Bone Regeneration in rat using a gelatin/bioactive glass nanocomposite scaffold along with endothelial cells (<scp>HUVEC</scp>s)

Kazemi, Mohammad Hossein; Azami, Mahmoud; Johari, Behrooz; Ahmadzadehzarajabad, Maryam; Nazari, Bahareh; Kargozar, Saeid; Hajighasemlou, Saieh; Mozafari, Masoud; Soleimani, Mansooreh; Samadikuchaksaraei, Alí; Farajollahi, Mohammad

doi:10.1111/ijac.12907

Cited by 24 publications

(13 citation statements)

References 50 publications

(94 reference statements)

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“…Short‐term cell viability and cytotoxicity were measured by MTT (Gholipourmalekabadi et al, ) and LDH‐specific activity assay (Rostami et al, ), respectively. For this purpose, the cells were cultured on the scaffold for 24, 48, and 72 h as described in our previous studies (Johari et al, ; Johari et al, ; Kazemi et al, ) and their proliferation rate was compared with those of the cells cultured in a culture plate (as a positive control). After each period of time, the culture medium was removed and centrifuged for the following cytotoxicity assay with LDH.…”

Section: Methodsmentioning

confidence: 99%

Nanocomposite scaffold seeded with mesenchymal stem cells for bone repair

Farshadi

Johari

Ezadyar

et al. 2019

Cell Biology International

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The mechanical property of bone tissue scaffolds is one of the most important aspects in bone tissue engineering that has remained problematic. In our previous study, we fabricated a three-dimensional scaffold from nanohydroxyapatite/gelatin (nHA/Gel) and investigated its efficiency in promoting bone regeneration both in vitro and in vivo. In the present study, the effect of adding silicon carbide (SiC) on the mechanical and biological behaviors of the nHA/Gel/SiC and bone regeneration in vivo were determined. nHA and SiC were synthesized and characterized by the X-ray diffraction pattern and transmission electron microscope image. Layer solvent casting, freeze drying, and lamination techniques were applied to prepare these scaffolds. Then, the biocompatibility and cell adhesion behavior of the synthesized nHA/Gel/SiC scaffolds were investigated. For in vivo studies, rats were categorized into three groups: blank defect, blank scaffold, and rat bone marrow mesenchymal stem cells (rBM-MSCs)/scaffold. After 1, 4, and 12 weeks post-injury, the rats were sacrificed and the calvaria were harvested. Sections with a thickness of 5 µm thickness were prepared and stained with hematoxylin-eosin and Masson's Trichrome, and immunohistochemistry was performed. Our results showed that SiC effectively increased the mechanical properties of the nHA/ Gel/SiC scaffold. No significant differences were observed in biocompatibility, cell adhesion, and cytotoxicity of the nHA/Gel/SiC in comparison with the nHA/Gel nanocomposite. Based on histological and immunohistochemical studies, both osteogenesis and collagenization were significantly higher in the rBM-MSCs/scaffold group, quantitatively and qualitatively. The present study strongly suggests the potential of SiC as an alternative strategy to improve the mechanical and biological properties of bone tissue engineering scaffolds, and shows that the preseeded nHA/Gel/SiC scaffold with rBM-MSCs improves osteogenesis in the engineered bone implant.

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Section: Methodsmentioning

confidence: 99%

Nanocomposite scaffold seeded with mesenchymal stem cells for bone repair

Farshadi

Johari

Ezadyar

et al. 2019

Cell Biology International

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“…Nanotechnology is contributing to the diagnosis and treatment of cancer by presenting various nanomaterials and nanotechnology‐based platforms for entering the cancer cell tissues (Kazemi et al, 2018; Gharbavi, Amani, Kheiri‐Manjili, Danafar, & Sharafi, 2018; Moradi, Abdolhosseini, Zarrabi, & Johari, 2019; Sahoo, Parveen, & Panda, 2007). The bovine serum albumin nanoparticles (BSA NPs) are one of the most attractive systems for drug delivery because it is readily available, nontoxic, nonimmunogenic, biocompatible, and biodegradable.…”

Section: Introductionmentioning

confidence: 99%

Cholesterol‐conjugated bovine serum albumin nanoparticles as a tamoxifen tumor‐targeted delivery system

Gharbavi

Johari

Eslami

et al. 2020

Cell Biology International

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In the present study, we introduced cholesterol (CLO)‐conjugated bovine serum albumin nanoparticles (BSA NPs) as a new system for indirect targeting drug delivery. Tamoxifen, as an anticancer drug, was loaded on BSA NPs (BSA‐TAX NPs); CLO was then conjugated to the BSA‐TAX NPs surface for the targeted delivery of NPs system, by 1‐ethyl‐3‐(3‐dimethylaminopropyl) carbodiimide/N‐hydroxy succinimide carbodiimide chemistry (CLO‐BSA‐TAX NPs). The physicochemical properties, toxicity, in vitro, and in vivo biocompatibility of the BSA NPs system were characterized on cancer cell lines (4T1). The results revealed that the BSA NPs system has a regular spherical shape and negative zeta‐potential values. The drug release of BSA NPs system has shown controlled and pH‐dependent drug release behavior. BSA NPs system was biocompatible but it was potentially toxic on the cancer cell line. The CLO‐BSA‐TAX NPs exhibited higher toxicity against cancer cell lines than other NPs formulation (BSA NPs and BSA‐TAX NPs). It can be concluded that the CLO, as an indirect targeting agent, enhances the toxicity and specificity of NPs system on cancer cell lines. It could potentially be suitable approaches to targeting the tumors in clinical cancer therapy.

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“…This material is more affordable in comparison with collagen containing Arg‐Gly‐Asp (RGD)‐like sequences of amino‐acids, which enhance cell proliferation, adhesion, and migration. However, gelatin lacks suitable mechanical properties and rapid degradation rate because of collagenase action . To overcome such problem, gelatin has been blended with other polymers to enhance its properties.…”

Section: Introductionmentioning

confidence: 99%

Electrospun electroactive nanofibers of gelatin‐oligoaniline/Poly (vinyl alcohol) templates for architecting of cardiac tissue with on‐demand drug release

Shojaie

Rostamian

Samadi

et al. 2019

Polymers for Advanced Techs

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In this study, grafted gelatin with oligoaniline (GelOA) was synthesized and then mixed with Poly (vinyl alcohol) (PVA). Several scaffolds with different ratio of PVA/GelOA were electrospun to fabricate electroactive scaffolds. GelOA was characterized using Fourier‐transform infrared spectroscopy (FTIR); moreover, nanofiber properties were evaluated by differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), and scanning electron microscope (SEM) analyses. Nanofibers diameter was decreased with aniline oligomer increment form 300 to 150 nm because of the hydrophobic nature of the aniline oligomer. Aniline oligomer electroactivity was studied using cyclic voltammetry, which exhibited two redox peaks at 0.4 and 0.6. Moreover, aniline oligomer enhancement resulted in melting point increasing from 220°C to 230°C because of the crystallinity increment. To assess the biocompatibility of nanofibers, cell viability and cell adhesion were tracked using mesenchymal stem cell (MSCs). It was revealed that the presence of aniline oligomer leads to enhancing the conductivity, thermal properties and lowering the degradation rate and drug release. Among of different scaffolds, sample with high content of GelOA shows better behavior in physical and biological properties. Accumulative drug releases under applied electrical field at 40 minutes showed that the drug release for stimulated condition is about 33% more than the unapplied electrical field one.

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Bone Regeneration in rat using a gelatin/bioactive glass nanocomposite scaffold along with endothelial cells (HUVECs)

Cited by 24 publications

References 50 publications

Nanocomposite scaffold seeded with mesenchymal stem cells for bone repair

Nanocomposite scaffold seeded with mesenchymal stem cells for bone repair

Cholesterol‐conjugated bovine serum albumin nanoparticles as a tamoxifen tumor‐targeted delivery system

Electrospun electroactive nanofibers of gelatin‐oligoaniline/Poly (vinyl alcohol) templates for architecting of cardiac tissue with on‐demand drug release

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