1.3:

Physiology of Respiration I: Functions of the Respiratory System

JoVE Core
Medical-Surgical Nursing
Bu içeriği görüntülemek için JoVE aboneliği gereklidir.  Oturum açın veya ücretsiz deneme sürümünü başlatın.
JoVE Core Medical-Surgical Nursing
Physiology of Respiration I: Functions of the Respiratory System

20 Views

01:27 min

October 25, 2024

The respiratory system is crucial for exchanging oxygen (O2) and carbon dioxide (CO2) between the atmosphere and the bloodstream, maintaining the body's balance. Beyond gas exchange, it helps regulate acid-base balance, purify inhaled air, and enable vocalization.

Fundamental Processes in Respiration:

  • • Ventilation
  • • Gas Exchange
  • • Oxygen Transport
  • • Carbon Dioxide Transport
  • • Oxygenation
  • • Compliance and Resistance Dynamics

Process Details:

  • Ventilation is moving air into and out of the lungs through inhalation and exhalation, driven by pressure differences and mediated by the respiratory muscles, including the diaphragm and intercostal muscles.
  • Gas Exchange: Oxygen and carbon dioxide exchange happen in the alveoli, facilitated by their extensive surface area and proximity to pulmonary capillaries. Oxygen moves from inhaled air into the blood, while carbon dioxide transfers from the blood into the alveoli to be exhaled.
  • Oxygen Transport: Hemoglobin in erythrocytes carries oxygen from the lungs to the body's tissues, forming oxyhemoglobin. A small portion of oxygen dissolves in plasma.
  • Carbon Dioxide Transport: It is transported in three forms: dissolved in plasma, bound to hemoglobin as carbaminohemoglobin, and bicarbonate ions in red blood cells, crucial for maintaining acid-base balance.
  • Oxygenation: The process where oxygen binds to hemoglobin in red blood cells, influenced by factors such as the partial pressure of oxygen, pH, and temperature. Efficient oxygenation ensures adequate oxygen delivery to tissues.
  • Compliance and Resistance Dynamics: Compliance indicates the lung and chest wall's ability to expand during inhalation. High compliance means easier expansion, while low compliance indicates stiffness. Resistance measures the opposition to airflow in the respiratory airways, with increased resistance complicating breathing.