Pharmacodynamics, Pharmacokinetics, pharmacogenetics, Adverse drug reactions & Dosing regimens

Question 1

Define Agonist

Answer 1

Medication/drug that causes something to happen (salbutamol, mimics adrenaline)

Question 2

Define Antagonist

Answer 2

Something that opposes/blocks an action

Question 3

What is CYP450?

Answer 3

An enzyme that the liver produces, enabling the liver to break down medications

Question 4

Define Pharmacodynamics

Answer 4

What the drug does to the body. The Interaction between a drug & its molecular target and the resulting pharmacological responses

Question 5

Define Pharmacokinetics

Answer 5

Movement through the body (absorption, metabolism, secretion, excretion) (What the body does to the drug)

Question 6

Define Bio-Availability

Answer 6

The amount of medication the body uses at the end. Depends on how the medication has been administrated (For example, IV, which can go straight into the bloodstream or oral, which absorb through the digestive system, then into the systemic circulation system

Question 7

What is Prodrug?

Answer 7

Some people may not have enough of CYP450 to convert codeine (for example) into morphine in the liver, which means patients may not be getting the full therapeutic dose of codeine to alleviate pain.
- A medication which is converted in the liver to the active drug

Question 8

What is the Hepatic First Pass and how does it work?

Answer 8

Medication travels down through the stomach, absorbed in the small intestine, absorbed in the liver before moving to the systemic circulation

An oral medication, most of the drug is absorbed in the small intestine, drug goes via the portal vein to the liver, the liver may ‘ditch’ some. Then the liver activates it using enzymes and sends it through to the systemic circulation system, and it is sitting in the plasma, these then bind to the albumin in the plasma. Only a certain amount of the drug is ended through to the systemic circulation system.

(refers to the amount of drug removed by the liver following its oral absorption in GI system)

Question 9

What percent of IV medications are available to the bloodstream and why is this?

Answer 9

100% of IV medications are available to the bloodstream, as the medications are administrated via IV goes directly into the systemic circulation, meaning they bypass the digestive system

Question 10

Define Generic Name

Answer 10

Actual name of the drug (e.g. amlodipine), the official name listed in publications and used for prescribing

Question 11

Define Trade Name

Answer 11

Marketed name - the name that the drug is marketed under; several different ways to name the generic drug (e.g. Norvasc)

Question 12

Define Chemical Name

Answer 12

Describes the chemical composition.

Question 13

List the four main types of proteins that drugs act on

Answer 13

• carrier (transporter)
• enzyme
• ion channel
• receptor

Question 14

Define Drug Absorption

Answer 14

the process by which the unchanged drug proceeds from the site of administration into the blood

Question 15

What VARIABLES effect drug absorption?

Answer 15

• drug solubility
• drug ionisation
• drug formulation (SR, CR, ER)
• physiological factors (blood flow, rapid intestine transit time, food in stomach, stomach pH)

Question 16

Define drug distribution

Answer 16

the process of reversible transfer of the drug from the blood into other body compartment

Question 17

What are 4 factors that impact drug distribution

Answer 17

• Capillary permeability
• plasma protein binding
• cardiac function
• tissue binding

Question 18

Define drug clearance

Answer 18

refers to the time taken for the drug to be eliminated from the body

Question 19

Using reference to pharmacokinetic and pharmacodynamic principles explain why therapeutic drug monitoring is required for some drugs

Answer 19

Monitoring is required in some drugs due to the risk of toxicity.

Question 20

Define Half-Life

Answer 20

is the main time taken for blood drug plasma concentration to fall by 50% of its original value

Question 21

What is the significance of a Half-Life?

Answer 21

is that it is determined of the action duration of a drug after a single dose, the time taken to reach steady state with chronic dosing and the dosing frequency required to avoid massive fluctuation in plasma drug.

Question 22

What factors can influence a half-life?

Answer 22

• volume of distribution
• clearance

Question 23

Define Metabolism

Answer 23

the process by which the drugs are made less lipophilic (more hydrophilic) for more efficient elimination by the kidneys. The liver is the main site of metabolism of the drugs. Main enzyme—CYP450

Question 24

What factors influence drug metabolism?

Answer 24

• Age (↓hepatocytes, ↓enzyme)
• genetic (deficiency of enzymes i.e. codeine)
• disease state (HF, shock, hepatitis, cirrhosis)
• diet & environmental factors (grapefruit)
• drug interactions

Question 25

Define Drug excretion

Answer 25

• Excretion is a process whereby drugs or metabolites are irreversibly transferred from the internal environment to the external environment through a renal or non-renal route.

Question 26

What factors influence drug excretion?

Answer 26

The primary organs involved in excretion include, kidney (renal excretion), bile (biliary excretion), lungs – expired air (pulmonary excretion), sweat (skin excretion), saliva (salivary excretion), milk (mammary excretion).

Question 27

Define elimination

Answer 27

the irreversible loss of the drug from the body by the process of metabolism & excretion. Occur mainly in kidney, also in bile, through sweat, saliva, faeces, breast milk, exhaled air.

Question 28

Define Down regulation

Answer 28

(desensitisation): a decrease in receptor numbers can lead to desensitisation & loss of response. i.e. salbutamol, opioids

Question 29

What is an Enzyme Induction?

Answer 29

when a drug is present in the body for a prolonged period, the amount of metabolising enzymes can increase & thus speed up metabolism of that drug. This can decrease the concentration of active drug, meaning patient may require an increase in drug dose. i.e. morphine; alcohol, tobacco smoking

Question 30

What is an Enzyme Inhibition?

Answer 30

if a drug or food inhibits a metabolising enzyme. It is known as an enzyme inhibitor. Substances that cause enzyme inhibition may lead to the accumulation of drugs in the body leading to toxicity. i.e. grapefruit, Erythromycin

Question 31

What is Therapeutic Range?

Answer 31

is the range of the drug concentration having a high probability of producing desired therapeutic effect & a low probability of producing adverse effects

Question 32

What does therapeutic range help to ensure?

Answer 32

• High probability of drug producing desired effects
• Low probability of drug producing adverse effects

Question 33

What is Steady State?

Answer 33

dosing schedule is maintained after 3-5 half-life. The rate of administration will equal to the rate of elimination—steady state is the aim of drug therapy

Question 34

What is Loading Dose?

Answer 34

allow rapid achievement of therapeutic serum levels.

Question 35

What type of drug are usually loading doses?

Answer 35

Antibiotics

Question 36

Why is a higher dose of a loading dose administered at first?

Answer 36

To reach the therapeutic range quickly

Question 37

What are Zero-Order Kinetics?

Answer 37

is the constant amount of drug per unit time is metabolised (metabolic rate does not increase as drug concentration increase, i.e. alcohol, in drug overdose situation when it’s saturated). Medications that DON’T HAVE a half-life, the body can only metabolise so much, once it reaches past this thresh-hold, it will continue to metabolise at the same rate, which could lead to an overdose due to a build up of the drug. The body doesn’t have the ability to increase the enzymes to break down the drug

Question 38

What are First-Order Kinetics?

Answer 38

the amount of drug eliminated from the body is proportional to the drug plasma concentration (increased plasma concentration →increased rate of drug metabolism)—most drugs go through first order kinetics. Medications that HAVE a half-life

Question 39

What drugs can easily cross the cell membrane?

Answer 39

lipophilic (lipid-like), small molecules, unionised (more lipid soluble)

Question 40

What should you consider when assessing a person’s ability to excrete drugs?

Answer 40

renal function, urinary pH

Question 41

Where is the drug first distributed?

Answer 41

To the area of high blood supply –brain, heart, liver, kidney

Question 42

Where do tissue binding and drug storage occur?

Answer 42

In muscle, adipose tissue, bone, teeth

Question 43

Define drug competition

Answer 43

drug may compete for binding with the plasma protein. i.e. aspirin displaces warfarin, therefore increases warfarin plasma concentration

Question 44

How does renal excretion occur?

Answer 44

• glomerular filtration
• tubular secretion
• tubular reabsorption

Question 45

Define Pharmacogenetics

Answer 45

the effect of genetics on the drug action & elimination i.e. 6-10% Caucasian lack enzyme that metabolise codeine

Question 46

What food can interact with Tetracyline?

Answer 46

Milk Products

Question 47

What food can interact with warfrin?

Answer 47

Vitamin K Rich foods

Question 48

What food can interact with Monoamine oxidase inhibitor (MAOi)?

Answer 48

Foods high in tyramine

Question 49

What food can interact with Statins?

Answer 49

grapefruit juice (grapefruit juice inhibits metabolising enzyme ↑toxicity of statins)

Question 50

What two types of classifications are there for adverse drug reactions?

Answer 50

Type A, Type B

Question 51

Explain the difference between Type A and Type B adverse drug reactions

Answer 51

TYPE A:
- predictable
- dose-related
- often is an exaggeration of therapeutic effect
- high incidence
- Low morality

TYPE B:
- Unpredictable
- May not be dose-related
- Incidence low
- High mortality

Question 52

List the risk factors for developing an adverse reaction.

Answer 52

• Age (elderly)
• Gender- women
• Concurrent disease
• Genetics
• History of past reactions
• Pharmaceutics (chemical characteristics)
• Route of administration
• Dose duration and frequency

Question 53

What three medications require blood tests and why?

Answer 53

• Clozapine—risk of agranulocytosis, weekly blood test for first 18 weeks, then monthly
• Heparin—aPTT, therapeutic range 60-90 seconds
• Warfarin—PT & INR, therapeutic range 2.0-4.0

Question 54

Which drugs may cause bronchospasm?

Answer 54

Aspirin, beta-blocker (Non-selective), NSAIDs, Morphine

Question 55

What drugs could cause ototoxicity?

Answer 55

loop diuretics, Aspirin, Aminoglycosides

Question 56

What drugs can increase potassium levels?

Answer 56

ACEi, ARBs, K+ sparing diuretics (Spironolactine)

Question 57

What drugs can decrease potassium levels?

Answer 57

Loop /Thiazide diuretics, corticosteroids

Question 58

What drugs that decrease therapeutic effect when used excessively or prolonged?

Answer 58

• beta2 agonist (i.e. Salbutamol)
• Nitrate tolerance
• loop diuretics resistance
• opioids

Question 59

What drugs cause withdrawal if stopped suddenly?

Answer 59

• beta blockers—rebound Tachycardia, dysrhythmia, ↑BP, chest pain, sweating, tremors, ↑risk of MI
• Benzodiazepines withdrawal–Insomnia, agitation/irritability, fearfulness, muscle spasm/tremors, gastric problems, sweating
• Opioids - Cravings, Insomnia, Agitation, mood swings, tremors

Question 60

What does gastric juice in the stomach contain?

Answer 60

• Hydrochloric Acid (HCI)
  
  • Mucus
  • Gastric Enzymes

Question 61

What is the function of Hydrochloric Acid (HCI)?

Answer 61

• Kills microbes in food
• H+ ions are actively pumped into lumen by proton pumps

Question 62

What is the function of the mucus?

Answer 62

• Protects stomach wall from being damaged by the HCL