淀粉粘合剂对用于骨组织工程的生物玻璃片性能的影响

Starch Pub Date : 2024-04-27 DOI:10.1002/star.202300169
Maryam Sarmast Shoushtari, Aina Shafiqah Wan Mahmood, Dayang Radiah Awang Biak, Samaneh Alijantabar Aghouzi, David Hoey, Suryani Kamarudin, Norhafizah Abdullah, Halimatun Sakdiah Zainuddin
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引用次数: 0

摘要

本研究的重点是以纤维素纳米纤维(CNFs)为模板和淀粉粘合剂合成 SiO2-CaO-P2O5-Na2O 纳米纤维生物玻璃(BG)片剂并确定其特性。制备了三种片剂:西米淀粉粘合剂片剂、黄原胶粘合剂片剂和干压片剂(用作对照)。研究人员利用傅立叶变换红外(FTIR)、场发射扫描电子显微镜(FESEM)、XRD、ICP 等多种表征技术,对片剂的理化结构、机械性能、体内生物活性和抗菌效率进行了研究。结果表明,在模拟体液(SBF)中浸泡 28 天后,药片表面形成了羟基磷灰石(HA)层,证明了其生物活性。FESEM 分析显示形成了不同形态的 HA 晶体,包括西米片中的椭圆形晶体和黄原胶片中的针状晶体。与压干片剂相比,粘合剂片剂的 Ca/P 比值更高。在粘合剂片剂中,西米淀粉片剂显示出更优越的机械性能。此外,粘合剂片剂对金黄色葡萄球菌和大肠杆菌具有高效的抗菌活性。这些发现凸显了它们作为骨组织工程应用候选材料的潜力。
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Effect of Starch Binders on the Properties of Bioglass Tablets for Bone Tissue Engineering Applications
This study focuses on the synthesis and characterization of SiO2–CaO–P2O5–Na2O nanofiber bioglass (BG) tablets using cellulose nanofibers (CNFs) as a template and starch binders. Three types of tablets are prepared: sago starch binder tablets, xanthan gum binder tablets, and dry press tablets (used as a control). The tablets are investigated for their physicochemical structure, mechanical properties, in‐vivo bioactivity, and antibacterial efficiency using various characterization techniques such as Fourier transform infrared (FTIR), field emission scanning electron microscope (FESEM), XRD, ICP, etc. The results indicate the formation of a hydroxyapatite (HA) layer on the surface of the tablets after immersion in simulated body fluid (SBF) for 28 days, demonstrating their bioactivity. FESEM analysis reveals the formation of HA crystals with different morphologies, including oval‐shaped crystals in sago tablets and needle‐like crystals in xanthan tablets. The binder tablets exhibit higher Ca/P ratios compared to the press‐dried tablets. Among the binder tablets, sago starch tablets show superior mechanical properties. Additionally, the binder tablets display efficient antibacterial activity against Staphylococcus aureus and Escherichia coli bacteria. These findings highlight their potential as promising candidates for bone tissue engineering applications.
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