🔹 Pharmacodynamics Flashcards

1
Q

What is pharmacokinetics?

A

Pharmacokinetics is the study of the movement of a drug into and out of the body

“What the body does to the drug”

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2
Q

What is pharmacodynamics?

A

Pharmacodynamics is the study of drug effect and mechanisms of action

“What the drug does to the body”

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3
Q

What is pharmacogenetics?

A

Pharmacogenetics is the effect of genetic variability on the pharmaco- kinetics/dynamics of a drug on an individual

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4
Q

What are agonists?

A

Agonists are drugs which activate endogenous proteins

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5
Q

What are antagonists?

A

Antagonists are drugs which antagonise, block or inhibit endogenous proteins

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6
Q

What are competitive antagonists?

A
  • Competitive antagonists are drugs which compete with the substrate to antagonise, block or inhibit endogenous proteins
  • They bind at the same site as the substrate and are surmountable
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7
Q

What are non-competitive antagonists?

A
  • Non-competitive antagonists are drugs which bind irreversibly to endogenous proteins to antagonise, block or inhibit their actions
  • They bind at the allosteric site and are non-surmountable
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8
Q

Identify 5 locations where drugs work

A
  • Cell surface receptors
  • Nuclear receptors
  • Enzyme inhibitors
  • Ion channel blockers
  • Transport inhibitors
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9
Q

Identify 5 unconventional mechanisms of drug action

A
  • Disrupting structural proteins
  • Acting as enzymes
  • Covalently linking to macromolecules
  • Reacting chemically with small molecules
  • Binding free molecules/atoms
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10
Q

What is drug selectivity?

A

Drug selectivity refers to a drug’s ability to preferentially act at its target, reducing the chances of its interaction with different targets

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11
Q

What is drug specificity?

A

Drug specificity refers to a drug’s ability to bind to specific receptor subtypes, often allowing drugs to be targeted against specific organ

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12
Q

What is affinity?

A

Affinity is the tendency of a drug to bind to a specific receptor type

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13
Q

What is efficacy?

A
  • Efficacy is the ability of a drug to produce a response as a result of the receptor or receptors being occupied
  • It describes the maximum effect of a drug
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14
Q

What is potency?

A

Potency is the dose required to produce the desired biological response of a drug

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15
Q

What is the therapeutic index?

A

The therapeutic index is the relationship between concentrations causing adverse effects and concentrations causing desirable effects

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16
Q

How does one calculate the therapeutic index?

A

Therapeutic index = Toxic Dose (TD50) / Effective dose (ED50)

17
Q

What is the therapeutic window?

A
  • The therapeutic window is the range of dosages that can effectively treat a condition while still remaining safe
  • It is the range between the lowest dose that has a positive effect, and the highest dose before the negative effects > positive effects
18
Q

In terms of the therapeutic window, what do the following mean:

  • MEC
  • MTC
A
  • MTC = Minimum toxic concentration
  • MEC = Minimum effective concentration
19
Q

What is the probability of drug interaction?

A

The probability of drug interaction rises with the number of drugs a patient uses

20
Q

In terms of absorption, explain how pharmacokinetic drug-drug interactions can occur

A

⇒ Altered P-Glycoprotein activity

⇒ Inducable/inhibitable active transporter

21
Q

In terms of distribution, explain how pharmacokinetic drug-drug interactions can occur

A

Protein-binding interactions, important for:

  • IV drugs
  • Drugs with short half-life (rapidly cleared)
  • Drugs with narrow therapeutic index
22
Q

In terms of metabolism, explain how pharmacokinetic drug-drug interactions can occur

A

Changes in blood flow (first pass metabolism)

23
Q

Explain how CYP450 inhibition occurs

A
  • Related to:

I. Half life and clearance of affected drug

II. Plasma concentration at time of interaction

  • Relatively quick onset (several hours to days)
24
Q

Explain how CYP450 induction occurs

A
  • Increase the amount of enzyme present for a specific action
  • Usually phase 1 processes
  • Rate depends on drug and enzyme (takes days/weeks)
25
Q

What are the effects of pharmacodynamic drug-drug interactions?

A

Interactions either enhance or reduce therapeutic outcome through actions on the receptors

26
Q

Describe two types of pharmacodynamic drug-drug interactions and how they occur

A
  • Agonism/antagonism at same receptor e.g. beta blockers and β2 agonists
  • Agonism/antagonism at different receptors e.g. warfarin and aspirin
27
Q

Which drugs commonly produce pharmacodynamic drug interactions?

A
  • Anticonvulsants
  • Antibiotics
  • Anticoagulants
  • Antidepressants/Antipsychotics
  • Antiarrhythmics
28
Q

In three steps, explain how the falling GFR in renal disease leads to drug interactions

A

⇒ Reduced clearance of renally excreted drugs

⇒ Disturbances of electrolytes may predispose to toxicity

⇒ Nephrotoxins will further damage kidney function

29
Q

In four steps, explain how hepatic disease leads to drug interactions

A

⇒ Reduced clearance of hepatic metabolised drugs

⇒ Reduced CYP 450 activity

⇒ Much longer half lives

⇒ Toxicity

30
Q

In four steps, explain how the falling cardiac output in cardiac disease leads to drug interactions

A

⇒ Excessive response to hypotensive agents

⇒ Reduced organ perfusion

⇒ Reduced hepatic blood flow and clearance

⇒ Reduced renal blood flow and clearance

31
Q

In three steps, explain how grapefruit juice leads to drug interactions

A

⇒ Inhibits several CYP450 isoenzymes

⇒ Decreases clearance of many drugs

⇒ May lead to increased exposures to drug of up to 16 fold

32
Q

In four steps, explain how cranberry juice leads to drug interactions

A

⇒ Inhibits CYP2C9 isoform

⇒ Decreases clearance of warfarin

⇒ Enhanced anticoagulant effect

⇒ Increased risk of haemorrhage

33
Q

How can the inter-patient variability in drug response be explained?

A

Pharmacogenetics – the variation in CYP450 expression accounts for a great deal of inter-patient variability in drug response

34
Q

Provide two examples of drugs showing variations in CYP450 pharmacogenetics

A
  • Warfarin response (CYP2C9)
  • Codeine response (CYP2D6)
35
Q

What is an adverse drug reaction (ADR)?

A

An adverse drug reaction is an unwanted or harmful reaction which occurs after the administration of a drug(s) and is suspected or known to be due to the drug(s)

36
Q

Identify and describe the three types of ADRs

A
  • Major – permanent / life threatening
  • Moderate – requiring additional treatment
  • Mild – trivial or unnoticeable
37
Q

Identify 5 causes of variability in the drug response related to the biological system

A
  • Body weight and size
  • Age and sex
  • Pharmacogenetics
  • Condition of health
  • Placebo effect
38
Q

Describe 3 causes of variability in drug response related to conditions of administration

A
  • Dose, formulation, route of administration
  • Repeated administration of drug – drug resistance; drug tolerance-tachyphylaxis; drug allergy
  • Drug interactions – GI absorption, protein binding / distribution, metabolism (stimulation/inhibition), excretion (pH/transport processes)