The Effect of Different Polymers on the Drug Release Behavior from Fast Dissolving Amlodipine Besylate Oral Films for the Treatment of Hypertension
Rajasree PH1*, Beenu Babu2, Arunkumar Nagalingam2 and Jessen George3
1Department of Pharmaceutics, JSS University, India
2Department of Pharmaceutics, KMCH College of Pharmacy, India
3Department of Water & Health, JSS University, India
Submission: June 22, 2017; Published: June 29, 2017;
*Corresponding author: Rajasree PH, Department of Pharmaceutics, JSS College of Pharmacy Mysore, Karnataka, India, Email: rajasreeph@gmail.com
How to cite this article: Rajasree PH, Beenu B, Arunkumar N, Jessen G. The Effect of Different Polymers on the Drug Release Behavior from Fast Dissolving Amlodipine Besylate Oral Films for the Treatment of Hypertension. Mod Appl Bioequiv Availab. 2017; 1(4): 555570.
Introduction
The antihypertensive effects of Calcium channel blockers (CCBS) have been used from decades [1]. Unlike BCS Class II drugs, Amlodipine is highly soluble Class III drug [2]. It is a second generation long acting dihydro calcium channel blocker used in the management of hypertension and angina pectoris. The initial dose is 5 mg dailyfor the management of hypertension. After the oral administration, it is well absorbed with a peak blood concentration of 6-12 hours having an elimination half-life of 30-50 hours [3,4].
Oral mucosal region is highly vascularized and it gives rapid absorption of drugs than oral route [5]. Drugs that are absorbed through the buccal mucosa and sublingual route directly enter the systemic circulation bypassing the first-pass metabolism in the liver [6,7]. Orally fast-dissolving film is new drug delivery system for the oral delivery of the drugs. It can be placed on the tongue or any oral mucosal tissue, instantly wet by saliva the film rapidly hydrates and adheres onto the site of application [8]. The aim of the study was to design, develop and evaluate rapidly dissolving oral films of Amlodipine besylate. The objective of the study is to develop an oral film for the immediate release of drug and to evaluate the effect of different polymers with disintegrates on the fabrication of the film and drug release from the film.
Experimental
Materials
Amlodipine was obtained as a gift sample from Microlabs, Bangalore. HPMC and SSG procured from LobaChemie Pvt. Ltd, Mumbai. PVA, sodium alginate, glycerin and propylene glycol from SD fine chemicals, Mumbai. PVP was purchased from SISCO Research Laboratories. All the other chemicals used were of analytical grade.
Methods
A. Formulation of Amlodipine fast dissolving oral film: Fast dissolving oral films of amlodipine was formulated using solvent casting method. The polymer HPMC (2%, 2.5% and 3% ), PVA and PVP (2%,2.5% and 3% ) and Sodium alginate and SSG (1.5%, 2% and 2.5% ) is dissolved in water and then the specified quantity of drug as well as plasticizers, other excipients were added and was air dried for 24 hours in petridishes.
B. Preparation of oral films using HPMC: HPMC (2%, 2.5% and 3%) were dissolved in water. Specified amount of drug and 20%w/w of plasticizers (glycerine, propylene glycol) were added to it. The above solution was poured onto a petridish and dried at room temperature. After 24 hours the dried films were taken out.
C. Preparation of oral films using PVA and PVP: PVA in percentage of 2%,2.5% and 3% were dissolved in water. 1% and 2% PVP were added as disintegrates to each of the polymer solutions. Then 55mg of drug and 20% of plasticizers (glycerine, propylene glycol) were added to it. The above solution was poured onto the petridish and dried in oven at a temperature of 60 °C. After 24 hours the dried films were taken out.
D. Preparation of oral films using Sodium alginate and SSG: Sodium alginate in percentage of 1.5%, 2% and 2.5% were dissolved in water. Then 1% and 2% SSG was added to each of the polymer solution. Then 55mg of drug and 20%w/w of plasticizers (glycerine, propylene gycol) were added to it. The above solution was subjected to magnetic stirrer and was poured onto the petridish and was dried in room temperature and after 24 hours the dried films were taken out.
Results and Discussion
The calibration curve of Amlodipine in Phosphate buffer pH6.8 at 238nm (Figure 1) was carried out and R2 was found to be 0.996.
Fast dissolving oral films were prepared by solvent casting method using polymers such as hydroxyl propyl methylcellulose, polyvinyl alcohol and sodium alginate using poly vinyl pyrrolidone and sodium starch glycolate as disintegrates.
The FT-IR spectrum of the standard was analyzed and then superimposed with the samples to find out possible interactions between the drug and the polymers. All the characteristic peaks of Amlodipine were also found in the spectrum formulations Figure 2A & 2B. The results suggested that the drug is intact in the formulations and there was no interaction found between the drug and the excipients also the peaks in formulation showed slight variation due to the drug incorporation.
The physical evaluations and in-vitro drug release studies were performed for all the 18 formulations. The results are acceptable for folding endurance, thickness,weight uniformity, percentage moisture absorption, disintegration time, drug content and in-vitro drug release shown in Table 1-5. The surface pH results of the film was found to be nearly neutral and suitable for oral use as shown in Table 6. Films were analyzed for its drug content and all the formulations showed a satisfactory drug content values ranging from 60-93% which is in accordance with the standard values prescribed for drug content analysis shown in Table 7.
The formulation P1 (2 %PVA and 2%SSG) was found to have the maximum disintegration time of 15 min. The in-vitro release studies of formulation P1 showed maximum release of 93.86% within 30 minutes, which shows that the increase in polymer concentration decreases the drug release shown in Table 8-11. The kinetic data suggest that the formulation fit into 1st order equation for release of drug from the homogenous film and the release mechanism was found to be fickian diffusion. The stability studies showed that there was not much change in the physical appearance, drug content and dissolution When the oral film preparation was stored in a chamber controlled at 40 °C and 75% in humidity for 1 to 3 months, no apparent changes in the drug content, form or color of preparations were observed in Table 12. The drug content were was stable ranging from 97.67%to 93.96% during the study after storage at 40 °C and 75%humidity (accelerated condition). Therefore, the formulated Amlodipine fast dissolving oral film using the combination of PVA and SSG would be a promising alternative for safer and effective treatment of hypertension.
Conclusion
A fast dissolving oral film of Amlodipine Besylate by solvent casting method was successful. Polymers such as HPMC, PVA and sodium alginate along with disintegrate like Poly Vinyl Pyrrolidone (PVP) and Sodium Starch Glycolate (SSG) were used. All physic-chemical studies of the prepared films are comparable within the range. The formulation P1 (2 %PVA and 2%SSG) with maximum release rate was found to be the best formulation among the 18 formulations. Future studies using animal models will provide more effectiveness of the films in-vivo.
Acknowledgement
The authors are likely to express sincere thanks to KMCH College of Pharmacy, Kalappatty Road, Coimbatore, TN for providing the necessary facilities to carry out the research.
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