prepared nanoparticles
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Author(s):  
Fatima Redah Alassaif ◽  
Eman Redah Alassaif ◽  
Amit Kumar Kaushik ◽  
Jeevitha Dhanapal

Objective: The aim of the present article was to enhance the therapeutic efficacy of carboplatin (CP) using the formulation of chitosan – poly (lactic glycolic acid) nanoparticles (CS-PLGA NPs). Methods: Nanoparticles were synthesized by an ionic gelation method and were characterized for their morphology, particle size, and surface potential measurements by TEM and zeta sizer. This study was highlighted for the evaluation of drug entrapment, loading and in vitro drug release capabilities of the prepared nanoparticles by spectrophotometric analysis. The stability study was also conducted after 3 months for their particle size, zeta potential, drug loading and encapsulation efficiencies. Further, ovarian cancer cell line PEO1 were used to evaluate the toxicity and efficacy of nano-formulation by MTT assay. Further, the study was evaluated for apoptosis using flow cytometric analysis. Result: The CS-PLGA-CP NPs were uniform and spherical in shape. The particle size and zeta potential of CS-PLGA-CP NPs were measured 156 ± 6.8 nm and +52 ± 2.4 mV, respectively. High encapsulation (87.4 ± 4.5 %) and controlled retention capacities confirmed the efficiency of the prepared nanoparticles in a time and dose dependant manner. The cytotoxicity assay results also showed that CS-PLGA-CP NPs has high efficiency on PEO1 cells compared to the free drug. The flow cytometric result showed 64.25 % of the PEO1 cells were apoptotic and 8.42 % were necrotic when treated with CS-PLGA-CP NPs. Conclusion: Chitosan-PLGA combinational polymeric nanoparticles were not only steady but also non-toxic. Our experiments revealed that the chitosan- PLGA nanoparticles could be used as a challenging vehicle candidate for drug delivery for the therapeutic treatment of ovarian cancer.


Author(s):  
Thamer Adnan Abdullah ◽  
Tatjana Juzsakova ◽  
Rashed Taleb Rasheed ◽  
Ali Dawood Salman ◽  
Mohammademad Adelikhah ◽  
...  

This paper deals with V2O5 nanoparticles adsorbents which were obtained by thermal pretreatment carried out by increasing the temperature between 90 and 750°C. In order to obtain more detailed information on the surface chemistry of the newly prepared nanoparticles, the characterisation was done by X-ray diffraction and scanning electron microscopy, Fourier Transform infrared spectroscopy and thermogravimetric investigation technique. The prepared nanoparticles were tested for methylene blue (MB) removal from modelled water solutions. The obtained results indicated that increased MB removal efficiency (93%) and adsorption capacity (27 mg/g) after 40 minutes of adsorption were obtained for V2O5 annealed at 500°C. The applicability and suitability of the two kinetic models were tested and the removal mechanism was proposed.


Biomedicine ◽  
2021 ◽  
Vol 41 (2) ◽  
pp. 458-464
Author(s):  
Sabah Saad Abdulsahib

Introduction and Aim:Silver nanoparticles (AgNPs) have been extensively useful in biomedical applications.This study aims to synthesize silver nanoparticles by lasers ablation and to use them as an anti-bacterial and anti-cancer agent.   Materials and Methods:According to the current study, Ag-nanoparticles can be synthesized easily using pulsed laser ablation on a 99.81% pure silver target immersed in deionized water. The prepared nanoparticles werecharacteredbyUV-vis spectroscopy and X-ray diffraction (XRD), transmission electron microscopy (TEM), and atomic force microscopy (AFM) technique.Using a well-diffusion process, the anti-bacterial action of the synthesized Ag nanoparticles was tested versus two Gram-positive bacteria species (S. aureus and S. pyogenes) and two species of Gram-negative bacteria (E. coli and P. aeruginosa).The anticancer activity of the silver nanoparticles was evaluated by the MTT assay.   Results:The generated AgNps had a maximum absorbance peak of 400 nm. The XRD analysis verified that the synthesized silver nanoparticles had been nanocrystalline. The AgNPsdid not affect any of the blood parameters. Gram-negative bacteria are more affected by silver than Gram-positive bacteria. The Ag nanoparticles had been shown a maximum anti-bacterial action at a concentration of 80 µg/mland had a lower effect with 20 µg/ml concentration while their efficacy at 40 and 60 µg/ml concentrationsappeared to be variable against all bacterial species.The findings show that AgNPshavea cytotoxic influence on cancer cellsin 80 ?g/ml concentration.   Conclusion:In comparison to Gram-positive bacteria, silver nanoparticles show high antibacterial activity against Gram-negative bacteria. The prepared nanoparticles have a potent effect on cancer cells and restricted harmful effects on RBCs.


2021 ◽  
Vol 2021 ◽  
pp. 1-9 ◽  
Author(s):  
Anatol Degefa ◽  
Bulcha Bekele ◽  
Leta Tesfaye Jule ◽  
Boka Fikadu ◽  
Shanmugam Ramaswamy ◽  
...  

The production of zinc oxide nanoparticles (ZnO NPs) utilizing different vegetable extracts (onion, cabbage, carrot, and tomato) was performed in this research owing to its excellency over other methods of synthesis, namely, simplicity, environmental friendliness, and the elimination of harmful compounds. Fresh extracted onion, cabbage, carrot, and tomato of ZnO NPs are characterized by Fourier transform infrared (FTIR), X-ray diffraction (XRD), scanning electron microscopy (SEM), and UV-visible spectroscopy. FTIR findings demonstrate that the prepared nanoparticles were observed in the spectrum of 626 cm-1–1219 cm-1 with some other functional groups. Wurtzite hexagonal structure of the prepared ZnO NPs was observed from XRD results. In addition, the prepared nanoparticles were failed into nanoscales (17 nm, 18 nm, 24 nm, and 15 nm) calculated from Scherrer’s equation. Nearly spherical shapes were seen from SEM image for onion and tomato extraction while rod and tube for carrot and cabbage, respectively. Two broad peaks were observed from UV-vis spectroscopy results for each extract. The presence of a wide range of energy bandgaps in the region of 3-4 eV was detected, indicating that ZnO NP material can be employed in metal oxide semiconductor-based systems. The dye-sensitive solar cell based on ZnO NPs has been successfully synthesized, and the efficiency of the device has been evaluated by measuring the current density-voltage behaviour under the presence of artificial sunshine. The increased effectiveness of the manufactured dye-sensitive solar cell is attributable to a large improvement in dye molecular adsorption onto the surface of ZnO NPs. Thus, the usage of the green produced ZnO NPs with creating dye sensitivity solar cell is a simple and viable way for the well-being of our future.


2021 ◽  
Vol ahead-of-print (ahead-of-print) ◽  
Author(s):  
Hong Zhang ◽  
Sheng Han ◽  
Wenjing Hu ◽  
Jiusheng Li

Purpose The purpose of this paper is to improve the properties of metal nanoparticles which are easy to agglomerate and hard to disperse evenly, thus limiting the application of metal nanoparticles in grease. A novel technology was proposed for modifying metal oxide to improve the dispersibility of nanoparticles. Design/methodology/approach SA-TiO2 nanoparticles were synthesized using an in-situ esterification method followed by surface modification with stearic acid. The microstructure of the nanoparticles was characterized by scanning electron microscope, transmission electron microscope and Fourier transform infrared spectroscopy and their thermal stability was evaluated by thermogravimetric analyzer. The tribological properties of the SA-TiO2 nanoparticles as additives in lithium grease were evaluated with a four-ball tester and TE77 reciprocating friction tester. The worn surfaces of the steel balls were investigated by EDS and XPS. Findings The prepared nanoparticles can be well dispersed in the lithium grease and possess much better tribological properties compared to traditional nanoparticles. The results indicated that the excellent tribological performance of SA-TiO2 was attributed to the chemical reaction film composing of Fe2O3, iron oxide and other organic compounds. Originality/value This paper provides a method to prevent the agglomeration of nano-TiO2 by surface modification with stearic acid. And the prepared nanoparticles can effectively improve the tribology performance of lithium grease.


Author(s):  
GEETHA V. S. ◽  
MALARKODI VELRAJ

Objective: To formulate and evaluate Erlotinib loaded Liquorice crude protein (LCP) nanoparticles from the powdered liquorice root (Glycyrrhiza glabra) using Box-Behnken design. Methods: Erlotinib loaded liquorice crude protein nanoparticles were prepared by desolvation method using ethanol-water (1:2 ratio), Tween-80 (2%v/v) and gluteraldehyde (8% v/v) as cross linking agent. Box-Behnken design with 3 factors, 3 levels and 3 responses was used to optimize the prepared nanoparticles. The independent variables were taken as A) Erlotinib concentration B) LCP concentration and C) Incubation time with responses R1) Drug entrapment efficiency R2) Drug Release and R3) Particle size. The correlation between factors and responses were studied through response surface plots and mathematical equations. The nanoparticles were evaluated for FTIR, particle size and zeta potential by Photon correlation spectroscopy (PCS) and surface morphology by TEM. The entrapment efficiency, and in vitro drug release studies in PBS pH 7.4 (26 h) were carried out. The experimental values were found to be in close resemblance with the predicted value obtained from the optimization process. The in vitro cytotoxicity studies of the prepared nanoparticles in lung cancer cell line (A 549) were studied with different concentrations for 24h. Results: The average particle size, zeta potential, Polydispersity index (PDI) were found to be 292.1 nm,-25.8 mV and 0.384 respectively. TEM image showed that the nanoparticles dispersed well with a uniform shape and showed not much change during storage. The in vitro drug release showed 41.23% for 26 h in PBS (7.4) and release kinetics showed highest R2value (0.982) for Korsmeyer-Peppas model, followed by 0.977 for Higuchi model. The in vitro cytotoxicity of prepared nanoparticles in A 549 cell line showed good results with different concentrations for 24h. Conclusion: Erlotinib (Erlo) is a BCS class II drug with poor solubility, poor bioavailability and selective tyrosine kinase inhibitor for non small-cell lung cancer (NSCLC) through oral administration. To improve the oral bioavailability and absorption of molecules, plant protein as carriers is used for developing drug delivery systems due to their proven safety. The optimization variables were Conc of Erlo, Conc. of LCP and Incubation time to get responses as drug entrapment efficiency, drug release and particle size. The compatibility between drug and LCP were evaluated by FTIR.


2021 ◽  
Vol 7 (5) ◽  
pp. 01-06
Author(s):  
Abbaraju Sailaja

Sulfasalazine is a combination of an aspirin like anti-inflammatory component and a sulfa antibiotic like component. It is an Anti-inflammatory agent used to relive the pain of the Bowel diseases, Rheumatoid arthritis, Psoriatic arthritis, Crohn’s disease and Ulcerative colitis. Sulfasalazine acts to deplete the damage to the joints, rather than just relieve the pain, it belongs to the group of medicines called disease modifying anti-rheumatic drugs (DMARDs). Methodology: The objective of the present study is to prepare, optimize the nanoparticles containing sulfasalazine and bovine serum albumin (BSA) by using desolvation method, and to study the effect of process variables like stirring speed on product yield, drug content. Glutaraldehyde is used as crosslinking agent and sulfasalazine is used as model drug. Results: The prepared nanoparticles showed maximum drug content, for continuous method-97.27% and for intermittent method-95.08%. The prepared nanoparticles showed good product yield of 96.26% (intermittent method) and 98.4% (continuous method). Invitro release of sulfasalazine loaded nanoparticles showed good sustained release and maximum drug release of 38.05% for continuous method and 40.73% for intermittent method within 6 hours interval.


Nanomaterials ◽  
2021 ◽  
Vol 11 (5) ◽  
pp. 1096
Author(s):  
Mohamed S. A. Darwish ◽  
Hohyeon Kim ◽  
Minh Phu Bui ◽  
Tuan-Anh Le ◽  
Hwangjae Lee ◽  
...  

Multifunctional magnetic nanomaterials displaying high specific loss power (SLP) and high imaging sensitivity with good spatial resolution are highly desired in image-guided cancer therapy. Currently, commercial nanoparticles do not sufficiently provide such multifunctionality. For example, Resovist® has good image resolution but with a low SLP, whereas BNF® has a high SLP value with very low image resolution. In this study, hydrophilic magnesium iron oxide@tetramethyl ammonium hydroxide nanoparticles were prepared in two steps. First, hydrophobic magnesium iron oxide nanoparticles were fabricated using a thermal decomposition technique, followed by coating with tetramethyl ammonium hydroxide. The synthesized nanoparticles were characterized using XRD, DLS, TEM, zeta potential, UV-Vis spectroscopy, and VSM. The hyperthermia and imaging properties of the prepared nanoparticles were investigated and compared to the commercial nanoparticles. One-dimensional magnetic particle imaging indicated the good imaging resolution of our nanoparticles. Under the application of a magnetic field of frequency 614.4 kHz and strength 9.5 kA/m, nanoparticles generated heat with an SLP of 216.18 W/g, which is much higher than that of BNF (14 W/g). Thus, the prepared nanoparticles show promise as a novel dual-functional magnetic nanomaterial, enabling both high performance for hyperthermia and imaging functionality for diagnostic and therapeutic processes.


2021 ◽  
Vol 13 (1) ◽  
Author(s):  
Yanjing Li ◽  
Shaojingya Gao ◽  
Sirong Shi ◽  
Dexuan Xiao ◽  
Shuanglin Peng ◽  
...  

AbstractObesity-induced insulin resistance is the hallmark of metabolic syndrome, and chronic, low-grade tissue inflammation links obesity to insulin resistance through the activation of tissue-infiltrating immune cells. Current therapeutic approaches lack efficacy and immunomodulatory capacity. Thus, a new therapeutic approach is needed to prevent chronic inflammation and alleviate insulin resistance. Here, we synthesized a tetrahedral framework nucleic acid (tFNA) nanoparticle that carried resveratrol (RSV) to inhibit tissue inflammation and improve insulin sensitivity in obese mice. The prepared nanoparticles, namely tFNAs-RSV, possessed the characteristics of simple synthesis, stable properties, good water solubility, and superior biocompatibility. The tFNA-based delivery ameliorated the lability of RSV and enhanced its therapeutic efficacy. In high-fat diet (HFD)-fed mice, the administration of tFNAs-RSV ameliorated insulin resistance by alleviating inflammation status. tFNAs-RSV could reverse M1 phenotype macrophages in tissues to M2 phenotype macrophages. As for adaptive immunity, the prepared nanoparticles could repress the activation of Th1 and Th17 and promote Th2 and Treg, leading to the alleviation of insulin resistance. Furthermore, this study is the first to demonstrate that tFNAs, a nucleic acid material, possess immunomodulatory capacity. Collectively, our findings demonstrate that tFNAs-RSV alleviate insulin resistance and ameliorate inflammation in HFD mice, suggesting that nucleic acid materials or nucleic acid-based delivery systems may be a potential agent for the treatment of insulin resistance and obesity-related metabolic diseases.


Author(s):  
Kiran P. Shejawal ◽  
Dheeraj S. Randive ◽  
Somnath D. Bhinge ◽  
Mangesh A. Bhutkar ◽  
Sachin S. Todkar ◽  
...  

AbstractOur study aimed at development of Silver, Iron and Gold nanoparticles of Lycopene isolated from tomato by using green synthesis technique and to evaluate its anticancer potential against colorectal and cervical cancer. Lycopene was extracted by benzene extraction method and the silver, iron and gold nanoparticles were developed by green synthesis method. 1% aqueous extract of isolated Lycopene was mixed with 1% solutions of AgNO3, FeCl3 and HAuCl4 solutions and incubated at ambient temperature for 3–4 h separately and observed for the color change which is an indicative of formation of the nanoparticles. The prepared nanoparticles were characterized by FTIR, SEM, XRD analysis and evaluated for their antimicrobial potential. The cytotoxicity studies were carried out by in vitro assay like MTT, SRB and Tryphan blue method against Colo 320 DM, HT 29, and Hella. SEM showed nanosized particles of 50–100 nm range, whereas no antimicrobial activity was exhibited by the prepared nanoparticles. In MTT assay the LyAgNP showed maximum 41.41 ± 0.4124% inhibition against COLO320DM, whereas LyGNP exhibited 41.47 ± 0.4469% inhibition against HT 29 and LyAgNP showed 40.9 ± 0.6908% inhibition against Hella cells. In SRB assay LyAgNP showed maximum 82.68 ± 1.1798% inhibition against COLO320DM, whereas LyGNP exhibited maximum 91.21 ± 0.2372% inhibition against HT29 and 87.98 ± 0.5878% inhibition against Hella cells. In tryphan blue assay against COLO320DM, HT29 and Hella cells, the maximum inhibition exhibited by the prepared nanoparticles were observed as LyGNP 83.45 ± 0.4694%, LyAgNP 88.05 ± 0.1870% and LyAgNP65.47 ± 0.4766%. We conclude that the developed nanoparticles of Lycopene exhibited potential anticancer activity against Colorectal and cervical cancer cell as compared with pure Lycopene.


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