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World Journal of Pharmaceutical Sciences
ISSN (Print): 2321-3310; ISSN (Online): 2321-3086
Available online at: http://www.wjpsonline.org/
Review Article
A Review on Microencapsulation
*
S. Gousia Begum , C. Madhusudhan Chetty, Ravikumar Kota, K. Susmitha, P. Komali, S.
Jyothi Kiranmai and B. Sri Divya
Santhiram College of Pharmacy, Affiliated to Jawaharlal Nehru Technological University,
Anantapur-, Nandyal, Kurnool Dist. A.P.-518501
Received: 26-02-2018 / Revised Accepted: 24-03-2018 / Published: 30-03-2018
ABSTRACT
The review of microencapsulation encloses the applications, methods of the preparation the
microcapsules and their evaluation. Micro encapsulation is the process of surrounding or
enveloping one substance within another substance on a very small scale, yielding capsules
ranging from less than one micron to several hundreds of microns in size. Micro
encapsulation refers to a phenomenon in which drug compounds are safely encapsulated as a
small capsule in order to achieve most stable product. This technology brings a huge impact
in the area of pharmaceutical research which also offers special appearance in controlled and
target drug delivery systems. The article is a review of classification of microcapsules, drug
release mechanism from microcapsules, materials used for microencapsulation, applications
of techniques involved in the preparation of microcapsules and evaluation of microcapsules.
Keywords: microencapsulation, Polymeric drug delivery devices, drug release mechanism
Address for Correspondence: Dr. M.S. Shree Devi, Medical Officer, Siddha Central Research
Institute, Arumbakkam, Chennai, India; E-mail: shreemd@gmail.com
*
How to Cite this Article: S. Gousia Begum , C. Madhusudhan Chettt, Ravikumar Kota, K.
Susmitha, P. Komali, S. Jyothi Kiranmai and B. Sri Divya. A Review on Microencapsulation.
World J Pharm Sci 2018; 6(4): 25-36.
This is an open access article distributed under the terms of the Creative Commons Attribution-NonCommercial-
ShareAlike 4.0 International License, which allows adapt, share and build upon the work non-commercially, as
long as the author is credited and the new creations are licensed under the identical terms.
© 2018 World J Pharm Sci
Begum et al., World J Pharm Sci 2018; 6(4): 25-36 [11,12.]
CLASSIFICATION -drug covalently linked polymer Hydrogel
These are classified into three basic categories.
They are Dissolution control system:
Mononuclear In this system the rate controlling step is
Polynuclear dissolution. The drug is embedded in slow
Matrix dissolving or erodible matrix or by coating with
Mononuclear microcapsules contain the shell slow dissolving substances. It is of two types
around core, while polynuclear capsules have many
cores enclosed within the shell. In matrix Encapsulation: The drug particle is coated or
encapsulation, the core material is distributed encapsulated by micro encapsulation techniques
homogenously into the shell material.[6,7,8,9,10.] with slow dissolving materials like cellulose. The
dissolution rate depends upon the solubility and
TYPES OF DRUG RELEASE MECHANISM: - thickness of coating.
Dissolution control system
-encapsulation Matrix: It is also called as “MONOLITHS”. They
-matrix employ waxes such as bees wax, hydrogenated
Diffusion control system castor oil which control drug dissolution by
-reservoir controlling rate of dissolution fluid penetration into
-matrix matrix.[13,14,15,16.]
Dissolution and diffusion control system
Water penetration control system Diffusion control system:
-swelling control The rate limiting step is diffusion of drug through
-osmotically control inert water insoluble membrane barrier. These are
Chemically control system of two types
-erodible
[17,18,19,20.]
26
Begum et al., World J Pharm Sci 2018; 6(4): 25-36
Water penetration control system: osmotically inactive drug + osmogene is enclosed
Rate controlling step is penetration of water into within semi permeable membrane made up of
the system. It is of two types biocompatible polymer like cellulose
Swelling control system: These types of systems acetate.[21,22,23,34]
are initially dry and when placed in body, absorb
water or other fluids and it swells. Swelling Chemically control system:
increases aqueous solvent content within the In this type the polymer is degraded as a result of
formulation as well as the polymer mesh size. hydrolysis into biologically safe and smaller
Osmotically control system: In this type of system moieties. It is of two types
core i.e., osmotically active drug or combination of
Pendent: It consists of linear or homo copolymers The drugs can be protected which are
attached to the drug. The drug is released from sensitive to moisture, light and oxygen.
polymer by hydrolysis or enzymatic degradation of e.g.: Nifedipine
the linkage[25,26,27,28.] It is helpful to prevent the incompatibility
Hydrogels: between the drugs.
Hydrogels are water swollen 3-D structure The drugs which are volatile in nature
composed of primarily hydrophilic may vaporize at room temperature like
polymers. Aspirin and Peppermint oil can be
They are rendered insoluble because of prevented by micro encapsulation.
physical or chemical cross links. This is employed to change the site of
The physical cross links include crystallites, absorption.
entanglements, weak association like It is also employed to prepare intra uterine
hydrogen bonds. contraceptive devices.
It provides desirable protection to labile It is used for sustain release or prolonged
[29,30,31,32]
drugs, proteins and peptides. action of drug.
APPLICATIONS OF MICRO Manufacturing of powders and
ENCAPSULATION: - suspensions.
This technique has been widely used for Immobilization of microbes and
masking the organoleptic properties like microorganisms to prevent oxidative
taste and odour of many drugs. degradation.
By using micro encapsulation techniques, To separate incompatible substances.
the liquid drugs can be converted into a Protection of gastro intestinal tract.
free-flowing powder. For proper drug delivery.
It is used in genetic
engineering.[33,34,35,36,37,38.]
27
Begum et al., World J Pharm Sci 2018; 6(4): 25-36
Materials Used for Micro Encapsulation: - Enteric resins
It includes -Shellac
CORE MATERIAL: -Zein
It is defined as the specific material to be coated, -Cellulose acetate phthalate
which can be either liquid or solid. The VEHICLE: It is used for dissolving coating
composition of core material can be varied as the material. It is used for dissolving the coating
liquid core includes dispersed or dissolved materials.
material. The solid core material may be a Aqueous vehicle
combination of active ingredients, stabilizers, -Water
diluents, excipients. Non- aqueous vehicle
COATING MATERIAL: -Alcohol
The inert material that surrounds the core material -Isopropyl alcohol
and is used to form a protective polymer film -Poly vinyl pyrrolidine
around each individual drug particle. -Poly ethylene glycol
Classification of coating materials- -Isopropyl myristate[39,40,41,42,43,44.]
Water soluble resins METHODS OF MICRO ENCAPSULATION: -
-Gelatin PHYSICAL METHODS
-Starch Air suspension method
-Hydroxy ethyl cellulose Coacervation phase separation
Water insoluble resins Spray drying
-Ethyl cellulose Spray congealing
-Polyethylene Multi orifice centrifugal process
-Polyamide Pan coating
-Poly methyl acrylate
Waxes and lipids CHEMICAL METHODS
-Bees wax Polymerization[45,46,47.]
-Stearic acid
-Steryl alcohol AIR SUSPENSION TECHNIQUE:
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