scholarly journals IMPROVED TOPICAL PREPARATION OF CALCIPOTRIOL IN THE TREATMENT OF PSORIASIS

2021 ◽  
Vol 15 (5) ◽  
pp. 1-7
Author(s):  
Meenu Kumari ◽  
Monika Sachdeva ◽  
Vijay Agarwal

This research project is aimed to prepare improved topical preparation of Calcipotriol in the treatment of psoriasis by incorporation of an anti-inflammatory agent, keratolytic agent, humectants, surfactant, thickener & to perform its evaluation. In these different preparations of lotions sodium carboxymethylcellulose is used as a viscosity-enhancing agent in varying concentrations. This non-steroidal formulation is prepared by adding tea tree oil to avoid side effects associated with steroidal preparation and to avoid the issue of atrophy with long-term use of steroids. Evaluation of all the formulations such as spreadability, viscosity, drug content determination, pH, in-vitro release study, to choose the optimized formulation was carried out. According to ICH guidelines, stability studies were carried out to check the stability (parameters such as appearance, pH, viscosity, drug content) of prepared formulations for 3 months at room temperature. In-vitro drug release study CT5 formulation was carried by dialysis diffusion method. The cumulative% drug release of CT5 formulation in 210minutes was 85.10%. Based on the evaluation, formulation (CT5) was found to be better among all the formulations. The prepared calcipotriol formulation and a commercial formulation of calcipotriol were evaluated for anti-psoriatic activity. In-vivo anti-psoriatic was performed by using the Imiquimod Induced Psoriasis skin model. The results obtained in this study have been concluded that the prepared formulation (CT5) has great potential for topical delivery in the treatment of psoriasis.

Author(s):  
DIVYA SANGANABHATLA ◽  
R. SHYAM SUNDER

Objective: The present paper describes the development and evaluation of a Novel Finasteride (FSD) nanogel topical delivery for the treatment of Androgenetic Alopecia. Nano-based topical formulation was chosen to enhance the solubility, permeability, biocompatibility of drug and to overcome the problems associated with the oral delivery of finasteride. Methods: Various trails batches were prepared by using probe sonication method. Based on stability studies and particle size, NP4 trail was optimized which exhibited a spherical shape with a mean diameter of 113.80±0.72, the polydispersity of 0.28±0.01, zeta potential of-25.2 mV, drug entrapment efficiency of 92.67±0.47 %, and drug loading of 6.15±0.02 %. Storage stability studies demonstrated that the particle size and entrapment efficiency were not changed during 3 mo both at 4 °C and room temperature. Finasteride (FSD) NLCs were characterized for particle size by scanning electron microscope (SEM), chemical state by X-Ray diffraction (XRD), physical stability by centrifugation and thermodynamic stability by Freeze-thaw method. These prepared nanoparticles were transformed into topical nanogel and further evaluated. Results: Among the different trails, C2 trail of NLC gel has shown excellent gelling capacity, clear appearance, good viscosity characteristics and was selected for further evaluation studies. Batches of topical nanogel were characterized through pH, homogeneity, spreadability, viscosity, drug content and in vitro drug release study. Based on pH (6.5-6.8), drug content (91.25±0.9%), spreadability (6.7 cm/sec), C2 batch was subjected to In vitro skin occlusivity study, in-vitro release study and In vitro heamolysis study. Conclusion: The percent cumulative drug release for Finasteride (FSD) gel was found to be 758.52±1.49 µg at 24 h which is quite higher than plain gel and Finasteride (FSD) gel showed maximum occlusiveness and excellent spreadability and found to be stable. In conclusion, prepared Finasteride (FSD) Nanogel could be used with promising potential for the treatment of Androgenetic Alopecia.


Author(s):  
ASHWIN K ◽  
RAMA MOHAN REDDY T

Objective: The aim was to design, formulate, and evaluate the trilayer matrix tablets incorporated with quinapril for extend drug release. Methods: Quinapril trilayer matrix tablets were formulated using design of experiment software wherein initially 27 formulations (QF1-QF27) were designed for active layer from which one best formulation was chosen based on drug content, swelling index and in vitro release studies. The chosen formulation was formulated into extended release trilayed matrix tablet by varying proportions of polymers by direct compression and was evaluated for various physicochemical parameters, drug release. Best formulation was characterized for Fourier transform infrared (FTIR), stability, and pharmacokinetic study. Results: Out of 27 formulations highest drug release was exhibited by QF16 (98.85%) which was formulated into trilayer matrix tablets (AQF16- HQF16). Out of which EQF16 was found to exhibit highest values with 98.42% swelling index, 99.56% drug content, and 99.72% drug release in 24 h. All quinapril trilayer formulations showed zero-order and first-order for marketed product. The optimized formulation EQF16 was found to exhibit no interaction with excipients interpreted by FTIR and no significant changes were observed after loading for stability. In vivo studies conducted using optimized formulation EQF16 attained peak drug concentration (Tmax) of 4.0±0.06 and 1.0±0.03 h for the optimized and commercial formulations, respectively, while mean maximum drug concentration (Cmax) was 302.64±0.07 ng/mL and was significant (p<0.05) as compared to the quinapril marketed product formulation 358.78±0.75 ng/mL. Conclusion: Hence, quinapril was successfully formulated into trilayer matrix tablet and found to be stable.


Author(s):  
Chukwuebuka Umeyor ◽  
Uchechukwu Nnadozie ◽  
Anthony Attama

This study seeks to formulate and evaluate a solid lipid nanoparticle-based, solidified micellar carrier system for oral delivery of cefepime. Cefepime has enjoyed a lot of therapeutic usage in the treatment of susceptible bacterial infections; however, its use is limited due to its administration as an injection only with poor patient compliance. Since oral drug administration encourage high patient compliance with resultant effect in improved therapy, cefepime was formulated as solid lipid microparticles for oral delivery using the concept of solidified micellar carrier system. The carrier system was evaluated based on particle yield, particle size and morphology, encapsulation efficiency (EE %), and thermal analysis using differential scanning calorimeter (DSC). Preliminary microbiological studies were done using gram positive and negative bacteria. In vitro release study was performed using biorelevant media, while in vivo release study was performed in white albino rats. The yield of solid lipid microparticles (SLM) ranged from 84.2 – 98.0 %. The SLM were spherical with size ranges of 3.8 ± 1.2 to 42.0 ± 1.4 µm. The EE % calculated ranged from 83.6 – 94.8 %. Thermal analysis showed that SLM was less crystalline with high potential for drug entrapment. Microbial studies showed that cefepime retained its broad spectrum anti-bacterial activity. In vitro release showed sustained release of cefepime from SLM, and in vivo release study showed high concentration of cefepime released in the plasma of study rats. The study showed that smart engineering of solidified micellar carrier system could be used to improve oral delivery of cefepime.


Author(s):  
Y. Srinivasa Rao ◽  
K. Adinarayana Reddy

Fast dissolving oral delivery systems are solid dosage forms, which disintegrate or dissolve within 1 minute in the mouth without drinking water or chewing. Mouth dissolving film (MDF) is a better alternate to oral disintegrating tablets due to its novelty, ease of use and the consequent patient compliance. The purpose of this work was to develop mouth dissolving oral films of palonosetron HCl, an antiemetic drug especially used in the prevention and treatment of chemotherapy-induced nausea and vomiting. In the present work, the films were prepared by using solvent casting method with various polymers HPMC E3, E5 & E15 as a film base synthetic polymer, propylene glycol as a plasticizer and maltodextrin and other polymers. Films were found to be satisfactory when evaluated for thickness, in vitro drug release, folding endurance, drug content and disintegration time. The surface pH of all the films was found to be neutral. The in vitro drug release of optimized formulation F29 was found to be 99.55 ± 6.3 7% in 7 min. The optimized formulation F29 also showed satisfactory surface pH, drug content (99.38 ± 0.08 %), disintegration time of 8 seconds and good stability. FTIR data revealed that no interaction takes place between the drug and polymers used in the optimized formulation. In vitro and in vivo evaluation of the films confirmed their potential as an innovative dosage form to improve delivery and quick onset of action of Palonosetron Hydrochloride. Therefore, the mouth dissolving film of palonosetron is potentially useful for the treatment of emesis disease where quick onset of action is desired, also improved patient compliance.


Author(s):  
Nani Tadhi ◽  
Himansu Chopra ◽  
Gyanendra Kumar Sharma

Transdermal patch is a drug delivery device in which the drugs are incorporated and is design in such a way that it releases the drug in sustained and at predetermined rate to deliver the drug through the skin to the systemic circulation painlessly. The aim of this research study was to formulate a controlled and sustained release transdermal matrix type patch of Methimazole. The matrix patch was prepared by solvent casting method using a various polymer in different concentration, HPMC (hydrophilic), Eudragit RL100 and Ethyl cellulose (hydrophobic) polymer. Total 9 prototype formulation were prepared and it was subjected for various evaluation test; weight uniformity, Folding endurance, thickness, Drug content, percent moisture content, percent Moisture uptake and In-vitro drug release study using Franz diffusion cell. The in-vitro CDR% data was fit into kinetics model to see the release kinetics from the patches. The Formulation F5 was choosen as a best formulation according to in-vitro drug release study. The in-vitro release was found 81.12 % in 12 hours, it followed zero order kinetics. The nature of polymer and concentration ratio of polymers plays a crucial role for obtaining a good transdermal patch design; therefore optimisation is very important step to formulate a desired TDDS. Therefore the result of the study encourages a further study and is hopeful that the present study would contribute to the recent pharmaceutical research for formulation development.


Author(s):  
Mohini Sihare ◽  
Rajendra Chouksey

Aim: Nateglinide is a quick acting anti-diabetic medication whose potent activity lasts for a short duration. One of the dangerous side effects of nateglinide administration is rapid hypoglycemia, a condition that needs to be monitored carefully to prevent unnecessary fatalities. The aim of the study was to develop a longer lasting and slower releasing formulation of nateglinide that could be administered just once daily. Methods: Matrix tablets of nateglinide were prepared in combination with the polymers hydroxypropylmethylcellulose (HPMC), eudragits, ethyl cellulose and polyethylene oxide and the formulated drug release patterns were evaluated using in vitro and in vivo studies. Conclusion: Of the seventeen formulated matrix tablets tested, only one formulation labelled HA-2 that contained 15% HPMC K4M demonstrated release profile we had aimed for. Further, swelling studies and scanning electron microscopic analysis confirmed the drug release mechanism of HA-2. The optimized formulation HA-2 was found to be stable at accelerated storage conditions for 3 months with respect to drug content and physical appearance. Mathematical analysis of the release kinetics of HA-2 indicated a coupling of diffusion and erosion mechanisms. In-vitro release studies and pharmacokinetic in vivo studies of HA-2 in rabbits confirmed the sustained drug release profile we had aimed for. Keywords: Hydroxypropylmethylcellulose, Matrix tablets, Nateglinide, Sustained release


2009 ◽  
Vol 12 (1) ◽  
pp. 129 ◽  
Author(s):  
Zhihong Zhang ◽  
Bo Peng ◽  
Xinggang Yang ◽  
Chao Wang ◽  
Guangmei Sun ◽  
...  

PURPOSE. Find a novel delivery system for oral administration of drugs that have absorption window in the upper part of gastrointestinal (GI) track. METHODS. Dipyridamole was chosen as the model drug. A novel system, which combined the osmotic pump controlled release system and the floating system, was designed; matrix tablets (MT) were prepared for compares. The effects of pH, temperature and hydrodynamic conditions on drug release and the floating behavior of floating osmotic pump system (FOP) were investigated. In vivo evaluation was performed by a three-crossover study in six Beagle dogs relative to the conventional tablet (CT). Cumulative percent input in vivo was compared with that of in vitro release profiles. RESULTS. Floating behavior of FOP, drug releases from FOP and MT were sensitive to pH of dissolution media but not sensitive to temperature; the release of dipyridamole from MT was influenced by stirring rate while drug release from FOP was not. AUC of FOP was larger than MT and CT. The linear correlations between fraction absorbed in vivo and fraction dissolved in vitro was established for FOP-a true zero-order release formula, whereas only a nonlinear correlation was obtained for MT. CONCLUTIONS. FOP could be a novel way for the oral administration for drugs like dipyridamole.


INDIAN DRUGS ◽  
2020 ◽  
Vol 57 (07) ◽  
pp. 52-57

The aim of this research was to develop mucoadhesive buccal patches of nicergoline by using Factorial Design of Experiment, in order to provide a sustained release of drug into the systemic circulation. A 33 factorial experimental design was employed for optimization and to study the effect of formulation variables on responses R1 (% swelling index), R2 (% drug content), R3 (mucoadhesion time) and R4 (mucoadhesion strength). In vitro drug release study was performed on the optimized formulations. All the prepared formulations had good mechanical strength, mucoadhesion strength, neutral surface pH and drug content up to 98.17%. In vitro drug release study revealed that F-5 formulation showed promising sustained drug release profile (98.21%) for over 8 h and could be a potential substitute for marketed conventional formulations. The developed formulation (F5) was found to be optimized with considerably good stability and extended drug release profile.


Author(s):  
Somasundaram I

Aims and Objectives: The present study is to formulate the nanosuspension containing a hydrophilic drug pramipexole dihydrochloride and hesperidin and to increase the drug entrapment efficiency.Methods: Hesperidin and pramipexole dihydrochloride loaded in chitosan nanosuspension is prepared by ionic gelation method using chitosan and tripolyphosphate. There was no incompatibility observed between the drug and polymer through Fourier transform infrared and differential scanning calorimetric. Various other parameters such as particle size, zeta potential, scanning electron microscope, drug content, drug entrapment efficiency, and in vitro release have been utilized for the characterization of nanoparticles.Results and Discussion: The average size of particle is 188 nm; zeta potential is 46.7 mV; drug content of 0.364±0.25 mg/ml; entrapment efficiency of 72.8% is obtained with HPN3 formulation. The PHC1 shows the highest drug release followed by PHC2 due to low concentration of polymer and PHC4 and PHC5 show less drug release due to high concentration of polymer. The in vitro release of PHC3 is 85.2%, initial the burst release is shown which is approximately 60% in 8 h; then, slow release later on drastic reduction in release rate is shown in 24 h. The in vivo study histopathological report confers the effective protective against rotenone induces Parkinson’s.Conclusion: PHC3 was chosen as the best formulation due to its reduced particle size and controlled release at optimum polymer concentration which may be used to treat Parkinson’s disease effectively..


Author(s):  
Krutika Sawant ◽  
Mitali Patel ◽  
Jiten Patel ◽  
Piyush Mundada

<p><strong>Objective: </strong>The objective of the present investigation was to prepare gastro-resistant microspheres of esomeprazole magnesium trihydrate (EMT) to prevent its degradation in the acidic environment of the stomach and enhance its bioavailability via intestinal absorption.</p><p><strong>Methods: </strong>EMT loaded gastro-resistant microspheres were prepared using hypromellose acetate succinate (HPMCAS) as the gastro-resistant polymer by ‘non-aqueous solvent evaporation’ technique. A 3-factor 3 level factorial design was used to optimise EMT: HPMCAS ratio, the concentration of Span 80 and stirring speed with respect to percent entrapment efficiency and particle size. Further characterization was carried out using scanning electron microscopy (SEM), differential scanning calorimetry (DSC), <em>In vitro</em> release study and <em>In vivo</em> anti-ulcer activity.</p><p><strong>Results: </strong>Fourier transform infrared <strong>(</strong>FTIR) study indicated compatibility between drug and polymer. DSC study revealed that the drug was molecularly dispersed in the polymer. The optimised batch showed 49.63±1.23% drug entrapment and 170.12±3.36 μm particle size. SEM study showed that microspheres were spherical in shape<strong>. </strong><em>In vitro</em> drug release study showed only 4.28±1.23% drug release in simulated gastric media in 2 hr and 93.46±1.20% release in simulated intestinal media after 1 hr from the optimised batch.</p><p><strong>Conclusion: </strong>Results of <em>in vitro </em>release studies indicated the gastro-resistant nature of the developed microspheres. <em>In vivo</em> anti-ulcer activity demonstrated that EMT loaded microspheres were able to significantly reduce ethanol-induced ulcer formation in rats’ stomach as compared to the aqueous solution of EMT. So it can be concluded that the developed gastro-resistant microspheres of EMT prevented drug release in the stomach which would lead to a significant improvement in its bioavailability through enhanced intestinal absorption</p>


Sign in / Sign up

Export Citation Format

Share Document