2024-03-29T13:50:49Z
https://www.nanomedicine-rj.com/?_action=export&rf=summon&issue=7265
Nanomedicine Research Journal
Nanomed Res J
2476-3489
2476-3489
2020
5
4
Development and investigation of novel alginate-hyaluronic acid bone fillers using freeze drying technique for orthopedic field
Sepehr
Jamnezhad
Azadeh
Asefnejad
Mehdi
Motififard
Hassan
Yazdekhasti
Amin
Kolooshani
Saeed
Saber-Samandari
Amirsalar
Khandan
Cartilage tissue has a low cell population with a dense extracellular matrix (ECM) and is also devoid of neurons as well as blood and lymph vessels. Bone tissue is able to heal itself but in cases of serious damage and auxiliary treatment methods are necessary. Nevertheless, they have their own restrictions and downsides. Tissue engineering is working towards overcoming these challenges using 3D printing and freeze-drying technique. This research project aims to develop and study the properties of a freeze-dried antibacterial tissue based on alginate, hyaluronic acid and titanium dioxide nanoparticles using freeze drying technique. The mechanical evaluations showed that the addition of titanium dioxide improved tensile strength, hardness and wettability of the antibacterial nanocomposite scaffold. The biological assessments of the sample were evaluated in the simulated body fluid to stimulate the hard tissue reaction with biological environment. The samples were characterized using X-ray diffraction (XRD) and scanning electron microscopy (SEM) analysis. The obtained results indicated that addition of titanium oxide nanoparticle improved the hyaluronic acid polymer for bone filler using for orthopedic applications. The XRD analysis did not detect the formation of any new unwanted chemicals in the composite samples. The microscopic assessments confirmed the formation of nanocomposite scaffold containing titanium dioxide nanoparticles, with a porosity percentage between 77% and 82%. The phase analysis confirmed the triploid amorphous structure showing a significant resemblance to natural human bone tissue, thus supporting the idea of using this biomaterial as a multilayer bone filler.
Biomaterials
Scaffolds
Bone substitute
Orthopedics
cartilage
2020
11
01
306
315
https://www.nanomedicine-rj.com/article_47983_81547edc5fb6161abcbde82934dd67bc.pdf
Nanomedicine Research Journal
Nanomed Res J
2476-3489
2476-3489
2020
5
4
Design and development of plumbagin loaded poly (ε -caprolactone) nanoparticles for improved cytotoxicity
Harshad
Kapare
Sarika
Metkar
Satish
Shirolkar
Poly (ε -caprolactone) nanoparticles were investigated as an injectable nanocarrier for the delivery of natural anticancer naphthoquinones plumbagin with the primary aim of improvement in its solubility, drug release profile and in vitro cytotoxicity. Plumbagin loaded polymeric nanoparticle system was fabricated by nanoprecipitation method and the composition was optimized using factorial design approach. Nanoparticles showed particle size and encapsulation efficiency of 186 ± 1 - 300 ± 3 nm and 65.00+ 1.50- 74.00+ 1.80% respectively. Optimization was carried out and optimized formulation showed sustained drug release over a period of 24 h. Total growth inhibition of cells in a designed time period (TGI) concentration was decreased by 56.95 % for PNP as compared to Plumbagin in human breast cancer MCF-7 cells indicates improved cytotoxicity of Plumbagin. The formulation development study proven that the developed PNP system exhibited improved solubility, sustained drug release, enhanced in vitro cytotoxicity in MCF-7 cell lines in comparison with Plumbagin. Thus the designed formulation approach can be further developed as novel carrier for plumbagin to enhance its biopharmaceutical properties
Plumbagin
Poly (ε-caprolactone)
Design of experiment
Sulforhodamine B (SRB) assay
nanoparticles
2020
11
01
316
323
https://www.nanomedicine-rj.com/article_47984_8696a686f3306c0100203214b464f880.pdf
Nanomedicine Research Journal
Nanomed Res J
2476-3489
2476-3489
2020
5
4
Caffeic Acid Phenethyl Ester Loaded Poly (ε -caprolactone) Nanoparticles for Improved Anticancer Efficacy: Formulation Development, Characterization and in Vitro Cytotoxicity Study
Harshad
Kapare
Sathiyanarayanan
Lohidasan
Arulmozhi
S
Kakasaheb
Mahadik
Caffeic acid phenethyl ester (CAPE) is a active constituent of propolis and well known for its anticancer potential. The therapeutic efficacy of CAPE is limited with its poor water solubility and low bioavailability. In present study CAPE loaded Poly (ε-caprolactone) nanoparticles formulation (denoted as CPL) was designed and investigated to improve solubility, achieve sustained drug release and enhance anticancer efficacy. Formulation development, characterization and optimization were carried out by design of experiment approach. Developed formulations were evaluated in detail for nanoparticle characterization and in vitro cytotoxicity study. Developed nanoparticles showed particle size and encapsulation efficiency of 187 ± 2 - 220 ± 2 nm and 64.37+ 1.20- 74.80+ 1.45% respectively. Optimized formulation showed sustained drug release over a period of 36 h. Moreover, concentration of the drug needed for total growth inhibition of cells in a designed time period (TGI) was decreased by 40.87% for CPL as compared to CAPE in human breast cancer MCF-7 cells and 23.73% in human colon cancer cells HT-29 indicating improved cytotoxicity of CAPE. The study proven that the developed CPL exhibited improved solubility, sustained drug release, enhanced in vitro cytotoxicity in MCF-7 and HT-29 cell lines in comparison with pure CAPE. Thus the proposed system may be served as a useful tool for cancer treatment.
Design of experiment
Sulforhodamine B (SRB) assay
Nanotechnology
Anticancer
2020
11
01
324
331
https://www.nanomedicine-rj.com/article_47985_7637c0f444e383dedff469780f3890a4.pdf
Nanomedicine Research Journal
Nanomed Res J
2476-3489
2476-3489
2020
5
4
The silver nanoparticles induce c-Fos expression in the central nucleus of amygdala that relief the aversive effect of naloxone in the morphine relied animal
Mahnaz
Rahimpour
Manizheh
Karami
Ali
Haeri Rohani
AbstractBackground: Silver nanoparticles (Ag-NPs) that are used daily in care service can enter the body and create free radicals. Despite the toxicity at high concentrations, these particles are non-toxic and useful at low concentrations. Thus, we investigated the effectiveness of nontoxic Ag-NPs to interfere with the aversive effect of naloxone (NLX) and low expression of c-Fos during testing of morphine-induced conditioned place preference (CPP) in rats. Methods: The Wistar rats (weighing 300-350 g) were cannulated bilaterally by stereotaxic apparatus for the CeA (AP= –2.12 mm; L= ±4.1 mm; V= 7.8 mm). CPP was conducted via a three-phase unbiased procedure. Morphine (0.5-7.5 mg/kg) was injected subcutaneously (sc) during the conditioning phase. NLX (0.4 µg/rat) was given, intra-CeA, 10 min before the test. Ag-NPs (0.01 µg/rat) was administered prior to the antagonist. The control group received saline (1 µL/rat, intra-CeA). c-Fos expression was quantified immunohistochemically in rats subsequent the injections: Results: The CeA and hippocampal cornu ammonis 1 (CA1) of rats that treated by NLX showed low c-Fos protein levels during testing, whereas levels of protein were high in the brains of morphine conditioned rats. Interestingly, both areas (CeA and CA1) showed similar increases in protein levels when the injection of NLX was combined with the Ag-NPs. However, these regions were not significantly different in the single Ag-NPs receiving and control groups. Conclusions: This indicates that the two regions interact with each other when NLX is injected and that in presence of Ag-NPs the protein levels are elevated in the regions.
Central amygdala
c-Fos
Morphine
naloxone
Silver nanoparticles
2020
11
01
332
338
https://www.nanomedicine-rj.com/article_47986_c8a94c7a6c4282ff7e166eb7424651d8.pdf
Nanomedicine Research Journal
Nanomed Res J
2476-3489
2476-3489
2020
5
4
Synthesis of silver nanoparticles using Salvia officinalis extract: Structural characterization, cytotoxicity, antileishmanial and antimicrobial activity
Fatemeh
Sharifi
Fariba
Sharififar
Sara
Soltanian
Mohsen
Doostmohammadi
Neda
Mohamadi
Objective: This study aimed to investigate the cytotoxicity, antileishmanial and antibacterial potential of silver nanoparticles (AgNPs) synthesized by (Salvia officinalis L. (Sage)) extract. Methods: The green synthesized nanoparticles were analyzed by using UV–vis spectroscopy, FTIR, and FESEM techniques. Cytotoxicity antileishmanial assay was evaluated by MTT. Results: The UV–vis spectroscopy study at the band of 430 nm confirmed the formation of nanoparticles. FT-IR confirmed the presence of the ingredients in salvia leaf extract which is responsible for capping and reduction of the silver nanoparticles. FESEM report showed that the AgNPs synthesized were in the size range 30–70 nm. The AgNPs exhibited good cytotoxic activity against Hek-293, the breast cancer cell line (MCF 7) and a human glioblastoma cell line (A 172) with an IC50 value of 240, 50.40 and 58.60 µg/mL, respectively. The present study confirmed good antileishmanial activity against the promastigote and amastigote stages of Leishmania major in a dose-dependent manner. IC50 values of AgNPs were 62.91 and 73.89 μg/mL using promastigote and amastigotes assay respectively. AgNPs showed potent antibacterial activity against three bacteria species S. aureus, B. subtilis, and MRSA (Methicillin-resistant Staphylococcus aureus) at high concentrations. According to disk diffusion results, AgNPs at concentration 1000 µg/mL showed a significant inhibitory zone against S. aureus and B. subtilis. The AgNPs at a concentration higher than 750 µg/mL showed the valuable inhibitory zone against MRSA. Conclusion: this study confirmed good cytotoxicity, and antileishmanial activity in the nanoparticles synthesized using S. officinal extract, so it can be further investigated for biomedical applications.
Silver nanoparticles
Salvia officinalis
Cytotoxicity
Antileishmanial effects
Antibacterial activity
2020
11
01
339
346
https://www.nanomedicine-rj.com/article_47987_50f70ba1625008b98abe0ff3543323de.pdf
Nanomedicine Research Journal
Nanomed Res J
2476-3489
2476-3489
2020
5
4
Preparation and characterization of O/W nanoemulsion with eucalyptus essential oil and study of in vitro antibacterial activity
Arun Dev
Sharma
Mohit
Farmaha
Inderjeet
Kaur
Objective(s): Eucalyptus oil is a typical essential oil used in pharmaceutical, food, cosmetic and drug industries having antimicrobial and antioxidant activities. Eucalyptus oil is highly unsteady and hydrophobic under normal conditions, so easily lose its bactericidal activity. To protect this bioactive herbal product, nanoemulsion technology is an excellent way to micro-encapsulate and hydrophilize it. Due to special properties, oil-in-water (O/W) essential oil nanoemulsions are expanding day by day as a delivery system in food, cosmetic and agrochemical industries. The aim of the present study is to prepare eucalyptus oil based nanoemulsions, its characterization and in vitro evaluation of its antimicrobial activity. Methods: O/W nanoemulsions were prepared by using eucalyptus essential oil in the presence of surfactants like tween 20, tween 80 and sodium dodecyl sulphate (SDS). Physiochemical parameters like pH, conductivity, optical density and antibacterial activity were studied. Stability of nanoemulsions was studied for 120 days. Results: Nanoemulsions prepared with tween 20/80 and SDS were smaller in size than those prepared with tween 20/80. Formulated nanoemulsions were stable even after 120 days as no significant change in pH, conductivity, size of droplet was observed. Substantial in vitro antibacterial activity against Bacillus subtilis was observed with nanoemulsions prepared with tween 20 only. Conclusion: The findings suggested that eucalyptus oil based nanoemulsions can be used as key drug carrier in pharmaceutical, food and cosmetic industries.
Nanoemulsion
Eucalyptus oil
Tween 20
In virto antimicrobial activity
2020
11
01
347
354
https://www.nanomedicine-rj.com/article_47988_dc9f4b30652858343c6dc4066b074535.pdf
Nanomedicine Research Journal
Nanomed Res J
2476-3489
2476-3489
2020
5
4
Excess iron ion reduction in a thalassemia model using silver nanoparticles modified by the tannin fraction of Myrtus communis extact
Shirin
Tavakoli
Mohammad Ali
Ebrahimzadeh
Fatemeh
Sameni
Pourya
Biparva
Hamidreza
Mohammadi
Ali
Ziar
Afshin
Zahedi Mazandarani
Soheil
Vafaeinejad
Shahram
Eslami
Objective(s): Nowadays, iron ions intoxication is the center of attention of interest in the management and treatment of thalassemia and different sorts of anemia associated with regular blood transfusions. Due to the major side effects of current drugs, they should be replaced with safer alternatives. Thus, in this study, functionalized hybrid silver nanoparticles, as an emerging perspective, were investigated for absorbing excess iron ions and their removal in an animal thalassemia model. Methods: The silver nanoparticles were green-synthesized using the Myrtus communis leaf methanolic extact (MC-AgNPs). The produced hybrid nano-Sorbents based on hydrolyzable tannin matrix loaded with silver nanoparticles were delivered for trying out in vivo iron chelation in thalassemia model mice in which iron-overload was imposed. MC-AgNPs and desferral were injected intraperitoneally four times a week for one month in mice with excess iron load. The total iron and Fe3+ content of serum was evaluated with the aid of plasma-atomic spectrometry microscopy and a Fe3+ ion measurement kit, respectively. Also, liver enzyme levels were evaluated by an auto-analyzer. Also, hepatic enzyme levels were appraised by using an auto-analyzer based the corresponding kits. Morphological transformations of the liver tissue were investigated by way of Prussian blue staining. Results: The mice treated with the MC-AgNPs demonstrated a significant reduction in serum iron content when compared with the iron-overload mice. MC-AgNPs revealed satisfying effectiveness to chelate excess iron in mice. Conclusions: This method could be considered as a competitive option for lowering the level of excess iron in vivo.
Green synthesis
Silver Nanoparticle
Myrtus communis
Hydrolyzable Tannins
chelation
Iron overloaded
Thalassemia
2020
11
01
355
363
https://www.nanomedicine-rj.com/article_47989_78cf791677b2ef94c9327c1a7094b964.pdf
Nanomedicine Research Journal
Nanomed Res J
2476-3489
2476-3489
2020
5
4
The Investigation of the Cytotoxicity of Copper Oxide Nanoparticles on Peripheral Blood Mononuclear Cells
Maryam
Zivari fard
Marjan
Fatholahi
Morteza
Abyadeh
Azam
Bakhtiarian
Seyyedeh Elaheh
Mousavi
Mojtaba
Falahati
Copper (II) oxide nanoparticle (CuO-NP) is extensively used in wide variety of industrial and biomedical applications. Reduced size of Copper oxide (CuO) particles from micron to nano scale caused superior physical characteristics on one side while making them cytotoxic on other side. Therefore there is an urgent need to assess the toxicity of CuO NP. This study was aimed to evaluate the toxic effects of CuO-NPs exposure on peripheral blood cells (PBMCs). PBMCs were exposed to different concentration of CuO-NPs (0, 1, 10, 50, 100, 200 µg/ml), and cytotoxicity was investigated using MTT assay for cell viability, LDH Assay for cell membrane damage and Acridine orange/propidium iodide staining for cell apoptosis. Results of the present study showed that CuO-NPs exert concentration-dependent toxicity on peripheral blood cells. While low concentration of CuO-NPs (1 µ g / ml) did not affected cells viability, higher concentrations (≥10μg / ml) reduced cell viability (up to %27.01 for 200 μg / ml). Moreover, LDH leakage at ≥1μg / ml showed cells membrane damage and also cell apoptosis was observed. In conclusion results of the present study, showed the concentration-dependent toxicity of CuO-NPs on PBMCs.
copper oxide nanoparticles
Peripheral blood Mononuclear cells
Toxicity
2020
11
01
364
368
https://www.nanomedicine-rj.com/article_47990_135f21b73fe37a428894d7e12f876c76.pdf
Nanomedicine Research Journal
Nanomed Res J
2476-3489
2476-3489
2020
5
4
Bio efficacy, and photocatalytic activity of the silver nanoparticles synthesized from Cryptolepis buchanani leaf extract
Sudipta
Panja
Anutosh
Patra
Kalyani
Khanra
Indranil
Choudhuri
Bikash
Pati
Nandan
Bhattacharyya
The objective of the study is to synthesis silver nanoparticles from the leaf extract of Cryptolepis buchanani, a medically important plant,by green synthesis method. The synthesized nanoparticles have an average size of 17.05±5.27 nm, crystalline in nature with face cantered cubic structure, and positive surface charge. The nanoparticles are biologically active. It killed > 90 % of HeLa cells at 25 μg mL-1 concentration in-vitro cell cytotoxicity assay, with a LD50 value of 3.98 μg mL-1. The nanoparticles are less effective on MCF-7 and HEK-293 cell line, almost 70 % of MCF-7 populations were survived at highest concentration of 25 μg mL-1. In case of HEK-293 it killed almost 78 % of cells at the same concentration with a 9.45 μg mL-1 LD50 value. The synthesized nanoparticle lysed less than 2.5 % of red blood cells at 10 μg mL-1 concentration in-vitro. The nanoparticles degraded >90 % of methylene blue dye in presence of light in 8.5 h. These properties of the synthesized nanoparticles are unique, and make it promising for its future potential applications.
Cryptolepis buchanani
Silver Nanoparticle
Green synthesis
Cytotoxicity
photocatalytic activity
2020
11
01
369
377
https://www.nanomedicine-rj.com/article_47991_a5b5210f2e1d111b862c55db5a57e179.pdf
Nanomedicine Research Journal
Nanomed Res J
2476-3489
2476-3489
2020
5
4
Effect of processing variables on the performance of electrochemical aptasensor for determination of aflatoxin M1
Hamid Reza
Rahmani
Mohsen
Adabi
Kamran
Pooshang Bagheri
Giti
Karim
A novel aptasensor based on electrospun carbon nanofiber (ECNF) mat modified with gold naoparticles (AuNPs) and aptamer was developed to detect aflatoxin M1 (AFM1) in the milk. The electrospinning and heat treatment technique were firstly used to construct the ECNF mat electrode. Then, this platform was electrodeposited by AuNPs and immobilized with a thiol-modified single stranded DNA (ss-HSDNA). The effect of processing parameters such as concentration of HAuCl4 and ss-HSDNA in the electrolyte, incubation time of aptamer and AFM1, pH and temperature of the electrolyte on the performance of aptasensor was investigated using cyclic voltammetry (CV) experiments in the [Fe(CN)6]-3/-4 solution. The results showed that the optimum concentration of HAuCl4 in the electrolyte was 4mM. An increment in ss-HSDNA aptamer of electrolyte led to improvement of the electrochemical current response. Furthermore, the peak currents of CV enhanced with increasing incubation time of aptamer or AFM1. By increasing temperature of the electrolyte, the CV peak currents increased and then decreased. This trend was also observed in pH of electrolyte.
Aptasensor
Gold nanoparticles
Carbon nanofiber
Aflatoxin M1
Milk
2020
11
01
378
382
https://www.nanomedicine-rj.com/article_47992_a26648ea0ff07eb0a484c4ea6e4a131e.pdf