Chitosan scaffolds for cartilage regeneration: influence of different ionic crosslinkers on biomaterial properties

Izzo Daniela; Palazzo Barbara; Scalera Francesca; Gullotta Fabiana; lapesa Velia; Scialla Stefania; Sannino Alessandro; Gervaso Francesca

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Chitosan scaffolds for cartilage regeneration: influence of different ionic crosslinkers on biomaterial properties

机译：用于软骨再生的壳聚糖支架：不同离子交联剂对生物材料性质的影响

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Chitosan is considered an elective scaffolding material in articular cartilage engineering due to its structural similarity with various Glycosamminogicans found in articular cartilage. Its poor mechanical properties, though, must be enhanced through a crosslinking treatment. Arginine (Arg) and tripolyphosphate (TPP), have been chosen as crosslinking agents, and their influence onto the chemico-physical properties (morphology, mechanical performances and stability behavior) of the resulting chitosan scaffold have been elucidated. The methodological conditions to produce a scaffold for the cartilage regeneration with tunable structural and chemical physical properties have been assessed. Furthermore, this study introduces Arginine as an innovative stabilizing agent.

机译：壳聚糖被认为是关节软骨工程中的选修脚手架材料，因为它与关节软骨中发现的各种糖磷酸酯的结构相似性。但是，必须通过交联处理来提高其机械性能差。已经选择了精氨酸（Arg）和三聚磷酸盐（TPP）作为交联剂，并且它们对所得壳聚糖支架的化学物理性质（形态，机械性能和稳定性行为）已经阐明。已经评估了用于制备具有可调谐结构和化学物理性质的软骨再生支架的方法的条件。此外，本研究将精氨酸作为一种创新的稳定剂介绍。

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来源
《International Journal of Polymeric Materials》 |2019年第18期|共10页
作者
Izzo Daniela; Palazzo Barbara; Scalera Francesca; Gullotta Fabiana; lapesa Velia; Scialla Stefania; Sannino Alessandro; Gervaso Francesca;
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作者单位

Dhitech Scarl Lecce Italy;

Univ Salento Dept Engn Innovat Campus Ecotekne Via Monteroni I-73100 Lecce Italy;

Univ Salento Dept Engn Innovat Campus Ecotekne Via Monteroni I-73100 Lecce Italy;

Univ Hosp Basel Dept Biomed Basel Switzerland;

IRCCS San Raffaele Sci Inst Inst Expt Neurol Div Neurosci Neuropathol Unit Milan Italy;

Univ Salento Dept Engn Innovat Campus Ecotekne Via Monteroni I-73100 Lecce Italy;

Univ Salento Dept Engn Innovat Campus Ecotekne Via Monteroni I-73100 Lecce Italy;

Univ Salento Dept Engn Innovat Campus Ecotekne Via Monteroni I-73100 Lecce Italy;

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原文格式 PDF
正文语种 eng
中图分类高分子化合物产品;
关键词
Chitosan; tripolyphosphate; arginine; cartilage; tissue engineering;

机译：壳聚糖;三聚磷酸盐;精氨酸;软骨;组织工程;

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专利

1. Chitosan scaffolds for cartilage regeneration: influence of different ionic crosslinkers on biomaterial properties [J] . Izzo Daniela, Palazzo Barbara, Scalera Francesca, International Journal of Polymeric Materials . 2019,第15a18期

机译：用于软骨再生的壳聚糖支架：不同离子交联剂对生物材料性质的影响
2. Glutaraldehyde and oxidised dextran as crosslinker reagents for chitosan-based scaffolds for cartilage tissue engineering [J] . B. Hoffmann, D. Seitz, A. Mencke, Journal of materials science . 2009,第7期

机译：戊二醛和氧化葡聚糖作为用于软骨组织工程的壳聚糖基支架的交联剂
3. Enhanced function of chondrocytes in a chitosan-based hydrogel to regenerate cartilage tissues by accelerating degradability of the hydrogel via a hydrolysable crosslinker [J] . Ishikawa Shohei, Iijima Kazutoshi, Matsukuma Daisuke, Journal of Applied Polymer Science . 2020,第19a20期

机译：通过通过可水解的交联剂加速水凝胶的可降解性，增强了软骨胶质细胞在壳聚糖的水凝胶中以再生软骨组织
4. The influence of phosphorylation and freezing temperature on the mechanical properties of hydroxyapatite/chitosan composite as bone scaffold biomaterial [C] . Muh Fadhil Albab, Nicholas Giovani, Akhmad Herman Yuwono, International Symposium of Biomedical Engineering . 2018

机译：磷酸化和冷冻温度对羟基磷灰石/壳聚糖复合材料机械性能的影响，如骨支架生物材料
5. Engineered cartilage on chitosan calcium phosphate scaffolds for osteochondral defects. [D] . Gottipati, Anuhya. 2016

机译：壳聚糖磷酸钙支架上的工程软骨用于软骨软骨缺损。
6. Silk Fibroin/Collagen/Chitosan Scaffolds Cross-Linked by a Glyoxal Solution as Biomaterials toward Bone Tissue Regeneration [O] . Sylwia Grabska-Zielińska, Alina Sionkowska, Catarina C. Coelho, 2020

机译：丝素蛋白/胶原蛋白/壳聚糖脚手架通过乙二醛溶液交联作为生物材料朝向骨组织再生
7. Chitosan-Based Hyaluronic Acid Hybrid Polymer Fibers as a Scaffold Biomaterial for Cartilage Tissue Engineering [O] . Shintarou Yamane, Tatsuya Igarashi, Akio Minami, 2010

机译：基于壳聚糖的透明质酸杂化聚合物纤维作为软骨组织工程的支架生物材料

Chitosan scaffolds for cartilage regeneration: influence of different ionic crosslinkers on biomaterial properties

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