vaccine production

Question 1

Vaccination is active or passive immunisation

Answer 1

active

○ Host immune system encounter pathogen
Activated to produce immune response

Question 2

what is passive immunisation

Answer 2

Administer specific Ab for short-term immunological protection of host

Question 3

level of vaccination

Answer 3

• LEVEL 1: Instrument of indiv prevention, protection from possible adverse short/ long-term conseq of infection w/ pathogen
• LEVEL 2: herd immunity
• LEVEL 3: global prevention, avert export of pathogens to regions not endemic
  *LEVEL 4: global eradication of disease, protect current and future generations

Question 4

requirements of a good vaccine

Answer 4

○ 100% effective in all age grp
○ Long-term protection after single application (LIFELONG)
○ No side effects
○ Stable in diff conditions
○ Easily accessible, inexpensive
○ Protect > 1 disease at a time

Question 5

stability of vaccine

Answer 5

§ Heat, light, transportation
□ Stored, transported, applied in special conditions
§ Since biological pdts (protein, lipids, carbohydrate, nucleic acid)
□ Freezing, temp (<0C) negative effect on substance. Affect potency
Aim 2-8C

Question 6

cold chain transport temp

Answer 6

2-8*C

Question 7

shake test
to see if vaccine is damaged/ suspect freezing

Answer 7

1. Freeze and thaw one batch (positive control)
2. Other batch without freezing (test
3. Compare after shaking both
   
   • Should have flakes , suspension
4. See if sedimentation rate is same/ faster
   =-That means your vaccine has been frozen, should not be used anymore
5. If slower:
   Not affected, batch can be used

Question 8

components inside vaccine

Answer 8

Immune antigens

Suspension fluids

preservatives

stabilisers

Surfactants/ emulsifiers

Adjuvants

Trace components

Question 9

Immune antigens

Answer 9

API, viral. Bact antigens that directly stimulate immune system

But do not cause disease

Question 10

Suspension fluids

Answer 10

Lq that contains chemicals used during production that kill/ weaken germ for use in vaccines

Question 11

preservatives

Answer 11

Prevent bact, fungal growth
(only in multi-dose vials)

Ensure vaccine content and potency remains unchanged

Sterilisation not 100% safe, add preservatives to kill off possible contaminants
* Aseptic production
* No final sterilisation, due to proteins DNA, mRNA component
* Sensitive to temp

Question 12

3 eg of preservatives

Answer 12

• Formaldehyde
  
  • Kills, inactivate unwanted germs in vaccines
• 2-phenoxyethanol
  
  • Antimicrobial preservatives used in cosmetics, TOP pharm formulations
  • Narrow range of actions
  • Mostly in combi (synergistic effects + less amts of preservatives)
  • Easily eliminated, little toxicity
• Thimerosal
  
  • Alternative to benzalkonium chloride/ other phenylmercuric preservative
  • Bacteriostatic, fungistatic activity
    ○ Parenteral formulation at conc of 0.01%
    ○ Hypersensitivity reactions, not used

Question 13

stabilisers

Answer 13

1) Keep vaccine stable after manufacturing (Maintain effectiveness during storage)

2) Stop chemical reactions from occuring IN THE VACCINE

3) Prevent components from SEPARATING

4) During transport, storage prevent STICKING to vaccine vial

** if lyophilised, no need stabiliser, will be reconstituted with NS water

Question 14

4 eg of stabilisers

Answer 14

• Monosodium glutamate (MSG)
  
  • Protect vaccine from heat, light, humidity, acidity while stored
• Gelatin
  
  • Protect vaccines from heat while they are stored
• Sorbitol
  
  • Stabilise proteins when in solution
• Buffers (monopotassium phosphate, sodium borate, sodium chloride)
  
  • Adjust tonicity
  • Maintain osmolarity (Na content in body)
  • pH range for IM, IV

Question 15

surfactants/ emulsifiers

Answer 15

Amphiphilic molecules with lipophilic part linked to hydrophilic part

Used as solubilisers or stabilisers of emulsions, also can be adjuvants

Question 16

Surfactants/ emulsifiers 3 eg

Answer 16

• Sorbitan esters
• Lacithins
• Mannide oleates (Montanide)
  
  • Esters of oleic acid (lipo) + mannitol (hydro)
• Lipopolysaccharides (LPS)
  
  • Gram-ve bact
• Saponins, glycosides
  
  • Quilaja saponaria tress
• Dimethyl dioctadecyl ammonium bromide (DDAB)
  +ve charged organic salt

Question 17

Adjuvants

Answer 17

Adjuvant: component to induce more potent immune response

* * reduce need for booster
* Used for flu shots

Modern vacc, weak immunogens + need good antigen delivery system

Question 18

2 ways adjuvant can work

Answer 18

1. Vaccine delivery systems: conc and target antigen
   a. Microparticles
   b. Nanoparticles
2. Immunostimulatory adjuvant
   a. Immunopotentiators activate innate immunity directly
   i. Cytokines
   b. Pattern recognition receptors
   i. PRRs

Question 19

3 eg of adjuvants

Answer 19

• Alum salts
  
  • Aluminum phosphate, hydroxides
  • Weak effect, slows down rate of release of antigens
  • Incr duration of antigen interaction with immune system
• Complete Freund’s adjuvant (suspend in oil)
  
  • Heat-killed mycobacteria in oil
  • Primary agent resp for stimulating Ab production
  • Severe SE = inflammations
• Oil-in-water// water-in-oil emulsions = TOXIC, DANGEROUS to use

Question 20

other adjuvant emulsions

Answer 20

• water-in-oil emulsions
  ○ Prepared from non-metabolisable oils: incomplete Freund’s adjuvant
  ○ Very effective
  ○ SE: cutaneous reactivity
• MF59 (Oil-in-water)
  ○ Submicron oil-in-water emulsion
  ○ Contains squalene (influenza vaccine)
• Montanide (oil based adjuvant)
  ○ Family of oil based adjuvant
  § Natural, recombinant and synthetic antigens
  ○ Experimental vaccines: dog, rates, mice, cats

Question 21

Trace components

Answer 21

Residual inactivating ingredients for virus/ bact
- formaldehyde
- residual cell culture material

Trace amt = no effect

Question 22

Route of administration

Answer 22

○ ORAL
§ Drops to mouth – rotavirus (Rotarix, RotaTeq)
○ INTRANASAL
§ Intranasal vaccine intro each nostril using manufacturer filled nasal spray
□ Incr pt compliance but hard to formulate
§ Live attenuated influenza (FluMist) Vaccine

○ SUBCUTANEOUS
§ Admin into fatty tissues below dermis – above muscle tissue

○ INTRAMUSCULAR
§ Admin into muscle through skin and sc tissue
○ Jet-injectors

Question 23

Vaccines manufacture steps

Answer 23

bioprocessing (upstream –> mid stream –> downstream separation & purification)

formulation, qc, filling (formulation –> filling –> cap, seap)

finishing, packaging (label –> qc –> packaging)

Question 24

upstream

Answer 24

a) Upstream: antigen generated
□ Pathogen itself/ antigen from recombinant protein
□ 3 types of antigen:
-Virus generated by 1* cells/ continuous cell line
-Bacteria grown in fermenters
-Recombinant proteins (from bact, yeast, cell culture)

Question 25

Midstream process + 3 clarification methods

Answer 25

□ Removal of cells and cell debris

□ Between upstream(fermentation) & downstream (pdt purification)

□ Filtration one after another, several in place

(CAKE/ alluvial)
(tangential flow)
(centrifugation)

Question 26

(CAKE/ alluvial)

Answer 26

◊ Particles accumulate at first few layers

◊ This will thicken filter = more effective, prevent big particles psss through

◊ BUT incr back pressure of filter, until cannot filter anymore (need maintenance)

Question 27

Tangential flow filtration TFF

Answer 27

◊ Pipe, have a flow
◊ Filter on side of pipe
◊ Big particles go with flow
◊ Particles go through holes at side of pipe

1) Disadv: poor efficiency
– Long pipe, force flow to go through the pipe
– filter more, more area
2) Adv: no clog

Question 28

Centrifugation

Answer 28

◊ Separation by weight
◊ Bigger particles thrown out
◊Smaller particles go centre

Question 29

Downstream

Answer 29

• Antigen is separated from impurities in downstream process
• Antigen released from substrate (cell lysis) if necessary
  ○ Chromatography
  § Column to retain certain target particles
  ○ Ultrafiltration
  § Retain certain particles, let others go through
  ○ Precipitation
  § depend on protein
  ○ Enzyme digest

FINAL sterile filtration (0.22um)

Question 30

summary of bioprocessing of diff vaccine types

• clarification (remove)
• inactivation
• sterile filtration

Answer 30

viral virus (remove cell debris. benzonase/ endonuclease degrade nucleic acids)

virus-like particle vacc (inactivate by formalin. weak ion-exchange chromatography resins)

polysacc conjugate vacc (chromatography to get polysacc. couple with nontoxic/reactive carrier proteins. purification)

viral vector (cell lysis, clarification –> nuclease + UF, chromatography –> sterile filtration)

Question 31

summary of bioprocessing of diff vaccine types

• clarification (remove)
• inactivation
• sterile filtration

Answer 31

viral virus (remove cell debris. benzonase/ endonuclease degrade nucleic acids)

virus-like particle vacc (inactivate by formalin. weak ion-exchange chromatography resins)

polysacc conjugate vacc (chromatography to get polysacc. couple with nontoxic/reactive carrier proteins. purification)

viral vector (cell lysis, clarification –> nuclease + UF, chromatography –> sterile filtration)

mRNA (purification by TFF, formulation (lipids), inactive virus particles via FORMALIN, TFF purification again in case of lipid degradation)

Question 32

Formulation

Answer 32

• All components that constitute final vaccine are combined in formulation process
  
  • Designed to maximise:
    ○ Stability
    ○ Efficient distribution
    ○ Preferred clinical delivery method
• May include (adjuvant, stabiliser, preservatives)
• Formulated vaccine CANNOT be filtered sterilised
  ○ Adjuvant, purified antigens are filtered and sterilised separately, aseptically blended

Question 33

filling
capping and sealing

Answer 33

• sterile cotnainers filled, load into lyophiliser chamber.
  apply vaccum and heat to evaporate water from FROZEN
  stopper by hydraulic/ screw stop mechanism
• Stopper flange
  ○ Close via crimping around upper edge of vial
  ○ Prevent leak, contamination
  ○ Automatic vial visual inspection
  ○ Usually centre-hole type
  § Tight around glass vial

Question 34

QC of vaccines (controlled at multiple levels)

Answer 34

1. Before approval
   i. In depth review of registration file
   ii. Contain all infor on production process/ materials/ testing
   
   2. QC testing
      i. Every single vaccine batch tested by manufacturer according to predefined set of specifications
      ii. Approved by authorities
   3. GMP (Good manufacturing process)inspections
      i. Beore and after approval (every 2-3yrs)
      ii. Verification of compliance w/ legislation and registration file
   4. Pharmacovigilance
      i. Post-approval clinical monitoring
      ii. Pop larger sample to identify problem that wasn’t brought up in clinical trials
   5. Additional QC testing by INDEPENDENT LAB

Question 35

QC testing

Answer 35

○ General parameters (pH, appearance)
○ Identity (of antigen)
○ Potency (verify antigen content)
○ Purity/ integrity of antigen
○ Safety (sterility, endotoxins)

• Specific tests for:
  ○ Potency, purity, integrity
  ○ Type of antigen or vaccine
• animal testing

Question 35

potency testing by 3 ways

Answer 35

1) immuno assay (recombinant, inactivated vacc)
In vivo assay replaced by in vitro immuno-assay
antigen content measured by ELISA

2) potency live viral vaccines
cell death quantified from in vitro cell culture
TCID 50

3) Potency polysaccharide vaccines
polysacc content, size, purity
degree of adsorption

Question 36

potency false +ve

Answer 36

○ In case of degraded antigen, immunoassay

○ Additional assays required to monitor size, purity, integrity of antigen (SDS-PAGE, SEC-HPLC)