Tailor‐made multicomponent electrospun polyurethane nanofibrous composite scaffold comprising olive oil, honey, and propolis for bone tissue engineering

Jaganathan, Saravana Kumar; Mani, Mohan Prasath; Ismail, Ahmad Fauzi; Prabhakaran, Praseetha; Nageswaran, Gomathi

doi:10.1002/pc.24985

Cited by 17 publications

(16 citation statements)

References 35 publications

(42 reference statements)

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“…The total roughness of crosslinked PVA samples were determined as 418 nm referring to 50% decrease as compared to non‐crosslinked fibers. It was obviously known that chemical crosslinking tends to dramatically decrease the surface roughness due to the detrimental effect on the polymer chains 44,45 . In addition, crosslinking causes a dramatic increase in stiffness of the PVA fibers, and this Young's modulus mapping for crosslinked PVA in varying propolis concentration was shown in Figure 3(c).…”

Section: Resultsmentioning

confidence: 91%

“…It was obviously known that chemical crosslinking tends to dramatically decrease the surface roughness due to the detrimental effect on the polymer chains. 44,45 In addition, crosslinking causes a dramatic increase in stiffness of the PVA fibers, and this Young's modulus mapping for crosslinked PVA in varying propolis concentration was shown in Figure 3(c). Young's modulus values were varied for each concentration, but as the concentration increases, the distribution of Young's modulus on the surface became homogeneous.…”

Section: Evaluation Of Propolis/pva Scaffold Morphologymentioning

confidence: 86%

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Biocomposite scaffolds for 3D cell culture: Propolis enriched polyvinyl alcohol nanofibers favoring cell adhesion

Bilginer

Ozkendir‐Inanc

Yıldız

et al. 2020

J of Applied Polymer Sci

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The objective of this work is generation of propolis/polyvinyl alcohol (PVA) scaffold by electrospinning for 3D cell culture. Here, PVA used as co‐spinning agent since propolis alone cannot be easily processed by electrospinning methodology. Propolis takes charge in maximizing biological aspect of scaffold to facilitate cell attachment and proliferation. Morphological analysis showed size of the electrospun nanofibers varied between 172–523 nm and 345–687 nm in diameter, for non‐crosslinked and crosslinked scaffolds, respectively. Incorporation of propolis resulted in desired surface properties of hybrid matrix, where hybrid scaffolds highly favored protein adsorption. To examine cell compatibility, NIH‐3T3 and HeLa cells were seeded on propolis/PVA hybrid scaffold. Results confirmed that integration of propolis supported cell adhesion and cell proliferation. Also, results indicated electrospun propolis/PVA hybrid scaffold provide suitable microenvironment for cell culturing. Therefore, developed hybrid scaffold could be considered as potential candidate for 3D cell culture and tissue engineering.

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Section: Resultsmentioning

confidence: 91%

Section: Evaluation Of Propolis/pva Scaffold Morphologymentioning

confidence: 86%

Biocomposite scaffolds for 3D cell culture: Propolis enriched polyvinyl alcohol nanofibers favoring cell adhesion

Bilginer

Ozkendir‐Inanc

Yıldız

et al. 2020

J of Applied Polymer Sci

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“…Although many studies have been carried out on the properties of various polymers such as PCL, PU, PVP, and ... mixed with propolis [25,26], no study has been seen by the authors focusing on the blending of PA-6 polymer with propolis extract; moreover, the question is, how much of the PA-6 polymeric properties is affected by the propolis extract in the blended matrix. Therefore, the objective of this study was to investigate the antioxidant activity, and also the characteristics of electrospun PA-6 polymer fibers blended with different concentrations of propolis extract.…”

Section: Introductionmentioning

confidence: 99%

Characterization of polyamide-6/ propolis blended electrospun fibers

Razavizadeh¹,

Niazmand²

2020

Heliyon

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Polyamide-6 (PA-6) nanofibers and PA-6/propolis ethanolic extract (EEP) blended fibers were prepared having electrospun their solutions in formic acid as solvent. The effect of concentrations of PA-6 and also EEP in polymer solutions on the morphology and physicochemical characteristics of their electrospun fibers was investigated. The analysis of FESEM images showed the mean diameter of fibers increased from 487-682 nm with increasing PA-6 concentration in the range of 25-40 % w/v. While, increasing EEP concentration (20-50% (w/w)) in PA-6/EEP system caused the increasing fiber mean diameters from 943-1773 nm. Partially high aspect ratio nanofibers were observed only in the PA-6 systems. Antioxidant activity of the fibers enhanced with increasing EEP concentration in the fiber mats. FTIR spectrums and thermal properties of electrospun fibers exhibited the simple mixtures of PA-6 and EEP in blend fibers which did not contain very complex interactions.

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“…There are many studies on incorporation of propolis extract into polymeric or biopolymeric films. [28,29] Adomavičiūtė, et al (2018) developed and characterized pure multi-filament yarns and yarns saturated with propolis. They evaluated the effect of preparation and formulation parameters on the characteristics of yarns and they determined the release of propolis extract components from yarns and their possible cytotoxicity on cell formation.…”

Section: Introductionmentioning

confidence: 99%

Antimicrobial, mechanical, and physicochemical properties of ethylene vinyl alcohol (EVOH) extruded films blended with propolis

Hajinezhad¹,

Razavizadeh²,

Niazmand³

et al. 2020

International Journal of Food Properties

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Tailor‐made multicomponent electrospun polyurethane nanofibrous composite scaffold comprising olive oil, honey, and propolis for bone tissue engineering

Cited by 17 publications

References 35 publications

Biocomposite scaffolds for 3D cell culture: Propolis enriched polyvinyl alcohol nanofibers favoring cell adhesion

Biocomposite scaffolds for 3D cell culture: Propolis enriched polyvinyl alcohol nanofibers favoring cell adhesion

Characterization of polyamide-6/ propolis blended electrospun fibers

Antimicrobial, mechanical, and physicochemical properties of ethylene vinyl alcohol (EVOH) extruded films blended with propolis

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