micronization by pankaj

MICRONIZATION TECHNIQUES Presented By.. Mr. Wagh Pankaj N. M.Pharm.(1 st Sem) Department Of Pharmaceutics R.C.Patel Institute Of Pharmaceutical Education and Research, Shirpur. 1

Contents Introduction Micronization Techniques Fluid energy mill Ball mill Edge runner mill Rotary cutter mill End runner mill Roller mill Hammer mill Mortar and Pestle Colloid mill Conclusion References 2

3 INTRODUCTION: The process involve reducing the size of the solid drug particle to 1 to 10 micron commonly by use of air attrition method (fluid energy mill). The process is also called as micro-milling. Example of drug whose bioavailability have been increased by micronization include griseofulvin & several steroidal and sulpha drugs.

MICRONIZATION TECHNIQUES: FLUID ENERGY MILL OR JET MIL BALL MILL OR PEBBLE MILL EDGE RUNNER MILL ROTARY CUTTER MILL END RUNNER MILL ROLLER MILL HAMMER MILL MORTOR & PASTLE COLLOID MILL 4

5 NAME OF MILL ACTION OF MILL Fluid Energy Mill Attrition & Impact Ball Mill Attrition & Impact Edge Runner Mill Crushing & Shearing Rotary Cutter Mill Cutting End Runner Mill Crushing & Shearing Roller Mill Compression Hammer Mill Impact Colloid Mill Shearing Table- Types of mill and their actions

Principle: Fluid energy mill operates on the principle of impact and attrition the feed stock is suspended with in a high velocity air stream. 1) Fluid Energy Mill: Fig: Fluid energy mill 6

Working: Powder is introduced through the inlet of venturi. Air introduce through the grinding nozzles transport the powder in the circular track of the mill. The turbulent stream of air the particles colloids with each other and break. Particles are carried out to outlet and the coarse particle undergo recirculation. 7

8 Uses- Reduce particle size of most of drugs such as antibiotics and vitamins. Advantages- 1) Heat labile substance can be milled. Ex. Sulphonamide, Vitamins and antibiotics. 2) It is rapid & efficient method for reducing powder 30 mm or less. Disadvantage- 1) Not suitable for soft, tacky & fibrous material.

Principle: The ball mill works on the impact between the rapidly moving ball and the powder material, both enclosed in a hollow cylinder. Thus, in the ball mill, impact or attrition or both are responsible for the size reduction. 9 2) Ball Mill: fig: Ball mill

Working: The drug is filled into cylinder 60% of the volume. A fixed number of ball introduced and cylinder is close. The mill is allowed to rotate on its longitudinal axis. 10

Uses : 1) Milling of hard and abrasive material with particle size of 5mm or less. 2) Ball mill at low speed is used for milling dyes, pigment and insecticides. Advantages: 1) It can produce very fine powder. 2) Used for batch operation. 3) Suitable for both wet and dry grinding processes. Disadvantages: 1) Noisy machine. 2) Not suitable for soft, tacky & fibrous material. 11

Principle: Size reduction done by compression due to heavy weight of stone . 12 Fig : Edge Runner Mill 3) Edge Runner Mill:

Uses: For grinding tough material to fine powder. Use for plant based product. Advantage: Not require attention during operation. Disadvantages: Time consuming and Energy consuming. Not use for sticky material. Working: Material to be ground is placed on the bed at the same time travel around the shallow stone bed so the size reduction is achieved by sharing as well as crushing. 13

Principle: In the cutter mill, size reduction involves successive cutting or shearing the feed materials with the help of sharp knives. Fig: Rotary cutter mill 14 4) Rotary Cutter Mill:

Rotor disc rotate at 200-900 revolution per min. Feed material loaded through hopper. Material is cut between rotating & stationary knives in small pieces, therefore particle pass through the screen product is collected into receiver. Working: 15

Uses: Size reduction of tough and fibrous material Manufacture of rubber, plastics, recycling of waste paper and plastic materials Medicinal plants, plant parts and animal tissue are converted into small parts. 16

Principle: Size reduction is done by crushing due to heavy weight of steel pestle. Shearing stress is also involved during movement of mortar and pestle. Fig:- End runner mill 17 5) End runner mill:

18 Working: The material to be ground is placed in the mortar. The mortar revolves at a high speed. The revolving mortar causes the pestle to revolve during this process, size reduction is achieved. Uses: Use for fine grinding. Disadvantages: Not suitable for unbroken or slightly broken condition of drug.

Principle: The material is crushed (compressed) by the application of stress. The stress is applied by rotator wheels, rollers. Fig: Roller mill. Feed Hopper Rollers 19 6) Roller mill:

Working: The rollers are allowed to rotate. The material is feed into hopper through gap between two rollers by applying high pressure material is crushed. Uses: Roller mill is used for crushing and cracking of seed before extraction of fixed oils and also used to crush soft tissue to help in the penetration of solvent during extraction process. 20

Principle: The hammer mill operates on the principle of impact between rapidly moving hammer mounted on a rotor and the powder material. Fig: Hammer mill 21 7) Hammer mill:

Working: The hammers are allowed to be in continuous motion(8000-15000 rpm) the feed material is placed into the hopper, whiles hammers are in continuous motion. Uses: Particle size obtained from 10-400mm. Also used to mill dry, wet and filter press cakes materials. Advantages: Easy to setup and clean up. Occupies small space. Disadvantages: Heat buildup during milling is more, therefore, product degradation is possible. Not suitable for milling of soft, tacky and fibrous materials. 22

This is the classical and the simplest equipment for grinding. It is work on application of attrition and pressure. In this equipment both mortar and pestle are rotating. This equipment cannot be provided with a sieve for. continuous removal of fines. 23 8) Mortar and Pestle:

Principle: Colloid mill consist of 2 steel disc having very small clearance between them. One disc is rotating, while the other one is stationary. Fig:-Colloid Mill 24 9) Colloid Mill:

Working: Suspension and emulsion are placed in hopper. The solid are mixed with the liquid vehicle before introduce into colloid mill Rotor is moved 3000 to 20000 rpm. The dispersion flow down and adher to the rotor. Uses: Colloidal dispersion, suspension, emulsion, and ointment. Advantage: Production of sterile product. Disadvantage: Not useful to dry milling. 25

26 Conclusion: Micronization is one of the technique for reducing particle size to enhancement of bioavailability of drug. So we conclude that by reducing particle size there is increase in surface area, so ultimately dissolution rate is enhanced and thereby bioavailability can be increased by micronization techniques.

Aulton , Aulton Pharmaceutics, The Science of Dosage form Design, 2 nd Edition (2002), Churchill Livingstone; pp.166-173. Subrahmanyam C.V.S, Pharmaceutical Engineering Principles and Practices, 1 st Edition (2001), Vallabh Prakashan; pp.148-164. Brahmankar D.M & Jaiswal S.B, Biopharmaceutics and Pharmacokinetics ,2 nd Edition (2009),Vallabh Prakashan; pp.348-349. References: 27

Cont.... 28 Cooper and Gunn's, Tutorial Pharmacy, 6 th Edition (2005),CBS Publication, New Delhi; pp.183-191 Kamath.A. Method Of Size Reduction and Factor Affecting Size Reduction In Pharmaceutics: A review.2013;4(8):57-64. Joshi Jalay T. Journal of Pharmaceutical Science and Technology: A review on micronization techniques. 2011;3(7): 651-681.

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