Teaching code

4S008282

Teacher

Roberto Chignola

Coordinator

Roberto Chignola

Credits

6

Language

Italian

Scientific Disciplinary Sector (SSD)

ING-IND/34 - INDUSTRIAL BIOENGINEERING

Period

Primo semestre dal Oct 4, 2021 al Jan 28, 2022.

Lessons timetable Moodle Seminars 0

Learning outcomes

The aim of this course is to provide students with conceptual and methodological tools to investigate biological systems on a quantitative basis. The students will learn how to analyze and understand the biological laws governing systems' behavior and they will acquire professional skills within a multidisciplinary framework of biotechnology and related applied fields. The students will be encouraged to critically revise the biological notions gathered during their Bachelor-level studies. This revision will focus on quantitative and temporal aspects, allowing the students to make progress towards a dynamical description of biotechnological processes. Modern modeling approaches will be critically discussed and compared to highlight both their positive and limiting aspects. At the end of the course, the students will be able to professionally operate in the fields of biotechnology and interact with experts from different disciplines (or in other sectors) on the basis of a common quantitative language.

Program

Each class introduces basic concepts of quantitative biotechnology through combination of lectures and exercises. Exercises will be solved using RStudio, a free and open-source integrated development environment for R, a programming language for statistical computing and graphics. For each argument, a number of problems derived from the scientific literature and from the research activity of the teacher will be proposed and solved. The first part of the course will revise the basic facts about probability theory and univariate statistics and then concepts of multivariate statistics and modeling of biotechnology processes will be introduced. Lectures:

- Introduction to RStudio and R: presentation, installation and basic commands
- Discrete and continuous probability distributions
- Univariate statistics: main tests used for the analysis of biotechnology experiments
- Two-ways ANOVA and its application two study the synergism between two treatments
- Correlation and linear regression in one dimension and multiple dimensions
- Principles of linear algebra
- The Mahalanobis distance
- Principal Component Analysis
- Survival analysis: Kaplan-Meier method and the Cox proportional hazard modellistici
- Error propagation theory
- Principles of non-linear regression
- Principles of differential equations and their numerical solution
- Growth models for population biology
- Growth models for cells in a closed (standard culture) or in an open (bioreactor) environment
- Models for cell physiology
- Oscillations in biology

Lectures slides are available at:
http://profs.scienze.univr.it/~chignola/teaching.html
RStudio notebooks will be developed during the practical classes and will become part of the didactic material available to students.

All activities will be carried out in a mixed mode, i.e. both in presence and remotely.

Bibliography

Examination Methods

The skills acquired by the students will be evaluated by means of an oral exam where the students will be asked to present their solution to a biotechnology problem provided by the teacher at the end of the course. The completeness and preciseness of the student's approach as well as his/her ability to present the solution will be evaluated.
The final test will be carried out remotely.