通过相干反斯托克斯拉曼散射显微镜观察条件化水凝胶中的神经突生长。
Imaging growth of neurites in conditioned hydrogel by coherent anti-stokes raman scattering microscopy.
机构信息
Weldon School of Biomedical Engineering; West Lafayette, Indiana USA.
出版信息
Organogenesis. 2009 Oct;5(4):231-7. doi: 10.4161/org.5.4.10404.
Abstract
Cultured DRGs in different gel scaffolds were analyzed using CA RS microscopy to determine its possible use as a label-free imaging option for tracking cellular growth in a gel scaffold. This study demonstrates for the first time the applicability of CA RS microscopy to the imaging of live neuronal cells in GAG hydrogels. By tuning the laser beating frequency, omega(p)-omega(s), to match the vibration of C-H bonds in the cell membrane, the CA RS signal yields detailed, high-quality images of neurites with single membrane detection sensitivity. The results demonstrate that CA RS imaging allows monitoring of cellular growth in a tissue scaffold over time, with a contrast that shows comparable cellular structures to those obtained using standard fluorescent staining techniques. These findings show the potential of CARS microscopy to assist in the understanding of organogenesis processes in a tissue scaffold.
摘要
在不同的凝胶支架中培养的 DRG 细胞,使用 CA RS 显微镜进行分析,以确定其作为无标记成像选择来跟踪凝胶支架中细胞生长的可能性。本研究首次证明了 CA RS 显微镜在 GAG 水凝胶中对活神经元细胞成像的适用性。通过将激光拍频频率,ω(p)-ω(s),调谐到细胞膜中 C-H 键的振动,CA RS 信号产生具有单细胞膜检测灵敏度的神经突的详细、高质量图像。结果表明,CA RS 成像允许随时间监测组织支架中的细胞生长,其对比度显示与使用标准荧光染色技术获得的细胞结构相当。这些发现表明 CARS 显微镜具有辅助理解组织支架中器官发生过程的潜力。
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