Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
microelectronic hardware. Preclinical in-vitro and in-vivo testing of devices and methods will allow real world validation of this unusual Brain-Computer Interface. More information: (7) BRAINET: Overview
-
approaches, including advanced live cell imaging and in vitro motility assays. The position is based in Michael Way’s laboratory at the Francis Crick Institute. Click here to read more about the Way lab
-
decision making. A successful applicant will join a collaborative, engaging and vibrant team of scientists. They will work alongside scientists in the laboratory to perform in vitro experiments including
-
summary, we focus on cutting edge technologies (functional genomics & lipidomics) and innovative in vitro and in vivo models to better understand the biology of macrophages during health, disease, and
-
interested in mammalian stem cell biology, reproduction, and development. They use cutting-edge single-cell, spatial, in vitro, and surgical approaches in multiple model species and in human organoids
-
, please visit: https://qbm.genzentrum.lmu.de/application/ Tuition fees per semester in EUR None Combined Master's degree / PhD programme No Joint degree / double degree programme No Description/content
-
, ultimately aiming to find better treatments for patients with cancer. This position is intended to provide experimental support by working in the laboratory of physician scientist Dr. Christine Eyler (https
-
more on the university’s website about working at Lund University: Work with us. Duties and responsibilities The candidate will use human mesenchymal cells to create human in vitro and in vivo models
-
imaging, both in vitro and in vivo. Develop, optimize, and maintain image analysis scripts and tools using Matlab/Python/LLMs (segmentation, quantification, post-processing), in line with the needs
-
also desirable Excellent communication and teamwork skills Proficiency in spoken and written English Your tasks: in vivo experiments with mouse models of fatty liver disease in vitro experiments with