scholarly journals DEVELOPMENT AND CHARACTERIZATION OF DICLOFENAC SODIUM LOADED EUDRAGIT RS100 POLYMERIC MICROSPONGE INCORPORATED INTO IN SITU GEL FOR OPHTHALMIC DRUG DELIVERY SYSTEM

2021 ◽  
pp. 63-69
Author(s):  
RAJASHRI B. AMBIKAR ◽  
ASHOK V. BHOSALE
Keyword(s):  
Particle Size ◽  
Drug Release ◽  
Diclofenac Sodium ◽  
Entrapment Efficiency ◽  
Gelling Agent ◽  
In Vitro Drug Release ◽  
In Situ Gel ◽  
Drug Content

Objective: Purpose of the study to design and formulate Diclofenac sodium (DIC) microsponges. Methods: With varied polymer: drug ratio DIC loaded microsponges were prepared with Eudragit RS100 polymer by quasi solvent diffusion method. Microsponges evaluated for particle size, entrapment efficiency, drug content, in vitro drug release, Fourier Transform Infrared Spectroscopy (FTIR), Differential scanning calorimetry (DSC) and Scanning electron microscopy (SEM). DIC loaded microsponges incorporated into ocular in situ gel to attained controlled release by microsponge and improved residence time by gelling system. Ocular in situ gel evaluated for pH, drug content determination, gelling capacity, in vitro drug release and sterility study. Results: DSER4 microsponge formulation having polymer to drug ratio 1:7 showed satisfactory production yield (68.13%), entrapment efficiency (62.86%), drug content (80.73%), requisite particle size (less than 10 µm) (7.52 µm) and in vitro release 87.94% after 6 h. Selected DSER4 formulation was incorporate into in situ gel. Carbopol 940 forms stiff gel at higher pH so used as a gelling agent, whereas Hydroxypropyl Methylcellulose E4M was used as a viscosity-enhancing agent for the formulation of in situ gel in varied compositions. In situ gel formulation IG4 showed sustained release of 76.92% till the end of 8 h and satisfactory gelling capacity so IG4 further evaluated for sterility test. Rheological studies reveal the sol-gel transition of in situ gel occur at the physiological condition to form stiff gel. Conclusion: Prepared in situ gel formulations showed sustained drug release for a period of 8 h, which is satisfactory for management of ocular pain.

scholarly journals Design and Evaluation of Natamycin Nanocrystals Loaded In Situ Gel for Ophthalmic Administration

2021 ◽  
pp. 307-324
Author(s):  
Roshni Das ◽  
Marina Koland ◽  
S. M. Sindhoor
Keyword(s):  
Particle Size ◽  
Drug Release ◽  
Zeta Potential ◽  
Ex Vivo ◽  
In Vitro Drug Release ◽  
In Situ Gel ◽  
Drug Content ◽  
Ex Vivo Permeation

Background: Natamycin belongs to a large group of naturally occurring polyene antifungal antibiotics derived from Streptomyces natalensis. Natamycin has a restrictive pharmaceutical role because of its extremely low aqueous solubility, which severely reduces the bioavailability of the drug. To improve the absorption of the drug, nanocrystals of natamycin were prepared and incorporated into in situ gel. Aim: To improve the solubility and absorption of natamycin nanocrystals by preparing nanocrystal in situ gel of natamycin for ophthalmic delivery Methodology: Natamycin nanocrystal was prepared using Sono-Precipitation method. Box-Behnken approach was employed to assess the influence of independent variables, namely concentration of stabilizer, sonication time and amplitude on particle size and zeta potential of the prepared nanocrystal. Optimized natamycin nanocrystal in situ gel formulations was characterized for various parameters like pH, viscosity, drug content, in vitro drug release and ex vivo permeation studies. Results: The optimized formulation of natamycin nanocrystal with a particle size of  293.9nm and zeta potential -14.6mV was incorporated into in situ gels. The pH triggered in situ gel was prepared using Carbopol and Hydroxypropyl methylcellulose (HPMC)., which showed clear preparation, pH of the formulation was closed to the pH of tear fluid, i.e., 7.4, viscosity showed pseudoplastic behaviour with immediate gelation remained for an extended period, and the drug content was around 99.70%. From the characterizations given above, PF-4 was optimized and evaluated for In vitro drug release showing slow and sustained release when compared to the marketed formulation and followed first-order kinetics with the diffusion-controlled mechanism. Ex vivo permeation through goat's cornea of PF-4 showed better permeation than marketed formulation. The stability studies of PF-4 showed that formulation was stable at the appropriate condition. Conclusion: Nanocrystals formulations of natamycin was successfully formulated and incorporated into in situ gels. Further in vivo studies need to be carried out for confirmation of pharmacological activity

scholarly journals Formulation and characterization of a novel pH-triggered in-situ gelling ocular system containing Gatifloxacin

1970 ◽  
Vol 1 (3) ◽  
pp. 43-49 ◽  
Author(s):  
Jovita Kanoujia ◽  
Kanchan Sonker ◽  
Manisha Pandey ◽  
Koshy M Kymonil ◽  
Shubhini A Saraf
Keyword(s):  
Drug Release ◽  
Research Work ◽  
Gelling Agent ◽  
In Vitro Drug Release ◽  
Drug Content ◽  
Carbopol 940 ◽  
In Situ Gelling ◽  
Gel Transition

The present research work deals with the formulation and evaluation of in-situ gelling system based on sol-to-gel transition for ophthalmic delivery of an antibacterial agent gatifloxacin, to overcome the problems of poor bioavailability and therapeutic response exhibited by conventional formulations based a sol-to-gel transition in the cul-de-sac upon instillation. Carbopol 940 was used as the gelling agent in combination with HPMC and HPMC K15M which acted as a viscosity enhancing agent. The prepared formulations were evaluated for pH, clarity, drug content, gelling capacity, bioadhesive strength and in-vitro drug release. In-vitro drug release data of optimized formulation (F12) was treated according to Zero, First, Korsmeyer Peppas and Higuchi kinetics to access the mechanism of drug release. The clarity, pH, viscosity and drug content of the developed formulations were found in range 6.0-6.8, 10-570cps, 82-98% respectively. The gel provided sustained drug release over an 8 hour period. The developed formulation can be used as an in-situ gelling vehicle to enhance ocular bioavailability and the reduction in the frequency of instillation thereby resulting in better patient compliance. Key Words: In-situ gelation; Gatifloxacin; Carbopol 940; HPMC K15M. DOI: http://dx.doi.org/10.3329/icpj.v1i3.9661 International Current Pharmaceutical Journal 2012, 1(3): 43-49

Fabrication and Characterization of Ocular Phase Transition Systems for Blepharitis: A Novel Approach

2020 ◽  
Vol 10 (1) ◽  
pp. 24-37
Author(s):  
Deepali Verma ◽  
Shreya Kaul ◽  
Neha Jain ◽  
Upendra Nagaich
Keyword(s):  
Drug Release ◽  
Ex Vivo ◽  
Eye Drops ◽  
Stability Studies ◽  
In Vitro Drug Release ◽  
In Situ Gel ◽  
Drug Content ◽  
Erythromycin Estolate

Introduction: In the present research, erythromycin estolate loaded in-situ gel was formulated and evaluated for blepharitis in order to improve its therapeutic efficacy, precorneal residence time of the system and to enhance the ocular bioavailability. Material and Methods: The developed formulation was characterized by several parameters viz. FTIR, clarity, pH, gelation temperature, rheological studies, drug content, in vitro drug release studies, transcorneal permeation studies, bioadhesion studies, isotonicity and stability studies. Results: The optimized formulation exhibited non-fickian release diffusion with a sustained release of drug 82.76 ± 0.94% up to 8h and drug content 93.64%. Isotonicity revealed that the formulation was isotonic in nature and there was no shrinkage and busting of cells. Bioadhesion study was performed to check the adherence of the prepared in situ gel to the corneal surface for 4h. Ex vivo transcorneal permeation was observed to be significantly higher when compared with market eye drops. Histopathological studies were conducted to confirm the presence of normal ocular surface tissues by maintaining their morphological structures without causing damage to the tissues. The formulation was nonirritant as confirmed by the HET-CAM test. Stability studies and accelerated stability studies were conducted for 13 weeks and 26 weeks respectively and formulations were analyzed for the visual appearance, pH, viscosity, gelling capacity, drug content and in vitro drug release and results showed no change in the formulations. Conclusion: The formulation was therapeutically efficacious, sterile, stable and provided controlled release over a period of time. The developed system could be a viable alternative to conventional eye drops for treatment of various ocular diseases.

scholarly journals FORMULATION AND EVALUATION OF NOVEL IN SITU GEL OF LAFUTIDINE FOR GASTRO RETENTIVE DRUG DELIVERY

2018 ◽  
Vol 11 (8) ◽  
pp. 88
Author(s):  
Sindhoor S M ◽  
Sneh Priya ◽  
Amala Maxwell
Keyword(s):  
Drug Release ◽  
Imaging Study ◽  
Lag Time ◽  
In Vivo Studies ◽  
In Vitro Drug Release ◽  
In Situ Gel ◽  
Drug Content

Objective: The aim of the present study was to formulate and evaluate the novel in situ gel of lafutidine for gastroretentive drug deliveryMethods: A gastroretentive in situ gel of lafutidine was formulated by pH-triggered ionic gelation method using different concentrations of gelling polymer such as sodium alginate, gellan gum, and xanthum gum. Prepared formulations were evaluated for viscosity, density, buoyancy lag time and buoyancy duration, and drug content. In vitro drug release studies of all formulations were also performed. In vivo fluorescence imaging study was conducted for optimized formulation and compared with control.Results: The concentration of gelling agents and release retardant polymers significantly affected viscosity, floating behavior, and in vitro drug release of the formulations. The pH and drug content were found in the range of 6.72–7.20 and 88.74–95.33%, respectively. Floating lag time was <2 min; duration of floating was more than 12 h. Minimum and maximum in vitro drug release were found to be for formulation F9 (51.74%) and F1 (82.76%), respectively, at the end of 12 h. The drug was released from the all the formulations in a sustained manner. In vivo studies confirmed the gastroretention of the formulation in mice stomach for 8 h. Stability studies indicated that the there was no significant change in the visual appearance, floating behavior, and drug content.Conclusion: The gastroretentive in situ gel system, prolonged the gastric residence time, thereby targeting site-specific drug release in the upper gastrointestinal tract.

scholarly journals Evaluation of in situ gel forming system loaded with etoricoxib and herbal adjuvant nanoparticles against human colon cancer cell lines (HT-29)

2020 ◽  
Vol 9 (1) ◽  
pp. 789-795
Keyword(s):  
Drug Release ◽  
Human Colon ◽  
Human Colon Cancer ◽  
In Vitro Drug Release ◽  
In Situ Gel ◽  
Drug Content ◽  
Tamarind Seed ◽  
Ht 29

The aim of the research work was to fabricate the nanosuspension of etoricoxib with polyherbal components (extract of ginger root and basil leaf) to enhance the solubility of API; furthermorein situ gel forming system for stomach specific drug delivery was prepared utilizing formulated nanosuspension as base. The objective of the present research is to enhance the solubility of poorly aqueous soluble drug by fabricating nanoparticles and improve their residence time within stomach by formulating in situ gel forming system. Tamarind seed polysaccharide as polymer, etoricoxib as drug, ethanolic extract of ginger (GE) and basil (BE), was used for preparation of nanoparticles.Solvent antisolvent precipitation method was used to prepare nanoparticles. The fabricated nanoparticles were evaluated for various parameters such as physical appearance, Scanning electron microscope, drug content, in-vitro drug release. For preparation of in-situ gel containing nanoparticles, tamarind seed polysaccharides, calcium carbonate and sodium alginate were used. The prepared formulations were evaluated for different characterization parameters such as,- pH, viscosity, floating behaviour, drug content, in-vitro drug release and in-vitro cytotoxic study. The in-situ gel containing nanoparticles were successfully prepared and evaluated. Firstly, the nanoparticles were evaluated for physical appearance, Scanning electron microscope, drug content, in-vitro drug release and found that the formulations were clear as well as homogenous, size of nanoparticles was evaluated in the range of 498nm to 587nm, the drug content of etoricoxib was found in the range of 71.38±0.01 (F5) to 79.45±0.01 (F6), the drug content of GE was found in the range of 69.25±0.05 (F4) to 74.25±0.02 (F1) and the drug content of BE was 69.48±0.09 (F1) to 75.59±0.08 (F6). The drug release was taken up to 12 h and found to be 99%. In-situ gel containing nanoparticles were also evaluated for different parameters such as pH, viscosity, floating behaviour, drug content, and in-vitro drug release. The pH of the prepared formulation was found to be in the range of 7.1±0.04 to 7.5±0.02. The viscosity of the prepared formulation was found in the range of 11.25±0.023 to 12.78 ±0.025. The lag time was found in the range of 11 to 20 sec and floating time was upto 24 h. The drug release was taken up to 8 h and found to be 99±0.2%. It can be concluded that etoricoxib with phytoconstituents (GE and BE) improved its potential to control the growth of human colon cancer cell line (HT-29) in in-vitro conditions. It was concluded from the findings that the in-situ gel containing nanoparticles of etoricoxib from solvent antisolvent method was successfully prepared and found that it has improved the solubility of the poorly soluble drug etoricoxib and dissolution rates.

scholarly journals FORMULATION AND EVALUATION OF FLOATING IN SITU GEL OF CIPROFLOXACIN

2019 ◽  
Vol 11 (1) ◽  
pp. 198
Author(s):  
Shailaja Pashikanti ◽  
Jyothsna B.
Keyword(s):  
Calcium Carbonate ◽  
Drug Release ◽  
Sodium Alginate ◽  
Gelling Agent ◽  
In Vitro Drug Release ◽  
In Situ Gel ◽  
Degradable Polymer ◽  
Gel Formulations

Objective: The objective of the study was to develop floating in situ gel formulations of Ciprofloxacin that has a narrow absorption window and mainly absorbed in the proximal areas of GIT. These formulations increases the targeted action on bacteria for a longer time that can be used in the treatment of Helicobacter pylori (H. pylori) infections and urinary tract infections.Methods: In situ gel formulations were prepared by varying concentrations of sodium alginate as in situ gel forming bio-degradable polymer and calcium carbonate as a cross-linking agent. The formulations were evaluated for Physical appearance, pH, in vitro drug release, viscosity, in vitro floating behaviour, in vitro gelling capacity and drug content. FTIR was conducted for Ciprofloxacin, excipients used and optimized formulation.Results: All the formulations showed an optimum viscosity that will allow ease of administration and swallowing. Floating lag time of all formulations was between 32-70 seconds and floated for>12 h. The in vitro gelling capacity increased with increasing the polymer and gelling agent concentrations. Increase in polymer concentration decreased the rate and extent of the drug release. Among all the formulations, F4 containing 4% w/v of sodium alginate and 4% w/v of calcium carbonate showed sustained in vitro drug release (95.6%) over an extended period of 12 h. FTIR studies revealed no interaction between drug and excipients used. Drug release from the formulations followed First order kinetics with Fickian diffusion.Conclusion: Ciprofloxacin was successfully formulated as a pH-triggered floating in situ gelling system using sodium alginate.

scholarly journals Investigating The Retention Potential of Chitosan Nanoparticulate Gel: Design, Development, In Vitro & Ex Vivo Characterization

2020 ◽  
Vol 15 (1) ◽  
pp. 41-67
Author(s):  
Shreya Kaul ◽  
Neha Jain ◽  
Jaya Pandey ◽  
Upendra Nagaich
Keyword(s):  
Particle Size ◽  
Drug Release ◽  
Ex Vivo ◽  
Chitosan Nanoparticles ◽  
Entrapment Efficiency ◽  
Eye Drops ◽  
Design Development ◽  
In Vitro Drug Release ◽  
Drug Content

Introduction: The main purpose of the research was to develop, optimize and characterize tobramycin sulphate loaded chitosan nanoparticles based gel in order to ameliorate its therapeutic efficacy, precorneal residence time, stability, targeting and to provide controlled release of the drug. Methods: Box-Behnken design was used to optimize formulation by 3-factors (chitosan, STPP and tween 80) and 3-levels. Developed formulation was subjected for characterizations such as shape and surface morphology, zeta potential, particle size, in vitro drug release studies, entrapment efficiency of drug, visual inspection, pH, viscosity, spreadability, drug content, ex vivo transcorneal permeation studies, ocular tolerance test, antimicrobial studies, isotonicity evaluation and histopathology studies. Results: Based on the evaluation parameters, the optimized formulation showed a particle size of 43.85 ± 0.86 nm and entrapment efficiency 91.56% ± 1.04, PDI 0.254. Cumulative in vitro drug release was up to 92.21% ± 1.71 for 12 hours and drug content was found between 95.36% ± 1.25 to 98.8% ± 1.34. TEM analysis unfolded spherical shape of nanoparticles. TS loaded nanoparticulate gel exhibited significantly higher transcorneal permeation as well as bioadhesion when compared with marketed formulation. Ocular tolerance was evaluated by HET-CAM test and formulation was non-irritant and well-tolerated. Histopathology studies revealed that there was no evidence of damage to the normal structure of the goat cornea. As per ICH guidelines, stability studies were conducted and were subjected for 6 months. Conclusion: Results revealed that the developed formulation could be an ideal substitute for conventional eye drops for the treatment of bacterial keratitis.

scholarly journals Formulation and Evaluation of Eudragit Rl100 Polymeric Drug Loaded Microsponge for Ophthalmic Use

2021 ◽  
pp. 45-51
Author(s):  
Rajashri B. Ambikar ◽  
Ashok V. Bhosale
Keyword(s):  
Particle Size ◽  
Controlled Release ◽  
Drug Release ◽  
Delivery System ◽  
Diffusion Mechanism ◽  
Diclofenac Sodium ◽  
Entrapment Efficiency ◽  
Fickian Diffusion ◽  
Drug Content

Aims: The aim of this work is the formulation of Eudragit RL100 polymeric microsponges. The Microsponge Delivery System is a patented technique in which there is a polymeric system consisting of porous particles. Methodology: The ratio of Diclofenac sodium and eudragit RL100 varied from 1:1 to 13: 1 to formulate microsponge. Dichloromethane was used as internal phase and polyvinylalcohol was used as an external phase. The formed microsponges were characterized for particle size, entrapment efficiency, drug content, in vitro drug release and SEM. Results: With increase in drug: polymer ratio there is increase in production yield from 20.04% to 72.14%, and entrapment efficiency from 20.11% to 70.77%.  Drug content of formed microsponge varied between 50.18% to 91.09% whereas particle size ranged from 1.41 µm to 17.66 µm. Microsponge formulations F3, F4 and F5 showed desired particle size hence studied for further evaluation. Formulation F3, F4 and F5 showed controlled release of 89.54%, 98.5% and 98.76% respectively up to 6 hr. F3 showed more controlled release at the end of 6 hr. The drug release from microsponges was best fitted to Higuchi’s diffusion kinetics for all microsponge formulations with non-Fickian diffusion mechanism. The formed microsponge particles have spherical porous structure. Conclusion: Study showed significance of Microsponge Delivery System for ophthalmic administration.

scholarly journals DESIGN AND EVALUATION OF MODIFIED CHITOSAN BASED IN SITU GEL FOR OCULAR DRUG DELIVERY

2017 ◽  
Vol 9 (10) ◽  
pp. 87 ◽  
Author(s):  
Anuja T. Kadam ◽  
Rahul L. Jadhav ◽  
Pradnya B. Salunke ◽  
Satwashila S, Kadam
Keyword(s):  
Drug Release ◽  
Release Kinetics ◽  
In Vitro Drug Release ◽  
In Situ Gel ◽  
Phase Change Temperature ◽  
Modified Chitosan ◽  
Drug Content ◽  
Change Temperature

Objective: The object of the present study was to formulate and evaluate in-situ gel of modified chitosan by using temperature triggered method to improve bioavailability.Methods: Modified chitosan-based moxifloxacin HCl was prepared by cold method. polaxomer 407 adding in distilled water and this solution kept in the refrigerator. Modified chitosan and moxifloxacin HCl was dissolved separately in distilled water and added to the polymeric solution with continuous stirring until thoroughly mixed. Prepared formulation was evaluated for drug content, gelling capacity, rheological study, in vitro drug release behavior, measurement of phase change temperature, antibacterial study, release kinetics, statistical analysis.Results: The prepared formulations were evaluated for their, drug content, gelation temperature, in vitro drug release studies, rheological study and release kinetics. All batches of in situ formulations had satisfactory pH ranging from 6.2±0.2, drug content between 98.8±0.2 showing uniform distribution of drug. As the concentration of each polymeric component was increased, there was a decrease in phase change temperature. The in vitro drug release decreased with increase in polymeric concentrations. The antibacterial efficiency of the selected formulation against staphylococcus aureus confirmed that designed formulation has prolonged effect and retained its properties against bacterial infection.Conclusion: The prepared in situ gelling formulation had the appropriate combination of polaxomer 407 and modified chitosan were suitable satisfactorily sustained the drug release from moxifloxacin HCl in situ gel. The prepared formulation of moxifloxacin HCl appears to be promising drug delivery for bacterial infectious disease.

Solid Lipid Nanoparticles for Topical Delivery of Acitretin for the Treatment of Psoriasis by Design of Experiment

2020 ◽  
Vol 12 (2) ◽  
pp. 4474-4491
Author(s):  
Rajkumar Aland ◽  
Ganesan M ◽  
P. Rajeswara Rao ◽  
Bhikshapathi D. V. R. N.
Keyword(s):  
Particle Size ◽  
Drug Release ◽  
Solid Lipid Nanoparticles ◽  
Drug Loading ◽  
Entrapment Efficiency ◽  
Lipid Nanoparticles ◽  
Tem Analysis ◽  
In Vitro Drug Release ◽  
Solid Lipid

The main objective for this investigation is to develop and optimize the solid lipid nanoparticles formulation of acitretin for the effective drug delivery. Acitretin loaded SLNs were prepared by hot homogenization followed by the ultrasonication using Taguchi’s orthogonal array with eight parameters that could affect the particle size and entrapment efficiency. Based on the results from the analyses of the responses obtained from Taguchi design, three different independent variables including surfactant concentration (%), lipid to drug ratio (w/w) and sonication time (s) were selected for further investigation using central composite design. The  lipid Dynasan-116, surfactant poloxomer-188 and co surfactant egg lecithin resulted in better percent drug loading and evaluated for particle size, zeta potential, drug entrapment efficiency, in vitro drug release and stability. All parameters were found to be in an acceptable range. TEM analysis has demonstrated the presence of individual nanoparticles in spherical shape and the results were compatible with particle size measurements.  In vitro drug release of optimized SLN formulation (F2) was found to be 95.63 ± 1.52%, whereas pure drug release was 30.12 after 60 min and the major mechanism of drug release follows first order kinetics release data for optimized formulation (F2) with non-Fickian (anomalous) with a strong correlation coefficient (R2 = 0.94572) of Korsemeyer-Peppas model. The total drug content of acitretin gel formulation was found to 99.86 ± 0.012% and the diameter of gel formulation was 6.9 ± 0.021 cm and that of marketed gel was found to be 5.7 ± 0.06 cm, indicating better spreadability of SLN based gel formulation. The viscosity of gel formulation at 5 rpm was found to be 6.1 x 103 ± 0.4 x 103 cp. The release rate (flux) of acitretin across the membrane and excised skin differs significantly, which indicates about the barrier properties of skin. The flux value for SLN based gel formulation (182.754 ± 3.126 μg cm−2 h−1) was found to be higher than that for marketed gel (122.345 ± 4.786 μg cm−2 h−1). The higher flux and Kp values of SLN based gel suggest that it might be able to enter the skin easily as compared with marketed gel with an advantage of low interfacial tension of the emulsifier film that ensures an excellent contact to the skin. This topically oriented SLN based gel formulation could be useful in providing site-specific dermal treatment of psoriasis

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