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Dr. Gehan Fathy Atia

كلية الصيدلة. Dr. Gehan Fathy Atia. Assistant Prof. (Pharmaceutics). STABILITY OF DRUGS. Stability of drugs (Cont.). Stability: is the capacity of a drug product to remain within specifications established to ensure its identity, strength quality and purity. Instability may cause

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Dr. Gehan Fathy Atia

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  1. كلية الصيدلة Dr. Gehan Fathy Atia Assistant Prof. (Pharmaceutics)

  2. STABILITY OF DRUGS

  3. Stability of drugs (Cont.) • Stability: is the capacity of a drug product to remain within specifications established to ensure its identity, strength quality and purity. • Instability may cause - Undesired change in performance, i.e. dissolution/bioavailability - Substantial changes in physical appearance of the dosage form - Causing product failures

  4. Factors affecting Stability 1- Environmental factors - Temperature - Light - Oxygen - Moisture - Carbon dioxide 2- Drugs or excipients in the dosage form • Particle size of drug • pH of the vehicle 3- Microbial contamination 4- Trace metal Contamination 5- Leaching from containers

  5. Types of stability studies: ۞Physical ۞Chemical ۞Microbiological

  6. Physical stability • Physical stability implies that: - The formulation is totally unchanged throughout its shelf life and has not suffered any changes by way of appearance, organoleptic properties, hardness, brittleness, particle size etc. • It is significant as it affects: pharmaceutical elegance drug content uniformity drug release rate.

  7. Physical stability (Cont.)

  8. Physical stability (Cont.)

  9. Physical stability (Cont.)

  10. Physical stability (Cont.)

  11. Physical stability (Cont.) Coalescence

  12. Physical stability (Cont.)

  13. Physical stability (Cont.)

  14. Physical stability (Cont.)

  15. Chemical stability: • Chemical stability implies: The lack of any decomposition in the chemical moiety that is incorporated in the formulation as the drug, preservatives or any other excipients. This decomposition may influence the physical and chemical stability of the drug

  16. Mechanisms Of Degradation 1- Hydrolysis: Hydrolysis means “splitting by water’’

  17. Some Functional Groups Subject to Hydrolysis

  18. Some Functional Groups Subject to Hydrolysis

  19. Mechanisms Of Degradation 2- Oxidation Oxidation of inorganic and organic compounds is explained by a loss of electrons and the loss of a molecule of hydrogen.

  20. Some Functional Groups Subject to Autoxidation

  21. Mechanisms Of Degradation 3- Photolysis It means: decomposition by light e.g. Sodium nitroprusside is administered by intravenous infusion for the management of acute hypertension. If the solution is protected from light, it is stable for at least 1 year; if exposed to normal room light, it has a shelf life of only 4 hours.

  22. Mechanisms Of Degradation Relationship between wavelength and associated energy of various forms of light. Conventional tungsten filament light bulbs are safe and do not contribute to photolysis.

  23. Mechanisms Of Degradation • Photolysis is prevented by: 1- suitable packing in amber coloured bottles 2- cardboard outers 3- aluminium foil over wraps

  24. Factors Affecting Rates Of Degradation 1- pH The acidity or the alkalinity of a solution has a profound influence on the decomposition of drug compound. • Aspirin buffered solution is maximum stable at a pH of 2.4, above a pH of 10 the decomposition rate rapidly increases. pH can also influence the rate of oxidation. • The system is less readily oxidized when the pH is low.

  25. Factors Affecting Rates Of Degradation 2- Complexation Complex formation reduces the rate of hydrolysis and oxidation. e.g. caffeine complexes with local anesthetics, such as benzocaine, procaine and tetracaime to cause a reduction in their rate of hydrolytic degradation.

  26. Factors Affecting Rates Of Degradation 3- Surfactants Nonionic, cationic and anionic surfactants when added to solutions containing drugs form micelle and the drug particles become trapped in the micelle. The hydrolytic groups such as OH cannot penetrate this micelle cover and reach the drug particles, hence hydrolysis rate is decreased.

  27. Factors Affecting Rates Of Degradation 4- Presence of heavy metals Heavy metals, such as copper, iron, cobalt and nickel increase the rate of formation of free radicals and enhance oxidative decomposition. 5- Light and humidity Light, especially ultraviolet light enhances photolysis and humidity enhances hydrolytic decomposition.

  28. Stabilization of drugs against hydrolysis, oxidation and photolysis 1- Temperature All the drug products are stored at suitable temperatures to avoid thermal acceleration of decomposition. Three varieties of temperatures are suggested for storage of drug products. Room temperature, cool storage and cold storage. 2- Light Light sensitive materials are stored in ambered colour bottles.

  29. Stabilization of drugs against hydrolysis, oxidation and photolysis 3- Humidity Packing materials are chosen (usually glass and plastic) to prevent exposure of drug products to high humid condition. 4- Oxygen Proper packing keeping the oxygen content of the solution less and leaving very little head space in the bottle above the drug products are methods to fight against oxidation.

  30. Stabilization of drugs against hydrolysis, oxidation and photolysis

  31. Stabilization of drugs against hydrolysis, oxidation and photolysis 5- Chelating Agents Chelating agents form complexes with heavy metal ions and prevent them from catalyzing oxidative decomposition. e.g. ethylenediamine tetracetic acid (EDTA) derivatives and salts, citric acid and tartaric acid. 6- Solvents By the addition of a suitable solvent hydrolysis rate may be decreased.

  32. Microbiological stability • Microbiological stability implies that: The formulation has not suffered from any microbiological attack and is meeting the standards with respect to lack of contamination/sterility.

  33. Microbiological stability Sources of Microbial Contamination:

  34. Sources of Microbial Contamination

  35. To prevent contamination to the formulation during storage • suitably designing the containers (2) usually using single dose containers (3) sticking to proper storage conditions (4) adding an antimicrobial substance as preservative.

  36. Preservatives used in pharmaceutical preparations:

  37. Preservatives used in pharmaceutical preparations:

  38. Packaging And Stability : • The immediate container and closure are particularly important in affecting product stability.

  39. Packaging And Stability: • Glass - Glass is resistant to chemical and physical change and is the most commonly used material.

  40. Packaging And Stability : • Plastics The problems with plastic are: 1.Migration of the drug through the plastic into the environment. 2.Transfer of environmental moisture, oxygen, and other elements into the pharmaceutical product. 3.Leaching of container ingredients into the drug. 4.Adsorption of the active drug or excipients by the plastic.

  41. Packaging And Stability : • Metals • Various alloys and aluminium tubes may be utilized as containers for emulsions, ointments, creams and pastes. • Limitation: They may cause corrosion and precipitation in the drug product. • Overcome: Coating the tubes with polymers may reduce these tendencies.

  42. Packaging And Stability : • Rubber • Rubber also has the problems of extraction of drug ingredients and leaching of container ingredients. • The pretreatment of rubber vial stoppers and closures with water and steam reduces potential leaching.

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