OSTEOGENESIS AND CONDROGENESIS: MODELS OF BIOCOMPATILITY IN VIVO AND IN
cod. 1000252

Academic year 2021/22
1° year of course - Second semester
Professor
Francesca RAVANETTI
Academic discipline
Anatomia degli animali domestici (VET/01)
Field
Discipline veterinarie e riproduzione animale
Type of training activity
Characterising
47 hours
of face-to-face activities
6 credits
hub: PARMA
course unit
in ITALIAN

Learning objectives

The course of "Osteocondrogenesys: Models of biocompatibility in vivo and in vitro Mod B" is a part of the integrated course of "Biomaterials and biocompatible synthetic materials". At the end of the course, the student will demonstrate to know and understand the notions taught on the various topics during the frontal teaching and practical activity, and moreover to know how to apply them in the design, standardization and methodological validation of the experimental plans for the evaluation of biocompatibility in in vivo and in vitro mainly applied in the orthopedic and dental field.
D1- Knowledge and understanding
The student, at the end of the course, must know the anatomical and histological fundamentals and the basic principles of biocompatibility in the osteochondrogenic field to understand the rationale for the choice of an experimental models in vitro and in vivo, both as models for the study and as a models for development of an innovative applications.

D2 - Ability to apply knowledge and understanding
The student must be able to apply the acquired knowledge to identify the most suitable experimental model for a given experimental application.

D3 - Autonomy of judgment
The student must be able to evaluate, developing his own critical thinking, advantages and limitations found in the choice of an experimental model.

D4 - Communication skills
The student must be able, with adequate language proficiency, to express the scientific concepts learned.

D5 - Learning skills
The student must be able to understand and interpret scientific articles relative to the field.

Prerequisites

Fundamentals of Cytology and Histology.

Course unit content

The first part of the course focuses on the deepening of knowledge about the locomotor system emphasizing on the embryological development, morphology, biodynamics aspects and considering the species peculiarities. It then deals with the classification and treatment of biomaterials used in the orthopedic and dental field, analyzing the historical path of development and refinement, focusing on the biotechnological strategies for the design of biomimetic materials, that have the ability to interact biochemically with cells and tissues. The course then focused on the molecular and morphological features of bone tissue, and the analysis of different in vitro and in vivo experimental models aimed to evaluate the colonization, osteogenic response, osteointegration and resorption will be considered. The concepts of tissue engineering, replacement medicine, regenerative medicine and nanomedicine will also be described. The practical part of the course will focus on the methodologies of preparation and analysis of histological preparations containing implants. The practical part of the course will focus on the methodologies for the histological preparation and microscopic analysis of samples containing implants.

Full programme

Theoretical part:
Locomotor system: the organogenesis, the general features, the species peculiarities and the biodynamics aspects:
- Osteology
- Myology
- Arthrology
Components of bony tissue.
Histogenesis of bone tissue. Differentiating markers and pathways of bone deposition and remodeling. Fundamentals of morphology and bone structure, deposition dynamics and remodeling of pre and post-embryo ossification.
Endosseous biomaterials in orthopedic and dental fields: history and definitions, classifications. Biomaterials of first, second and third generation. Biological phenomena occurring at the bone-implant interface. Implant functionalization strategies to promote implantation osteointegration: physical, chemical and biochemical.
Definition of Tissue Engineering; substitutive medicine and regenerative medicine; components of a tissue engineering system, choice of cellular and animal models for experimental evaluation.
Nanomedicine; classification, therapeutic and diagnostic applications.
Experimental models for the assessment of cellular response in vitro.
In vitro development of matrices and tissues, bioreactors and physico-chemical stimuli.
In vivo experimental models for the evaluation of tissue response.
Experimental models and design, sites and implant types. Concepts of legislation.
Methods for the evaluation of osseointegration: use of vital bone markers, micro CT analysis, polarized light analysis, histoenzymatic and immunohistochemical reactions, histological stains.

Practical part:
Locomotor system: recognition and isolation of muscles, bones and joint. Histological preparations techniques; paraffin and resin embedding. Microtomy and histological staining. Observation of the histological slides with brighfield, polarized and fluorescence microscopy; concepts of computerized digital image processing.

Bibliography

The module program takes into consideration topics that are not referable to a single text. In addition to the suggested reference textbooks, the teaching materials of the lesson as well as a selection of the scientific literature provided by the teacher during the course will be made available to the student.

Reference textbooks:
DE FELICI M., e coll.: Embriologia Umana - Morfogenesi - Processi molecolari - Aspetti Clinici, Piccin, Padova, 2014.
PELAGALLI G.V., e coll.: Embriologia, Morfogenesi e Anomalie dello Sviluppo, Idelson - Gnocchi, Napoli, 2009.
ADAMO S., CAMOGLIO P., DOLFI A., et al.: Istologia di V. Monesi, VI edizione, Piccin, Padova.
ROSS M.H., PAWLINA W.: Istologia –Testo e Atlante con cenni di Biologia cellulare e molecolare, Ambrosiana, Milano.
BARONE R.: Anatomia Comparata dei Mammiferi Domestici, Edagricole, Bologna.
COZZI B., BALLARIN C., PERUFFO A., CARÙ F.: Anatomia degli animali da laboratorio (Roditori e Lagomorfi), Ambrosiana, Milano.
KÖNIG H. E., LIEBICH H. G.: Anatomia dei mammiferi domestici (Testo-atlante a colori), Piccin, Padova.
DI BELLO C.: biomateriali – Introduzione allo studio dei materiali per uso biomedico, Pàtron, Bologna.
MANTERO S., REMUZZI A., RAIMONDI M.T., AHLUWALIA A.: Fondamenti di ingegneria dei tessuti per la medicina rigenerativa, Pàtron, Bologna.
HOLLINGER J.O., EINHORN T.A., DOLL B.A., SFEIR C.: Bone tissue engineering , CRC PRESS, Boca Raton, Florida.

Teaching methods

The course will be held through lectures and practicals. The practical part will take place in the laboratory of the Department of Veterinary Science such as sector room, veterinary anatomy museum, histology lab and microscopy lab.
The teaching material of the lesson will be made available to the student in electronic format through the Elly web platform (https://elly.medicina.unipr.it) and a selection of scientific articles will integrate the provided teaching materials and the reference textbooks.

Assessment methods and criteria

The assessment of the achievement of the course objectives is carried out through an oral exam. The achievement of the objective of knowledge and understanding of the contents and the ability to apply the acquired knowledge (D1, D2) will be verified through questions concerning the program and the detailed readings indicated. In formulating the answers, the student should demonstrate an adequate language proficiency and a proper reasoning skills by linking together different aspect of the topic (D3, D4). The grade of the exam is the result of the mediated evaluation of the student's answers to the proposed questions. The exam will be do in the scheduled exams date. In case of the persistence of the health emergency, the exams will be conducted remotely, as follows:
remote oral questions, through the Teams platform (guide http://selma.unipr.it/).
Students with SLD / BSE must first contact Le Eli-che: support for students with disabilities, D.S.A., B.E.S. (https://sea.unipr.it/it/servizi/le-eli-che-supporto-studenti-con-disabilita-dsa-bes).

Other information

Only in case of national health emergency, the lectures could be done in synchronous-streaming on the Teams platform.

2030 agenda goals for sustainable development

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Contacts

Toll-free number

800 904 084

Servizio per la qualità della didattica

Manager della didattica:
Rag. Sabrina Ferrari

T. +39 0521 903109
E. servizio [didattica.dimec @unipr.it]
 

Presidente del corso di studio

Prof, Nicola Giuliani
E. nicola.giuliani@unipr.it

Delegato orientamento in uscita

Prof.ssa Sara Nicoli
E.sara.nicoli@unipr.it

Delegati Erasmus

Prof. Roberto Sala

E. roberto.sala@unipr.it

Referente assicurazione qualità

Prof.ssa Carlotta Compari
E. carlotta.compari@unipr.it

Tirocini formativi

Prof.ssa Laura Giovati

E. laura.giovati@unipr.it