6. Vaccinology

Question 1

What proof is there that vaccination is successful?

Answer 1

Reduction in the number of cases of thediseases which are vaccinated against

Question 2

What would reducing vaccination do?

Answer 2

Reducing vaccination would greatly increase the burden of these diseases within a generation or less

Question 3

What is a vaccine?

Answer 3

Induce an anti-infectious immune response similar to the real infection but without the same risks and side effects

Question 4

When can vaccines be administered?

Answer 4

At will and as required before an infection is contracted

Question 5

What do vaccines do to most vaccinees?

Answer 5

Most vaccine put vaccinees in a situation where the first encounter with an infectious pathogen is like their second exposure - causes a memory response instead of a primary response - disease might not even occur

Question 6

Important points for vaccines

Answer 6

1. Need to be safe to use (no toxic components)
2. Can’t cause the disease they aim to prevent
3. Must have minimal side effects (acceptance)
4. Need to be long-lasting (no regular jabs)
5. Are easy to store and transport (developing world)
6. Are cheap (affordability, health budget)

Question 7

Active vaccines

Answer 7

Active - cause organisms to mount an immune response as if a real infection has taken place

Question 8

Passive vaccines

Answer 8

Providing organisms with a ‘prefabricated’ immune response e.g. post-exposure prophylaxis with anti-Hep B antibodies

Question 9

Live vaccines

Answer 9

aka attenuated
-contain agents which have been weakened but not killed
-can’t normally cause disease but can replicate to produce strong immune response
-CANNOT BE GIVEN TO IMMUNOCOMPROMISED INDIVIDUALS
Examples: BCG (TB), shingles, MMR, nasal spray influenza

Question 10

Advantages and examples of live vaccines

Answer 10

Closer to natural infection than inactivated vaccines
produce strong immune responses, often life-long protection
BCG, shingles, MMR, nasal spray influenza

Question 11

Inactivated vaccines

Answer 11

contain agents destroyed by chemicals or heat which cannot replicate in the body
but it still recognised by the immune response which mounts a protective immune response against it
Examples: influenza, pertussis, poliomyelitis

Question 12

Disadvantages and examples of inactivated vaccines

Answer 12

Weaker immune response so takes several doses (initial vaccine and booster)
examples: influenza, pertussis, poliomyelitis

Question 13

Inactivated vaccine examples

Answer 13

pertussis, influenza, polio, typhoid

Question 14

Live attenuated vaccine examples

Answer 14

BCG, oral typhoid, measles, mumps, rubella, nasal flu

Question 15

DNA/RNA vaccine examples

Answer 15

experimental stage, infections, tumours

Question 16

Protein/virus like particle examples

Answer 16

Hep B, HPV

Question 17

subunit vaccine

Answer 17

Hep b, TB

Question 18

Subunit/conjugate vccines

Answer 18

HIB (polysaccharide plus protein)

Question 19

Toxoid

Answer 19

Tetanus, diptheria

Question 20

Variola and vaccinia virus

Answer 20

variola causes small pox, lethal
Cowpox - milder disease
Vaccinia virus - unclear origin
The immune response to cowpox and vaccinia protects against small pox

Question 21

Routine childhood immunisations at 8 weeks old

Answer 21

Infanrix hexa - Diphtheria, tetanus, pertussis (whooping cough), polio, haemophilus influenza type B (Hib) and hep B - all one vaccine - thigh

Prevenar 13 - pneumococcal (13 serotypes) pneumococcal conjugal vaccine thigh

Bexsero - Meningococcal group B - left thigh

Rotarix - rotavirus gastroenteritis -by mouth

Question 22

Routine childhood immunisations at Twelve weeks old

Answer 22

Infanrix hexa - DTaP/IPV/Hib/HepB - thigh

Rotarix - rotavirus - by mouth

Question 23

Routine childhood immunisations at sixteen weeks old

Answer 23

Infanrix hexa - DTaP/IPV/Hib/HepB - thigh

Prevenar 13 - pneumococcal - thigh

Bexsero - MenB -left thigh

Question 24

Routine childhood immunisations at one year old

Answer 24

Menitorix - Hib and MenC - upper arm/thigh

Prevenar 13 - pneumococcal - upper arm/thigh

MMR - upper arm/thigh

Bexsero MenB booster - left thigh

Question 25

Routine childhood immunisations at two to eight years old

Answer 25

Fluenz Tetra - influenza - each year from September both nostrils

Question 26

Routine childhood immunisations at three years four months old or soon after

Answer 26

Infanrix or Repevax - DTaP/IPV - upper arm

MMR - upper arm

Question 27

Routine childhood immunisations for girls aged 12 to 13

Answer 27

Gardasil HPV - 16,18,6,11 - two doses 6-24 months apart - upper arm

Question 28

Routine childhood immunisations at fourteen years old

Answer 28

Revaxis - Td/IPv - check MMR status - upper arm

Meningococcal groups A, C, W and Y disease (MenACWY) - upper arm

Question 29

passive immunisation in practice

Answer 29

Hep B hyperimmune serum- after exposure

Tetanus hyperimmun serum - after exposure

Rabies hyperimmune serum - after exposure

Anti-venoms, antitoxins etc - after exposure

Hep A hyperimmune serum used to be given as exposure prophylaxis now pre-exposure vaccine available

Question 30

VZV hyperimmune globulin

Answer 30

effective prophylaxis for babies born to mums who develop varicella in a 1 week period before or after delivery

Question 31

Measles vaccine complications vs disease

Answer 31

Measles disease causes pneumonia 1/600, encephalitis 1/1000, death 2/1000
AND damages B cell memory to a number of other infections (probs adds to mortality)
MMR vaccine causes encephalitis or severe allerfic reaction 1 in 1,000,000

Question 32

Herd immunity

Answer 32

Virus spread stops when probability of infection drops under certain threshold which is virus and population specific
threshold for measles 93-95%
No vax is 100% effective
80% immunised w measles results in 76% being immune against measles

Question 33

What is an adjuvant

Answer 33

substances added to a vaccine to increase the body’s immune response to that vaccine

ASO3 adjuvant in swine flu vaccine made people narcoleptic

Question 34

What can repeated administration of anti-sera cause?

Answer 34

anaphylaxis upon repeated administration - response to non-self protein