scholarly journals Formulation, in-vitro and in-vivo pharmacokinetic evaluation of simvastatin nanostructured lipid carrier loaded transdermal drug delivery system

2019 ◽  
Vol 5 (1) ◽  
Author(s):  
S Brito Raj ◽  
Kothapalli Bonnoth Chandrasekhar ◽  
Kesavan Bhaskar Reddy
Keyword(s):  
Drug Delivery ◽  
Particle Size ◽  
Zeta Potential ◽  
Drug Delivery System ◽  
Delivery System ◽  
Oral Dosage ◽  
Pharmacokinetic Studies ◽  
Nanostructured Lipid Carrier ◽  
Transdermal Patch

Abstract Background A simvastatin nanostructured lipid carrier loaded transdermal patch was developed to enhance the bioavailability and therapeutic effect. Methods Simvastatin NLC preparation was prepared by optimized hot homogenization technique and were characterized by particle size in nanometer, polydispersity index, zeta potential in millivolt, scanning electron microscopy, and entrapment efficiency by applying Box Behnken design utilizing multiple linear regression method. Results Chosen optimized NLC F7 formulation has particle size of 125.4 ± 2.66 nm, zeta potential of − 33.6 ± 2.42 mV, and PI of 0.480 ± 0.24. The NLC was loaded in transdermal patch by solvent evaporation method and evaluated for physical characteristics, drug content, skin permeation studies, and in-vivo pharmacokinetic studies in male albino Wistar rat. In-vivo pharmacokinetic studies in NLC loaded transdermal patch show an increase in AUC0-α in mg/ml when compared to marketed oral dosage form, which confirms the enhancement of bioavailability of simvastatin by NLC loaded transdermal patch. Conclusions From the data, it was concluded that drug-loaded NLC transdermal patch will be a promising drug delivery system for poorly bioavailable drugs.

scholarly journals Development and in vivo Evaluation Lovastatin by Self-Nanoemulsifying Drug Delivery System

2018 ◽  
Vol 10 (03) ◽  
Author(s):  
D.V. R. N. Bhikshapathi ◽  
Keerthi Priya
Keyword(s):  
Drug Delivery ◽  
Zeta Potential ◽  
Drug Delivery System ◽  
Delivery System ◽  
Pharmacokinetic Studies ◽  
In Vivo Evaluation ◽  
Drug Precipitation ◽  
Capmul Mcm ◽  
Evaluation Parameters

In the present investigation, self-nanoemulsifying drug delivery system (SNEDDS), of Lovastatin is being formulated to increase the solubility and bioavailability. The optimized Lovastatin SNEDDS formulation (F8) has a composition of Acrysol EL 135 as oil phase, Lauro glycol 90 and Capmul MCM as surfactant and co-surfactant respectively. Formulation F8 was found to be best formulation based on evaluation parameters. No drug precipitation or phase separation was observed in the optimized formulation. The particle size of the optimized formulation was found to be 4.9 nm and Z-Average of 71.5 nm indicating all the particles were in the nanometer range. The zeta potential of the optimized SNEDDS formulation was found to be -13.7 mV which comply with the requirement of the zeta potential for stability. Furthermore, pharmacokinetic studies in rats indicated that compared to the pure drug, the optimized SMEDDS formulation significantly improved the oral bioavailability of Lovastatin. Therefore, from our results the study suggests that the Lovastatin loaded self-nanoemulsifying formulation has a great potential for clinical application.

Development and Evaluation of Floating Pulsatile Drug Delivery System Using Meloxicam

2017 ◽  
Vol 7 (04) ◽  
Author(s):  
ShirishaG. Suddala ◽  
S. K. Sahoo ◽  
M. R. Yamsani
Keyword(s):  
Rheumatoid Arthritis ◽  
Drug Delivery ◽  
Drug Release ◽  
Drug Delivery System ◽  
Delivery System ◽  
Lag Time ◽  
Oral Dosage ◽  
Lag Phase ◽  
Pulsatile Drug Delivery

Objective: The objective of this research work was to develop and evaluate the floating– pulsatile drug delivery system (FPDDS) of meloxicam intended for Chrono pharmacotherapy of rheumatoid arthritis. Methods: The system consisting of drug containing core, coated with hydrophilic erodible polymer, which is responsible for a lag phase for pulsatile release, top cover buoyant layer was prepared with HPMC K4M and sodium bicarbonate, provides buoyancy to increase retention of the oral dosage form in the stomach. Meloxicam is a COX-2 inhibitor used to treat joint diseases such as osteoarthritis and rheumatoid arthritis. For rheumatoid arthritis Chrono pharmacotherapy has been recommended to ensure that the highest blood levels of the drug coincide with peak pain and stiffness. Result and discussion: The prepared tablets were characterized and found to exhibit satisfactory physico-chemical characteristics. Hence, the main objective of present work is to formulate FPDDS of meloxicam in order to achieve drug release after pre-determined lag phase. Developed formulations were evaluated for in vitro drug release studies, water uptake and erosion studies, floating behaviour and in vivo radiology studies. Results showed that a certain lag time before drug release which was due to the erosion of the hydrophilic erodible polymer. The lag time clearly depends on the type and amount of hydrophilic polymer which was applied on the inner cores. Floating time and floating lag time was controlled by quantity and composition of buoyant layer. In vivo radiology studies point out the capability of the system of longer residence time of the tablets in the gastric region and releasing the drug after a programmed lag time. Conclusion: The optimized formulation of the developed system provided a lag phase while showing the gastroretension followed by pulsatile drug release that would be beneficial for chronotherapy of rheumatoid arthritis and osteoarthritis.

scholarly journals OPTIMIZATION AND CHARACTERIZATION OF FORMULATION SELF-NANOEMULSIFYING DRUG DELIVERY SYSTEM ETHANOL EXTRACT OF ROMANG PARANG LEAVES (BOEHMERIA VIRGATA)

2021 ◽  
pp. 207-212
Author(s):  
MAGFIRAH ◽  
INDAH KURNIA UTAMI
Keyword(s):  
Drug Delivery ◽  
Particle Size ◽  
Secondary Metabolites ◽  
Zeta Potential ◽  
Drug Delivery System ◽  
Delivery System ◽  
Drug Loading ◽  
Ethanol Extract ◽  
Polydispersity Index ◽  
Lattice Design

Objective: Parang romang (Boehmeria virgata) is one of the traditional medicines that are used empirically by Makassar tribal healers, South Sulawesi, as an antitumor drug. This traditional medicine contains secondary metabolites such as alkaloids, flavonoids, tannins, and saponins. However, secondary metabolites of those leaves extract have low solubility in water. Hence, to be formula, self-nanoemulsifying drug delivery system (SNEDDS) is one of the solutions to increase the extract solubility. Methods: The optimization of two formula optimum SNEDDS parang romang leaves (T80PGMZ and T20PGMZ) was using the simple lattice design (SLD) method which will give 28 SNEDDS formula parang romang leaves each of which the formula is tested for its characteristics as a critical point include emulsification time, % transmittance, drug loading, particle size, zeta potential, polydispersity index, and morphology particle. Results: The results of SNEDDS characterization obtained the optimum formula T80PGMZ with emulsification time 12.6 s, % transmittance 92.21%, drug loading 68.21 ppm, particle size 370.26 nm, zeta potential −31.4 mV, polydispersity index of 0.615, and regular particle morphology with spherical chunks at a magnification of 10,000 times with a particle size of 10 μm. Conclusion: SNEDDS of parang romang leaves extracts that used olive oil as oil phase, Tween 80 as a surfactant, and propylene glycol as the cosurfactant provided nanoemulsion with good characteristics.

scholarly journals PHYSICOCHEMICAL CHARACTERIZATION OF PROPRANOLOL-LOADED CHITOSAN NANOPARTICLES FOR A BUCCAL DRUG DELIVERY SYSTEM

2020 ◽  
pp. 243-247
Author(s):  
SIRIPORN KITTIWISUT ◽  
PAKORN KRAISIT
Keyword(s):  
Drug Delivery ◽  
Particle Size ◽  
Zeta Potential ◽  
Drug Delivery System ◽  
Delivery System ◽  
Chitosan Nanoparticles ◽  
Particle Sizes ◽  
Zeta Potentials ◽  
Ph Values ◽  
Buccal Drug Delivery

Objective: This study aimed to characterize the physicochemical properties, including pH, zeta potential, and particle size of propranolol-loaded nanoparticles that were incorporated into a buccal transmucosal drug-delivery system. Methods: An ionotropic gelation technique was used to formulate propranolol-loaded chitosan nanoparticles. Chitosan used as the nanoparticle base, using tripolyphosphate (TPP) as a cross-linking agent. The effects on nanoparticle physical properties, including pH, zeta potential, and particle size were examined when various chitosan [0.150-0.300 % (w/v)] and propranolol contents (0-40 mg) were used during the preparation. The effects of using chitosan solutions with different pH values on nanoparticle properties were also determined. Results: The pH values of all nanoparticles ranged between 4.14–4.55. The zeta potentials of the prepared nanoparticles ranged between 22.6–52.6 mV, with positive charges. The nanoparticle sizes ranged from 107–140 nm, which are within the range of suitable particle sizes for transmucosal preparations. Conclusion: The pH values, zeta potentials, and particle sizes of the nanoparticle formulations were influenced by the concentrations of chitosan and propranolol and by the pH of the initial chitosan solution. The relationships between nanoparticle properties and all factors primarily depended on the ionic charges of the components, especially chitosan. Our study provides beneficial physicochemical knowledge for the further development of chitosan-based nanoparticles containing propranolol for buccal drug delivery systems.

scholarly journals Optimization of Self-Micro Emulsifying Drug Delivery System) for Soursop Leaf (Annona muricata Linn.) Chloroform Extract

2020 ◽  
Vol 25 (2) ◽  
pp. 81
Author(s):  
Anif Nur Artanti ◽  
Fea Prihapsara ◽  
Dian Eka Ermawati ◽  
Aprilia Saefanan Shofa
Keyword(s):  
Drug Delivery ◽  
Particle Size ◽  
Statistical Analysis ◽  
Zeta Potential ◽  
Propylene Glycol ◽  
Drug Delivery System ◽  
Delivery System ◽  
Tween 80 ◽  
Chloroform Extract ◽  
T Test

Soursop leaf chloroform extract has anticancer activity.  The active ingredient of soursop leaf was acetogenin polypoid derivatives that have a lipophilic characteristic, and less effective to achieve action targets of drugs in biological systems. The Self-Micro Emulsifying Drug Delivery System (SMEDDS) was an effective drug delivery technique that increases the solubility of lipophilic drugs. This study aims to determine the proportion of optimum SMEDDS formula using Simplex Lattice Design (SLD) method. The Formula of SMEDDS was prepared using a combination of Tween 80-Croduret, Propylene Glycol, and Candlenut oil. Optimization formula with SLD method using Design-Expert software based on physical stability parameters there are the percent of transmittance and emulsification time. The optimum formula of SMEDDS was compared with SLD prediction formula using a statistical analysis t-test, then test of loading dose extract, stability test accelerated by centrifugation, particle size, and zeta potential. The proportion of optimum composition of Tween 80-Croduret, Propylene Glycol, and Candlenut oil of SMEDDS was 60.87%; 24.13%; 15.00% respectively. Results of transmittance 41.14±3.78% and emulsification time 119.0±2.08 seconds. The predicted SLD value for the transmittance percent was 55.0% and the emulsification time was 119.59 seconds. The result of the statistical analysis of one sample t-test showed no significant difference between observation results and SLD prediction. The SMEDDS system has F value of 0.99 and capable to load 25.0 mg chloroform extract of soursop leaf each system with an average particle size of 440 nm and zeta potential of +21.5 mV. 

scholarly journals Characterization and toxicity of citral incorporated with nanostructured lipid carrier

PeerJ ◽  
2018 ◽  
Vol 6 ◽  
pp. e3916 ◽  
Author(s):  
Noraini Nordin ◽  
Swee Keong Yeap ◽  
Nur Rizi Zamberi ◽  
Nadiah Abu ◽  
Nurul Elyani Mohamad ◽  
...  
Keyword(s):  
Drug Delivery ◽  
Drug Delivery System ◽  
Delivery System ◽  
Anticancer Agents ◽  
Drug Loading ◽  
Cancer Drug ◽  
Nanostructured Lipid Carrier ◽  
Tem Analysis

The nanoparticle as a cancer drug delivery vehicle is rapidly under investigation due to its promising applicability as a novel drug delivery system for anticancer agents. This study describes the development, characterization and toxicity studies of a nanostructured lipid carrier (NLC) system for citral. Citral was loaded into the NLC using high pressure homogenization methods. The characterizations of NLC-citral were then determined through various methods. Based on Transmission Electron Microscope (TEM) analysis, NLC-Citral showed a spherical shape with an average diameter size of 54.12 ± 0.30 nm and a polydipersity index of 0.224 ± 0.005. The zeta potential of NLC-Citral was −12.73 ± 0.34 mV with an entrapment efficiency of 98.9 ± 0.124%, and drug loading of 9.84 ± 0.041%. Safety profile of the formulation was examined viain vitroandin vivoroutes to study its effects toward normal cells. NLC-Citral exhibited no toxic effects towards the proliferation of mice splenocytes. Moreover, no mortality and toxic signs were observed in the treated groups after 28 days of treatment. There were also no significant alterations in serum biochemical analysis for all treatments. Increase in immunomodulatory effects of treated NLC-Citral and Citral groups was verified from the increase in CD4/CD3 and CD8/CD3 T cell population in both NLC-citral and citral treated splenocytes. This study suggests that NLC is a promising drug delivery system for citral as it has the potential in sustaining drug release without inducing any toxicity.

scholarly journals Novel combination for Self-nanoemulsifying Drug Delivery System of Candesartan Cilexetil

2018 ◽  
pp. 123-134
Author(s):  
Safa Fakher Mekhilef ◽  
Ahmed A. Hussein
Keyword(s):  
Drug Delivery ◽  
Particle Size ◽  
Zeta Potential ◽  
Drug Delivery System ◽  
Delivery System ◽  
Oral Delivery ◽  
Water Solubility ◽  
Candesartan Cilexetil ◽  
Promising Result ◽  
Potential Measurement

Solubility problem of many of effective pharmaceutical molecules are still one of the major obstacle in theformulation of such molecules. Candesartan cilexetil (CC) is angiotensin II receptor antagonist with very low water solubility and this result in low and variable bioavailability. Self- emulsifying drug delivery system (SEDDS) showed promising result in overcoming solubility problem of many drug molecules. CC was prepared as SEDDS by using novel combination of two surfactants (tween 80 and cremophore EL) and tetraglycol as cosurfactant, in addition to the use of triacetin as oil. Different tests were performed in order to confirm the stability of the final product which includes thermodynamic study, determination of self-emulsification time, particle size and zeta potential measurement, and in-vitro drug release. The results showed that the particle size of the best formula was 13.3 nm and zeta potential of -37.45 mV with approximately 100% release after 45 minutes .These results suggest that the preparation of CC. as SEDDS with the use of the above combination of surfactant and cosurfactant is a promising maneuver for oral delivery of CC. in order to improve its bioavailability.   

Enhancement of Nimodipine Solubility by Self-Nano-emulsifying Drug Delivery System

2019 ◽  
Vol 12 (5) ◽  
pp. 4648-4656
Author(s):  
Suresh Gande ◽  
S. Srikanth Reddy ◽  
Bhikshapathi D. V. R. N.
Keyword(s):  
Drug Delivery ◽  
Particle Size ◽  
Drug Release ◽  
Zeta Potential ◽  
Drug Delivery System ◽  
Delivery System ◽  
Spherical Shape ◽  
Drug Dissolution ◽  
The Stability

Self-nanoemulsifying drug delivery system (SNEDDS) of Nimodipine was developed with the purpose of improving the bioavailability of the drug. Based on the results of Nimodipine solubility studies Peceol, Transcutol P and PEG 400 were optimized as oil, surfactant and co-surfactant for the formulation and Pseudo ternary plots was constructed by Chemix software. Fifteen formulations of Nimodipine SNEDDS prepared and analyzed for particle size, emulsification time, percentage drug release, percentage transmittance, in vitro drug dissolution studies and thermodynamic stability. The optimized Nimodipine SNEDDS formulation (F13) subjected to drug-excipient compatibility studies by FTIR. They are analyzed for zeta potential, SEM and stability. The particle size of optimized Nimodipine SNEDDS formulation was 25.9 nm, PDI is 0.382 and zeta potential -12.7 mV that are optimal for the stability of emulsion. SEM studies of Nimodipine SNEDDS indicated spherical shape and uniform particle distribution. The drug release of formulation F13 (98.25±4.77%) was higher than pure drug (38.49±3.88%). The stability studies indicated no change in drug content, drug release, emulsifying properties and appearance. Hence a potential SNEDDS formulation of Nimodipine developed with increased dissolution rate, bioavailability and solubility.

scholarly journals DEVELOPMENT AND CHARACTERIZATION OF SUSTAINED RELEASE METHOTREXATE LOADED CUBOSOMES FOR TOPICAL DELIVERY IN RHEUMATOID ARTHRITIS

2020 ◽  
pp. 33-39
Author(s):  
KARISHMA KAPOOR ◽  
VINAY PANDIT ◽  
UPENDRA NAGAICH
Keyword(s):  
Rheumatoid Arthritis ◽  
Drug Delivery ◽  
Particle Size ◽  
Zeta Potential ◽  
Sustained Release ◽  
Drug Delivery System ◽  
Delivery System ◽  
Entrapment Efficiency ◽  
Poloxamer 407

Objective: Non-Steroidal Anti-Inflammatory Drugs (NSAIDs) are essential part of the administration of Rheumatoid Arthritis (RA). Methotrexate (MTX) is effective for tumor necrosis factor alpha (TNF-a) biologic agents, indicated only in minority of patients suffering from severe RA. MTX remains the "anchor drug" in the treatment of RA. For delivery improvement, novel pharmaceutical drug delivery system i.e. MTX-Cubosomes were developed. Methods: Poloxamer 407 and Glycerol monooleate (Monoelin, MO) used and the formulation were characterized as a sustained release drug delivery system for Methotrexate. Different ratios of Monolein, Poloxamer 407 and water were used to develop the different cubosomes using homogenization and emulsification method. Characterization of formulations for morphology was performed and also particle size distribution by Transmission Electron Microscopy (TEM). Results: Formulation showed the internal cubic structures of the vesicles. The particle size of the formulations was found to be ranging from 53.21 to 185.32 nm, zeta potential of the formulations varied from-18.20-36.10 mV. The cubosomal formulation exhibited good entrapment efficiency along with high drug loading. Compatibility with the excipients was also established. An in vitro release study was done using Franz Diffusion cell indicated sustained release of the formulation at a rate of 1.25 %/h. Cubosomes proved to be reliable system for sustained transdermal drug delivery system. Conclusion: Methotrexate cubosomes is a novel medication delivery framework and in this examination it has been developed and characterized. The formulations were found to be promising in terms of its characterization parameters like particle size, zeta potential, entrapment efficiency, loading capacity, release kinetics, and stability, suitable for topical delivery.

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