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Two compartment model iv bolus muju
- 1. TWO COMPARTMENT MODEL-IV BOLUS Presentedby: Mujammil Maniyar M. Pharm. Sem II (PHARMACEUTICS) Guided By: Miss. Aishwarya Mam R.G. SAPKAL COP, ANJENERI,NASHIK
- 2. INTRODUCTION COMPARTMENTMODELS TWO COMPARTMENT MODEL(I.V BOLUS) METHOD OF RESIDUAL PARAMETERS OF TWO COMPARTMENT INTRAVENOUS INFUSION CLINICAL APPLICATIONS
- 3. PHARMACOKINETICS: pharmacon:drug kinesis-motion/change of rate pharmacokineticsis the study of kinetics of absorption,distribution,metabolism and excretion(ADME) of drugs and their corresponding pharmacologic,therapeutic or toxic responses in man and animals. Introduction :
- 5. Compartment models areclassical pharmacokinetic models that simulate the kinetic processes of drug absorption, distribution and elimination with little physiologic detail. Compartment model :
- 6. A physiologicalsystem is described by decomposition into number of interacting substances called compartments. Mass of well mixed ,homogenous material. Behaves uniformly. Exchange material.1/1/
- 7. Two compartment model: Many drugs given in single IV bolus dose demonstrate a plasma level time curve that does not decline as single exponential process In two compartment model drugs the plasma drug conc. Declines biexponentially as the sum of two first order process, i.e distribution and elimination Does not equilibrate throughout the body
- 8. Drug distributesin 2 compartments i.e central compartment & tissue/peripheral compartment.
- 9. Central compartment : Represents the blood ,extracellular fluid and highly perfused tissues Drug distributes rapidly and uniformly
- 10. General grouping oftissue accoring to blood supply Highly perfused - Heart,brain,hepatic portal vein,kidney and endocrine glands,skin and muscles Slowly perfused - Adipose tissue and marrow Bone,ligaments,tendons, hair, teeth
- 11. Two comopartment model: They differ in whether the drug elimination occurs from: • the central compartment(Model 1) • the peripheral compartment(Model 2) • or both(Model 3)
- 12. Continuied….. MODEL 1: Majorsites of drug elimination occurs in organs such as kidney and liver(highly perfused with blood). MODEL 2: Drug is assumed to follow the first order kinetics1/1/
- 15. Parameter of twocompartment model: Apparent volume of distribution Drug clearance Biological half life Elimination rate constant AUC1/
- 16. Apparent volume ofdistribution : Relates plasma conc. to the amount of drug in the body Drugs with large extravascular distribution,apparent Vd is generally large Drugs with high peripheral tissue binding also have large apparent Vd For polar drugs,apparent Vd is small Reflects the extent of drug distribution 1/1/
- 17. Drug clearance : Clearance is the volume of plasma that is cleared of drug per unit time. Cl=Vd/b Useful in determining average drug conc.
- 18. Elimination constant: Eliminationrate constant of central compartment and tissue compartment Because of redistribution of drug out of tissue compartment ,b is smaller than k. Three rate constants are associated with two compartment model k21=Ab+Ba/B+A k10=ab/k21 k12=a+b-k21-k10
- 19. Biological half life: Biological half life can be determined from the rate constant. t1/2=0.693/b1/
- 20. Area under curve: TWOSTEP METHOD: 1. Trapezoidal method AUCt-∞=Co/ke 2. By using equation AUCtotal=Co/k10 AUC=B/b+A/a
- 21. Conclusion : Pharmacokineticmodels predict drug disposition after drug administration. Statistical methods are used for the estimation and data interpretation of pharmacokinetic parameters. Useful in drug formulation and treatment regimen.1/1/
- 22.