Medwiki

Pharmacokinetics

Resources:

go to book: Goodman and gilman Pharmacological basis of theraputics Pharmacokinetics: https://www.icp.org.nz NZFormulary: https://www.nzf.org.nz/nzf_1

Pharmacokinetics?

This is the study of how the body changes a drug and its concentration. the overview of this is adme:

Pharmacokinetic principles

ADME

Absorption How much of the drug gets into the body Distribution Split between the blood and the body compartments Metabolism (Part of Clearance) Excretion (Part of Clearance) ABDCs Administration This is related to the route dose and adherence by the patient Bioavailability absorption first pass metabolism and activation Distribution (This then feeds onto pharmacodynamics and clearance simulatanously) diffusion and transport Clearance how much is metabolised and cleared

Pharmacokinetics in Drug dosing and theraputic management

Optimal therapeutic range

This is the safe zone between minimum toxic concentration and minimum effective concentration.

Usually a single oral dose looks like this:

You want it to be within this range. So multiple oral doses or IV drip etc you need to get it to stay within this period for as long as possible

Routes of drug administration and associated properties

Enteral vs Parenteral (not enteral)

Enteral

  • Oral sublingual and rectal Parenteral
  • Systemic delivery (iv bolus/infusion etc)
  • Nonsystemic (topical and inhalation)

Cost benefits of enteral delivery

Route of deliveryAdvantagesDisadvantages
Oral deliveryEasy to administer
Inexpensive formulation		Possibly slow onset,
• Impossible in unconscious/
vomiting;
• Harsh GI environment;
• Subj. to 1st pass metabolism.
Subligual delivery• Rapid absorption into
buccal venous drainage
• Avoids 1st pass metabolism		• Patient may swallow the drug!
Rectal delivery• Rapidly Effective in
unconscious patient
• 50% of drug avoids hepatic
1st pass metabolism.		• Absorption can be irregular and
incomplete;
• Certain drugs can cause
irritation of rectal mucosa.

Cost benefits of parenteral delivery

RouteAdvantagesDisadvantages
Intravascular delivery
- Bolus (small vol.).
- Infusion (maintenance).
• Rapid delivery & effect;
• Useful for drugs poorly absorbed
or unstable in GI tract;
• Avoids 1st pass metabolism		• Can be difficult to reverse;
• Risk of Infection;
• Needs skill in admin
(particularly with IA route).
- Subcutaneous (SC)
e.g. insulin		• Rapid, easy delivery• Small vols. only
- Intramuscular (IM)
E.g. adrenaline		• Mod. quick delivery;
• Allows larger vol.
than sub cut.		• Can be painful
with risk of
bleeding
inhalationDirect and rapid brochial delivery

Rapid exchange across pulmonary membrane allows for immediate control of plasma concentration

Pharmacokinetic Terms and calculations

Fraction of dose (F)

F for an IV drug is 1

F for oral drug is calculated by dividing the oral AUC by the IV AUC and multiplying by 100

eg fusnimide has an oral availability of 55%

the reason why oral availability is lower is bc oral delivery is subject to first pass metabolism tough GI environment and membranes to pass through gastric ph drug lipid solubility drug Pka surface area etc

First pass metabolism is dependant of a few things gastric ph and gastric motility metabolic enzymes in gut lumen wall and liver which clear the drug
hepatic mass other drugs occupying pathways

Transport of drugs

chemical properties of the drug determine its transport

How does physiochemical properties affect bioavailablility

molecular weight and size hydrophilic lipophillic pKa and ionisation status of drug NEED TO BE UNIONISED AT PHYSIOLOGICAL PH to pass through neutral membranes most drugs for weak acids or bases

for gastric absorption drug should be neutral at gastric pH for absorption

Clearance.

clearance is dependant of excretion and metablosim cl total is the sum of cl of all other organs and tissues

Clearance is calculated with dose and AUC. more AUC less clearance etc We can calculate by logarizing the the Concentration in plasma over time

once absorbed into the plasma the drug is absorbed into the tissues of the body at various rated

we can also calculate the half life of drug with our logrithmised graph

Loading dose

Understanding Vd and Cl

with these 2 variables calculate the halflife of the drug and therefore with this data make the accurate loading dosage,

Half life

Graph View