TD: Nasal drug delivery

Question 1

What is drug delivery to the nasal cavity and what can it be used for?

Why is it useful?

Answer 1

Drugs delivered into the nasal cavity for….

• Localised effect
• Systemic effect
• Vaccine delivery

Why? - Usually when oral route is unavailable, localised effect, convenient and accessible route, rapid onset of action, avoid hepatic/GI metabolism, treat chronic disorders, low cost.ose – brain delivery (BBB?)

Question 2

Give examples of conditions the nasal route can be used for and drugs that can target these:

1. Local
2. Systemic
3. Vaccine

What preperations are available?

Answer 2

OTC or POM Liquid (solution, emulsion, suspension), gel, ointment, cream, powder

Local Delivery

• Allergic rhinitis, nasal congestion, nasal infection
• Antihistamines (Azelastaine hydrochloride), Sympathomimetic (Ephedrine hydrochloride), antibacterials (Mupirocin)
• Ointment, cream, drops, spray

Systemic Delivery

• Diabetes, pain, smoking cessation, osteoporosis, prostate cancer, migraine.
• Hormones (Desmopressin acetate), opioids (Fentanyl citrate), Alkaloid (Nicotine), Polypeptide hormone (Salmon calcitonin), Gonadorelin analogue (Buserelin), 5-HT1 agonist (Sumatriptan).
• Spray

Vaccines

• Influenza (live – attenuated) – FlumistTM
• Pre – filled syringe

Question 3

What are the different regions of the nasal cavity?

Describe the nasal cavity anatomy

Answer 3

• Two cavities (each 15ml) - divided by nasal septum
• Large surface area 160cm 2
• 120 – 140 mm from nostrils to nasopharynx
• Contains a broad range of enzymes
• Turbinate region (80 – 90% surface area) – superior, middle, inferior
• Continuously secretes mucus (turbinate region)

Question 4

What gives the turbinate regions its large SA?

What happenens to particles in the turbinate region?

Answer 4

• Inferior / middle / superior folds - give large SA
• Turbulent air flow – hits walls, deposits particles
  • Hot air breathed in and carriers particles to turbinate region. Mucus here sweeps particles to nasaopharynx where particles swallowed or coughed up

Question 5

The following refers to the turbinate region. Fill in the gaps:

1. •It has convoluted projections -
2. •Rich supply of
3. •Main site of

Answer 5

1. It has convoluted projections - columnar epithelium
2. Rich supply of blood vessels
3. Main site of drug absorption

Question 6

What are turbinate cells called?

What cells make up these?

What are these cells characterisitics and functions?

Answer 6

•Columnar Epithelial cells – goblet/ciliated and non – ciliated / basel cells.

Goblet cells – continuously secrete mucus

• •Covers epithelium: 1 – 10 µm thick
• •Above periciliary layer (cilia and microvilli ~ 7 µm)
• •97% water/3% solids (mucin, proteins, salts, lipids)
• •pH – 5.5 – 6.5
• •Barrier to drugs (large molecules)

Ciliated cells – cilia beat and move mucus (Mucociliary Clearance)

Question 7

Describe the 2 mechanisms of absorption of particles?

Answer 7

Transcellular Diffusion

• lipophilic molecules (mainly passive diffusion)
• Through lipid rich membranes of epithelial cells
• Endocytosis / active transport: large hydrophobic molecules

Paracellular Diffusion

• Small hydrophilic molecules (0.39 - 0.84 nm)
• Through aqueous intercellular spaces between cells – smaller area – slower
• Rate proportional to molecular size

Question 8

What are factors affceting absorption?

Answer 8

Mucociliary clearance

• Drugs deposited on mucociliary ‘conveyor belt’ – cleared from nasal cavity – LIMITED CONTACT TIME!
• Solutions - readily absorbed (lipophilic, low molecular weight) / Suspensions – drug particles must dissolve
• Reported to be 12 – 15 minutes

Mucus Layer

• Nasal mucosa protected by muscus = BARRIER TO DRUG DELIVERY
• Diffusion is a function of molecule size

Enzymic activity

• Broad range of enzymes – phase I/II metabolism (less than GI tract)
• Amount of drug, physiochemical properties, rate of clearance, rate of absorption

Epithelial barrier

e.g. efflux transporters actively transport drug back into nasal cavity

Question 9

What are ways to improve drug absorption?

Answer 9

1. Increase Nasal Resistance time - Mucoadhesion
   
   • Muchoadhesive polymers
   • e.g. Cellulose, starch, chitosan
2. Increase Drug Solubility
   
   • change molecular form: Prodrugs, salts, co – solvents, cyclodextins, surfactants
3. Enzyme Inhibitors
   
   • Prevent hydrolysis, enhances permeability
4. Permeation enhancer
   
   • alter epithelium – improve stability

Question 10

What is mucoadhesion and what is bioadhesion

Answer 10

Bioadhesion

­Mechanism by which two biological materials are held together by interfacial forces

­Nasal epithelial surface

Mucoadhesion

­Attachment of a drug carrier system to the mucus layer of a mucosal epithelium to maintain intimate contact for extended periods

­Required to over come mucociliary clearance

Question 11

What can be used for mucoadhesion and how do these work?

Answer 11

• ­Mucoadhesive polymers - under go physical or chemical bonding
• ­Work by: Hydration / carriers / permeability
  
  • Hydration - Polymer comes into contact with mucus with promotes hydration and extention of polymer chains which hold carrier system in place
  • Carrier - Carries and protects drug (less enzyme degr)
  • Permeability - As polymer hydrations the cells dehydrate and this opens tight junctions
• ­Powders, liquids, gels - Temp / pH

Question 12

What are the stages of mucoadhesion?

Answer 12

1.Contact stage

Intimate contact between mucoadhesive and mucosa

2. Consolidation Stage

Interpenetration: Mucoadhesive penetrates crevices of epithelium – physical bonding between the glycoprotein (responsible for adhesive and cohesive properties of mucus) and polymer chains

Formation of chemical secondary bonds: Van der Waals, hydrogen, hydrophobic interactions (anionic/non – ionic), electrostatic interactions (if cationic – mucus anionic)

Question 13

What are other factors affecting absorption

Answer 13

Physiochemical Factors Affecting Absorption

• Solubility, concentration, pH, Log P, excipients, pKa, lipophilicity/hydrophobilicity, molecular size

Patient Factors

• Compliance, disease, nasal vascularity, environmental factors

Delivery Device

• Volume, spray, droplet size, site

Question 14

What factors do you need to consider when developing a nasal prodcut?

Answer 14

ØLiquid (solution, gel or suspension), ointment / cream or powdered solid

Ø Physiochemical drug properties: Solubility, concentration, pH, Log P, excipients, pKa, lipophilicity/hydrophobilicity, molecular size

Ø Stability – temp/light, crystal growth, resuspension, homogeneity, uniformity

Ø Particle size distribution (10 – 50µm)

Ø Excipients – as few as possible

Question 15

What are examples of excipients you might want to add and their function

Answer 15

Question 16

What are examples of delivery devices?

Answer 16

Tube

­Creams and ointments, uncontrolled dose, apply with finger, messy, local effect only e.g. mupirocin

Dropper

­Liquids, nasal decongestants, suck-back, application complex

Nasal spray

­Liquids, 3 – 50ml bottle, spray nozzle, fine droplets (25 – 50µm), singles dose (25 – 200µl).

Breath-actuated delivery

­Liquids and powders, tight fitting nozzle placed in nostril and metered dose is aerosolised by blowing through mouthpiece, separates oral and nasal cavities, e.g. OptiNoseTM

Electronic atomisation

­Liquids, controlled droplet size (8 - 30µm), expensive

Nasal pressurised meter-dosed inhaler

­Powders, propellant gives good dispersion, phased out for cheaper aqueous preparations

Question 17

Advantages of the nasal route

Answer 17

• Good compliance – non invasive, convenient / accessible route

• Rapid effect
• Avoids 1st pass metabolism / GI irritation
• Lower dose
• Manufacturing cost costs – i.e. no sterilisation
• Management of chronic disorders

Question 18

Disadvantages of nasal route

Answer 18

• Limited volume delivery (25 – 200µl)
• Mucociliary Clearance / mucus barrier
• Enzymic activity / metabolism
• low permeability of hydrophilic drugs
• Short absorption time / inconsistent absorption
• Drug instability – peptides
• Rebound congestion