What is the Difference Between Anatomical and Physiological Dead Space?
🆚 Go to Comparative Table 🆚Anatomical dead space and physiological dead space are two different ways of defining the lung dead space, which refers to the volume of ventilated air that does not participate in gas exchange.
Anatomical dead space represents the volume of air that fills the conducting zone of the trachea and bronchi, but does not penetrate the gas exchange regions of the lung. This volume is considered to be 30% of normal tidal volume (500 mL), resulting in a value of 150 mL for anatomical dead space.
Physiological dead space, on the other hand, is the sum of all parts of the tidal volume that does not participate in gas exchange. It is equal to the anatomical dead space plus the alveolar dead space, which is the volume of ventilated air in the alveoli that do not participate in gas exchange. In a healthy adult, alveolar dead space can be considered negligible, making the physiological dead space equivalent to the anatomical dead space. However, the value of physiological dead space can increase in lung disease states where the alveolar dead space becomes significant.
In summary, the key difference between anatomical and physiological dead space lies in the fact that anatomical dead space only considers the volume of air in the conducting airways, while physiological dead space includes both the anatomical dead space and the alveolar dead space.
Comparative Table: Anatomical vs Physiological Dead Space
Here is a table comparing anatomical and physiological dead space:
Feature | Anatomical Dead Space | Physiological Dead Space |
---|---|---|
Definition | The volume of air that fills the conducting airways (trachea and bronchi) without penetrating the gas exchange regions of the lung. | The sum of all parts of the tidal volume that do not participate in gas exchange, including anatomical dead space and alveolar dead space. |
Average Value | 150 mL | 150 mL or slightly larger due to alveolar dead space. |
Components | - Conducting airways (trachea and bronchi). | - Anatomical dead space (conducting airways). - Alveolar dead space (volume of the inspired gas that passes through the anatomical dead space but does not participate in gas exchange). |
Importance | Does not participate in gas exchange. | Indicates the lung status and is clinically important. |
Anatomical dead space refers to the air-filled volume in the conducting airways, such as the trachea and bronchi, which does not participate in gas exchange. In contrast, physiological dead space includes both anatomical dead space and the portion of the tidal volume that does not participate in gas exchange in the alveoli. In a healthy individual, alveolar dead space is negligible, and physiological dead space is equal to anatomical dead space. However, in lung disease states, alveolar dead space can have a value, making physiological dead space larger than anatomical dead space.
- Anatomy vs Physiology
- Tidal Volume vs Vital Capacity
- Perfusion vs Ventilation
- Cutaneous vs Pulmonary Respiration
- Physiological vs Psychological
- Atelectasis vs Pneumothorax
- Oxygenation vs Ventilation
- Apnea vs Hypopnea
- Ventilation vs Respiration
- Circulatory vs Respiratory System
- Hyperventilation vs Hypoventilation
- Apnea vs Dyspnea
- Terminal vs Respiratory Bronchioles
- Alveoli vs Alveolus
- Internal vs External Respiration
- Lung Volume vs Lung Capacity
- Emphysema vs Atelectasis
- Breathing vs Respiration
- Pulmonary vs Systemic Circulation