(*)- Understanding the principles and basics of light microscopy and flow cytometry. (k2)
- Explain the setup, functionality, and key components of the instruments. (k2)
- Editing, quantifying, and interpreting microscopy data, while avoiding common pitfalls. (k3, k4, k5)
- Understand how automation, AI, and high-throughput methods are reshaping microscopy in research and clinical settings. (k2)
- Prepare samples and select appropriate controls. (k3)
- Plan and optimize experiments. (k3, k6)
- Interpret flow cytometry data, troubleshoot issues, and avoid common errors. (k4, k5)
- Identify and evaluate applications of these techniques in research and medicine and critically assess the advantages and limitations of each method. (k4, k5)
|
(*)- Basic characteristics of light and its interactions with cells and tissues
- Principles of light microscopy and advanced techniques like laser scanning, spinning disk, and super-resolution microscopy
- Fundamentals of flow cytometry
- Data analysis
- Functional Assays
- Clinical applications
|
