A girl child has had recurrent yeast and respiratory viral infections since she was 3 months old. Considering studies for her immune status, which of the following vaccines is contraindicated?

Killed IPV (Inactivated Poliovirus Vaccine)

DPT (Diphtheria, Pertussis, Tetanus)

An 18-year-old girl is brought to the emergency department because of a 1-day history of severe headache with photophobia and diffuse myalgias. She is a college student and lives in a dormitory in a large urban area. She has not traveled recently. On arrival, she is lethargic. Her temperature is 39.3°C (102.7°F), pulse is 120/min, and blood pressure is 88/58 mm Hg. Examination shows scattered petechiae and ecchymoses on the trunk and lower extremities. There is decreased range of motion of the neck. Cerebrospinal fluid analysis shows a cell count of 1,600/μL (80% neutrophils) and a lactate concentration of 5.1 mmol/L. Which of the following is most likely to have prevented this patient's condition?

Polysaccharide conjugate vaccine

All of the following regarding rotavirus vaccine are correct except?

Cannot be given after 6 months of age

Available as monovalent and pentavalent

Which of the following statements about measles is incorrect?

Maximum incidence in 6 months to 3 years age group

Best age for immunization is 9-12 months

A young male came to the hospital with a clean-cut wound without any bleeding. The patient received a full course of tetanus vaccination 10 years ago. What is the best management for this patient?

Human tetanus immunoglobulin only

Human tetanus immunoglobulin and a full course of vaccine

A patient at 37 weeks' gestation came to the hospital without antenatal check-up and presented with onset of labor. On examination, the mother is Hep B positive. What management should be given to the neonate?

First IG then Hep B vaccine after 1 month

Future of Vaccines for FMGE: High-Yield Microbiology Lessons

Advanced Vaccine Platforms - Future's Tiny Shields

These innovative platforms are revolutionizing vaccine development, aiming for enhanced efficacy, safety, and rapid response.

Feature	mRNA Vaccines	Viral Vector Vaccines	DNA Vaccines
Mechanism	mRNA → antigen in host cell	Harmless virus delivers gene → antigen	Plasmid DNA → mRNA → antigen in host cell
Examples	Pfizer, Moderna (COVID-19)	Covishield, J&J (COVID-19)	ZyCoV-D (COVID-19)
Pros	Rapid dev., No infection, High potency	Strong response, Established tech	Stable, Easy manufacture
Cons	Ultra-cold storage, Newer tech	Vector immunity, Potential side effects	Lower immunogenicity, Special delivery

Virus-Like Particles (VLPs):
- Non-infectious, self-assembling viral proteins that mimic virus structure (e.g., HPV vaccine).
- Pros: High immunogenicity, safe.
Nanoparticle-based Vaccines:
- Utilize nanoparticles as sophisticated carriers for antigens or adjuvants (e.g., Novavax COVID-19).
- Pros: Enhanced stability & antigen presentation.

mRNA vaccine mechanism and immune response

Expanding Vaccine Horizons - Germs' Worst Nightmares

Universal Vaccines: Aim for broad protection against highly variable pathogens.
- Influenza: Targeting conserved regions (e.g., hemagglutinin stalk) for pan-strain immunity.
- HIV: Focus on inducing broadly neutralizing antibodies (bNAbs) against diverse viral envelopes.
Therapeutic Cancer Vaccines: Stimulate patient's immune system against existing cancer cells.
- Examples: Sipuleucel-T (prostate), personalized neoantigen vaccines.
⭐ Therapeutic cancer vaccines aim to stimulate the patient's immune system to recognize and destroy existing cancer cells.
Vaccines against Antimicrobial Resistance (AMR): A key strategy to combat drug-resistant infections.
- Targets: Critical ESKAPE pathogens (E. faecium, S. aureus, K. pneumoniae, A. baumannii, P. aeruginosa, Enterobacter spp.) 📌.
Vaccines for Non-Communicable Diseases (NCDs): Novel immunotherapies.
- Alzheimer's Disease: Targeting $A\beta$ (amyloid-beta) plaques or tau tangles.
- Addiction:
  - Anti-nicotine vaccines: Prevent nicotine from reaching brain reward centers.
  - Anti-cocaine vaccines: Similar mechanism, preventing cocaine access to brain.
- Hypertension: Investigational vaccines targeting angiotensin II to lower blood pressure.

Smarter Delivery & Uptake - Needles No More?

Novel Delivery Systems: Revolutionizing administration.
- Microneedle Patches (MNPs):
  - Painless, minimally invasive, potentially self-administered.
  - Enhanced immunogenicity due to direct delivery to skin's immune cells.
- Nasal & Oral Vaccines:
  - Stimulate robust mucosal immunity (IgA at entry portals).
  - Needle-free, easier mass vaccination.
  - Example: iNCOVACC (intranasal COVID-19 vaccine).
  ⭐ Nasal vaccines can induce robust mucosal IgA, providing first-line defense at the portal of entry for respiratory pathogens.
Advanced Adjuvants: Stronger, tailored immune responses.
- TLR Agonists: (e.g., Monophosphoryl lipid A, CpG DNA) activate innate immunity.
- Saponins: (e.g., QS-21) potent immunostimulants.
- STING Agonists: Enhance type I IFN response.
Thermostable Vaccines:
- Crucial for overcoming cold-chain limitations, especially in resource-poor settings.
- Improves vaccine stability, distribution, and reduces wastage.
Personalized Vaccinology:
- Vaccines tailored to individual factors:
  - Immunogenomics (genetic predisposition to immune response).
  - Microbiome composition.
Addressing Vaccine Hesitancy:
- Transparent communication, education, and community partnerships.

High‑Yield Points - ⚡ Biggest Takeaways

mRNA vaccines: Key for rapid pandemic response and flexible platforms.

Viral vector vaccines: Utilized for emerging diseases (e.g., Ebola, COVID-19).

DNA vaccines: Investigational, focus on enhanced delivery (e.g., electroporation).

Therapeutic vaccines: Targeting cancer (e.g., Sipuleucel-T) and autoimmune diseases.

Universal vaccines: Aim for broad protection against highly mutable pathogens (e.g., influenza, HIV).

Novel adjuvants & nanocarriers: Enhance immunogenicity and targeted delivery.

Edible vaccines: Transgenic plants for oral, cost-effective mucosal immunization.

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