Design, Development and Optimization of Extended Release Matrix Tablet for Broad Spectrum Antibiotics
1Research Scholar, P. Wadhwani College of Pharmacy, Yavatmal (M. S.)
2Professor, P. Wadhwani College of Pharmacy, Yavatmal (M. S.)
*Corresponding Author E-mail: raj_mujoriya@live.com
ABSTRACT:
A floating extended release formulation of a broad spectrum antibiotics containing ciprofloxacin and Amoxicillin have been prepared by a unique blend of polymer (HPMC) matrix, NaHCO3 (Sodium bicarbonate) and other excipients in a optimized ratio to achieve an extended or delayed drug release profile up to 12 hours without any chemical interaction between drug and excipients. A unique blend of polymer matrix has been made by two different grades (K4M-low viscosity and K15M-high viscosity) of 'hydroxypropylmethyl cellulose' (HPMC) in a optimized ratio of 1: 35.66 (HPMC K4M: HPMC K15M) to reach the targeted drug release profile. The in vitro dissolution study shows that the floating tablets are capable of drug release over a period of 12 hours. The treated data are fitted into various kinetic models and R2 values are evaluated. The analysis shows that the drug release from the floating matrix followed Higuchi release kinetics more preferably. As the “n” (release exponent) values of Krosmeyer- Pappes model of most of the formulation batch are in the range of 0.5 – 0.89 and 0.89- 1.0.
KEYWORDS: floating extended release formulation, ciprofloxacin, Amoxicillin, Higuchi release kinetics, Krosmeyer- Pappes model.
1. INTRODUCTION:
Oral route is the most preferable and convenient route for drug administration to any other route of drug administration. Therefore formulation scientists have been focusing on controlled release oral drug delivery systems for last few decades. So, the main aim is to prolong the time for drug administration from the small intestine.
Oral dosage forms have to stay in-side the stomach or upper intestine for desired period of time so that entire drug can be released from the dosage forms. Gastro-retentive systems confine the dosage forms for several hours in-side the stomach and considerably prolong the gastric residence time of drugs. Prolonged gastric retention improves bioavailability, reduces drug waste, and improves solubility for drugs that are less soluble in a high pH environment. It is also beneficial for local drug delivery to the stomach and proximal small intestines. Gastro retention helps to provide better availability of new products with new therapeutic possibilities and substantial benefits for patients1-2. Present Study was done to prepare the optimize formulation of Broad Spectrum Antibiotics containing Ciprofloxacin and Amoxicillin to Give Combination Treatment for multiple infection diseases. Mechanism of Action of ciprofloxacin results from inhibition of the enzymes topoisomerase II (DNA gyrase) and topoisomerase IV (both Type II topoisomerases), which are required for bacterial DNA replication, transcription, repair, and recombination. Amoxicillin acts through the inhibition of cell wall biosynthesis that leads to the death of the bacteria.3,4,5. As half-life of both drugs is very less which require the frequent administration. (Half-life of ciprofloxacin is 3.5 hrs whereas half-life of amoxicillin is only 1 hrs). Present Study was done to prepare the extended release matrix tablet of broad spectrum antibiotics to minimize the frequent administration of Tablet.
2. MATERIAL AND METHOD:
Fig 1 FTIR spectra of Ciprofloxacin
Fig 2 FT-IR spectrum of Amoxicillin
Ciprofloxacin and Amoxicillin was obtained as gift Sample from Anazeal Research Lab Mumbai, HPMC K4M, HPMC K15M was obtain from Mahalaxmi Chemicals, Hyderabad, Sodium bicarbonate, citric Acid and Mg Stearate was also obtained from Mahalaxmi Chemicals, Hyderabad. Other al chemicals used are of Analytical Grades.
3. EXPERIMENTAL DETAILS:
3.1 Methodology of the Experiment:
The project leads to a method for preparing an extended release tablet formulation of Ciprofloxacin and Amoxicillin. A unique blend of matrix system was used as a base for retarded release of drug. Two different grades of hydroxypropylmethyl cellulose (HPMC K4M and HPMC K15M) were mixed in different ratio to obtain a suitable matrix system for achieving the extended release profile of the said antibiotic6,7. Statistical analysis was done by the help of Design Expert 8.0.0.0 software. There are three independable variables and six responses in the formulation designing process.
3.2 Preformulation Study:
Preformulation testing is the first step in the rational development of dosage forms of drug substances. It can be defined as an investigation of physical and chemical properties of a drug substances alone and when combined with excipients. The overall objective of pre formulation testing is to generate information useful to the formulator in developing stable and bio available dosage forms that can be mass produced.
3.3 FTIR Spectroscopic Analysis:
3.4 Formulation Development:
Formulation was developed by using HPMC K 4 M to enhance the drug release, HPMC K 15M use for retarded release of drug useful for Extended release of Drugs from Tablet. NaHCO3 (Sodium bicarbonate) is used in the tablet formulation of Antibiotics as a floating agent as well as to retain the tablet dosage form of Antibiotics by maintaining a optimized floating lag time (FLT) and total floating time (TFT) in the stomach, without disturbing the drug release profile. A fixed concentration of citric acid is used to increase the floating ability of Sodium bicarbonate8-9.
Table: 1 Formulation Development
|
Components |
Amount (mg) |
Percentage |
|
|
Drugs, Ciprofloxacin (150 mg) and Amoxicillin (100 mg) |
250 |
50 |
|
|
Undependable variables (HPMC K4, HPMC K15 and NaHCO3) |
235 |
47 |
|
|
Citric acid |
10 |
2 |
|
|
Mg-Stearate |
5 |
1 |
3.5 Preparation of tablet formulation of the above mentioned batches:
At first all ingredients (HPMC K4M, HPMCK 15 M, Drugs and NaHCO3) are mixed by geometric dilution. Citric acid is dissolved by 4 ml ethanol in a Petri-dish. Then the mixture is mixed with the citric acid associated with ethanol to prepare a kindle like mass. Then Granules are prepared by 16 mesh and subsequently followed by 24 mesh sieve. After that the granules are subjected to drying in hot air oven until 5% moisture retains. After optimum drying the prepared granules are ready for punch in tablet punching machine10.
4. Evaluation:
4.1 Pre-Compression Studies:
|
Codes of final formulations |
Hardness (kg/ Sq. cm) |
Average Thickness (mm) |
Average weight of Tablets (mg) |
Friability Test (%) |
Assay (%) |
|
F1 |
5.0 |
4.12 |
505 |
0.10 |
99.4 |
|
F2 |
6.5 |
4.25 |
498 |
0.14 |
99.1 |
|
F3 |
5.5 |
5.00 |
495 |
0.16 |
98.8 |
|
F4 |
5.5 |
4.89 |
503 |
0.10 |
98.87 |
|
F5 |
5.0 |
3.99 |
510 |
0.10 |
98.2 |
|
F6 |
6.0 |
4.05 |
490 |
0.14 |
100 |
|
F7 |
6.5 |
4.07 |
495 |
0.10 |
100 |
|
F8 |
7.0 |
4.80 |
490 |
0.14 |
99.4 |
|
F9 |
6.5 |
5.02 |
550 |
0.11 |
99.7 |
|
F10 |
6.5 |
4.99 |
501 |
0.07 |
99.7 |
|
F11 |
6.2 |
4.78 |
501 |
0.16 |
98.2 |
|
F12 |
5.8 |
3.99 |
502 |
0.16 |
99.4 |
|
F13 |
6.0 |
4.58 |
498 |
0.14 |
99.7 |
|
F14 |
6.7 |
4.83 |
501 |
0.07 |
99.5 |
4.2 Post-Compression Studies:-
Table 2: Evaluation of targeted parameters of prepared formulation batches for Ciprofloxacin and Amoxicillin:
Formulation Code |
FLT (min) |
TFT (hours) |
Cumulative % Drug Release 2h (%) |
Cumulative % Drug Release 4h (%) |
Cumulative % Drug Release 8 h (%) |
Cumulative % Drug Release 12h (%) |
|
|
F1 |
1 |
12 |
27.16 |
46.43 |
79.78 |
99.25 |
|
|
F2 |
1 |
12 |
24.71 |
45.24 |
78.41 |
97.52 |
|
|
F3 |
1 |
12 |
16.32 |
34.21 |
67.42 |
95.55 |
|
|
F4 |
1.5 |
12 |
29.28 |
48.72 |
82.58 |
100.92 |
|
|
F5 |
1.2 |
12 |
27.64 |
47.25 |
80.71 |
100.28 |
|
|
F6 |
1.2 |
12 |
17.76 |
35.3 |
74.98 |
95.93 |
|
|
F7 |
1.5 |
12 |
29.37 |
48.72 |
82.34 |
100.52 |
|
|
F8 |
1.2 |
12 |
20.73 |
40.82 |
76.69 |
97.35 |
|
|
F9 |
1.5 |
12 |
14.98 |
30.81 |
60.3 |
80.83 |
|
|
F10 |
1 |
12 |
27.15 |
46.04 |
79.77 |
99.28 |
|
|
F11 |
1 |
12 |
15.23 |
31.06 |
61.51 |
85.57 |
|
|
F12 |
1.5 |
12 |
18.34 |
36.73 |
76.07 |
96.23 |
|
|
F13 |
1.5 |
12 |
14.95 |
30.71 |
60.33 |
81.16 |
|
|
F14 |
1.2 |
12 |
15.79 |
33.77 |
65.42 |
92.55 |
5. CONCLUSION:
A floating extended release formulation of a broad spectrum antibiotics have been prepared by a unique blend of polymer (HPMC) matrix, NaHCO3 (Sodium bicarbonate) and other excipients in a optimized ratio to achieve an extended or delayed drug release profile up to 12 hours without any chemical interaction between drug and excipients. A unique blend of polymer matrix has been made by two different grades (K4M-low viscosity and K15M-high viscosity) of 'hydroxypropylmethyl cellulose' (HPMC) in a optimized ratio of 1: 35.66 (HPMC K4M: HPMC K15M). to reach the targeted drug release profile (Table: 16) i.e, CPR2h(%), CPR4h(%), CPR8h(%), CPR12h(%) are respectively 15.00 %, 30.00 %, 60 % and 90 % are completely supported by the U.S.P guide line (U.S.P Edition- 2009, Volume: II, Pages: 1957, 1959 and 1961), NaHCO3 (Sodium bicarbonate) is used in the tablet formulation of Antibiotics as a floating agent. Where NaHCO3 helps to retain the tablet dosage form of Antibiotics by maintaining a optimized floating lag time (FLT) and total floating time (TFT) in the stomach, without disturbing the drug release profile. Other excipients such as citric acid and magnesium stearate are used in the formulation. Magnesium stearate is used as lubricant in optimum concentration which does not affect the desirable release of drug. A fixed concentration of citric acid is used to increase the floating ability of Sodium bicarbonate. The weight variation, content uniformity, thickness and hardness test and friability of the final optimized formulation are within the specified limit of U.S.P. On that basis by using optimized formulation, we can formulate the sustained release floating formulation.
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Received on 16.03.2017 Modified on 20.04.2017
Accepted on 11.05.2017 ©A&V Publications All right reserved
Res. J. Pharm. Dosage Form. & Tech. 2017; 9(2): 41-44.
DOI: 10.5958/0975-4377.2017.00008.8