- Offerta formativa A.A. 2018/2019
- Master's Degree in MEDICAL BIOTECHNOLOGY AND NANOBIOTECHNOLOGY
- CELL-BIOMATERIAL INTERACTION
CELL-BIOMATERIAL INTERACTION
- Teaching in italian
- CELL-BIOMATERIAL INTERACTION
- Teaching
- CELL-BIOMATERIAL INTERACTION
- Subject area
- BIO/09
- Reference degree course
- MEDICAL BIOTECHNOLOGY AND NANOBIOTECHNOLOGY
- Course type
- Master's Degree
- Credits
- 6.0
- Teaching hours
- Frontal Hours: 48.0
- Academic year
- 2018/2019
- Year taught
- 2019/2020
- Course year
- 2
- Language
- ENGLISH
- Curriculum
- IN INGEGNERIA TISSUTALE
- Reference professor for teaching
- MAFFIA Michele
- Location
- Lecce
Teaching description
Prerequisites:
Teaching requires basic knowledge of chemistry, physics, general biology, biochemistry, human anatomy.
No preparatory provisions are foreseen in the current educational system.
The study of the interactions of bio-materials with living cells and organisms play a fundamental role for the preparation of the figure of a biotechnologist in the use of bio-materials in the biomedical and biotechnological field.
The course aims to provide specific knowledge on the physiology of the interactions between cells and materials in vivo and in vitro by deepening the mechanisms underlying these interactions, the physiological response processes as well as the study techniques for these phenomena.
- Control and regulation of cellular functions such as adhesion, migration and trans membrane transport mechanisms.
- Physiological role of receptors and membrane proteins (channels, transporters, structural membrane proteins; adhesion proteins) in cell-material interactions; signal transduction mechanisms.
- Cellular responses to natural materials.
- Proteomics, lipidomics and mass spectrometry approaches for the analysis of proteins and lipids involved in cell-material interaction processes.
- Physiology of stem cells.
Acquisition of basic concepts on the physiology of cell-material interactions in vivo and in vitro. Learning of the main study techniques of the molecules involved in the cell-material interaction processes. Ability to apply this knowledge in the biotechnological and biomedical fields for the realization of devices for drug delivery and other clinical applications.
Face-to-face lessons: 48 h.
Learning is assessed through an oral exam during which the acquisition of the correct scientific language and that of the discipline is verified. The student must demonstrate that he has acquired the physiological foundations of cell and bio-material interactions in vivo and in vitro, the techniques for studying interactive phenomena and applicability in the biomedical and biotechnological field.
The mark is expressed in thirtieths on the basis of the evaluation of the Exam Commission with reference to the above aspects
Office hours:
At the teacher's office. Monday 9.30-10.30
Tel. 0832-298670; e-mail: michele.maffia@unisalento.it
Cell-biomaterial interaction: INTRODUCTION
Cellular Physiology: Cell modifications in response to external and internal stimuli
Cell / biomaterial interaction: PART I
Control and regulation of cellular functions such as adhesion, migration and trans membrane transport mechanisms.
Biomaterial cell interaction: Part II
Control and regulation of cellular functions such as adhesion, migration and trans membrane transport mechanisms.
Biomaterial cell interaction: PART III.
Physiological role of receptors and membrane proteins (channels, transporters, structural membrane proteins; adhesion proteins) in cell-material interactions; signal transduction mechanisms.
Cellular responses to natural materials.
Biomaterial cell interaction: Part IV
Proteomics, lipidomics and mass spectrometry approaches for the analysis of proteins and lipids involved in cell-material interaction processes. Physiology of stem cells.
CASE STUDIES
Nano capsules.
Applications of nanoparticles in diagnostics and therapy.
Nanoparticles as contrast media.
Drug Delivery.
Applications of nano-particles for drug delivery to the blood brain barrier.
Silverthorn, Human Physiology, Ed. Pearson; PowerPoint presentations; Complementary teaching material; Scientific articles and reviews.
Semester
First Semester (dal 30/09/2019 al 17/01/2020)
Exam type
Compulsory
Type of assessment
Oral - Final grade
Course timetable
https://easyroom.unisalento.it/Orario