00358 - Histology

Course Unit Page

SDGs

This teaching activity contributes to the achievement of the Sustainable Development Goals of the UN 2030 Agenda.

Quality education

Academic Year 2021/2022

Learning outcomes

The student, at the end of the course, is able to understand the fundamental lines that, starting from the events that characterize the early stages of embryonic development, through proliferation and differentiation, bring to completion the structure of the various cytotypes that make up the tissues of the human organism. It is also able to understand the correlations between the various tissues, knowing the morphofunctional aspects

Course contents

HISTOLOGY

Histological differentiation and organization into four basic tissues.

Epithelial tissues

Ultrastructure and function of epithelial cells. Histological classification.

Covering epithelium. Structure functions, classification and distribution. Junction complexes, adhesion molecule relationships and cytoskeletal elements. Keratinization mechanisms. Regeneration.

Glandular epithelium. Structure and function of glands. Exocrine and endocrine secretion (parenchyma and stroma). Histology and function of Exocrine Glands. Classification. Overview of Endocrine System. Regulatory mechanism of endocrine secretion. Hormones.

Connective Tissue

Embryonic development and distribution. Cells and extracellular matrix (ECM): collagen and elastic fibers, amorphous ground substance. Role of different cellular elements. Classification.

Connective tissue proper. Classification. Mucous connective tissue. Loose connective tissue. Reticular and elastic tissues. Dense regular and irregular tissues. Adipose tissues (unilocular and multilocular).

Cartilage. Histological structure and classification. Perichondrium. Cartilage growth and repairing.

Bone. Trabecular and compact bone: cells and ECM. Direct and indirect ossification. Bone turnover.

Blood. Hematopoiesis. Structure and function of blood. Plasma and cells. Histology of bone marrow and emopoietic cell differentiation.

Muscle tissue

Classification and organization. Smooth muscle: ultrastructure and function. Contraction mechanism.

Skeletal Muscle: ultrastructure and organization of skeletal muscle fibers. Histology and function of Cardiac muscle.

Nervous tissue

Structural and functional organization of the nervous tissue. Types of neurons. Ultrastructure of myelinated and unmyelinated nerve fibers. Ultrastructure of synapses. Structure and function of glia.

Readings/Bibliography

  • " Istologia umana per le professioni sanitarie " - AA VV- Ed. Idelson-Gnocchi
  • "ELEMENTI DI ISTOLOGIA" - Di Pietro - Ed. EdiSES
  • "ISTOLOGIA ed elementi di anatomia microscopica" - Dalle Donne et al. - Ed. EdiSES
  • "Citologia & Istologia Umana" - Carinci, Bani, Baroni et al. - Ed. Idelson-Gnocchi

The material used during the lessons is available since the first lesson by login at the Platform for teaching support service - Insegnamenti on line.

Teaching methods

The course will take place in 24 hours of frontal lecture. Specific iconography will be showed to support the theoretical bases. The acquisition of the knowledge will be frequently monitored through interaction with students.

Assessment methods

The end-of-course exam consists of an interview aimed at evaluating the achievement of the following educational objectives:

§ know the structure of the various cytotypes that constitute the tissues of the human organism

§ know the classification and the subclassifications of the 4 main tissues

§ understand the correlations between the various tissues, knowing the morphofunctional aspects.

The vote attributed to the Histology test will do average with the votes achieved in the contextual tests of Biochemistry and Applied Biology, concreting the final vote of the integrated course that will be expressed in thirtieths. The online registration to the examination is mandatory.

Teaching tools

PowerPoint presentations.

Office hours

See the website of Marcella Martinelli