光热治疗后微血管反应的纵向、多模态功能成像。
Longitudinal, multimodal functional imaging of microvascular response to photothermal therapy.
机构信息
Jefferson Medical College, Thomas Jefferson University, Philadelphia, Pennsylvania 19107, USA.
出版信息
Opt Lett. 2010 Oct 1;35(19):3216-8. doi: 10.1364/OL.35.003216.
Abstract
Although studies have shown that photothermal therapy can coagulate selectively abnormal vasculature, the ability of this method to achieve consistent, complete removal of the vasculature is questionable. We present the use of multimodal, wide-field functional imaging to study, in greater detail, the biological response to selective laser injury. Specifically, a single-platform instrument capable of coregistered fluorescence imaging and laser speckle imaging was utilized to monitor vascular endothelial growth factor gene expression and blood flow, respectively, in a transgenic rodent model. Collectively, the longitudinal, in vivo data collected with our instrument suggest that the biological response to selective laser injury involves early-stage redistribution of blood flow, followed by increased vascular endothelial growth factor promoter activity to stimulate pro-angiogenic events.
摘要
尽管研究表明光热疗法可以选择性地凝固异常血管,但该方法是否能够实现一致、完全去除血管仍存在疑问。我们介绍了使用多模态、宽场功能成像来更详细地研究对选择性激光损伤的生物学反应。具体来说,利用单平台仪器,分别结合荧光成像和激光散斑成像,监测转基因啮齿动物模型中的血管内皮生长因子基因表达和血流。总的来说,我们仪器收集的纵向、体内数据表明,选择性激光损伤的生物学反应涉及早期血流重新分布,随后血管内皮生长因子启动子活性增加,以刺激促血管生成事件。
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