Tablet coating power point


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Tablet coating power point

  1. 1. Tablet CoatingThe decision to coat the tablet is usually based onone or more of the following objectiveTo mask the taste, odor or color of the drug.To provide physical and chemical protection for thedrugTo control the release of the drug from the tablet.To protect the drug from gastric environment of thestomach with an acid resistant enteric coating.To improve the physical elegance by use of specialcolors.
  2. 2. There are three primary components involved in tablet coating. Tablet properties Coating process Coating compositions.
  3. 3. Tablet properties The tablets that are to be coated must possess the proper physical characteristics. – To tolerate the intense attrition of tablet striking other tablets or the walls of the coating equipment, the tablets must be resistance to abrasion and chipping. – Tablet surfaces that are brittle, soften in the presence of heat are unacceptable for film coating.
  4. 4. Cont…– The tablets must have smooth surfaces, free from any imperfections.– In addition to smooth surface, the physical shape of the tablet is important. The ideal shape of the tablet is a sphere, which allows the tablets to roll freely in the coating pan with minimum tablet to tablet contact. The worst shape is the flat faced tablets in which case coating materials would collect between the surfaces to glue them together. For this reason, coated tablets have rounded surfaces. The more convex the surface, the few difficulties will be encountered with tablet agglomeration.
  5. 5. Cont…– Hydrophobic tablet surfaces are difficult to coat with aqueous based coating that do not wet the surface. Addition of surfactant improves adhesion.
  6. 6. Coating process Tablet coating is the application of a coating composition to a moving bed of tablets with the concurrent use of heated air to facilitate evaporation of the solvent. The distribution of the coating is accomplished by the tablets either perpendicular (coating pan) or vertical (air suspension).
  7. 7. EquipmentMost coating processes use one of three general type of equipment Standard coating pan The perforated coating pan The fluidized bed (air suspension)
  8. 8. Standard coating pan The standard coating pan consists of a circular metal pan mounted on a stand. The pan is 8 to 60 inch in diameter and rotated on its horizontal axis by a motor. Heated air is directed in to the pan and on to the tablet bed surface and is exhausted by means of ducts positioned in front of the pan
  9. 9. Standard coating Pan
  10. 10. Cont… The coating solutions are applied by spraying the material on to the rotating tablet bed. One of the chief drawbacks of standard coating pan is the poor drying efficiency due to poor distribution of hot drying air.
  11. 11. Cont… The significant improvement in the drying efficiency of the standard coating pan is achieved by the pellegrini pan, the immersion sword and the immersion tube systems.
  12. 12. Cont… The pellegrini system has a baffled pan and a diffuser that distributes the drying air uniformly over the tablet bed.
  13. 13. The immersion sword system Drying air is introduced through a perforated metal sword device that is immersed in the tablet bed. The drying air flows upward from the sword through the tablet bed. Since the air is more intimately mixed with the wetted tablets, a more efficient drying environment is provided.
  14. 14. Cont…
  15. 15. Immersion tube system A tube is immersed in the tablet bed. the tube delivers the heated air and a spray nozzle is built in the tip of the tube. During this operation the coating solution is applied simultaneously with the heated air from the immersed tube. The drying air flows upward through the tablet bed and is exhausted by conventional duct.
  16. 16. Cont…
  17. 17. II) Perforated pan system In general, all equipment of this type consists of a perforated or partially perforated drum that is rotated on its horizontal axis in an enclosed housing. In the Accela-cota and Hi-coater systems , the drying air is directed in to the drum, is passed through the tablet bed and is passed through perforations in the drum.
  18. 18. Cont….
  19. 19. Cont….
  20. 20. Cont… Driacoater introduces drying air through hollow perforated ribs located on the inside periphery of the drum. As the coating pan rotates the ribs dip into the tablet bed and the drying air passes up through and fluidizes the tablet bed
  21. 21. Cont….
  22. 22. Cont…. The Glatt coater is the latest perforated pan coater. in this system, the drying air can be directed from inside the drum, through the tablet bed and out an exhaust duct. In all these perforated pan systems, the coating solution is applied to the surface of the rotating bed of tablets through spraying nozzles tat are positioned inside the drum.
  23. 23. Spray Application systems two basic types of the systems used to apply a finely divided (atomized) spray of coating solutions on the tablets are High pressure, air less : - the liquid is pumped at high pressure (250- 3000 psig) through a small orifice of 0.009 to 0.020 inch diameter in the fluid nozzle, which results in finely divided spray. The degree of atomization and the spray rate are controlled by the fluid pressure, orifice size and viscosity of the liquid.
  24. 24. Cont…. Low pressure, air atomized system :- the liquid is pumped through a somewhat larger orifice(0.020 to 0.060 inch) at relatively low pressure(5 to15 psig) The low pressure air contacts the liquid stream at the tip of the atomizer and a finely divided spray is produced.
  25. 25. Cont….
  26. 26. Film coating compositions A typical film coating mixture composed of Film formers i.e. polymers Solvent Plasticizer colorant and Opaquant extenders
  27. 27. Film formers An ideal film coating materials should have the following attributes. – Solubility in solvent of choice. – Capacity to produce an elegant looking product. – Stability in the presence of heat, moisture and air. – Essentially no color, taste or odor. – Compatibility with common coating solution additives. – Non toxicity with no pharmacological activity.
  28. 28. Non-enteric film forming materials includes carboxy methyl cellulose, methyl cellulose, hydroxyethylcellulose, hydroxyl propylmethylcellulose polyvinyl pyrolidone. Acrylate polymer:- Eudragit –E (freely soluble in gastric fluid up to pH 5).
  29. 29. Enteric film forming materials An ideal enteric material should have the following properties in addition Resistant to gastric fluids. Permeability to intestinal fluids. Examples of the materials includes :- shellac, , zein, cellulose acetate phathalate HPMC phathalate, Eudragit L&S, polyvinyl acetate phathate.
  30. 30. Solvent The function of a solvent system is to dissolve or disperse the polymer and other additives. The most widely used solvents, either alone or combination are water, ethanol, methanol, choloroform, acetone, methylene chloride, methyl ethyl ketone, etc. Ideally the solvent should have rapid drying rate and should not have an impact on the environment.
  31. 31. Plasticizer As the solvent removed, most polymeric materials tend to pack together due to the lack of flexibility, when used in correct proportions to the polymer, these materials impart flexibility by relieving the molecular rigidity. The type of plasticizer and its ratio to the polymer can be optimized. The recommended levels of plasticizers range from 1to50% by weight of film former. Examples:- Propylene glycol, glycerin, Polyethylene glycol 200, PEG400 and castor oil.
  32. 32. Colorants The most common colorants in use are certified food drug and cosmetic colorants. The concentration of the colorant in the coating solution depends on the color shade desired usually from 0.01 to 2.0%.
  33. 33. Opaquant extenders These are very fine inorganic powders used in the coating solution formulation to provide a white coating or mask the color of the tablet core. The most commonly used material for this purpose is titanium dioxide. Some other materials are aluminum silicate, magnesium carbonate and magnesium oxide.
  34. 34. Hydroxy Propyl Methyl Cellulose Non- aqueous formula Hydroxy propyl methyl cellulose USP 15cps… 4% Propylene glycol USP………………………….1.2% Ethyl alcohol………………………………………45% Methylene chloride………………………up
  35. 35. Quality control After coating the tablets should be inspected and tested For appearance such as color, size and any physical defects. In vitro performance of the coated product is evaluated by disintegration and dissolution testing. Crushing strength of coated tablets can be determined with the tablet hardness tester. Stability studies must be conducted on the coated tablets (new formulation) to determine if temperature and humidity will cause film defects.
  36. 36. Film Defects Variation in formulation and or processing conditions may result in unacceptable quality defects in the film coating. Sticking and Picking :- over wetting cause the tablet to stick to each other or to the coating pan. – Reduction in the rate of liquid application and or increase in drying air temperature usually solve the problem.
  37. 37. Cont…. Roughness :- A rough or the gritty surface is a defect often observed when the coating solution is applied by spray. Some droplets may dry too rapidly before reaching the tablet bed and deposit on the surface of tablet as dried particle. – Move the nozzle closer to the tablet bed.
  38. 38. Cont… orange peel effects :- inadequate spreading of the coating solution before drying cause a bumpy or orange peel effect on the coating. – Thinning the polymer solution with additional solvent. Bridging and filling :- during drying the film may shrink and pull away from the sharp corners, resulting in the bridging of the surface depression. – Increase the plasticizer contents or change the plastisizer.
  39. 39. Cont…. Blistering:- when coated tablets require further drying in ovens, too rapid evaporation of the solvent may result in the blistering – Milder drying conditions can solve this problem. Hazing/ Dull film :- sometimes called bloom. It can occur if the coated tablets are exposed to high humidity conditions. – Control the humidity in the processing areas.
  40. 40. Sugar coating The basic sugar coating process involves the following steps sealing subcoating syruping finishing polishing
  41. 41. Sealing To prevent moisture penetration in to the tablet core. A seal coat is applied. Without a seal coat, the over wetted tablets would absorb excess moisture, leading to tablet softening or disintegration and affecting physical ,chemical stability of the product. – Shellac is an effective sealant, but tablet disintegration and dissolution time tend to lengthens on ageing because of polymerization of the shellac. – Zein is an alcohol soluble protein derivative, lengthening of dissolution time has not been reported.
  42. 42. Subcoating subcoating is applied to round off the edges and built the size of the tablet. Sugar coating can increase the tablet weight by 50 to 100%. It consists of alternately applying a sticky binder solution followed by a dusting of subcoating powders and then drying. Subcoating powders includes mixture of dextrin, kaolin and sugar powder.
  43. 43. Syrup coating The purpose of this step is to cover and fill the imperfections in the tablet surface caused by the subcoating step and to impart the desired color to the tablet. The first syrup coat usually contain some suspended powders and are called grossing syrups. Dilute colorants can be added to this phase to provide the base. In the subsequent syruping steps, syrup solutions containing the dye are applied.
  44. 44. Cont….. Finishing: - In the finishing step, a few clear coats of syrup are applied. Polishing: - the tablets are polished in clean standard coating pans or canvas lined polishing pans by carefully applying powdered wax or warm solution of these waxes in volatile solvents.