This document describes the formulation and evaluation of flurbiprofen floating microspheres. It discusses the drug profile of flurbiprofen and the various excipients used in the study such as ethyl cellulose and hydroxypropyl methylcellulose. Six formulations of flurbiprofen floating microspheres were prepared by solvent evaporation method and evaluated for particle size, drug entrapment efficiency, in vitro drug release and release kinetics. Formulation F6 showed the highest drug entrapment efficiency of 89.60% and floated for the longest duration of 91.83 hours. The drug release from the microspheres followed non-Fickian diffusion mediated release indicating that the release is governed by both diffusion and erosion
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Formulation and Evaluation of Flurbiprofren Floating Microspheres for Extended Gastric Retention
1. FORMULATION AND EVALUATION OF FLURBIPROFEN FLOATING
MICROSPHERES
By
k.Vasanthi
Rg.no:13IS1S0313
Under Supervision Of
D.Vinay kumar (Asst.professer)
JNTU KAKINADA.
Submitted to
Jawaharlal Nehru technological university
Kakinada-533003
2. CONTENTS
Introduction
Literature review
Drug profile
Excipients used in the present study
Objective and plan of work
Experimental work
Analytical methods
Formulation development
Preparation & Evaluation of floating microspheres
Results and discussion
Summary and Conclusion
3. INTRODUCTION
FLOATING DRUG DELIVERY SYSTEMS
Floating systems are the low density systems that have sufficient buoyancy to float and remain in stomach for prolonged
period of time.
The floating microspheres enhance bioavailability and improve pharmacokinetic and pharmacodynamics profiles of the
drugs by retaining the drug in stomach.
Floating microspheres release the drug in controlled manner to achieve zero-order release kinetics for a prolonged
period of time.
Effervescent System
Non Effervescent Systems
4. APPROACHES TO GASTRO RETENTIVE DOSAGE FORMS
High Density Systems
Swelling and Expanding Systems
Incorporating Delaying Excipients
Modified Systems
Mucoadhesive & Bioadhesive Systems
5. FLOATING MICROSPHERES
Floating microspheres are gastro-retentive drug delivery systems based on non-effervescent approach.
Microspheres are defined as small, insoluble, free flowing spherical particles consisting of proteins or synthetic
polymers, ideally having a size less than 200 micrometer.
The system floats over gastric contents, the drug is released slowly at desired rate.
.
6. MECHANISM OF FLOTATION OF MICROSPHERES
When microspheres come in contact with gastric fluid, polymers hydrate to form a colloidal gel barrier The air trapped by the swollen
polymer lowers the density and confers buoyancy to the microspheres.
The mechanism of drug release from microspheres can occur in the following ways
Diffusion
Erosion
Osmosis
7. LITERATURE REVIEW
Ahmed laith et al., formulated and evaluated Flurbiprofen solid dispersion and microsphere for prolonging the duration
of action of the drug. Microspheres were prepared by solvent evaporation method an using ethyl cellulose and different
types of Eduragit polymers.
Dhoka. V et al., prepared floating microspheres of cefpodoxime proxetil using Ethyl cellulose and HPMC as a release
retarded material by solvent evaporation technique. It was observed the increase in concentration of ethyl cellulose
increases the entrapment efficiency and mean particle size of the microspheres.
8. Satish V. Shirolkar et al., prepared floating microspheres of Pioglitazone hydrochloride using ethyl cellulose and HPMC K100M The
studies revealed that increase in concentration of hydrophillic polymer (HPMC) increased the drug release from the floating mcirospheres.
Arjun Sony et al., were prepared Floating microspheres of Flupirtine Maleate with the help of Ethyl Cellulose, Hydroxypropyl methyl
cellulose polymer & Tween 80 as a surfactant with ethanol, dicholromethane as solvents. Different formulations were characterized.
Ramya Shivani B. et al., formulated and evaluated floating microspheres of omeprazole microspheres by solvent evaporation method
using ethyl cellulose, eudragit s100, dcm, pva. From the study it was concluded that formulation which has been prepared at 1:5 organic to
aqueous phase ratio at 1:30 drug to polymer concentration was yielding the best floating microspheres which were floating for a period of
24 hrs.
9. DRUG PROFILE
FLURBIPROFEN
PHYSICO CHEMICAL PROPERTIES
Description White or slightly yellow crystalline powder
Chemical
formulae
C15H13FO2.
Molecular
weight
244.2609. g/mol
Solubility Practically insoluble in water, freely soluble in most organic
solvents. It dissolves in aqueous solutions of alkali hydroxides
and carbonates
Melting point 110-111 °C
Drug Category NSAID
Structure
10. PHARMACOKINETIC PARAMETERS
Cmax <10 mcg/mL
Tmax 1.5 hr
Bioavailability 96%
Onset of action 1-2hr
Plasma protein binding >99%
Vol. of distribution 14L
Biological half life 4.7-5.7 hr
Metabolism hepatic, P450 enzyme CYP2C9
11. EXCIPIENTS USED FOR THE PREPARATION OF FLOATING MICROSPHERES
Ethyl cellulose
Hydroxy propyl methyl cellulose K 15 M
Tween 80
Ethanol
Dichloromethane
Hydrochloric acid
EXCIPIENTS USED IN PRESENT STUDY
12. OBJECTIVE AND PLAN OF WORK
The aim of this study is to develop and evaluate Flurbiprofen floating microspheres using
polymers like HPMC K15 M and EC.
To formulate Flurbiprofen floating microspheres using polymers like HPMC K15 and EC
To conduct the pre-formulation studies i.e. solubility studies, drug-Excipient compatibility studies
etc.
To evaluate the characteristics of the formulated microspheres according to the pharmacopoeia
standards
Evaluate the release kinetics of various formulations prepared.
13. PLAN OF WORK
FLOATING MICROSPHERES
PREFORMULATION STUDIES
Determination of λmax of drug
and
Preparation of standard plot
Powder properties
Solubility
FTIR
Melting point
Formulation Development of Floating
Microspheres
1.Preparation of Floating Microspheres
by Solvent Evaporation Method
2.Evaluation of Floating Microspheres
Stability studies
In-vitro drug release
(Dissolution studies)
Release kinetics
Frequency distribution analysis
Drug entrapment efficiency
Percentage yield
Buoyancy percentage
14. FORMULATION DEVELOPMENT
Preparation of floating microspheres by Emulsification – solvent evaporation method
Weighing
Mixing
Sonication(20min)
Adding(40 c)
Stirring
Filteration
Washing
Drying
16. RESULTS AND DISCUSSION
The study involves Preformulation studies of drug and excipients, formulation and processing development along with evaluation of
dosage form made with the optimized formulation.
Preformulation studies of drug
Solubility studies
Melting point 110-111 o C
S.No Solubility media Solubility(mg/ml)
1 pH 0.1M Hydrochloric acid 11.803
2 Ethanol (95%) 7.412
3 Methanol 8.365
4 7.4 pH Buffer 6.201
5 Water 0.03
22. RELEASE KINETICS OF FBP FLOATING MICROSPHERES
Zero order release kinetics data of FBP floating microspheres First order release kinetics data of FBP floating microspheres
Higuchi matrix release kinetics data of FBP floating microspheres Peppas release kinetics data of FBP floating microspheres
0
0.5
1
1.5
2
2.5
0 0.2 0.4 0.6 0.8 1 1.2
Log%cumulativedrugrelease
Log time (hrs)
F1
F2
F3
F4
F5
F6
-20
0
20
40
60
80
100
0 1 2 3 4
%Cumulativedrugrelease
Root time (hrs)
F2
F3
F4
F5
F6
F1
0
0.5
1
1.5
2
2.5
0 2 4 6 8 10 12 14
Log%cumulativedrug
remainedtobereleased
Time (hrs)
F1
F2
F3
F4
F5
F60
10
20
30
40
50
60
70
80
90
100
0 5 10 15
%cumulativedrugrelease
Time (hrs)
F1
F2
F3
F4
F5
F6
23. Regression co-efficient (r2) values of zero order and diffusion exponent (n) of Peppas model for
FBP floating microspheres
Formulation Zero order
Peppas plot
r2 value
‘n’ value
F1 0.9554 0.9404 0.5291
F2 0.9665 0.9511 0.5506
F3 0.9770 0.9762 0.6205
F4 0.9767 0.9792 0.9895
F5 0.9779 0.9765 0.9591
F6 0.9783 0.9746 0.9736
24. CONCLUSION
It can be concluded that
Preformulation studies like melting point, solubility and UV analysis of were complied with standards.
The FTIR Spectra revealed that, there was no interaction between polymers and Flurbiprofen.
As the drug to polymer ratio was increased, the mean particle size of Flurbiprofen floating microspheres was also
increased.
Entrapment efficiency increase with increase in the polymer concentration.
The study also indicated that the amount of drug release decreases with an increase in the polymer concentration.
The invitro performance of Flurbiprofen floating microspheres showed prolonged and controlled release of drug.
25. REFERENCES
Dutta et. Al :Floating microspheres: Recent trends in the development of gastroretentive floating drug delievery system.
Jain AK, Jain CP, Tanwar YS, Naruka, PS. Formulation characterization and in vitro evaluation of floating microspheres of Famotidine as a gastro
retentive dosage form. Asian J Pharm 2009;3(3):222-6
Srivastava AK, Devendra NR, Wadhwa S. Floating microspheres of Cimetidine formulation, characterization and in vitro evaluation. Acta Pharm
2005;55:277-85.
Li S, Lin S, Daggy BP, Mirchandani HL, Chien YW. Effect of HPMC and carbopol on the release and floating properties of gastric floating drug
delivery system using factorial design. Int J Pharm 2003;253(1-2):13-22.
Kaiser DG, Brooks CD, Lomen PL (1986). Pharmacokinetics of flurbiprofen. The American Journal of Medicine, 80, 10-15.
Shah SH, Patel JK, Patel NV. Stomach specific floating drug delivery system. Int J Pharm Tech Res 2009;1(3):623-33
Trivedi P., Verma A.M.L., Garud N., Preperation and Charecterization of Acclofenac Microspheres,Asian Journal of pharmaceutics. 2(2), 2008, 110-115.
www.drugbank.ca/drugs(DB00559)
United States Pharmacopoeia.