This course explores how the respiratory system facilitates breathing and gas exchange, ensuring oxygen delivery and carbon dioxide removal.
Learners will gain insight into how lung function supports overall health and will study conditions such as asthma, COPD, and pneumonia.
Designed for medical, nursing, allied health professionals and those curious to learn more, this course provides interactive 3D models, patient scenarios, and clinical insights to help learners apply theoretical knowledge to real-world healthcare situations.
Overview
Syllabus
- Structure and Function of the Respiratory System
- This module introduces the respiratory system, highlighting its essential role in maintaining life by providing oxygen to the body and removing carbon dioxide. Students will explore the anatomy of both the upper and lower respiratory tracts, including key structures like the nose, throat, larynx, trachea, and lungs. The module emphasizes how these structures work together to ensure smooth airflow and efficient gas exchange. Through detailed lessons, learners will gain an understanding of how the respiratory system filters, warms, and moistens air, while protecting the body from harmful substances. The role of the lungs and thoracic cavity in breathing mechanics will also be explored, providing a comprehensive foundation for understanding the respiratory system's structure and function.
- Gas Exchange Process
- This module explores the essential processes involved in the exchange of gases within the respiratory system. It begins by examining the structure of the airway passages and alveoli, highlighting their design for efficient oxygen delivery and carbon dioxide removal. The mechanisms driving gas exchange in the alveoli are explained, focusing on diffusion and the role of blood capillaries. The module also delves into how the respiratory system helps maintain pH balance by regulating carbon dioxide levels in the blood, ensuring the body stays in homeostasis. Finally, the integration of the respiratory and circulatory systems is discussed, emphasizing their partnership in oxygen transport and waste elimination to sustain cellular functions.
- Respiratory System Integration in the body
- This module examines how the respiratory system interacts with other body systems to support overall health and maintain homeostasis. Key areas of focus include its partnership with the cardiovascular system in oxygen delivery and carbon dioxide removal, its regulation by the nervous system to adapt to changing oxygen demands, and its critical role in energy production through cellular respiration. Additionally, learners will explore how the respiratory system serves as a frontline defense against pathogens, contributing to the body’s immune response. By understanding these interconnections, learners will gain a comprehensive view of how the respiratory system integrates with other physiological processes to sustain life.
- Mechanics of Breathing
- This module focuses on the physiological processes involved in breathing and how various factors influence its efficiency. Learners will explore the mechanics of inhalation and exhalation, including the roles of the diaphragm and intercostal muscles in creating pressure changes within the lungs. Key concepts such as lung compliance, elasticity, and surfactant production are discussed to illustrate how these properties support efficient breathing. The impact of airway resistance on airflow and conditions that can alter it are also covered. Finally, external factors such as altitude, posture, and environmental pollutants are analyzed to understand how breathing mechanics adapt to different situations. This comprehensive understanding of breathing mechanics highlights their importance in maintaining effective gas exchange and overall respiratory health.
- Respiratory Case Studies
- This lesson uses five case studies to illustrate common respiratory disorders and their impact on breathing and gas exchange. Conditions include asthma (airway narrowing), pulmonary fibrosis (stiffened lung tissue), pneumonia (fluid-filled alveoli), pulmonary embolism (blocked blood flow), and sleep apnea (breathing interruptions during sleep). Each case highlights the causes, symptoms, and management strategies, connecting theoretical knowledge to real-world clinical scenarios.
Taught by
Hilary Gupte, Maxwell Boardman, Chloe Barrett, and Olivia Bradbury
