This seminar focuses on the increasing importance of Artificial Intelligence (AI) in academic research and writing, providing practical insights into AI technologies; use in these areas.The workshop explores ChatGPT and prompt engineering, as well as other academic AI tools to aid research and writing, examining both benefits and challenges. Ethical aspects, such as copyright and authenticity of research results, are discussed, with the goal of equipping participants with practical knowledge and skills to effectively utilize AI in daily research through interactive elements like case studies and group discussions.

Dive into the cutting-edge world of nuclear medicine with this comprehensive course that blends theory and hands-on practice. In this one-week course, you will gain invaluable knowledge and skills at the forefront of medical imaging and targeted radiopharmaceutical therapies.

This course offers a unique opportunity to:

• Master the fundamentals of radiation physics and biology
• Explore state-of-the-art diagnostic and therapeutic applications in oncology and neurology
• Gain practical experience handling radiopharmaceuticals in a laboratory setting
• Understand the latest developments in personalised medicine using radioactive tracers

Upon completing the course, you will be allowed to handle radiopharmaceuticals and open radioactive sources at Karolinska Institute and Karolinska University Hospital.

The course is aimed for you who want to get an understanding of the principles of PET, the methodology used for neuroreceptor imaging and quantification, as well as to get an insight in important research ongoing in the field and in the clinical applications of PET.

Topics covered include:

• Basics of monolayer glioblastoma cell culturing
• Generation and culturing of human glioblastoma organoids
• Immunochemistry, Western Blot, DNA/RNA isolation
• Flow cytometry analysis of cell death and cell viability assays
• Live-cell imaging and morphology analysis
• Data analysis including statistics using ImageJ, FlowJo, GraphPad PRISM
• Visualization of results using Microsoft Excel/Powerpoint or Adobe illustrator

Topics coverd include:

• Vascular Biology and organotypic properties
• How to investigate blood vessels in the CNS
• Isolation of blood vessels and endothelial cells from the mouse CNS
• Endothelial cell tube formation assay
• Co-culture of endothelial cells and pericytes in 3D
• In vitro blood brain barrier assay

Topics covered include:

• Coding: theory, practical training, coding styles, unit testing
• Collaborative software development workflows
• Data analytics workflows
• (Generalised) linear mixed effects models
• Bayesian statistics
• Data visualisation
• Workflow automation
• Meta-science

Topics covered include:

• Deep brain imaging using single- and two-photon imaging techniques
• Miniature microscope recordings in freely moving animals
• Combined all-optical imaging and optogenetic tools
• Large scale neural population analysis using data science and machine learning techniques
• Behavioural phenotyping using markerless pose estimation
• Scientific programming using Python

Topics covered include:

• Cellular resolution fluorescent in vivo imaging (mouse model)
• Histological analysis of post-encephalitic brain tissue changes
• Field electrophysiology (in vivo, in vitro)
• Patch-clamp cellular recordings (in vitro)
• Targeted light-based circuit interference, light-activated antiepileptic drugs

This module is dedicated to understanding and investigating how small molecular modulators can be used to specifically target prominent metabolic pathways using the mouse as an experimental animal model. Attendees will be introduced to murine animal handling, murine primary adipocyte isolation and in vivo, ex vivo and in vitro pharmacological experimentation with the model system. The practical work will be supported by institute seminars covering, among other, signal transduction metabolism and pharmacology.

The lab-based practical part of the course will cover methods used to tackle questions in the research area outlined above, such as cell culture, microscopy, tissue dissociation and processing of tissue samples, MACS and FACS-based cell analysis and separation, cell transfection, cell genome engineering, transgene expression, cellular
assays, protein and gene expression analyses etc. In addition to the practical part, students will attend lectures and seminars.

Topics covered include:

• Basic protein-biochemical methods (protein-protein interactions, Western Blotting
• Processing of human samples for protein detection
• Basic cloning techniques and CRISPR
• Cell culture work with primary cells and cell lines

Topics covered include:

• Diversity of neuronal cell types and approaches to cell type classification
• Experimental design to dissect the functional contribution of diverse neuronal cell types to behaviour
• Stereotaxic surgeries and cell type-specific targeting with viral vectors in transgenic mice
• Deep-brain imaging at the single-cell level using miniature microscopes in freely-moving mice and 2-photon recordings in head-fixed animals
• All-optical interrogation of neural circuits with combined imaging and optogenetic approaches
• Introduction to analysis of deep-brain imaging data

Topics include:

• Free swimming and restrained behavioural recording
• Multiphoton neuronal population imaging
• 3D electron microscopy preparation and collection
• Time series analysis and machine learning-based image segmentation

Topics covered include:

• Handling of adult and larvae zebrafish. Manual Morpholino® (MO) injections into fertilized fish eggs
• Fluorescent in vivo microscopy of transgenic larvae zebrafish
• Different screenings (behavior/development/expression)
• Documentation and analysis of treated fish larvae (≤ 5 dpf) and their controls

This course covers structural analysis of the hypothalamic visual relay system across actinoptrygian fishes.