用于潜在角膜结构的聚赖氨酸/结冷胶水凝胶的3D反应喷墨打印

IF 8.1 1区 工程技术 Q1 MATERIALS SCIENCE, BIOMATERIALS
Georgia L. Duffy , He Liang , Rachel L. Williams , Don A. Wellings , Kate Black
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引用次数: 17

摘要

角膜混浊是导致失明的第四大原因,目前唯一的治疗方法是用供体角膜替代受损组织。世界范围内供体眼库组织的短缺影响了部分和全层角膜植入生物材料基质的研究。在这里,基于天然多肽、聚赖氨酸和结冷胶的聚合物水凝胶可以用活性喷墨打印(RIJ)制造出来。印刷用油墨根据其流变性能进行了优化。印刷交替的油墨层形成了一种独特的表面图案,这是基于在具有相反电荷的聚合物之间立即形成离子键。这种表面图案类似于一个重复的蜂窝状结构,通过光学和扫描电子显微镜都可以看到。打印的水凝胶的结构可以被修改为包括毛孔,这是全层角膜结构的组织工程感兴趣的一个特征。打印的聚赖氨酸/结冷胶水凝胶的透明度为80%,与角膜上皮细胞和内皮细胞均具有细胞相容性。两种类型的角膜细胞都在打印的水凝胶阵列表面显示出细胞附着,显示出它们典型的细胞形态。这为这些水凝胶在体外的细胞相容性提供了信心。反应性喷墨打印可以产生高分辨率的3D结构,产生微米范围内的打印轨迹。此外,RIJ展示了多功能性,因为结构可以定制以满足各种尺寸和厚度要求。此外,这项工作首次证明了反应性喷墨打印可以用于生产基于这两种墨水的水凝胶结构,目的是生产用于角膜组织工程的结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

3D reactive inkjet printing of poly-ɛ-lysine/gellan gum hydrogels for potential corneal constructs

3D reactive inkjet printing of poly-ɛ-lysine/gellan gum hydrogels for potential corneal constructs

Corneal opacities are the 4th leading cause of blindness, and the only current treatment method is the replacement of damaged tissue with a donor cornea. The worldwide shortage of donor eye bank tissue has influenced research into biomaterial substrates for both partial and full thickness corneal implantation. Here, polymer hydrogels based on natural peptides, poly-ɛ-lysine and gellan gum, can be manufactured using reactive inkjet printing (RIJ). The inks used for printing were optimised based on their rheological properties. Printing alternating layers of ink forms a unique surface pattern, based on the immediate formation of ionic bonds between polymers of opposing charges. This surface pattern resembles a repeating honeycomb-like structure, visible by both optical and scanning electron microscopy. The structure of the printed hydrogels can be modified to include pores, a feature of interest for the tissue engineering of full thickness corneal constructs. Printed poly-ɛ-lysine/gellan gum hydrogels demonstrated a transparency of 80% and cyto-compatibility with both corneal epithelial and endothelial cells. Both corneal cell types demonstrated cell attachment across the surface of the printed hydrogel arrays, displaying their typical cell morphology. This gives confidence of the cyto-compatibility of these hydrogels in vitro. Reactive inkjet printing can produce 3D structures with a high resolution, producing printed tracks in the micron range. Additionally, RIJ demonstrates versatility, as constructs can be tailored to meet various dimension and thickness requirements. Furthermore, this work demonstrates for the first time that reactive inkjet printing can been used to produce hydrogel constructs based on these two inks, with the aim of producing constructs for corneal tissue engineering.

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来源期刊
CiteScore
12.60
自引率
0.00%
发文量
28
审稿时长
3.3 months
期刊介绍: Materials Today is a community committed to fostering the creation and sharing of knowledge and experience in materials science. With the support of Elsevier, this community publishes high-impact peer-reviewed journals, organizes academic conferences, and conducts educational webinars, among other initiatives. It serves as a hub for advancing materials science and facilitating collaboration within the scientific community.
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