behavioral assays and immunocytochemistry, confocal microscopy and imaging analysis and know-how of mRNA and microplate
-
intersection between social cognition and attentional processing. We use several different methods, including functional magnetic brain imaging (fMRI), behavioral and psychophysical approaches (including
-
dysfunction in disease-relevant mouse models. The project will take advantage of advanced methods in systems neuroscience including cell-type specific in vivo imaging (e.g. photometry, miniscopes), cell-type
-
molecular biology with a keen interest in nervous system tumors. Experience in mitochondrial biology, molecular and cellular biology techniques, confocal imaging and mouse modeling is highly desired; and good