scholarly journals Optimizing glycerosome formulations via an orthogonal experimental design to enhance transdermal triptolide delivery

2021 ◽  
Vol 72 (1) ◽  
pp. 135-146
Author(s):  
Chunyun Zhu ◽  
Yongtai Zhang ◽  
Tong Wu ◽  
Zehui He ◽  
Teng Guo ◽  
...  
Keyword(s):  
Experimental Design ◽  
Transdermal Delivery ◽  
Drug Loading ◽  
Average Particle Size ◽  
Entrapment Efficiency ◽  
Orthogonal Experimental Design ◽  
Average Particle ◽  
Glycerol Concentration ◽  
Transdermal Administration ◽  
Dependent Variables

Abstract Triptolide exerts strong anti-inflammatory and immunomodulatory effects; however, its oral administration might be associated with side effects. Transdermal administration can improve the safety of triptolide. In this study, glycerosomes were prepared as the transdermal vehicle to enhance the transdermal delivery of triptolide. With entrapment efficiency and drug loading as dependent variables, the glycerosome formulation was optimized using an orthogonal experimental design. Phospholipid-to-cholesterol and phospholipid-to-triptolide mass ratios of 30:1 and 5:1, respectively and a glycerol concentration of 20 % (V/V) were used in the optimization. The glycerosomes prepared with the optimized formulation showed good stability, with an average particle size of 153.10 ± 2.69 nm, a zeta potential of –45.73 ± 0.60 mV and an entrapment greater than 75 %. Glycerosomes significantly increased the transdermal delivery of triptolide compared to conventional liposomes. As efficient carriers for the transdermal delivery of drugs, glycerosomes can potentially be used as an alternative to oral triptolide administration.

Enhanced oral bioavailability of nisoldipine-piperine-loaded poly-lactic-co-glycolic acid nanoparticles

2017 ◽  
Vol 6 (6) ◽  
pp. 517-526 ◽  
Author(s):  
Permender Rathee ◽  
Anjoo Kamboj ◽  
Shabir Sidhu
Keyword(s):  
Oral Bioavailability ◽  
Drug Loading ◽  
Average Particle Size ◽  
Entrapment Efficiency ◽  
Pharmacokinetic Interaction ◽  
Precipitation Method ◽  
Pharmacokinetic Studies ◽  
Average Particle

AbstractBackground:Piperine helps in the improvement of bioavailability through pharmacokinetic interaction by modulating metabolism when administered with other drugs. Nisoldipine is a substrate for cytochrome P4503A4 enzymes. The study was undertaken to assess the influence of piperine on the pharmacokinetics and pharmacodynamics of nisoldipine nanoparticles in rats.Methods:Optimization studies of nanoparticles were performed using Taguchi L9 orthogonal array, and the nanoparticles were formulated by the precipitation method. The influence of piperine and nanoparticles was evaluated by means of in vivo kinetic and dynamic studies by oral administration in rats.Results:The entrapment efficiency, drug loading, ζ potential, and average particle size of optimized nisoldipine-piperine nanoparticles was 89.77±1.06%, 13.6±0.56%, −26.5 mV, and 132±7.21 nm, respectively. The in vitro release in 0.1 n HCl and 6.8 pH phosphate buffer was 96.9±0.48% and 98.3±0.26%, respectively. Pharmacokinetic studies showed a 4.9-fold increase in oral bioavailability and a >28.376±1.32% reduction in systemic blood pressure by using nanoparticles as compared to control (nisoldipine suspension) in Wistar rats.Conclusion:The results revealed that piperine being an inhibitor of cytochrome P4503A4 enzymes enhanced the bioavailability of nisoldipine by 4.9-fold in nanoparticles.

Transferrin Modified Dioscin Loaded PEGylated Liposomes: Characterization and In Vitro Antitumor Effect

2020 ◽  
Vol 20 (3) ◽  
pp. 1321-1331 ◽  
Author(s):  
Yuanyuan Wang ◽  
Yining Yang ◽  
Yibin Yu ◽  
Jinyu Li ◽  
Weisan Pan ◽  
...  
Keyword(s):  
Laser Scanning ◽  
Drug Loading ◽  
Average Particle Size ◽  
Entrapment Efficiency ◽  
Laser Scanning Confocal Microscopy ◽  
Average Particle ◽  
Scanning Confocal Microscopy ◽  
Drug Entrapment Efficiency

In this study, a novel transferrin modified liposomal dioscin was prepared by the film dispersion method. The transferrin modified dioscin loaded liposomes (Tf-Lip/Dio) were near-spherical in morphology and had an average particle size of 140.07±1.33 nm, a narrow polydispersity index of <0.2 and a relatively stable zeta potential of -23.7±1.16 mV. The drug entrapment efficiency (EE) and drug loading (DL) of Tf-Lip/Dio were 88.94±1.02% and 4.16±0.05%, respectively. Tf-Lip/Dio exhibited a sustained release characterization of approximately 30% of the total dioscin content after 72 h at 37 °C. Tf-Lip/Dio showed higher cytotoxic efficacy after incubation for 24 h in both HeLa cells and HepG2 cells than in nonmodified liposomes. The enhanced antitumor activity of Tf-Lip/Dio might be due to the increased intracellular uptake, which was corroborated by laser scanning confocal microscopy and flow cytometry. Furthermore, hemolysis experiments preliminarily verified the safety of its intravenous injection. Overall, this study demonstrates Tf-Lip/Dio to be a favorable delivery vehicle for dioscin in future cancer therapy.

Preparation and Evaluation of Polymeric Microparticles of Human Recombinant IL-1 Receptor Antagonist by Spray Drying

2020 ◽  
Vol 10 (4) ◽  
pp. 308-313
Author(s):  
Anand Ubhe ◽  
Gerard G.M. D’Souza
Keyword(s):  
Particle Size ◽  
Spray Drying ◽  
Drug Loading ◽  
Average Particle Size ◽  
Entrapment Efficiency ◽  
Average Particle ◽  
Drying Process ◽  
High Drug ◽  
Polymeric Microparticles ◽  
Drug Entrapment Efficiency

Background: Formulating protein drugs into delivery systems with high drug loading is particularly challenging. Another major hurdle for formulation processes generally used for protein drugs is their scalability. In this article, we present the application of spray drying to prepare polymeric microparticles of human recombinant IL-1 receptor antagonist (IL-1 ra). Objective: The objective of this study was to formulate polymeric microparticles entrapping a therapeutic protein, human recombinant IL-1 ra using a spray drying process. Methods: IL-1 ra was formulated using three polymers viz. gelatin, pectin, and sodium alginate by using a spray drying process to produce polymer entrapped drug microparticles. A single drug to polymer ratio was used in the three drug-polymer formulation combinations. The prepared microparticles were evaluated for morphology by scanning electron microscopy, average particle size by dynamic light scattering and drug entrapment efficiency by ELISA. Results: Microparticles of three drug-polymer combinations were prepared using the Buchi B-90 spray dryer. The morphology of the three types of polymeric microparticles was found to be uniform by scanning electron microscopy. The average particle size for the three formulations ranged from 1 to 2.2 μ with a low standard deviation implying narrow particle size distribution. The drug loading efficiency ranged from 62 to 90 % W/W for the three formulations. Conclusion: The presented study demonstrates the feasibility of using spray drying to prepare morphologically uniform polymer entrapped protein drug microparticles with high drug entrapment efficiency.

Formulating SLN and NLC as Innovative Drug Delivery Systems for Non-Invasive Routes of Drug Administration

2020 ◽  
Vol 27 (22) ◽  
pp. 3623-3656 ◽  
Author(s):  
Bruno Fonseca-Santos ◽  
Patrícia Bento Silva ◽  
Roberta Balansin Rigon ◽  
Mariana Rillo Sato ◽  
Marlus Chorilli
Keyword(s):  
Drug Delivery ◽  
Particle Size ◽  
Drug Release ◽  
Drug Loading ◽  
Average Particle Size ◽  
Delivery Systems ◽  
Average Particle ◽  
Minor Importance ◽  
Routes Of Administration ◽  
Non Invasive

Colloidal carriers diverge depending on their composition, ability to incorporate drugs and applicability, but the common feature is the small average particle size. Among the carriers with the potential nanostructured drug delivery application there are SLN and NLC. These nanostructured systems consist of complex lipids and highly purified mixtures of glycerides having varying particle size. Also, these systems have shown physical stability, protection capacity of unstable drugs, release control ability, excellent tolerability, possibility of vectorization, and no reported production problems related to large-scale. Several production procedures can be applied to achieve high association efficiency between the bioactive and the carrier, depending on the physicochemical properties of both, as well as on the production procedure applied. The whole set of unique advantages such as enhanced drug loading capacity, prevention of drug expulsion, leads to more flexibility for modulation of drug release and makes Lipid-based nanocarriers (LNCs) versatile delivery system for various routes of administration. The route of administration has a significant impact on the therapeutic outcome of a drug. Thus, the non-invasive routes, which were of minor importance as parts of drug delivery in the past, have assumed added importance drugs, proteins, peptides and biopharmaceuticals drug delivery and these include nasal, buccal, vaginal and transdermal routes. The objective of this paper is to present the state of the art concerning the application of the lipid nanocarriers designated for non-invasive routes of administration. In this manner, this review presents an innovative technological platform to develop nanostructured delivery systems with great versatility of application in non-invasive routes of administration and targeting drug release.

scholarly journals Sodium Alginate Nanoparticles of Isoniazid: Preparation and Evaluation

2019 ◽  
Vol 11 (06) ◽  
Author(s):  
Sumit Kumar ◽  
Dinesh Chandra Bhatt
Keyword(s):  
Particle Size ◽  
Sodium Alginate ◽  
Encapsulation Efficiency ◽  
Drug Loading ◽  
Average Particle Size ◽  
Average Particle ◽  
In Vitro Drug Release ◽  
Ionotropic Gelation ◽  
Preparation And Evaluation

Fabrication and evaluation of the Isoniazid loaded sodium alginate nanoparticles (NPs) was main objective of current investigation. These NPs were engineered using ionotropic gelation technique. The NPs fabricated, were evaluated for average particle size, encapsulation efficiency, drug loading, and FTIR spectroscopy along with in vitro drug release. The particle size, drug loading and encapsulation efficiency of fabricated nanoparticles were ranging from 230.7 to 532.1 nm, 5.88% to 11.37% and 30.29% to 59.70% respectively. Amongst all batches studied formulation F-8 showed the best sustained release of drug at the end of 24 hours.

Mechanism of Hydrogen Sulfide Drug-Loaded Nanoparticles Promoting the Repair of Spinal Cord Injury in Rats Through Mammalian Target of Rapamycin/Signal Transducer and Activator of Transcription 3 Signaling Pathway

2021 ◽  
Vol 13 (9) ◽  
pp. 1691-1698
Author(s):  
Hongzhe Liu ◽  
Kai Tong ◽  
Ziyi Zhong ◽  
Gang Wang
Keyword(s):  
Spinal Cord ◽  
Spinal Cord Injury ◽  
Particle Size ◽  
Dispersion Coefficient ◽  
Drug Loading ◽  
Average Particle Size ◽  
Mammalian Target Of Rapamycin ◽  
Average Particle ◽  
Recovery Effect ◽  
Cord Injury

To explore the effect of hydrogen sulfide (H2S) drug-loaded nanoparticles (H2S-NPs) on the mTOR/STAT3 signaling pathway in rats and its mechanism on repair of spinal cord injury (SCI), a new H2S-NP (G16MPG-ADT) was prepared and synthesized. The rats were selected as the research objects to explore the mechanism of SCI repair. The G16MPG-ADT NPs were evaluated by average particle size (APS), dispersion coefficient (DC), drug loading content (DLC), drug loading efficacy (DLE), in vitro release (IV-R), and acute toxicity (AT). It was found that G16MPG-ADT nanoparticles had a uniform particle size distribution with a unimodal distribution, with an average particle size of 186.5 nm and a dispersion coefficient of 0.129; within the concentration range of 8~56 μg/L, there was a good linear relationship with the peak area; and the release rate of the nanoparticles within 16 h~32 h was higher than 50%. G16MPG-ADT NP injection treatment was performed on rats with SCI. Western blotting (WB) and immunofluorescence staining were adopted to analyze the expression levels of mammalian target of rapamycin (mTOR) and signal transducers and activators of transcription (STAT3) protein and the growth of neurites. It was found that G16MPG-ADT can increase mTOR and STAT3 protein levels and promote nerve growth after SCI. Finally, the Basso, Beattie and Bresnahan locomotor rating (BBB) score was to evaluate the recovery effect of rats after treatment. It was found that the recovery effect was excellent after G16MPG-ADT treatment. In summary, G16MPG-ADT has a good effect on SCI repair in rats and can be promoted in the clinic.

scholarly journals DERMAL DELIVERY OF DOCETAXEL LOADED NANO LIQUID CRYSTALS FOR THE TREATMENT OF SKIN CANCER

2019 ◽  
pp. 188-193 ◽  
Author(s):  
ARTI MAJUMDAR ◽  
NIDHI DUBEY ◽  
NITIN DUBEY
Keyword(s):  
Liquid Crystals ◽  
Skin Cancer ◽  
Zeta Potential ◽  
Average Particle Size ◽  
Entrapment Efficiency ◽  
Cell Uptake ◽  
Diffusion Method ◽  
Average Particle ◽  
Uptake Study

Objective: The aim of the present study is to develop docetaxel-loaded nano liquid crystals (NLCs) to enhanced and effective delivery of the drug to the skin cancer. Methods: NLCs bearing docetaxel were prepared by an emulsification solvent diffusion method. The formulated NLCs were characterized for average particle size, polydispersity index (PDI) Zeta potential, entrapment efficiency and in vitro drug release study. The prepared formulations were studied for it's in vitro cell line and cell uptake study. Results: It was revealed that the average size of NLCs was found 178.3±5.07, PDI was 0.189, percent entrapment efficiency was found 71.3±2.49 and Zeta potential was found-17.3±2.4. In vitro release determined by Franz diffusion cell was found 61.6±3.2% after 72 hr. 3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay shows that Docetaxel loaded NLCs were giving more cytotoxicity as compared to the plain drug. The cell uptake study was found enhanced uptake of fluorescein isothiocyanate (FITC) loaded NLCs in comparison to plain FITC. Docetaxel and docetaxel-loaded NLCs showed 28.3±0.3 and 39.3±1.3 growth inhibition respectively after 48h upon incubation at 0.5 µg/ml concentration (p<0.05). Conclusion: The result of the studies was concluded that NLCs can be used as impending drug delivery system which may enhance the drug uptake and maintain the drug level for longer period of time and it is potential carrier system which can be used for the treatment of skin diseases like cancer.

scholarly journals Development and Evaluation of Floating Microspheres of Sumatriptan Succinate using Ethyl Cellulose and Mucilage Extracted from Vigna Mungo

2021 ◽  
pp. 24-36
Author(s):  
Nilesh S. Kulkarni ◽  
Mukta A. Kulkarni ◽  
Rahul H. Khiste ◽  
Mohini C. Upadhye ◽  
Shashikant N. Dhole
Keyword(s):  
Particle Size ◽  
Drug Release ◽  
Ethyl Cellulose ◽  
Polymer Concentration ◽  
Average Particle Size ◽  
Entrapment Efficiency ◽  
Vigna Mungo ◽  
Average Particle ◽  
Sumatriptan Succinate

Aim: The present investigation is to formulate and evaluate gastroretentive floating microspheres for sumatriptan succinate. Gastric retention is widely used approach to retain dosage form in stomach and to enhance absorption of drugs. Methods: The gastroretentive floating microspheres was prepared by two different techniques as solvent evaporation and W/O/W multiple emulsion technique. Ethyl cellulose, HPMC K4M polymer and mucilage extracted from Vigna Mungo in various proportions were used for formulation of microspheres. Combination of ethyl acetate and acetone in different proportion was used as organic phase and the microspheres were characterized for particle size, shape, morphology, percentage yield, entrapment efficiency, drug loading, In-Vitro Floating/Buoyancy study, In-vitro Floating/Buoyancy study and release kinetics. Results: The average particle size of all batches was found in the range 100 to 210 μm and the entrapment efficiency of all formulations was found in the range of 17.46 % to 59.28 %.Total floating time for Sumatriptan succinate floating microspheres was observed more than 12 h. The In-Vitro drug release study was performed for all formulations showed drug release in controlled manner. Conclusion: The particle size was increased with increased polymer concentration and it showed that polymer concentration has an impact on the entrapment efficiency. Ethyl cellulose microspheres showed more entrapment and sustained delivery of sumatriptan Succinate than microspheres prepared by combination of Ethyl cellulose: HPMC K4M and Ethyl cellulose: Vigna mungo mucilage.

scholarly journals FORMULATION AND EVALUATION OF EXTENDED RELEASE PELLETS OF PIOGLITAZONE HYDROCHLORIDE USING NATURAL AND SYNTHETIC POLYMERS BY FLUIDIZED BED COATING TECHNIQUE

2019 ◽  
pp. 438-446
Author(s):  
GOWTHAMI B ◽  
NIHITHA S ◽  
SANTHI PRIYA NAGAM ◽  
RAMA RAO NADENDLA
Keyword(s):  
Fluidized Bed ◽  
Average Particle Size ◽  
Entrapment Efficiency ◽  
Synthetic Polymers ◽  
Lag Phase ◽  
Average Particle ◽  
Simulated Intestinal Fluid ◽  
Coating Technique ◽  
Fluidized Bed Coating

Objective: The objective of the current work was to develop Pioglitazone hydrochloride (HCl) pellets coated with natural polymer extracted from peas gum and also to compare the drug release profile with coatings containing semi-synthetic and synthetic polymers. Methods: Fluidized bed coating technique was used to develop pellets. A 22 factorial design was employed to study the effect of independent variables (inlet air temperature and spray rate), on dependent variables (percentage entrapment efficiency, percentage friability, and average particle size). Optimization was done by fitting experimental data to the software program. Obtained pellets were subjected to different evaluation parameters which are critical in the development of the dosage form. An in vitro lag phase study was carried out for all batches in simulated gastric fluid (0.1N HCl) for 5 h and in vitro drug release study was carried out for optimized batch (E-2 and P-3) in simulated intestinal fluid (pH 7.4 phosphate buffer). Results: The optimized batches E-2 and P-3 showed satisfactory percentage entrapment efficiency of 92.66±1.52, percentage friability of 0.57±0.03, and average particle size of 1424±16 μm. All batches maintained lag phase for 5 h in 0.1N HCl. An optimized batch of two different sizes exhibited a burst release within 30 min in a simulated intestinal fluid with no significant difference in release rate constant (*p>0.05) and followed first-order kinetics. Conclusion: Thus, Pioglitazone HCl pulsatile pellets were successfully developed for treating diabetes mellitus by fluidized bed coating technique employing factorial design.

Investigation on the Preparation, Characteristics, and Controlled Release Model of Paeonol-Loaded Liposome in Carbomer Hydrogel

2020 ◽  
Vol 17 (2) ◽  
pp. 159-173
Author(s):  
Qinqin Liu ◽  
Hongmei Xia ◽  
Yinxiang Xu ◽  
Yongfeng Cheng ◽  
Zhiqing Cheng
Keyword(s):  
Particle Size ◽  
Controlled Release ◽  
Average Particle Size ◽  
Entrapment Efficiency ◽  
Average Particle ◽  
Filtration Method ◽  
Ethanol Injection ◽  
Soybean Phospholipid ◽  
Release Model

Objective: Paeonol is a phenolic compounce that is volatile. In order to decrease its volatility and achieve controlled release, paeonol-loaded liposome in carbomer hydrogel was prepared by coating with soybean phospholipid via ethanol injection method and then added into the carbomer hydrogel. Methods: The quality of paeonol-loaded liposome in carbomer hydrogel was evaluated by the degree of roundness, particle size distribution, zeta potential, entrapment efficiency (filtration method and chitosan neutralization method), viscosity, infrared spectrum, etc. Furthermore, the diffusion from paeonolloaded liposome in hydrogel was studied in vitro. Results: The results showed that the average particle size of paeonol-loaded liposome was about 401 nm, the potential was -17.8 mV, and the entrapment efficiency was above 45%. The viscosity of paeonol- loaded liposome in hydrogel was 23.972×10-3 Pa*s, and the diffusion rate from paeonol-loaded liposome in hydrogel in vitro was obviously slower than that from the other paeonol preparations. Conclusion: The conclusions could be drawn that paeonol-loaded liposome in hydrogel was a kind of novel preparation, and its diffusion in vitro had obvious controlled-release characteristics, which further proved that it might improve the bioavailability of paeonol.

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