Development of Photosensitive Hydrogel-based 3-dimensional Bioprinting Using Locally Extracted Pectin From Durian Rind Waste and Cellulose for Pharmaceutical Application

Malaysian Journal of Medicine and Health Sciences Pub Date : 2023-08-10 DOI:10.47836/mjmhs.19.s9.23

Nor Sorfia Alisha Mohd Kamal, Siti Fatimah Zaharah Mohd Fuzi, Mohd Ifwat Mohd Ghazali, Joe Dailin Daniel

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引用次数: 0

Abstract

Introduction: Hydrogels have gained prominence in a variety of fourth industrial revolution applications, including three-dimensional (3D) printing. However, there are limitations to 3D manufacturing, such as deformities in the final product. This is a significant obstacle to adopting this technology in the pharmaceutical industry, as printed products may have insufficient mechanical properties and a high brittleness, making further processing of these dosage forms problematic. The objective of this study is to produce a new 3D bioink from a mixture of locally produced pectin-based material from durian rind waste and cellulose-based material (pectin/cellulose hydrogel) and to partially characterize the bioink hydrogel. Methods: Four formulations of pectin/cellulose-based hydrogel (3:1, 3:2, 4:1, and 5:3 ratio of pectin/cellulose) from durian rind waste and carboxymethyl cellulose (CMC) powder, as well as cross-linking agents, were developed and evaluated using a rheometer to evaluate viscoelastic properties, FTIR Spectroscopy to identify compounds, and thermogravimetric analysis (TGA) to evaluate thermal stability. Results: All bioink formulations exhibit outstanding shear-thinning behavior suitable for 3D printing. The viscosity of edible ink increases as the pectin/cellulose concentration increases. The formulation of 3:1 pectin/cellulose has greater heat resistance than others (highest thermal stability with 21.69% of residual weight) and the lowest percentage of weight loss (76.18%). Conclusion: The study of a pectin/cellulose hydrogel mixture provides an attractive outcome for the creation of bioink due to the effective synthesis of 3D printing shapes that are both smooth and uniform.

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利用当地提取的榴莲果胶和药用纤维素进行光敏水凝胶生物三维打印的研究

水凝胶在第四次工业革命的各种应用中获得了突出的地位，包括三维(3D)打印。然而，3D制造存在局限性，例如最终产品的变形。这是在制药工业中采用该技术的一个重大障碍，因为印刷产品可能具有不足的机械性能和高脆性，使这些剂型的进一步加工成为问题。本研究的目的是利用当地生产的榴莲皮废料中的果胶基材料和纤维素基材料(果胶/纤维素水凝胶)的混合物生产一种新的3D生物墨水，并对这种生物墨水水凝胶进行部分表征。方法:以榴莲果皮废弃物和羧甲基纤维素(CMC)粉末为原料，制备了果胶/纤维素基水凝胶(果胶/纤维素比例分别为3:1、3:2、4:1和5:3)和交联剂，并采用流变仪评价其粘弹性，FTIR光谱鉴定其化合物，热重分析(TGA)评价其热稳定性。结果:所有生物墨水配方均表现出适合3D打印的剪切减薄性能。可食用油墨的粘度随着果胶/纤维素浓度的增加而增加。果胶/纤维素比例为3:1的配方具有较好的耐热性(热稳定性最高，占残重的21.69%)和最低的失重率(76.18%)。结论:果胶/纤维素水凝胶混合物的研究为生物墨水的创造提供了一个有吸引力的结果，因为它有效地合成了光滑均匀的3D打印形状。

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来源期刊

Malaysian Journal of Medicine and Health Sciences Medicine-Medicine (all)

CiteScore

0.50

自引率

0.00%

发文量

期刊介绍： The Malaysian Journal of Medicine and Health Sciences (MJMHS) is published by the Faculty of Medicine and Health Sciences, Universiti Putra Malaysia. The main aim of the MJMHS is to be a premier journal on all aspects of medicine and health sciences in Malaysia and internationally. The focus of the MJMHS will be on results of original scientific research and development, emerging issues and policy analyses pertaining to medical, biomedical and clinical sciences.