Airborne Transmission

Airborne transmission refers to the spread of infectious agents caused by the dissemination of droplet nuclei that remain infectious when suspended in air over long distances and time. This mode of transmission is significant in the spread of various infectious diseases, including tuberculosis, measles, and chickenpox.

Mechanism of Airborne Transmission

Airborne transmission occurs when infectious agents are carried by dust or droplet nuclei suspended in the air. These particles can be inhaled by susceptible individuals, leading to infection. Droplet nuclei are typically less than 5 micrometers in diameter, allowing them to remain airborne for extended periods and travel over distances greater than 1 meter.

Droplet Nuclei

Droplet nuclei are the dried residue of larger respiratory droplets that are expelled when an infected person coughs, sneezes, or talks. These nuclei can remain suspended in the air for long periods, especially in enclosed spaces with poor ventilation.

Environmental Factors

Several environmental factors influence airborne transmission, including:

• Ventilation: Poor ventilation increases the concentration of infectious particles in the air.
• Humidity: Low humidity can enhance the survival of certain pathogens in the air.
• Temperature: Some pathogens are more stable at specific temperature ranges.

Diseases Spread by Airborne Transmission

Several infectious diseases are known to spread via airborne transmission:

• Tuberculosis: Caused by Mycobacterium tuberculosis, this disease primarily affects the lungs and is highly contagious through airborne particles.
• Measles: A highly contagious viral disease that can spread through airborne transmission, especially in unvaccinated populations.
• Chickenpox: Caused by the varicella-zoster virus, chickenpox can spread through the air from an infected person's respiratory droplets.

Prevention and Control

Preventing airborne transmission involves several strategies:

• Vaccination: Immunization against diseases like measles and chickenpox can prevent outbreaks.
• Ventilation: Improving air circulation in buildings can reduce the concentration of airborne pathogens.
• Respiratory Protection: Use of masks and respirators can protect individuals from inhaling infectious particles.
• Isolation: Infected individuals should be isolated to prevent the spread of airborne diseases.

Conclusion

Understanding airborne transmission is crucial for controlling the spread of infectious diseases. Public health measures, including vaccination, improved ventilation, and the use of personal protective equipment, are essential in mitigating the risks associated with airborne pathogens.

References

• Centers for Disease Control and Prevention. "Guidelines for Preventing the Transmission of Mycobacterium tuberculosis in Health-Care Settings, 2005." MMWR 2005;54(No. RR-17).
• World Health Organization. "Infection prevention and control of epidemic- and pandemic-prone acute respiratory infections in health care." WHO Guidelines, 2014.