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Universitat Internacional de Catalunya

Anatomy and Physiology

Anatomy and Physiology
6
12472
1
First semester
FB
FUNDAMENTALS
MEDICINE I
Main language of instruction: Spanish

Other languages of instruction: Catalan, English

Teaching staff


A face-to-face appointment can be made with the teacher by sending an email to bmezquita@uic.es

Introduction

This course has been designed to help bioengineering students understand how the human body is organised and how it works. Specifically, anatomy is dedicated to the study of the structures of body components and the relationship between them. Physiology deals with how these components work to ensure the survival of the organism. This subject introduces the human anatomical and physiological bases with a special emphasis on the structures and processes relevant to bioengineering.

Pre-course requirements

None

Objectives

Offer a global and comprehensive vision of the morphology and function of the human organism in a state of health. Familiarize the student with the use of the language of anatomy and physiology.

Competences/Learning outcomes of the degree programme

  • CB1 - Students must demonstrate that they have and understand knowledge in an area of study based on general secondary education. This knowledge should be of a level that, although based on advanced textbooks, also includes some of the cutting-edge elements from their field of study.
  • CB3 - Students must have the ability to bring together and interpret significant data (normally within their area of study) and to issue judgements that include a reflection on important issues that are social, scientific or ethical in nature.
  • CE7 - To know how to recognise anatomy and physiology when applied to the structures Bioengineering involves.
  • CG10 - To know how to work in a multilingual and multidisciplinary environment.
  • CT4 - To be able to work as a member of an interdisciplinary team, whether as a member or by management tasks, with the aim of contributing to undertaking projects based on pragmatism and a feeling of responsibility, taking on commitment while bearing the resources available in mind.
  • CT5 - To use information sources in a reliable manner. To manage the acquisition, structuring, analysis and visualisation of data and information in your specialist area and critically evaluate the results of this management.

Learning outcomes of the subject

At the end of this course students will be able to:

1. Know the fundamentals and principles of anatomy and physiology, as well as their basic and specific terminology.

2. Know the structure of the organs and systems of the human body and how they work.

3. Appreciate the contributions, individually and collectively, of the different systems of the body so that the human being perpetuates in time.

4. Acquire a positive attitude towards their future professional practice.

5. Apply the knowledge acquired in the field of human anatomy and physiology to challenges in general bioengineering.

6. Know the primary sources of information to understand the latest advances in the physiological sciences.

7. Use the scientific method; promote reasoning and discussion of problems.

Syllabus

1. Introduction to Anatomy of the Human Body

1.1 Definition

1.2 Structural organisation levels

1.3 Anatomical nomenclature

 

2. Introduction to Physiology of the Human Body

2.1 Definition

2.2 Concept of the internal environment

2.3 Concept of homeostasis

3. Cell Structure and Function

3.1 General components of the cell

 

4. Tissue Structure and Function

4.1 Tissue preparation for analysis under the microscope

4.2 Epithelial tissue

4.3 Connective tissue

4.4 Nerve tissue

4.5 Muscle tissue

 

5. Blood Physiology

5.1 Blood functions

5.2 Blood composition

5.3 Hematopoiesis

5.4 Hemostasis

5.5 Blood groups

 

6. Circulatory System

6.1 Anatomy

6.2 Functions of the circulatory system

6.3 Electrical activity of the heart

6.4 Mechanical activity of the heart

6.5 Regulation of cardiac activity

6.6 Cardiac cycle

6.7 General circulation distribution system

6.8 Regulation of blood pressure

6.9 Exchange system

6.10 Lymphatic and venous return systems

6.11 Angiogenesis

6.12 Local circulation

 

7. Respiratory System

7.1 Anatomy

7.2 Ventilation, perfusion and ventilation / perfusion ratio

7.3 Blood gas transport

7.4 Regulation of respiratory function

 

8. Renal System

8.1 Anatomy

8.2 Glomerular filtration

8.3 Tubular function

8.4 Renal regulation of fluid and electrolyte balance

 

9. Digestive System

9.1 Anatomy

9.2 Gastrointestinal motor activities

9.3 Gastrointestional secretory activities

9.4 Digestion and absorption

9.5 Liver functions

 

10. Endocrine System

10.1 Components

10.2 Hypothalamus and pituitary hormones

10.3 Thyroid hormones

10.4 Hormones that control calcium and phosphate metabolism

10.5 Suprarenal gland hormones

10.6 Pancreas hormones

10.7 Sex hormones

 

11. Nervous System

11.1 Anatomy

11.2 Physiology of the neuron and the neuron microenvironment

11.3 Sensory circuits

11.4 Motor circuits

11.5 Autonomic nervous systems

 

12. Musculoskeletal System

12.1 Skeletal structure and function

12.2 Joints

12.3 Skeletal muscle anatomy and function

 

13. Integumentary System

13.1 Anatomy of the skin and nails

13.2 Functions of the integumentary system

 

14. Reproductive System

14.1 Asexual and sexual reproduction

14.2 Anatomy and physiology of the male reproductive system

14.3 Anatomy and physiology of the female reproductive system

Teaching and learning activities

In person



Face to face theoretical classes.

Practical classes at the dissection lab.

Presentation sessions and discussion of clinical cases relevant to bioengineering / group work.

Sessions of presentation and discussion of scientific articles reflecting the latest advances in physiological sciences / individual work.

Self-learning tests.

Evaluation systems and criteria

In person



The final markis calculated based on the following components, with the indicated weights:

1. Participation in the theoretical and practical classes: 15%

2. Resolution of the self-assessment tests in the determined time periods: 15%

3. Partial exam: 20%

4. Final exam: 50%

Important considerations:

  1. Plagiarism, copying or any other action that may be considered cheating will receive a zero in that evaluation section. Plagiarism during exams will lead to immediate failure of the subject.
  2. In the second-sitting exams, honors distinction will not be awarded; therefore, “Excellent” will be the maximum mark students can obtain.
  3. Changes in the calendar, exam dates or the evaluation system will not be accepted.
  4. Exchange students (Erasmus and others) or repeaters will be subject to the same conditions as the rest of the students.

Bibliography and resources

Mezquita. Fisiología Médica, 2ª ed. Panamericana (2018).

Stephanie McCann and Eric Wise. Anatomy Coloring Book, 5th ed. Kaplan (2014)

Evaluation period

E: exam date | R: revision date | 1: first session | 2: second session:
  • E1 08/01/2025 I3 12:00h

Teaching and learning material