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Recent Innovations in Strategies for Breast Cancer Therapy by Electrospun Scaffolds: A Review.
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- Journal of Polymers & the Environment, 2024, v. 32, n. 3, p. 1001, doi. 10.1007/s10924-023-03022-6
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Evaluation of the Effects of Halloysite Nanotubes on Physical, Mechanical, and Biological Properties of Polyhydroxy Butyrate Electrospun Scaffold for Cartilage Tissue Engineering Applications.
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- Journal of Polymers & the Environment, 2024, v. 32, n. 3, p. 1170, doi. 10.1007/s10924-023-03024-4
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Electrospun Nanocomposite Scaffold Based on Polycaprolactone-decellularized Umbilical Cord Wharton's Jelly/Multi-walled Carbon Nanotubes: A Biomimetic Substrate for Articular Cartilage Tissue Engineering.
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- Journal of Polymers & the Environment, 2023, v. 31, n. 12, p. 5272, doi. 10.1007/s10924-023-02944-5
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PCL/Agarose 3D-printed scaffold for tissue engineering applications: fabrication, characterization, and cellular activities.
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- Research in Pharmaceutical Sciences, 2023, v. 18, n. 5, p. 566, doi. 10.4103/1735-5362.383711
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A core-shell Electrospun Scaffold of polyhydroxybutyrate-starch/halloysite Nanotubes Containing Extracellular Matrix and Chitosan for Articular Cartilage Tissue Engineering Application.
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- Journal of Polymers & the Environment, 2023, v. 31, n. 7, p. 3052, doi. 10.1007/s10924-023-02800-6
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Theoretical and experimental investigation of solubility and Young's modulus models for polyhydroxybutyrate‐based electrospun scaffolds.
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- Journal of Applied Polymer Science, 2023, v. 140, n. 13, p. 1, doi. 10.1002/app.53666
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Synthetic-based blended electrospun scaffolds in tissue engineering applications.
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- Journal of Materials Science, 2022, v. 57, n. 6, p. 4020, doi. 10.1007/s10853-021-06826-w
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Fabrication and characterization of chitosan‐gelatin/single‐walled carbon nanotubes electrospun composite scaffolds for cartilage tissue engineering applications.
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- Polymers for Advanced Technologies, 2022, v. 33, n. 1, p. 81, doi. 10.1002/pat.5492
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Recent advances on akermanite calcium‐silicate ceramic for biomedical applications.
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- International Journal of Applied Ceramic Technology, 2021, v. 18, n. 6, p. 1901, doi. 10.1111/ijac.13814
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3‐Dimensional Printing of Hydrogel‐Based Nanocomposites: A Comprehensive Review on the Technology Description, Properties, and Applications.
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- Advanced Engineering Materials, 2021, v. 23, n. 10, p. 1, doi. 10.1002/adem.202100477
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Poly(methyl methacrylate) bone cement, its rise, growth, downfall and future.
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- Polymer International, 2021, v. 70, n. 9, p. 1182, doi. 10.1002/pi.6136
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Herbal Remedies as Potential in Cartilage Tissue Engineering: An Overview of New Therapeutic Approaches and Strategies.
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- Molecules, 2020, v. 25, n. 13, p. 3075, doi. 10.3390/molecules25133075
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Polymethyl Methacrylate-Based Bone Cements Containing Carbon Nanotubes and Graphene Oxide: An Overview of Physical, Mechanical, and Biological Properties.
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- Polymers (20734360), 2020, v. 12, n. 7, p. 1469, doi. 10.3390/polym12071469
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In Vitro and In Vivo Evaluation of Poly (3-hydroxybutyrate)/Carbon Nanotubes Electrospun Scaffolds for Periodontal Ligament Tissue Engineering.
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- Journal of Dentistry (2345-6485), 2020, v. 21, n. 1, p. 18, doi. 10.30476/DENTJODS.2019.77869
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Evaluation of mechanical properties and cell viability of poly (3-hydroxybutyrate)-chitosan/Al<sub>2</sub>O<sub>3</sub>nanocomposite scaffold for cartilage tissue engineering.
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- Journal of Medical Signals & Sensors, 2019, v. 9, n. 2, p. 111, doi. 10.4103/jmss.JMSS_56_18
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Chitosan/MWCNTs composite as bone substitute: Physical, mechanical, bioactivity, and biodegradation evaluation.
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- Polymer Composites, 2019, v. 40, p. E1622, doi. 10.1002/pc.25104
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Assessing the physical and mechanical properties of poly 3-hydroxybutyrate-chitosan-multi-walled carbon nanotube/silk nano-micro composite scaffold for long-term healing tissue engineering applications.
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- Micro & Nano Letters (Wiley-Blackwell), 2018, v. 13, n. 6, p. 829, doi. 10.1049/mnl.2017.0725
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Preparation and evaluation of poly glycerol sebacate/poly hydroxy butyrate core‐shell electrospun nanofibers with sequentially release of ciprofloxacin and simvastatin in wound dressings.
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- Polymers for Advanced Technologies, 2018, v. 29, n. 6, p. 1795, doi. 10.1002/pat.4286
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Cytotoxicity assessment of polyhydroxybutyrate/chitosan/nanobioglass nanofiber scaffolds by stem cells from human exfoliated deciduous teeth stem cells from dental pulp of exfoliated deciduous tooth.
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- Dental Research Journal, 2018, v. 15, n. 2, p. 136, doi. 10.4103/1735-3327.226524
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Characterization of Silk/Poly 3-Hydroxybutyrate-chitosan-multi-walled Carbon Nanotube Micro-nano Scaffold: A New Hybrid Scaffold for Tissue Engineering Applications.
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- Journal of Medical Signals & Sensors, 2018, v. 8, n. 1, p. 46
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Effects of multi-wall carbon nanotubes on structural and mechanical properties of poly(3-hydroxybutyrate)/chitosan electrospun scaffolds for cartilage tissue engineering.
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- Bulletin of Materials Science, 2017, v. 40, n. 6, p. 1247, doi. 10.1007/s12034-017-1479-9
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Electrospinning of aligned medical grade polyurethane nanofibres and evaluation of cell-scaffold interaction using SHED stem cells.
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- Micro & Nano Letters (Wiley-Blackwell), 2017, v. 12, n. 6, p. 412, doi. 10.1049/mnl.2017.0035
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Electrospun poly(hydroxybutyrate)/chitosan blend fibrous scaffolds for cartilage tissue engineering.
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- Journal of Applied Polymer Science, 2016, v. 133, n. 47, p. n/a, doi. 10.1002/app.44171
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Optimizing the mechanical properties of a bi-layered knitted/nanofibrous esophageal prosthesis using artificial intelligence.
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- e-Polymers, 2016, v. 16, n. 5, p. 359, doi. 10.1515/epoly-2016-0146
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Evaluation of the effects of nano-TiO on bioactivity and mechanical properties of nano bioglass-P3HB composite scaffold for bone tissue engineering.
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- Journal of Materials Science: Materials in Medicine, 2016, v. 27, n. 1, p. 1, doi. 10.1007/s10856-015-5613-1
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Cell Attachment and Proliferation of Human Adipose-Derived Stem Cells on PLGA/Chitosan Electrospun Nano-Biocomposite.
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- Cell Journal (Yakhteh), 2015, v. 17, n. 3, p. 429
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Improving the Mechanical Properties of Wire-Rope Silk Scaffold by Artificial Neural Network in Tendon and Ligament Tissue Engineering.
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- Journal of Engineered Fabrics & Fibers (JEFF), 2015, v. 10, n. 3, p. 94, doi. 10.1177/155892501501000303
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Nanobiocomposite of poly(lactide- co-glycolide)/chitosan electrospun scaffold can promote proliferation and transdifferentiation of Schwann-like cells from human adipose-derived stem cells.
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- Journal of Biomedical Materials Research, Part A, 2015, v. 103, n. 8, p. 2628, doi. 10.1002/jbm.a.35398
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Nano/micro hybrid scaffold of PCL or P3HB nanofibers combined with silk fibroin for tendon and ligament tissue engineering.
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- Journal of Applied Biomaterials & Functional Materials, 2015, v. 13, n. 2, p. e156, doi. 10.5301/jabfm.5000216
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Optimization of silk yarn hierarchical structure by genetic algorithm to design scaffolds.
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- Indian Journal of Fibre & Textile Research, 2015, v. 40, n. 1, p. 81
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Evaluation of mechanical property and bioactivity of nano-bioglass 45S5 scaffold coated with poly-3-hydroxybutyrate.
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- Journal of Materials Science: Materials in Medicine, 2015, v. 26, n. 2, p. 1, doi. 10.1007/s10856-014-5369-z
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Comparison of acellular and cellular bioactivity of poly 3-hydroxybutyrate/hydroxyapatite nanocomposite and poly 3-hydroxybutyrate scaffolds.
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- Biotechnology & Bioprocess Engineering, 2013, v. 18, n. 3, p. 587, doi. 10.1007/s12257-012-0744-4
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The influence of bioglass nanoparticles on the biodegradation and biocompatibility of poly (3-hydroxybutyrate) scaffolds.
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- International Journal of Artificial Organs, 2012, v. 35, n. 11, p. 1015, doi. 10.5301/ijao.5000119
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Does the tissue engineering architecture of poly(3-hydroxybutyrate) scaffold affects cell-material interactions?
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- Journal of Biomedical Materials Research, Part A, 2012, v. 100A, n. 7, p. 1907, doi. 10.1002/jbm.a.34131
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Influence of calcinated and non calcinated nanobioglass particles on hardness and bioactivity of sol-gel-derived TiO-SiO nano composite coatings on stainless steel substrates.
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- Journal of Materials Science: Materials in Medicine, 2011, v. 22, n. 4, p. 829, doi. 10.1007/s10856-011-4270-2
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Experimental investigation of the governing parameters in the electrospinning of poly(3‐hydroxybutyrate) scaffolds: Structural characteristics of the pores.
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- Journal of Applied Polymer Science, 2010, v. 118, n. 5, p. 2682, doi. 10.1002/app.32620
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- Article
Effect of Transforming Growth Factor-ß3 and Bone Morphogenetic Protein-6 Growth Factors on Chondrogenic Differentiation of Adipose-Derived Stem Cells in Alginate Scaffold.
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- Journal of Isfahan Medical School, 2010, v. 28, n. 112, p. 620
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Scaffold percolative efficiency: in vitro evaluation of the structural criterion for electrospun mats.
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- Journal of Materials Science: Materials in Medicine, 2010, v. 21, n. 11, p. 2989, doi. 10.1007/s10856-010-4149-7
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Preparation of a novel biodegradable nanocomposite scaffold based on poly (3-hydroxybutyrate)/bioglass nanoparticles for bone tissue engineering.
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- Journal of Materials Science: Materials in Medicine, 2010, v. 21, n. 7, p. 2125, doi. 10.1007/s10856-010-4075-8
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The Effect of BMP-6 Growth Factor on Differentiation of Adipose-derived Stem Cells into Chondrocyte in Pellet Culture System.
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- Journal of Isfahan Medical School, 2009, v. 27, n. 100, p. 1
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Swelling behavior and cell viability of dehydrothermally crosslinked poly(vinyl alcohol) hydrogel grafted with N-vinyl pyrrolidone or acrylic acid using γ-radiation.
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- Journal of Applied Polymer Science, 2004, v. 91, n. 5, p. 2862
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