- Docente: Stefania Rapino
- Credits: 3
- SSD: CHIM/02
- Language: English
- Teaching Mode: Traditional lectures
- Campus: Bologna
- Corso: Second cycle degree programme (LM) in Molecular and Cell Biology (cod. 5825)
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from Nov 08, 2024 to Jan 09, 2025
Learning outcomes
At the end of the module the student is familiar with modern chemical and physical technologies employed for the study and diagnosis of cancer and their applications to cancer biology; She/He gains knowledge about the techniques which are well assessed in the field as well as about the most innovative ones as emerging from the recent scientific literature. The student is able to critically evaluate and plan the employment of these methodologies in cancer biology research.
Course contents
In order to achieve the learning outcomes of the course the program of the teaching unit will focus on the following topics:
i) 3D cell cultures in cancer research: organoids, organ on chips and microfluidics, 3D bioprinting;
ii) Biosensors and other approaches for the study of cell metabolism (cell populations and at a single cell level);
iii) Real-Time cell metabolic analysis;
iv) in situ spectroscopic techniques;
v) Methods and procedures for proteomic analyses;
vi) State-of-the-art methods and techniques for sequencing and single cell sequencing; In the past twenty years the study and diagnosis of cancer has drastically changed, moving from a morphology-based analysis to a molecular one, starting from the use of conventional sequencing technologies till the introduction of next generation sequencing in the routinary practice. We will here focus on: basic sequencing chemistry from Sanger to NGS, advantages and disadvantages of newer technologies, data analysis, interpretation, validation and reporting, applications of DNA- and RNA-based technologies.
vii) Atomic force microscopies and other scanning probe microscopies in cancer research;
viii) Techniques for the high-sensitivity detection of tumor biomarkers;
ix) Positron Emission Tomography (PET) and Functional Magnetic Resonance Imaging (MRI), isotopic labeling and integrated approaches, e.g. radiomics.
x) Artificial intelligence in cancer research and diagnosis.
Readings/Bibliography
Lecture notes and teacher sllides
Papers from scientific literatureTeaching methods
Frontal Lectures on the program topics; Seminars on specific and innovative arguments.
Discussions and brain storming involving the whole class will be a fundamental teaching approach.
Assessment methods
Assessment methods: The exam of Cancer Biology course (Porcelli-Perini-Rapino) will consist in written multiple choice test with a total of 100 questions (33 questions for each module).
Teaching tools
Teaching is mainly carried employing PC, beamer projector, Power Point presentations. Discussion on papers from scientific literature.
Office hours
See the website of Stefania Rapino
SDGs
This teaching activity contributes to the achievement of the Sustainable Development Goals of the UN 2030 Agenda.