Infection-resistant MRI-visible scaffolds for tissue engineering applications

被引:36
|
作者
Mahmoudi, Morteza [1 ,2 ,3 ,4 ]
Zhao, Mingming [5 ]
Matsuura, Yuka [2 ]
Laurent, Sophie [6 ,7 ,8 ]
Yang, Phillip C. [1 ,2 ]
Bernstein, Daniel [1 ,5 ]
Ruiz-Lozano, Pilar [1 ,5 ]
Serpooshan, Vahid [1 ,5 ]
机构
[1] Stanford Cardiovasc Inst, Stanford, CA 94305 USA
[2] Stanford Univ, Div Cardiovasc Med, 300 Pasteur Dr, Stanford, CA 94305 USA
[3] Univ Tehran Med Sci, Nanotechnol Res Ctr, Tehran 141556451, Iran
[4] Univ Tehran Med Sci, Dept Nanotechnol, Fac Pharm, Tehran 141556451, Iran
[5] Stanford Univ, Dept Pediat, 300 Pasteur Dr, Stanford, CA 94305 USA
[6] Univ Mons, Dept Gen Organ & Biomed Chem, NMR, Ave Maistriau 19, B-7000 Mons, Belgium
[7] Univ Mons, Dept Gen Organ & Biomed Chem, Mol Imaging Lab, Ave Maistriau 19, B-7000 Mons, Belgium
[8] CMMI Ctr Microscopy & Mol Imaging, Ave A Bolland 8, B-6041 Gosselies, Belgium
来源
BIOIMPACTS | 2016年 / 6卷 / 02期
基金
美国国家卫生研究院;
关键词
Antibacterial properties; Collagen scaffold; Magnetic resonance imaging; SPION; Superparamagnetic iron oxide nanoparticles; Tissue engineering;
D O I
10.15171/bi.2016.16
中图分类号
R9 [药学];
学科分类号
1007 ;
摘要
Tissue engineering utilizes porous scaffolds as template to guide the new tissue growth. Clinical application of scaffolding biomaterials is hindered by implant-associated infection and impaired in vivo visibility of construct in biomedical imaging modalities. We recently demonstrated the use of a bioengineered type I collagen patch to repair damaged myocardium. By incorporating superparamagnetic iron oxide nanoparticles into this patch, here, we developed an MRI-visible scaffold. Moreover, the embedded nanoparticles impeded the growth of Salmonella bacteria in the patch. Conferring anti-infection and MRI-visible activities to the engineered scaffolds can improve their clinical outcomes and reduce the morbidity/mortality of biomaterial-based regenerative therapies.
引用
收藏
页码:111 / 115
页数:5
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