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Pharmacokinetics

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Pharmacokinetics Pharmacology Chapter 2 Pediatric Patients Children undergo constant physiologic changes that can affect the ADME scheme of Kinetics. – PowerPoint PPT presentation

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Title: Pharmacokinetics


1
Pharmacokinetics
  • Pharmacology
  • Chapter 2

2
How Does medication Work in our Bodies?
  • Pharmacokinetic Model
  • Different cells are targeted to evoke a desired
    response
  • Via chemical messangers.
  • Can you name some?

3
Receptors
  • Cells communicate through the action of chemical
    messengers
  • Target cell-(the cell that responds to the
    communication).
  • Receptor is a protein molecule on the surface of
    or within a cell that recognizes and binds with
    specific molecules, thereby producing some effect
    within the cell.
  • Specificity- the messenger has the same receptor
    structure as the target cell.
  • Affinity- the strength by which a messenger binds
    to a receptor site.

4
Mechanisms of Drug Action
  • How a drug produces its effects.
  • Agonist is a drug that binds to a particular
    receptor site and triggers the cells response in
    a manner similar to the action of the bodys own
    chemical messenger.
  • Antagonists- Drugs that bind to a receptor site
    and block action of chemical messengers.
  • Other drugs
  • interact with non specific lipids
  • combine with proteins
  • Use Osmosis -how water is reabsorbed by the
    kidneys

5
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6
Pharmacokinetics
  • The action of drugs in the body over a period of
    time .
  • Pharmacokinetic Processes
  • ADME Scheme of kinetics (Pharmacokinetic
    Modeling)
  • Absorption
  • Distribution
  • Metabolism
  • Elimination
  • Considerations such as
  • Levels of the drug in blood and tissues
  • Overall distribution
  • Reaction of the drugs with other drugs
  • Patient compliance
  • Life of the drug that includes bioavailability,
    half-life, bioequivalence

7
Pharmacokinetics
8
Absorption
  • The process whereby a drug enters the circulatory
    system.
  • Rate depends on ROA, solubility and physical
    properties.
  • Dissolution the time necessary drug to be
    dissolved.
  • Rate of dissolution depends on the chemistry,
    surface area, and mnf variables.
  • Primary site of absorption- Small Intestine
  • GI motility can affect the rate of absorption

9
Distribution
  • The process by which a drug moves from the blood
    into other body fluids and tissues.
  • Factors that affect distribution
  • Binding to Plasma Proteins
  • Binding to Cellular Constituents
  • Blood Brain Barrier
  • Blood flow is the rate
  • The distribution is not necessarily equal
    throughout the whole body

10
Metabolism
  • The process of converting drugs to compounds that
    are useful in the body.
  • Factors that can alter metabolism
  • Other medications
  • Disease states, age, genetics

11
Metabolism
  • Most metabolism takes place in the liver
  • Metabolism changes the chemical structure of the
    original drug
  • There are different influences that can alter
    metabolism such as age, gender, genetics, diet,
    and other chemicals digested

12
Excretion
  • Occurs primarily in the kidney and bowel.
  • Also exhalation, sweat glands, breast milk
  • Clearance - rate at which a drug is eliminated
    from a specific volume of blood per unit of time.
  • Excretion is the last phase of a drugs life in
    the body

13
Important Pharmacokinetic Parameters
  • Safe and effective drug therapy requires that
    drugs be delivered in concentrations that will
    treat the disease without toxicity.
  • Bioavailability how much of the drug administered
    becomes active in the body.
  • First Pass effect- drugs must first pass through
    the intestines and the liver before reaching
    target site.
  • Ceiling effect -Greater doses are given until a
    point is reached when no improved clinical
    response occurs and increasing beyond this point
    can cause side effects, toxicity and death.

14
Pharmacokinetics
  • Dose-Response Curve

15
  • Therapeutic window - optimum response with the
    least probability of toxicity.
  • Therapeutic level/Range -amount of drug in the
    blood that produces the desired effect.
  • Duration of Action -The amount of time a drug is
    at this level
  • Loading dose, the amount of drug needed to bring
    blood quickly to desired response.

16
Pharmacokinetics
  • Therapeutic Range

17
Pharmacokinetics
  • Duration of Action

18
Maintenance Doses
  • Given to maintain therapeutic levels

19
Half Life
  • The time it takes for the body to eliminate half
    the drug
  • T1/2
  • It takes a drug 5-7 times longer than its half
    life to be considered removed from the body
  • 1000mg of Drug a has t ½ of 2 hours
  • 12 am Take first dose
  • 2am 500 mg left
  • 4am 250 mg left
  • 6 am 125 mg left
  • 8 am 62 mg left
  • 10 am 31 mg left
  • 12pm 15 mg left
  • 2 pm 7 mg left
  • 4 pm drug eliminated
  • 14 hours to rid the body of the medications

20
Half Life
21
Discussion
  • How is a drugs volume of distribution,
    clearance, and half-life used in dosing drugs?
  • Answer Volume of distribution is important for
    calculating the loading dose, clearance for
    calculating the maintenance dose, and half-life
    for determining the dosing interval.

22
Bioequivalence
  • This is the comparison between drugs either from
    different manufacturers or in the same company
    but from different batches of a drug
  • Generic drug manufacturers strive to achieve the
    same equivalence as brand name manufacturers for
    competition

23
Drug Effects
  • Effects of drugs can be beneficial or detrimental
    and dangerous.
  • Site of action- location in the body where a drug
    exerts its therapeutic effect.
  • Beneficial Responses
  • Therapeutic Effect
  • effect-The desired action of a drug in treatment
    or symptom of a disease.
  • Local Effect
  • Confined to a specific part of the body
  • Systemic Effect
  • Generalized, all-inclusive effect on entire body

24
Drug Effects
  • When choosing a drug for a patient, a healthcare
    practitioner considers
  • Indications
  • diseases, symptoms, and conditions for which the
    drug is known to be of benefit
  • Contraindications
  • conditions for which the drug will not be
    beneficial and may do harm

25
Drug Effects
  • Side Effects
  • secondary responses to a drug other than its
    intended effect.
  • Allergic responses
  • Drug dependence, addiction, abuse, and tolerance

26
Harmful Responses
  • An allergic response can be a local or general
    immune response.
  • an overreaction to a harmless substance.
  • Can be mild to severe
  • Anaphylactic response- characterized by
    respiratory distress, vascular collapse and
    shock.
  • Idiosyncratic reactions- unusual or unexpected
    reactions to a medication.
  • Drug dependence- physiological and/or
    psychological need for a drug
  • Addiction- A perceived need for a drug
  • Abuse The use of a drug for purposes other than
    prescribed and or in amounts not directed.
  • Tolerance -Decreased response to the effects of a
    drug do to its continued use.

27
Drug Interactions
  • Combined effect of two or more drugs.
  • Common Drug relationships
  • Addition
  • 1 1 2
  • Antagonism
  • 1 1 1
  • Potentiation
  • 0 1 gt 1
  • Synergism
  • 1 1 gt 2

28
Discussion
  • Name a common drug-food interaction.
  • Answer Grapefruit juice can affect drugs for up
    to a day following ingestion.

29
Discussion
  • Why is it important for the pharmacy to have a
    complete list of all of the prescription drugs,
    OTC medications, vitamins, and herbal remedies
    that a patient is taking?
  • Answer Such a list will help healthcare
    professionals identify potential drug
    interactions.

30
Factors that Influence Drug Effects
  • Age
  • Gender
  • Disease/Medical condition
  • Other-psychological, genetics, allergies.

31
Geriatric Pharmacology
  • Factors that affect the rate of aging
  • Genetics
  • Nutrition
  • exercise
  • injury
  • disease
  • environment
  • Geriatric over 65,
  • Most elderly patients will take 4 different RXs.
  • This increases the chance of adverse reactions or
    drug-drug interactions.

32
Physiological Effects of Aging on Pharmacokinetic
Process
  • Loss of lean body mass
  • Decrease in of body water
  • Increased of body fat
  • Absorption- is slowed and a delay in the onset of
    drug action occurs.
  • Distribution - drugs can become more concentrated
    within the system. Increased body fat can slow
    the excretion of fat soluble drugs.
  • Metabolism-is reduced and there is an increase in
    the duration of drug actions
  • Elimination - Reduced blood flow and surface area
    can cause delays in excretion.

33
Drug Compliance in the Elderly
  • The elderly can easily become confused by their
    dosing regiments and can have difficulty
    remembering what meds are for what.
  • Polypharmacy- multiple drug prescriptions.
  • Increased side effects,
  • Forgetting to take prescribed dose
  • Continuing to take D/C Meds
  • Difficult dosage form
  • Small print on drug labels
  • Look alike pills
  • An average of six diseases coexist in older
    persons.

34
Pediatric Patients
  • Children undergo constant physiologic changes
    that can affect the ADME scheme of Kinetics.
  • Could cause over or under dosing, resulting in
    failure of therapy, adverse reactions and death.
  • Age and or weight is the least reliable guideline
    for dosing,
  • BSA

35
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36
Lets Try it!
  • Child weighs 13.9 kg and is 85 cm tall
  • What is the BSA?
  • 13.9 x 85
  • 1181.5
  • 1181.5/3600 (hit the before next step!)
  • 0.3281944
  • 0.3281944 v
  • 0.572 m2

37
Once More with Feeling!
  • Child weighs 12.2 lb and is 24 inches tall
  • What is the BSA?
  • 12.2 x 24
  • 292.8
  • 292.8/3131 (hit the before next step!)
  • 0.0935164
  • 0.0935164 v
  • 0.305 m2

38
Discussion
  • What can the pharmacy technician do to help
    patients manage their medications properly?

39
Teaching Patients To Manage Their Medications
  • Patients failure to follow drug regimen is often
    caused by a lack of understanding or unclear
    information.
  • The pharmacy technician can positively affect
    patient compliance by providing clearly written
    instructions and aids.
  • Techs are responsible for gathering and
    maintaining patient information such as medical
    history and possible allergies to prevent drug
    interactions and duplications.
  • Obtain information about OTC medications.

40
  • Techs should type full , clear directions on the
    prescription label this includes.
  • Name and strength of medication ( Brand and
    Generic if applicable)
  • Qty ( 1 tablet , 5 ml, 1 teaspoonful)
  • Route ( po, pr)
  • Time ( tid, qid )
  • Any extra information. ( dx) Unwrap etc)
  • Axillary labels
  • 1 qd
  • Take 1 every day?
  • Take 1 tablet orally every day.

NO!!!
41
Teaching Patients Medication Management
42
Teaching Patients Medication Management
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