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Mesoporous bioactive glasses: Relevance of their porous structure compared to that of classical bioglasses 介孔生物活性玻璃:它们的多孔结构与经典生物玻璃的相关性
Q1 Materials Science Pub Date : 2015-11-03 DOI: 10.1515/bglass-2015-0014
I. Izquierdo-Barba, M. Vallet‐Regí
Abstract In the last decade, the development of third generation bioceramics for Bone Tissue Regeneration has experienced significant progress with the emergence of a new generation of nanostructured materials named mesoporous bioactive glasses (MBG). This new generation of materials, also known as “templated glasses”, presents chemical compositions similar to those of conventional bioactive sol–gel glasses and the added value of an ordered mesopore arrangement. This article shows an indepth comparative study of the ordered porous structures of MBGs compared to conventional glasses (melt and solgel) andhowthese properties influence the bioactivity process. Moreover, the possibility to tailor the textural and structural properties of these nanostructured materials by an exhaustive control of the different synthesis parameters is also discussed. A brief overview regarding the possibility of using these materials as controlled drug delivery systems and as starting materials for the fabrication of 3D scaffolds for bone tissue regeneration is also given.
摘要在过去的十年中,随着新一代纳米结构材料介孔生物活性玻璃(MBG)的出现,第三代骨组织再生生物陶瓷的发展取得了重大进展。这种新一代材料,也被称为“模板玻璃”,呈现出与传统生物活性溶胶-凝胶玻璃相似的化学成分,以及有序介孔排列的附加价值。本文对MBGs与传统玻璃(熔融玻璃和溶胶玻璃)的有序多孔结构进行了深入的比较研究,并分析了这些特性对生物活性过程的影响。此外,还讨论了通过彻底控制不同的合成参数来定制这些纳米结构材料的纹理和结构特性的可能性。简要概述了使用这些材料作为受控药物输送系统和作为制造用于骨组织再生的3D支架的起始材料的可能性。
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引用次数: 78
Novel antibacterial bioactive glass nanocomposite functionalized with tetracycline hydrochloride 新型四环素功能化抗菌生物活性玻璃纳米复合材料
Q1 Materials Science Pub Date : 2015-10-21 DOI: 10.1515/bglass-2015-0012
J. Rivadeneira, Gisela M. Luz, M. Audisio, João F. Mano, Alejandro A. Gorustovich
Abstract To prevent the high frequency of wound infections, anti-bacterial agents can be loaded onto composites. In the present study, the antibiotic tetracycline hydrochloride (TC)was incorporated, for the first time, in collagen type I membranes coated with nano-sized SiO2-CaOP2O5 bioactive glass (n-BG) obtained by a sol-gel chemical route. Collagen membranes coated with n-BG were immersed in simulated body fluid (SBF) containing 0.25, 0.75 or 1.25 mg mL−1 of TC for 48 h at 37∘C following a coprecipitation method. The antibiotic was released in distilledwater at 37∘C for up to 72 h. The antibacterial activity of the composites was evaluated in vitro by the inhibition zone test and plate count method. Two different Staphylococcus aureus strains, S. aureus ATCC29213 and S. aureus ATCC25923, were exposed to the biomaterials. The results showed that the incorporation but not the release of TC was dependent on the initial concentration of TC in SBF. The biomaterials inhibited S. aureus growth, although the efficacy was similar for all the concentrations. The results allow us to conclude that the new composite could have potential in the prevention of wound infections.
摘要为了防止伤口感染的高发,可以在复合材料上添加抗菌药物。本研究首次将抗生素盐酸四环素(tetracycline hydrochloride, TC)掺入通过溶胶-凝胶化学途径获得的纳米SiO2-CaOP2O5生物活性玻璃(n-BG)包被的I型胶原膜中。在37°C下,用共沉淀法将涂有n-BG的胶原膜浸入含有0.25、0.75或1.25 mg mL - 1 TC的模拟体液(SBF)中48小时。抗生素在37°C的蒸馏水中释放72小时。复合材料的抗菌活性在体外通过抑菌带试验和平板计数法进行评价。两种不同的金黄色葡萄球菌菌株,金黄色葡萄球菌ATCC29213和金黄色葡萄球菌ATCC25923暴露于生物材料。结果表明,TC的掺入与SBF中TC的初始浓度有关,而与TC的释放无关。生物材料抑制金黄色葡萄球菌生长,尽管所有浓度的效果相似。结果使我们得出结论,这种新的复合材料在预防伤口感染方面具有潜力。
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引用次数: 9
Enhanced apatite precipitation on a biopolymer-coated bioactive glass 生物聚合物涂层生物活性玻璃上磷灰石的增强沉淀
Q1 Materials Science Pub Date : 2015-10-20 DOI: 10.1515/bglass-2015-0011
M. Araújo, M. Miola, A. Venturello, G. Baldi, J. Pérez, E. Verné
Abstract In this work, sintered pellets of a silica-based bioactive glass were dip-coated with a biocompatible natural-derived polymer in order to investigate the influence of the organic coating on the glass bioactivity. After the sintering process optimization, uncoated and coated pellets have been characterized by means of scanning electron microscopy with energy dispersive spectroscopy (SEM, EDS), X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT-IR) and pH measurements, after the immersion in a simulated body fluid (SBF). An increased apatite forming ability and a better control of the pH during soaking of the samples in SBF were observed in the presence of the biopolymer. This result opens a new insight on the simple fabrication of highly bioactive hybrid inorganic-organic materials for medical applications.
摘要本研究采用生物相容性天然聚合物浸渍法制备硅基生物活性玻璃颗粒,研究有机涂层对玻璃生物活性的影响。烧结工艺优化后,在模拟体液(SBF)中浸泡后,通过扫描电镜、能谱分析(SEM, EDS)、x射线衍射(XRD)、傅里叶变换红外光谱(FT-IR)和pH测量对未包覆和包覆微球进行了表征。在生物聚合物存在的情况下,样品在SBF中浸泡时磷灰石形成能力增强,pH控制更好。这一结果为简单制造用于医疗应用的高生物活性无机-有机杂化材料提供了新的见解。
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引用次数: 3
Novel Highly Degradable Chloride Containing Bioactive Glasses 新型高降解含氯生物活性玻璃
Q1 Materials Science Pub Date : 2015-09-15 DOI: 10.1515/bglass-2015-0010
Xiaojing Chen, N. Karpukhina, D. Brauer, R. Hill
Abstract Addition of CaF2 to a silicate bioactive glass favours formation of fluorapatite, which is less soluble in acidic environment than hydroxyapatite. However, excess CaF2 in the glass is problematic, owing to the formation of crystalline calcium fluoride rather than fluorapatite on immersion. In this paper we investigate chloride as an alternative to fluoride in bioactive silicate glasses and in particular their bioactivity for the first time. Meltderived bioactive glasses based on SiO2-P2O5-CaO-CaCl2 with varying CaCl2 contents were synthesised and characterised by DSC. Chemical analysis of the chloride content was performed by using an ion selective electrode. Glass density was determined using Helium Pycnometry. The glass bioactivity was investigated in Tris buffer. Ion release measurements were carried out by using ICP-OES. The chemical analysis results indicated that the majority of the chloride is retained in the Q2 type silicate glasses during synthesis. Tg and glass density reduced with increasing CaCl2 content. Apatite-like phase formation was confirmed by FITR, XRD and 31P MAS-NMR. The results of the in vitro studies demonstrated that the chloride containing bioactive glasses are highly degradable and form apatite-like phase within three hours in Tris buffer and, therefore, are certainly suitable for use in remineralising toothpastes. The dissolution rate of the glass was found to increase with CaCl2 content. Faster dissolving bioactive glasses may be attractive for more resorbable bone grafts and scaffolds.
在硅酸盐生物活性玻璃中加入CaF2有利于氟磷灰石的形成,氟磷灰石在酸性环境中比羟基磷灰石更难溶解。然而,过量的CaF2在玻璃中是有问题的,因为在浸泡时形成结晶氟化钙而不是氟磷灰石。本文首次研究了氯化物作为生物活性硅酸盐玻璃中氟化物的替代品,特别是其生物活性。合成了不同CaCl2含量的SiO2-P2O5-CaO-CaCl2熔融衍生生物活性玻璃,并用DSC对其进行了表征。采用离子选择电极对氯化物含量进行了化学分析。玻璃密度用氦密度测定法测定。在Tris缓冲液中研究了玻璃的生物活性。离子释放量采用ICP-OES测定。化学分析结果表明,在Q2型硅酸盐玻璃的合成过程中,大部分氯化物被保留在玻璃中。Tg和玻璃密度随CaCl2含量的增加而降低。通过FITR、XRD和31P MAS-NMR证实了类磷灰石相的形成。体外研究结果表明,含氯生物活性玻璃具有高度可降解性,在Tris缓冲液中3小时内形成磷灰石样相,因此,肯定适合用于再矿化牙膏。玻璃的溶解速率随CaCl2含量的增加而增加。更快溶解的生物活性玻璃可能对更可吸收的骨移植物和支架有吸引力。
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引用次数: 16
Influence of zinc and magnesium substitution on ion release from Bioglass 45S5 at physiological and acidic pH 生理和酸性pH下锌和镁取代对45S5生物玻璃离子释放的影响
Q1 Materials Science Pub Date : 2015-09-14 DOI: 10.1515/bglass-2015-0009
M. Blochberger, L. Hupa, D. Brauer
Abstract Ion release of Mg- and Zn-substituted Bioglass 45S5 (46.1 SiO2-2.6 P2O5-26.9 CaO-24.3Na2O; mol%; with 0, 25, 50, 75 or 100% of calcium replaced bymagnesium/zinc) was investigated at pH 7.4 (Tris buffer) and pH 4 (acetic acid/sodium acetate buffer) in static and dynamic dissolution experiments. Despite Mg2+ and Zn2+ having the same charge and comparable ionic radii, they influenced the dissolution behaviour in very different ways. In Tris, Mgsubstituted glasses showed similar ion release as 45S5, while Zn-substituted glasses showed negligible ion release. At low pH, however, release behaviour was similar, with all glasses releasing large percentages of ions within a few minutes. Precipitation of crystalline phases also varied, as Mg- and Zn-substitution inhibited apatite formation, and Zn-substitution resulted in formation of zinc phosphate phases at low pH. These results are relevant for glasses used in aluminium-free glass ionomer bone cements, as they show that Zn/Mg-substituted glasses release ions similarly fast as glasses containing no Zn/Mg, suggesting that these ions are no prerequisite for ionomer glasses. Zn-substituted glasses may potentially be used as controlled-release materials, which release antibacterial zinc ions when needed only, i.e. at low pH conditions (e.g. bacterial infection), but not at normal physiological pH conditions.
镁和锌取代生物玻璃45S5 (46.1 SiO2-2.6 P2O5-26.9 CaO-24.3Na2O)的离子释放摩尔%;分别在pH 7.4 (Tris缓冲液)和pH 4(醋酸/醋酸钠缓冲液)条件下进行静态和动态溶解实验,分别为0、25、50、75%和100%钙(镁/锌)。尽管Mg2+和Zn2+具有相同的电荷和相似的离子半径,但它们以非常不同的方式影响溶解行为。在Tris中,mg取代玻璃的离子释放与45S5相似,而zn取代玻璃的离子释放可以忽略不计。然而,在低pH下,释放行为是相似的,所有的玻璃在几分钟内释放出大量的离子。结晶相的析出也有所不同,因为Mg-和Zn-取代抑制了磷灰石的形成,而Zn-取代导致在低ph下形成磷酸锌相。这些结果与用于无铝玻璃离聚体骨水泥的玻璃有关,因为它们表明,Zn/Mg取代的玻璃释放离子的速度与不含Zn/Mg的玻璃相似,这表明这些离子不是离子玻璃的先决条件。锌取代玻璃可能潜在地用作控释材料,仅在需要时才释放抗菌锌离子,即在低pH条件下(例如细菌感染),而不是在正常的生理pH条件下。
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引用次数: 32
Preparation and Characterization of Low Temperature Heat-Treated 45S5 Bioactive Glass-Ceramic Analogues 低温热处理45S5生物活性玻璃陶瓷类似物的制备与表征
Q1 Materials Science Pub Date : 2015-09-07 DOI: 10.1515/bglass-2015-0008
K. Xie, Lei Zhang, Xianyan Yang, Xiao-qiang Wang, Guojing Yang, Licheng Zhang, H. Shao, Yong He, Jianzhong Fu, Z. Gou
Abstract The 45S5 Bioglassr and its sintered bioactive glass-ceramic (BGC) have been widely investigated as bone implants, mainly for its ability to bond to hard tissues. However, high temperature treatment is not enough to improve its poor mechanical properties, but compromise its biologically relevant performances. The innovative BGC compositions based on the thermally treated 45S5 Bioglassr were developed by decreasing the P2O5 quantity and adding B2O3 (0-6%) into the Na2O–2CaO–3SiO2- based bioactive glasses (BG). The thermally treated BGCs were fully characterized from the microstructural and mechanical points of view and compared to each other. Their bioactivity and bio-dissolutionwere established by means of in vitro soaking tests. The new B2O3-added 45S5 BG analogues, named NCS-xB, can be transformed to crystalline phase (Na2Ca2Si3O9)-based BGCs of high compactness and bioactivity at a relatively low temperature heat treatment (≤ 900ºC), since their bioactivity is preserved. Our experimental results suggest that the new 45S5 BGC analogues with optimized composition exhibit improved micro- structural and mechanical properties, and are beneficial for making specific products such as porous scaffolds or composites for bone defect repair.
45S5生物玻璃及其烧结生物活性玻璃陶瓷(BGC)作为骨植入物被广泛研究,主要是由于其与硬组织的结合能力。然而,高温处理不仅不能改善其较差的力学性能,还会损害其生物学相关性能。通过减少P2O5的用量,在Na2O-2CaO-3SiO2基生物活性玻璃(BG)中加入B2O3(0-6%),开发了基于热处理45S5生物玻璃的新型生物活性玻璃(BGC)。从显微组织和力学角度对热处理后的BGCs进行了全面表征,并进行了比较。采用体外浸渍法测定其生物活性和生物溶出度。新的添加b2o3的45S5 BG类似物,命名为NCS-xB,可以在相对较低的温度热处理(≤900℃)下转化为具有高致密性和生物活性的晶体相(Na2Ca2Si3O9)基bgc,因为它们的生物活性得到了保留。实验结果表明,优化后的45S5 BGC类似物具有较好的微观结构和力学性能,有利于制备多孔骨缺损修复材料或复合材料。
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引用次数: 24
"Imageable" Zinc-Silicate Glass Microspheres For Transarterial Embolization: A Renal Artery Embolization Study. “可成像”的锌硅酸盐玻璃微球经动脉栓塞:肾动脉栓塞研究。
Q1 Materials Science Pub Date : 2015-08-26 DOI: 10.1515/bglass-2015-0007
S. Kehoe, Salma Amensag, M. Looney, R. Abraham, D. Boyd
Abstract Intrinsically radiopaque (imageable) microspheres for transarterial embolization (TAE) are required to enable real-time intraprocedural feedback and definition of spatial distribution patterns of embolic materials in target tissues. This pilot study evaluates acute and sub-chronic safety and efficacy of imageable zinc-silicate (Zn-Si) glass microspheres in a swine renal artery embolization (RAE) model. Eight swine were divided into two cohorts. Clinical determinants of embolization effectiveness, including imageability, deliverability and temporal/ spatial distribution of microspheres in target tissues were assessed. Subsequently, cohort I and II were used to evaluate the acute and subchronic host response against the Zn-Si microspheres versus a clinical control. The developed microspheres provide for direct intraprocedural feedback using standard diagnostic imaging techniques. Fluoroscopy correlated with ex-vivo high-resolution radiography, CT and micro-CT, demonstrating high imageability, excellent spatial distribution and packing of the Zn- Si microspheres. At follow-up, infarction of the embolized kidneys was noted without any major adverse tissue reaction. Mild recanalization was observed microscopically for both experimental and control microspheres. Zn-Si microspheres permit the definition of spatial distribution in a target tissue, consequently permitting the optimization, personalization and improvement of TAE techniques.
经动脉栓塞(TAE)需要本质不透射线(可成像)的微球,以实现实时术中反馈和靶组织中栓塞材料空间分布模式的定义。本初步研究评估了可成像硅酸锌(Zn-Si)玻璃微球在猪肾动脉栓塞(RAE)模型中的急性和亚慢性安全性和有效性。八头猪被分成两组。评估栓塞效果的临床决定因素,包括靶组织中微球的可成像性、可输送性和时间/空间分布。随后,队列I和II被用来评估急性和亚慢性宿主对锌硅微球的反应与临床对照。开发的微球使用标准诊断成像技术提供直接的术中反馈。透视检查与离体高分辨率x线摄影、CT和微CT相关联,显示出Zn- Si微球的高可成像性、良好的空间分布和填充性。在随访中,栓塞肾脏的梗死被注意到没有任何主要的不良组织反应。实验微球和对照微球在显微镜下均观察到轻微的再通化。锌硅微球允许在目标组织中定义空间分布,从而允许TAE技术的优化,个性化和改进。
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引用次数: 5
Zinc-containing bioactive glasses for bone regeneration, dental and orthopedic applications 含锌生物活性眼镜用于骨再生,牙科和骨科应用
Q1 Materials Science Pub Date : 2015-07-29 DOI: 10.1515/bglass-2015-0006
P. Balasubramanian, L. Strobel, U. Kneser, A. Boccaccini
Abstract Zinc is a vital and beneficial trace element found in the human body. Though found in small proportions, zinc performs a variety of functions in relation to the immune system, cell division, fertility and the body growth and maintenance. In particular, zinc is proven to be a necessary element for the formation, mineralization, development and maintenance of healthy bones. Considering this attractive attributes of zinc, recent research has widely focused on using zinc along with silicate-based bioactive glasses for bone tissue engineering applications. This paper reviews relevant literature discussing the significance of zinc in the human body, along with its ability to enhance antibacterial effects, bioactivity and distinct physical, structural and mechanical properties of bioactive glasses. In this context, even if the present analysis is not meant to be exhaustive and only representative studies are discussed, literature results confirm that it is essential to understand the properties of zinc-containing bioactive glasses with respect to their in vitro biological behavior, possible cytotoxic effects and degradation characteristics to be able to effectively apply these glasses in bone regeneration strategies. Topics attracting increasing research efforts in this field are elaborated in detail in this review, including a summary of the structural, physical, biological and mechanical properties of zinc-containing bioactive glasses. This paper also presents an overview of the various applications in which zinc-containing bioactive glasses are considered for use as bone tissue scaffolds, bone filling granules, bioactive coatings and bone cements, and advances and remaining challenges are highlighted.
锌是人体中一种重要而有益的微量元素。虽然锌的含量很少,但它在免疫系统、细胞分裂、生育能力和身体生长和维持方面发挥着多种功能。特别是,锌被证明是形成、矿化、发育和维护健康骨骼的必要元素。考虑到锌的这些吸引人的特性,最近的研究广泛关注于将锌与硅酸盐基生物活性玻璃一起用于骨组织工程。本文综述了相关文献,讨论了锌在人体中的重要性,以及锌在增强抗菌作用、生物活性和生物活性玻璃中独特的物理、结构和力学性能方面的作用。在这种情况下,即使目前的分析并不详尽,只讨论了具有代表性的研究,文献结果证实,了解含锌生物活性玻璃的性质及其体外生物学行为、可能的细胞毒性作用和降解特征是至关重要的,以便能够有效地将这些玻璃应用于骨再生策略。本文就含锌生物活性玻璃的结构、物理、生物和力学性能等方面的研究进展进行了综述。本文还概述了含锌生物活性玻璃在骨组织支架、骨填充颗粒、生物活性涂层和骨水泥等方面的各种应用,并重点介绍了含锌生物活性玻璃的研究进展和面临的挑战。
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引用次数: 65
Bioactivity of toothpaste containing bioactive glass in remineralizing media: effect of fluoride release from the enzymatic cleavage of monofluorophosphate. 含生物活性玻璃牙膏在再矿化介质中的生物活性:单氟磷酸盐酶解释放氟的影响。
Q1 Materials Science Pub Date : 2015-07-21 DOI: 10.1515/bglass-2015-0005
Anthony L. B. Maçon, Esther Valliant, J. Earl, Julian R. Jones
Abstract Objectives. The aim was to introduce a new methodology to characterize toothpaste containing bioactive glass and to evaluate the effect of release of fluoride ions, by cleaving monofluorophosphate (MFP), on the mineral forming ability of Sensodyne Repair & Protect (SRP). which contains NovaMinTM (bioactive glass, 45S5 composition). Methods. SRP, NovaMin particles, and placebo paste (PLA) which did not contain NovaMin, were immersed into a remineralization media (RS), which mimics the ionic strength of human saliva, for 3 days with different concentrations of alkaline phosphatase (ALP): 0, 25 and 75 U.L−1. Ion concentration profiles and pH were monitored by ICPOES and F− ion selective electrode. Remaining solids were collected by freeze-drying and their surfaces analysed. Results. Hydroxyapatite (HA) formed on the surface of BG alone (after 1 h) and in toothpaste (after 2 h), whereas PLA did not induce any precipitation. ALP cleaved MFP at different rates depending on the enzyme concentration. Increasing the concentration of ALP from 0 and 75 U.L−1 reduced the time of HA formation from 2 h to 24 h. However, the presence of fluoride induced the precipitation of fluorapatite. No evidence of fluorite (CaF2) was observed. The apatite formation ability of toothpaste can be assessed using the presented method.
抽象的目标。目的是介绍一种新的方法来表征含有生物活性玻璃的牙膏,并评估通过切割单氟磷酸盐(MFP)释放氟离子对Sensodyne修复与保护(SRP)矿物形成能力的影响。其中含有NovaMinTM(生物活性玻璃,45S5成分)。方法。将SRP、NovaMin颗粒和不含NovaMin的安慰剂膏体(PLA)浸入模拟人唾液离子强度的再矿化培养基(RS)中3天,碱性磷酸酶(ALP)浓度分别为0、25和75 U.L−1。用ICPOES和F -离子选择电极监测离子浓度分布和pH值。通过冷冻干燥收集剩余固体,并对其表面进行分析。结果。羟基磷灰石(HA)在单独BG表面(1h后)和牙膏中(2h后)形成,而PLA没有诱导任何沉淀。ALP对MFP的裂解速率取决于酶的浓度。当ALP浓度从0到75 μ l−1增加时,HA的形成时间从2 h缩短到24 h。然而,氟的存在诱导了氟磷灰石的沉淀。没有观察到萤石(CaF2)的证据。用该方法可以评价牙膏的磷灰石形成能力。
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引用次数: 7
Core/Clad Phosphate Glass Fibres Containing Iron and/or Titanium 含铁和/或钛的芯/包层磷酸盐玻璃纤维
Q1 Materials Science Pub Date : 2015-07-20 DOI: 10.1515/bglass-2015-0004
I. Ahmed, S. Shaharuddin, N. Sharmin, D. Furniss, C. Rudd
Abstract Phosphate glasses are novel amorphous biomaterials due to their fully resorbable characteristics, with controllable degradation profiles. In this study, phosphate glasses containing titanium and/or iron were identified to exhibit sufficiently matched thermal properties (glass transition temperature, thermal expansion coefficient and viscosity) which enabled successful co-extrusion of glass billets to form a core/clad preform. The cladding composition for the core/clad preforms were also reversed. Fe clad and Ti clad fibres were successfully drawn with an average diameter of between 30~50 μm. The average cladding annular thickness was estimated to be less than 2 μm. Annealed core/clad fibres were degraded in PBS for a period of 27 days. The strength of the Fe clad fibres appeared to increase from 303 ± 73 MPa to 386 ± 45 MPa after nearly 2 weeks in the dissolution medium (phosphate buffered solution) before decreasing by day 27. The strength of the Ti clad fibres revealed an increase from 236 ± 53 MPa to 295 ± 61 MPa when compared at week 3. The tensile modulus measured for both core/clad fibres ranged between 51 GPa to 60 GPa. During the dissolution study, Fe clad fibres showed a peeling mechanism compared to the Ti clad fibres.
磷酸盐玻璃是一种新型的无定形生物材料,具有完全可吸收的特性,具有可控的降解特征。在这项研究中,含有钛和/或铁的磷酸盐玻璃被确定为具有足够匹配的热性能(玻璃化转变温度、热膨胀系数和粘度),从而能够成功地共挤压玻璃坯,形成芯/包层预制体。芯/包层预制件的包层成分也相反。成功地拉伸出了平均直径在30~50 μm之间的铁包层和钛包层纤维。熔覆环的平均厚度小于2 μm。退火的芯/包层纤维在PBS中降解27天。在溶解介质(磷酸盐缓冲溶液)中,铁包覆纤维的强度在近2周后从303±73 MPa增加到386±45 MPa,第27天下降。与第3周相比,Ti包层纤维的强度从236±53 MPa增加到295±61 MPa。芯/包层纤维的拉伸模量在51 GPa到60 GPa之间。在溶解过程中,与钛包层纤维相比,铁包层纤维表现出剥离机制。
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引用次数: 12
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