Fabrication of ciprofloxacin loaded alginate/cockle shell powder nanobiocomposite bone scaffold

Huai Li Wong, J. Santhanam, Shiow Fern Ng, B. H. Bharatham
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Abstract

Orthopedic implant infection is one of the most challenging issues in bone tissue engineering industry. Hence, local delivery of antibiotics incorporated into a fabricated bone scaffold possibly provides a more rapid bacteria inhibitory effect. In this study, pure ciprofloxacin loaded alginate/cockle shell powder nanobiocomposite bone scaffolds are fabricated with 5 wt% and 10 wt% ciprofloxacin respectively and tested for drug encapsulation, drug release and antibacterial properties towards common implant infecting bacterial strains (Staphylococcus aureus and Pseudomonas aeruginosa). Results from the studies showed a low drug encapsulation and drug release regardless of the concentration of drugs loaded with no significant differences noted (p<0.05). However, bacterial inhibition studies through direct contact and using eluted samples from drug release studies showed some inhibitory effects towards the growth of both bacterial strains tested. These findings were further justified with microscopy observations on biofilm and bacterial colony formation. Mineralization studies conducted additionally indicated that the scaffolds characteristics was not compromised due to drug loading. Although pure ciprofloxacin may not be the most suitable antibiotic to be incorporated into the nanobiocomposite bone scaffold, the study did provide some insight to the possible use of the scaffold for future drug delivery applications.
载藻酸盐/贝壳粉环丙沙星纳米生物复合骨支架的制备
骨科植入物感染是骨组织工程领域最具挑战性的问题之一。因此,局部递送掺入人造骨支架的抗生素可能提供更快速的细菌抑制效果。本研究分别以5%和10%的环丙沙星含量制备了纯环丙沙星负载藻酸盐/鸟壳粉纳米复合骨支架,并对常见种植体感染菌株(金黄色葡萄球菌和铜绿假单胞菌)进行了药物包封、药物释放和抗菌性能测试。研究结果表明,无论载药浓度如何,药物的包封度和释放度都很低,但差异无统计学意义(p<0.05)。然而,通过直接接触和使用药物释放研究中洗脱的样品进行的细菌抑制研究表明,对两种细菌菌株的生长都有一定的抑制作用。这些发现进一步证实了显微镜观察的生物膜和细菌菌落形成。另外进行的矿化研究表明,支架的特性不受药物负荷的影响。虽然纯环丙沙星可能不是纳米生物复合骨支架中最合适的抗生素,但该研究确实为该支架在未来药物输送应用中的可能用途提供了一些见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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