Table of Contents

Vaccine Development

Vaccines are biological preparations that stimulate the immune system to recognize and fight infectious agents, without causing disease. The goal is to induce protective immunity and herd immunity.

๐Ÿงช Phases of Vaccine Development

  1. Exploratory Phase: Identification of potential antigens
  2. Preclinical Testing: Animal models to test the immune response
  3. Clinical Trials:
    1. *Phase I*: Safety and dose
    2. *Phase II*: Immunogenicity and safety
    3. *Phase III*: Efficacy and rare side effects
    4. *Phase IV*: Post-marketing surveillance
  4. Regulatory Review (FDA, EMA, etc.)
  5. Manufacturing and Distribution

๐Ÿ”ฌ Types of Vaccines

Type Example Notes
Live attenuated MMR, Yellow Fever Strong immunity, not for immunocompromised
Inactivated Polio (IPV), Hepatitis A Safer but may require boosters
Subunit / Recombinant HPV, Hepatitis B Specific antigens only
Toxoid Tetanus, Diphtheria Inactivated toxins
Viral vector J&J COVID-19, AstraZeneca Delivers antigen via harmless virus
mRNA-based Pfizer-BioNTech, Moderna No virus; fast to design and produce

๐Ÿง  How Vaccines Work

  1. Antigen is introduced into the body
  2. Innate immune response is triggered
  3. Antigen-presenting cells activate T and B lymphocytes
  4. Memory cells are formed
  5. Upon future infection, the response is rapid and stronger

โš™๏ธ Modern Innovations

โš ๏ธ Challenges in Development

  1. Antigen variability (e.g., influenza)
  2. Logistics and cold chain requirements
  3. Public vaccine hesitancy
  4. Rare adverse events
  5. Equitable global access

๐ŸŒ Impact of Vaccines

๐Ÿงพ Summary

Vaccine development is a multi-phase, interdisciplinary process. With tools like mRNA, nanotechnology, and personalized immunotherapy, the field is evolving rapidly to address both infectious and non-infectious diseases.