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首页> 外文期刊>Applied Surface Science >Development of multifunctional 3D printed bioscaffolds from polysaccharides and NiCu nanoparticles and their application
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Development of multifunctional 3D printed bioscaffolds from polysaccharides and NiCu nanoparticles and their application

机译:由多糖和NiCu纳米粒子开发多功能3D打印生物支架及其应用

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摘要

3D printed bioscaffolds from polysaccharide materials hold a huge promise in tissue engineering applications, especially in regard to in vitro culturing of pancreatic cells, which require cell-ECM mimicking interactions in all spatial dimensions to remain viable for longer times. Material features, surface characteristics and the physical nature of scaffolds at multiple scales (e.g., macro-porosity, micro-topography) should be tailored to mimic crucial aspects of native or pathologically transformed tissues. With this in mind, we prepared hybrid hydrogel formulations from commonly used materials (alginate, carboxymethyl cellulose, nanofibrillated cellulose) and optimized them for 3D printing. With the intention to fine-tune their printability, rheological, mechanical, swelling, degradation and surface properties, variable concentrations of NiCu nanoparticles were incorporated into the mentioned hydrogels. We showed that NiCu nanoparticles might provide an effective tool for controlling hydrogel viscosity and scaffold swelling, degradation and surface properties. All scaffolds also promoted cell adhering, cell aggregation, cell migration and support long-term growth of pancreatic cells, which also displayed a physiologically more relevant morphology. This study lays the groundwork for development of novel 3D printed bioscaffolds with tailorable properties with the purpose to recapitulate characteristics of native tissues more closely.
机译:由多糖材料制成的3D打印生物支架在组织工程应用中具有广阔的前景,特别是在胰腺细胞的体外培养方面,胰腺细胞需要在所有空间维度上模仿细胞ECM相互作用才能长期存活。支架的材料特征,表面特征和支架在多个尺度上的物理性质(例如,大孔隙度,微观形貌)应进行定制,以模仿天然或病理转化组织的关键方面。考虑到这一点,我们从常用材料(藻酸盐,羧甲基纤维素,纳米原纤化纤维素)制备了混合水凝胶制剂,并对其进行了优化以用于3D打印。为了微调其可印刷性,流变性,机械性能,溶胀性,降解性和表面性能,将不同浓度的NiCu纳米颗粒掺入上述水凝胶中。我们表明,NiCu纳米颗粒可能提供控制水凝胶粘度和支架膨胀,降解和表面性质的有效工具。所有支架还促进细胞粘附,细胞聚集,细胞迁移并支持胰腺细胞的长期生长,这也显示出生理上更相关的形态。这项研究为开发具有可定制属性的新型3D打印生物支架打下了基础,目的是更紧密地概括天然组织的特征。

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  • 来源
    《Applied Surface Science》 |2019年第15期|836-852|共17页
  • 作者

    Milojevic Marko; Gradisnik Lidija; Stergar Janja; Klemen Masa Skelin; Stozer Andraz; Vesenjak Matej; Dubrovski Polona Dobnik; Maver Tina; Mohan Tamilselvan; Kleinschek Karin Stana; Maver Uros;

  • 作者单位

    Univ Maribor, Fac Med, Inst Biomed Sci, Taborska Ulica 8, SI-2000 Maribor, Slovenia;

    Univ Maribor, Fac Med, Inst Biomed Sci, Taborska Ulica 8, SI-2000 Maribor, Slovenia;

    Univ Maribor, Fac Chem & Chem Engn, Lab Inorgan Chem, Smetanova 17, SI-2000 Maribor, Slovenia;

    Univ Maribor, Fac Med, Inst Physiol, Taborska Ulica 8, SI-2000 Maribor, Slovenia;

    Univ Maribor, Fac Med, Inst Physiol, Taborska Ulica 8, SI-2000 Maribor, Slovenia;

    Univ Maribor, Fac Mech Engn, Smetanova 17, SI-2000 Maribor, Slovenia;

    Univ Maribor, Fac Mech Engn, Smetanova 17, SI-2000 Maribor, Slovenia;

    Univ Maribor, Fac Med, Inst Biomed Sci, Taborska Ulica 8, SI-2000 Maribor, Slovenia|Univ Maribor, Fac Mech Engn, Lab Characterisat & Proc Polymers, Smetanova 17, SI-2000 Maribor, Slovenia;

    Univ Maribor, Fac Mech Engn, Lab Characterisat & Proc Polymers, Smetanova 17, SI-2000 Maribor, Slovenia;

    Univ Maribor, Fac Mech Engn, Lab Characterisat & Proc Polymers, Smetanova 17, SI-2000 Maribor, Slovenia|Graz Univ Technol, Stremayrgasse 9, AT-8010 Graz, Austria;

    Univ Maribor, Fac Med, Inst Biomed Sci, Taborska Ulica 8, SI-2000 Maribor, Slovenia|Univ Maribor, Fac Med, Dept Pharmacol, Taborska Ulica 8, SI-2000 Maribor, Slovenia;

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  • 正文语种 eng
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  • 关键词

    3D printing; Polysaccharide bioscaffolds; Carboxymethyl cellulose; Alginate; Pancreatic cells; NiCu nanoparticles;

    机译:3D打印;多糖生物支架;羧甲基纤维素;藻酸盐;胰腺细胞;NiCu纳米粒子;

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