1.  CYP enzymes - ◦ enzyme induction -  liver produces extra enzyme to break down drug with continued exposure  Genetics

3. Pharmacokinetics

7.  Estimates that there is a 10-year gap between medically relevant bio-technological advances and appropriate application, or translation into routine medical practice

8.  Enzyme Inhibition ◦ Some drugs inhibit CYP enzymes and increase their own levels, as well as levels of any other drug metabolized by that enzyme. Can produce toxicities. ◦ Example: Inhibition of antipsychotic medication by SSRIs. Pharmacokinetics

9.  CYP enzymes - ◦ enzyme induction -  liver produces extra enzyme to break down drug with continued exposure  Genetics  Liver disease

10. cirrhotic liver

11. In some cases, biotransformation can be to another psychoactive compound ex. benzodiazepenes diazepam nordiazepam oxazepam

12.  Excretion ◦ Primarily accomplished by kidneys.  2 organs (about the size of a fist) located on either side of the spine in the back.  Keep the right balance of water and salt in the body  Filter everything out of blood and then selectively reabsorb what is required.  Can be useful for eliminating certain drugs in overdose. Pharmacokinetics

13.  all drugs not in gaseous state need to use fluid routes of excretion ◦ fluid routes include -sweat, tears, saliva, mucous, urine, bile, human milk ◦ amount of drug excreted in each of these fluids is in direct proportion to amount of fluid excreted SO…….

14.  Sometimes drugs are not metabolized and are excreted intact. ◦ Lithium ◦ Mushroom amanita muscaria  In large doses it is toxic and lethal; small amounts are hallucinogenic.  Hallucinogenic ingredients are not greatly metabolized and are passed to the urine. Siberian tribespeople discovered this and recycled the drug by drinking their urine. Pharmacokinetics

15.  Sometimes drugs are not metabolized and are excreted intact. ◦ Lithium ◦ Mushroom amanita muscaria  In large doses it is toxic and lethal; small amounts are hallucinogenic.  Hallucinogenic ingredients are not greatly metabolized and are passed to the urine. Siberian tribespeople discovered this and recycled the drug by drinking their urine. Pharmacokinetics

16. absorption, distribution and excretion do not occur independently

17. 1. Body weight - smaller size concentration of drug based on body fluid 2. Sex differences 3. Age

18. 4. Interspecies differences rabbits – belladonna (deadly nightshade) 5. Intraspieces differences 6. Disease states 7. Nutrition 8. Biorhythm - chronopharmacology

19.  half-life - time takes for the blood concentration to fall to half its initial value after a single dose  ½ life tells us critical information about how long the action of a drug will last

21. Table 1.4 Julien: A Primer of Drug Action, Eleventh Edition Copyright © 2008 by Worth Publishers

22.  How long would it take for a drug to reach 12.5% remaining in blood if its ½ life is 2 hours?  How long would it take for a drug to reach 12.5% remaining in blood if its ½ life is 100 hours?

23.  Provides a good indication of the time necessary to reach steady state after a dosage regime has been initiated (6X)

24.  drug elimination = drug availability  usually try and maintain steady state concentration in therapeutic window

26.  So if a drug had a 3 hour ½ life – how long would it take to reach steady state?

27.  Therapeutic drug monitoring - branch of clinical chemistry that specializes in the measurement of medication levels in blood. Its main focus is on drugs with a narrow therapeutic range,

28.  - need to reach threshold plasma concentration at the receptor site to initiate and maintain a pharmacological response. ◦ assume that plasma represents good indicator of local site  TDM is actually indirect  How is TDM determined?

29.  What happens if? ◦ Plasma levels are too high – ◦ Plasma levels are too low –  Focus on levels rather than dose

30.  Determine if patient is taking drug as prescribed  Avoid toxicity  Enhance therapeutic process  Reduction in cost of therapy

31.  Definition:  Types of tolerance: ◦ Metabolic tolerance:  Type of pharmacological tolerance ◦ Pharmacological Tolerance ◦ Behavioral conditioning  Physical dependence: ◦ Entirely different than tolerance

32.  Pharmacodynamics ◦ drugs produce their effects by binding to and interacting with receptors  What is a receptor? ◦ usually a protein on the surface or in the cell

34.  each NT binds to its own receptors ◦ there can be multiple receptor subtypes

36.  each NT binds to its own receptors ◦ there can be multiple receptor subtypes  useful for understanding drugs that work on the specific neurotransmitters

38.  Given drug may be more specific for a given set of receptors than is the endogenous nt ◦ 5HT – (serotonin) – attaches to more than 15 nt receptors – ◦ Buspirone (BuSpar) attaches to 5HT 1A but no affinity for other 5HT receptors.

39.  Bind to the receptor site that nt normally binds to; acts just like nt ◦ Agonist  Can facilitate endogenous nt; ◦ Agonist ◦ Allosteric action  Bind to the receptor site but do not initiate transmitter-like activity ◦ Antagonistic effect

40.  Drugs exert effects by forming reversible bonds w specific receptor  100s of different types of receptors w ability to recognize 1 nt characterizes each of these  Drugs do not create any unique effects – modulate normal neuronal functioning

41.  Several configurations of proteins  Ion channel receptors ◦ ionotropic

42.  1. ionotropic postsynaptic receptors  quick action and over quickly ◦ “ion channel receptors”

44. Ion channel - close Copyright © motifolio.com 7111232

45. Ion channel - open Copyright © motifolio.com 7111231

46. Copyright © motifolio.com Ligand-gated channels Neurotransmitter receptor Ca 2+ -activated K + channel Cyclic nucleotide gated channel Na + K+K+ Glu K+K+ Ca 2+ Na + K+K+ cAMP cGMP 7111158

48.  2. G-protein coupled receptors ◦ (metabotropic) ◦ 2 nd messenger systems ◦ more than 50 G protein coupled receptors have been identified (large and diverse family) ◦ control many cellular processes ◦ Involved in synaptic effects of many nt

50.  3. carrier proteins (transporter) ◦ presynaptic transporters – transport NT back into presyn ending  4. enzymes – ◦ what is an enzyme? ◦ breakdown NT -

51.  receptors exhibit high specificity for specific nt (and certain drugs)  Minor modification in structure of drug can have major impact

52.  info on a range of doses of drug  dose usually presented on horizontal axis (log concentration)  size of effect or percentage affected usually on vertical axis

54.  the intensity or magnitude of the response in a single person  the % of people who exhibit a characteristic effect at a given dosage

56.  potency - amount of drug required to elicit a response  slope of the line tells you about how much difference in drug is needed for small effects relative to larger effect

58.  Efficacy - maximum effect obtainable - peak of the DRC indicates the maximum effect

62.  Variability and slope – individual differences in drug response

64. A. As dose increases; effect increases B and C - maximal effect that dose can reach (differ in efficacy) D. Inverted U function - works better at intermediate doses than higher or lower doses

65. Different DRC depending upon measure of interest

66.  ED 50 - The dose of a drug that produces the desired effect in 50% of the population  LD 50 –  TI = Therapeutic Index – measure of safety LD 50/ED 50

67. hypothetical drug that can be used as a sedative – this is tested in mice – ** dose cannot guarantee 100% sleeping and no deaths

68. Caution in interpreting DRC Often see a bell-shaped curve in response to drug

69.  antagonist - one drug diminishes the effect of another ◦ Shifts the DRC to the right  agonist – one drug is additive to the effect of another

72.  expected results – due to the principal actions of the drugs  less expected –  no drug is completely selective

73.  definition?  types of tolerance ◦ metabolic tolerance – enzyme induction ◦ pharmacodynamic tolerance –

74. chemical see-saw drugbrain response

75. The brain wants to rebalance the activity

76.  antagonist - one drug diminishes the effect of another ◦ Shifts the DRC to the right  agonist – one drug is additive to the effect of another