dissolution and drug release.pptx
anumalagundamsreekan
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Jul 04, 2022
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About This Presentation
in vitro: dissolution and drug release testing
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IN-Vitro DISSOLUTION TESTING & DRUG RELEASE Prepared by Dr. Anumalagundam Srikanth Dept. of .Pharmaceutical analysis
DISSOLUTION A process in which a solid substance is solubilized in a given solvent i.e., mass transfer from solid surface to liquid phase . (i.e., from solid to liquid) (or) It is a process by which drug released from solid dosage form and immediately goes into molecular solution. It is a Rate Determining Step If the drug is hydrophilic with high aqueous solubility then dissolution is rapid and rate determining step in the absorption of such drugs is rate of permeation through the bio membrane. Absorption of such drugs is said to be permeation rate limited or Tran’s membrane rate limited.
Dissolution process of solid dosage Forms : TABLETS OR CAPSULES GRANULES OR AGGREGATES FINE PARTICLES DRUG IN SOLUTION (IN-VITRO OR IN-VIVO) DRUG IN BLOOD,OTHER FLUIDS,AND TISSUES DISINTEGRATION DISAGGREGATION DISSOLUTION DISSOLUTION DISSOLUTION ABSORPTION IN-VIVO
Theories of Dissolution Diffusion Layer Model/ Film theory Danckwerts’s Model/ Penetration or Surface Renewal Theory Interfacial Barrier Model/ Double Barrier Theory
Diffusion Layer Model/ Film theory Solution of the solid to form a thin layer at the solid/liq. interface is called Stagnant film or Diffusion layer which is with saturated drug. This step is Rapid Soluble solute form diffuses from the stagnant layer to the bulk of the solution. This step is slower and rate-determining step in drug dissolution. This rate of dissolution if the process is diffusion controlled and invovles no chemical reaction. It can be explained by Noyes – Whitney Equation . dC /dt = k(Cs- Cb ) where dC /dt = dissolution rate of drug Cs = conc. Of drug in stagnant layer Cb = conc. Of drug in bulk of the solution at time t. k = dissolution rate constant. (First order)
Danckwert’s Model This model suggest that turbulence in dissolution medium exists at the solid/liquid interface. As a result, agitated fluid consisting of macroscopic mass of eddies or packets reach the interface in random fashion due to eddy currents, absorb the solute by diffusion and carry it to bulk of the solution. Such solute containing packets are continuously replaced with new packets of fresh solvent due to which drug conc. At S/L interface never reaches Cs and has lower limiting value of Ci This theory is also called as Surface Renewal Theory.
Interfacial Barrier Model According to the interfacial barrier model: An intermediate concentration can exist at the interface as result of solvation mechanism and function of solubility rather than diffusion. When considering the dissolution of a crystal, each face of the crystal will have a different interfacial barrier such a concept is given by the following equn . G =Ki (cs - cb ) where G= dissolution rate per unit area. Ki =effective interfacial transport constant. Cs = Concentration of drug in the stagnant layer Cb =Concentration of drug in the bulk of the solution at time t In this theory, the diffusivity D may not be independent of saturation concentration cs. Therefore the interfacial model can be extended to both diffusion layer model and Danckwerts model.
IN-VITRO DISSOLUTION TESTING Dissolution and drug release tests are in-vitro tests that measure the rate and extent of dissolution or release of the drug substance from a drug product, usually aq.medium under specified conditions. It is an important QC procedure for the drug product and linked to product performance in-vivo. NEED FOR DISSOLUTION TESTING: Evaluation of bioavailability. Batch to batch drug release uniformity. Development of more efficacious and therapeutically optical dosage forms. Ensures quality and stability of the product. Product development, quality control, research and application.
IN-VITRO DISSOLUTION TESTING MODELS Non-Sink methods 1) NATURAL CONVECTION NON SINK METHODS: a) Klein solvmeter method b) Nelson hanging pellet method c) Levy static disk method 2) FORCED CONVECTION NON SINK METHODS: a) Tumbling method b) Levy or Beaker method c) Rotating disk method d) Particle size method e) USP Rotating basket apparatus f) USP Paddle apparatus
SINK METHODS 3) FORCED CONVECTION SINK DEVICES: a) Wurster pollis adsorption method b) Partition method c) Dialysis method s d) Rotating disk apparatus 4) CONTINOUS FLOW/FLOW THROUGH METHODS: a) Pernarowski method b) Langenbucher method c) Baun and Walker d) Tingstad and Reigelman e) Modified column apparatus f) Takenaka method
Conditions that May Affect Drug Dissolution and Release: Drug and formulation related: Drug substance Particle size Polymorph Surface area Chemical stability in dissolution media Formulation of drug product : Excipients (lubricants, suspending agents, etc)
Conditions that May Affect Drug Dissolution and Release: methodology related Medium Volume pH Molarity Co-solvents, added enzymes/surfactants Temperature of medium Apparatus Hydrodynamics Agitation rate Shape of dissolution vessel Placement of tablet in vessel Sinkers (for floating products and products th at stick to side of vessel)
Dissolution Apparatus
Apparatus 1–7 refer to compendial dissolution apparatus in USP-NF (United States Pharmacopeia)
Rotating basket (Apparatus 1) In case of none-disintegrating dosage forms this apparatus is superior to apparatus 2 since it constraints the dosage form in a steady state flu id flow It is inferior for testing dosage form s which contains gums due to clogging of screen matrix In the case of floating dosage forms this method performs well, but care should be taken that excipients do not clog the basket mesh
Rotating Paddle (Apparatus 2) This apparatus is identical to appara tus 1 except that the paddle is subs tituted for the rotating basket Frequently used for both disintegrati ng and non-disintegrating dosage fo rms
Reciprocating cylinder (Apparatus 3) One advantage of the reciprocating cylinder is that the gastrointestinal t ract conditions can be easily simulated, as it is easy to make time dependent pH changes This apparatus is most suitable for n on disintegrating (extended release) or delayed release (enteric coated) dosage forms
Flow cell (Apparatus 4) The advantage of flow through cell apparatus is the ability to test drugs of very low aqueous solubility and t he ability to change the pH convenie ntly during the test
Paddle over disk (Apparatus 5)
Cylinder (Apparatus 6) The cylinder method for testing transder mal preparation is modified from the basket method (A pparatus 1). In place of the basket, a stainless steel cylinder is used to hold the sa mple.
Reciprocating Disk Method (Apparatus 7) In the reciprocating disk method for testing transderma l products, a motor drive as sembly (Apparatus 7) is use d to reciprocate the system vertically, and the samples a re placed on disk-shaped ho lders using cupophan supp orts
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