IC13 Pharm Tech (Parenteral, Intrathecal)

Question 1

What are the different types of parenteral ROA?
Explain intrathecal.

Answer 1

Types of injections:

• Intramuscular, Subcutaneous, Intradermal, Intravenous, Intrathecal (delivered to CSF, flows directly to the brain; administered into reservoir [ommaya] / via lower back)

Question 2

What are the CSF characteristics?

Answer 2

CSF characteristics:

• pH ~7.3
• 150mL volume
• Ebb and flow circulation –> direction promoted by 1) source & 2) cilia
• Large molecules are cleared more slowly, while small molecules are cleared more quickly within this space

Question 3

What are the barriers and disadvantages of using non-intrathecal parenteral ROA?

Answer 3

1. BBB
2. Distribution/dilution (major, since travel everywhere, cause unwanted SE)
3. Reticuloendothelial system (phagocytic cells)
4. Metabolic enzymes
5. Invasive
6. Medical professional
7. Sterility (strict)

Look at pg 25 of the notes

Question 4

What is one barrier of non-intrathecal parenteral that intrathecal does not face?

Answer 4

BBB

Question 5

What are the advantages of parenteral delivery?

Answer 5

Advantage of parenteral delivery

1. Bypasses hepatic first pass metabolism (for all parenteral)
2. Can control dosage (customizable)
   a. Relatively low drug conc. (and low toxicity)
3. Direct access to brain (intrathecal)
4. Sustained release (IM depot, intrathecal reservoirs)
5. Ideal for non-compliant, unconscious, dysphagic patients

Question 6

What are the pathways drugs can use to pass through the BBB?
What are the transporters present on the BBB?

Answer 6

Blood Brain barrier:

• Block 98% of small molecule drugs
• Pathways
  o Paracellular (tight junctions)
  o Transcellular
• Transporters (can be drug targets)
  o Active efflux transporter e.g. Pgp, BCRP, MRP –> remove drugs from brain into lumen
  o Carrier mediated transporter –> drugs binds and shuttles across the carriers
  o Receptor mediated transporter –> drugs binds, transcytosis and exocytosis

Question 7

What are the characteristics of ideal drug for CNS drug delivery? Including pH, tonicity, particle size.

Answer 7

Modified for CNS

1. MW <450 Da
2. H bond donors <3
3. H bond acceptors <7
4. LogP 1-3
5. Unionizable
6. pH
   - Ideally 7.4, 3-11 (IM), 3-6 (SubQ)
   - Ensure formulation stability / components do not degrade
7. Tonicity
   - 280-290mOsm/L for large volume
   - Hypertonic preferred –> since crenated cells are reversible vs burst cells which are irreversible)
   - Tonicity can be increased with tonicity adjusters
8. Particle size
   - No visible particles (esp. for IV)

Question 8

What are the possible formulations for CNS delivery? Like the type of drug form.

Answer 8

Formulations:

• Solutions
  o Drug molecules
  o proteins/peptides
• Suspensions
  o Nano/microemulsions
  o Liposomes and other lipid-based self-assembled structures
  o Nanoparticles

Question 9

What are the excipients usually found in parenteral formulations?

Answer 9

Excipients:

1. Diluent
2. Buffer salts
3. Tonicity adjusters
4. Preservatives (minimal for intrathecal –> since can cause issues with brain)
5. Stabilisers / co-solvents –> improve solubility

Question 10

What are some examples of buffer?

Answer 10

Sodium acetate, citrate, phosphates, lactate

Question 11

What are some examples of preservatives?

Answer 11

Benzyl alcohol, chlorbutanol, methylparaben, propylparaben, phenol, thiomersal

Question 12

What are some examples of tonicity adjuster?

Answer 12

Mannitol, NaCL, glycerin/glycerol, glycine

Question 13

What example is a Cryoprotectant (prevent freezing damage to components in lyophilized formulations)?

Answer 13

Mannitol

Question 14

What are some examples of a solvent?

Answer 14

Ethanol, glycerin/glycerol, glycine, PEG (mixed), propylene glycol

Question 15

What are some examples of a surfactant?

Answer 15

Polysorbate 20 & 80

Question 16

What are some possible packaging and storage required / used in CNS delivery systems?

Answer 16

Packaging and Storage:

1. Glass ampoules
2. Glass vials with rubber stoppers
3. Pre-filled syringes
   - Need to withstand sterilisation process –> thus plastic not used as can’t withstand heat
4. Syringes
   a. Needle –> larger the gauge, the thinner the needle
   b. Barrel –> can be graduated
   c. Plunger –> lubricated with silicone
   d. Single use and sterile
5. Catheters and reservoirs
   a. For infusions

Question 17

When is pH not present?

Answer 17

When solvent is oil

Question 18

When is osmolality important?

Answer 18

When injecting into blood or CSF, but if inject into muscles then not that impt

Question 19

What ROA is used when the API does not meet the Lipinski’s rule of 5? Explain.

Answer 19

Intrathecal; because Intrathecal space can accommodate huge molecules & then access the CNS

Question 20

Why is a buffering agent used in a formulation which contains a protein API?

Answer 20

L-methionine (buffering agent/anti-oxidant) –> maintain pH to prevent denaturation of API protein