Lecture 3

Question 1

Name the processes and barriers for drug delivery to occur

Answer 1

• Administration - Distribution - Molecular Targeting - Drug Action
• Anatomical Barriers - Physiological barriers - Immunological barriers - Metabolic barriers

Question 2

Molecular/cellular permeation of external protective barriers of the body

Answer 2

• Anatomical barriers demarcate the interior system from its surroundings
• Blood-tissue barriers (such as blood-brain barrier)

Question 3

Potential difficulties with efficient drug transportation and molecular targeting

Answer 3

• Delivery via GI-tract: extremely acidic environment in stomach
• Delivery via pharynx/trachea/bronchioli: mucociliary movement of trapped drug aerosols from pharynx to larynx
• Limitations of plasma protein transportation
• Hydrophobic interactions (fatty tissue, membranes)

Question 4

Production of drug derivatives and/or swift elimination via biotransformation

Answer 4

• Biotransformation Phase 1 & Phase 2 reactions
• Liver: major organ of drug biotransformation
• Kidney: excretory function of drug or metabolite elimination

Question 5

Potential Problems due to immune response.

Answer 5

• Natural protection against infectious agents; auto-immune complications
• Potential allergic reactions, hypersensitivity, anaphylactic shock

Question 6

Name the 3 types of drug administration

Answer 6

• Enteral administration
• Parental administration
• Topical Administration

Question 7

Enteral (enteron = intestine) administration

Answer 7

• Oral administration (swallowed or topically) - via GI tract to systemic circulation
• Buccal administration (between gums and cheek) - fast absorption via buccal mucosa
• Sublingual administration (under the tongue) - fast absorption via sublingual mucosa
• Rectal administration - slow absorption through rectal mucosa

Question 8

Parenteral (system route) administration

Parenteral injection or infusion (needle or catheter)
(anything susceptible to the pH in the stomach should be given this way)

Answer 8

• Intravenous - achieves high drug concentration in circulatory system
• ** Intra-arterial ** - rarely used form of drug administration
• Intramuscular - uniform drug absorption with rapid onset of drug action
• Subcutaneuous - slow drug absorption under the skin with prolonged drug action
• ** Intra-articular** - direct drug administration into inflamed joined cavities
• **Intrathecal ** - delivery into space between spinal cord and its protective sheath
• Intradermal - drug administration within skin layers.
• Systemic route: inhalation - absorption through lungs

Question 9

Topical administration

Answer 9

Administration to surface mucous membranes

Question 10

Examples of oral administration

Answer 10

• tablets, capsules, solutions
• coated or matrix tablets

Question 11

Inhalational administration

Answer 11

• aerosols, nebulizer

Question 12

Dermatological agents

Answer 12

• Powders, (greasy) ointments, creams
• Transdermal delivery systems

Question 13

Injection or infusion

Answer 13

• Intravenous
• intrea-arterial
• subcutaneous
• intramuscular
• sublingual
• rectal

Question 14

Where does drug absoption occur?

Solid dose (disintegration) - dissolution - (liquid dose) absorption

Answer 14

Drug absorption occurs through gastrointestinal mucosal lining.

Due to the slow processes involved in the disintegration of tablets and the dissolution of must drugs, absorption occurs mostly in the mucosal lining of the Intestine.

Solutions/mixtures permit direct absorption already in stomach region.

Question 15

What is the function of the shell on Coated tablets?

Answer 15

Coated tablets consist of a drug-containing core and a covering shell to:
- facilitate passing of drug on swallowing
- mask a disagreeable taste
- protect a perishable drug

Enteric-coated tablets:
Coating as barrier function to protect acid labile drugs

Question 16

Capsules

Answer 16

With oblong casing usually contains drug in powder form

Question 17

Matrix tablet

Answer 17

contains the drug embedded in an enert meshwork:
Upon contact with water, drugs are slowly released by diffusion.

Question 18

Inhalational Drugs

Answer 18

• Drug delivery in the form of an aerosol
• Conversion of drug solution or micronized powder to gas form
• Drug distribution as a gas or mist by nebulizer or spray dispenser * Delivery mostly to bronchial mucosa

Question 19

What does the Effectiveness of Delivery Process of Inhalational Drugs depend on ?

Answer 19

• Size of aerosol particles
• Position of inhaler device
• Coordination between spray release and inspiration

Question 20

Depth of drug penetration

Answer 20

• Particles: > 100μm Trapped in oropharyngeal cavity
• Particles: : 0-60μm Trachea (bronchi)
• Particles: < 2μm Bronchioli (alveoli) Very little; mostly exhaled

Question 21

What determines the speed of drug absoption ?

Answer 21

The route and method of application determines the speed of drug absorption

Question 22

Fastest to slowest methods of drug absorption

Answer 22

• Intravenous injection
• Intramuscular injection
• Subcutaneous injection
• Oral application

Question 23

Factors that play a role in the delay of pain killer action
Do capsules work faster than dissolved agents?

Answer 23

• Large amounts of undigested food in GI-tract may slow down the passage of some pharmacological agents
• Dissolved agents usually act faster than substances in stomach acid-resistant capsules
• Drug-drug interactions can have a major effect on the pharmacological effects of pain killers

Question 24

Aspirin

Answer 24

• fast acting , water-soluble, already absorption in stomach, with lower levels of bioavailability.

Question 25

Paracetamol

Answer 25

• slower-acting, but higher levels of bioavailability after approximately an hour

Question 26

Ibuprofen

Answer 26

fast acting and high bioavailability, but may be negatively affected by large amounts of undigested food in GI-tract