具有可调节降解速率的生物活性硅氧烷-含形状记忆聚合物( SMP )支架。

ty10086 提交于 周三, 08/25/2021 - 15:56
文章英文标题
Bioactive Siloxane-Containing Shape-Memory Polymer (SMP) Scaffolds with Tunable Degradation Rates.
正文
一种材料引导的、再生的治疗颅骨缺损的方法需要一种支架,它不仅可以实现与不规则几何形状的共形拟合,而且具有生物活性和合适的吸收率。我们先前报道了基于形状恢复填充不规则缺陷几何形状的聚( ε-己内酯)二丙烯酸酯( PCL-DA )的‘自拟合’形状记忆聚合物( SMP )支架。然而PCL-DA支架缺乏先天的生物活性,降解非常缓慢。聚二甲基硅氧烷( PDMS )在与有机交联网络结合时,已被证明具有先天生物活性和修饰降解速率。因此,本工作报道了引入PDMS片段来形成PCL / PDMS SMP支架。将这些作为共基质与3种类型的大分子单体制备,以系统地改变PDMS含量和交联密度。PCL90 - DA与线性PDMS66 -二甲基丙烯酸酯( DMA )或四臂星形PDMS66 -四甲基丙烯酸酯( TMA )以90:10、75:25和60:40 wt %的比例复合。此外,还使用了一种具有65:35 wt % PCL / PDMS比例的三嵌段大分子( AcO- PCL45 - b- PDMS66 - b- PCL45 - OAc )。支架表现出孔道互联互通和孔径均匀,进一步保持了良好的形状记忆行为。降解速率随着PDMS含量的增加和交联密度的降低而增加,相分离是造成这种影响的原因。无论PDMS含量如何,所有PCL / PDMS支架均在模拟体液( SBF )中暴露后形成碳酸羟基磷灰石( HAp ),而PDMS的加入预期降低了支架的模量和强度,矿化增加了这些性能,在某些情况下超过或类似于PCL-DA,未矿化。
文章内容(英文)
A material-guided, regenerative approach to heal cranial defects requires a scaffold that cannot only achieve conformal fit into irregular geometries but also has bioactivity and suitable resorption rates. We have previously reported \"self-fitting\" shape-memory polymer (SMP) scaffolds based on poly(ε-caprolactone) diacrylate (PCL-DA) that shape recover to fill irregular defect geometries. However, PCL-DA scaffolds lack innate bioactivity and degrade very slowly. Polydimethylsiloxane (PDMS) has been shown to impart innate bioactivity and modify degradation rates when combined with organic cross-linked networks. Thus, this work reports the introduction of PDMS segments to form PCL/PDMS SMP scaffolds. These were prepared as co-matrices with three types of macromers to systematically alter PDMS content and cross-link density. Specifically, PCL90-DA was combined with linear-PDMS66-dimethacrylate (DMA) or 4-armed star-PDMS66-tetramethacrylate (TMA) macromers at 90:10, 75:25, and 60:40 wt % ratios. Additionally, a triblock macromer (AcO-PCL45-b-PDMS66-b-PCL45-OAc), having a 65:35 wt % ratio PCL/PDMS, was used. Scaffolds exhibited pore interconnectivity and uniform pore sizes and further maintained excellent shape-memory behavior. Degradation rates increased with PDMS content and reduced cross-link density, with phase separation contributing to this effect. Irrespective of PDMS content, all PCL/PDMS scaffolds exhibited the formation of carbonated hydroxyapatite (HAp) following exposure to simulated body fluid (SBF). While inclusion of PDMS expectedly reduced scaffold modulus and strength, mineralization increased these properties and, in some cases, to values exceeding or similar to the PCL-DA, which did not mineralize.
来源出处
Journal|[J]ACS Biomaterials Science & EngineeringVolume 7, Issue 4. 2021.
DOI
https://doi.org/10.1021/ACSBIOMATERIALS.1C00113

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此链接为PDMS-微流控芯片/PDMS/道康宁SYLGARD184/小桶0.5KG装的链接。

一般性的产品性能参数表参考以下小桶装的参数:

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品牌型号:道康宁SYLGARD184

包装规格:0.5KG/罐[含有45.4g固化剂,总重量为0.5KG]

产品颜色:保质期限:36个月

存放环境说明:室温,阴凉处保存

备注说明:

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