Photoacoustic imaging in cancer detection, diagnosis, and treatment guidance

生物医学中的光声成像 分子成像 超声波 体内 癌症检测 医学 模态(人机交互) 医学影像学 临床前影像学 癌症 医学物理学 生物医学工程 模式 放射科 计算机科学 人工智能 内科学 生物 光学 物理 社会学 生物技术 社会科学
作者
Srivalleesha Mallidi,Geoffrey P. Luke,Stanislav Emelianov
出处
期刊:Trends in Biotechnology [Elsevier BV]
卷期号:29 (5): 213-221 被引量:639
标识
DOI:10.1016/j.tibtech.2011.01.006
摘要

Imaging modalities play an important role in the clinical management of cancer, including screening, diagnosis, treatment planning and therapy monitoring. Owing to increased research efforts during the past two decades, photoacoustic imaging (a non-ionizing, noninvasive technique capable of visualizing optical absorption properties of tissue at reasonable depth, with the spatial resolution of ultrasound) has emerged. Ultrasound-guided photoacoustics is noted for its ability to provide in vivo morphological and functional information about the tumor within the surrounding tissue. With the recent advent of targeted contrast agents, photoacoustics is now also capable of in vivo molecular imaging, thus facilitating further molecular and cellular characterization of cancer. This review examines the role of photoacoustics and photoacoustic-augmented imaging techniques in comprehensive cancer detection, diagnosis and treatment guidance. Imaging modalities play an important role in the clinical management of cancer, including screening, diagnosis, treatment planning and therapy monitoring. Owing to increased research efforts during the past two decades, photoacoustic imaging (a non-ionizing, noninvasive technique capable of visualizing optical absorption properties of tissue at reasonable depth, with the spatial resolution of ultrasound) has emerged. Ultrasound-guided photoacoustics is noted for its ability to provide in vivo morphological and functional information about the tumor within the surrounding tissue. With the recent advent of targeted contrast agents, photoacoustics is now also capable of in vivo molecular imaging, thus facilitating further molecular and cellular characterization of cancer. This review examines the role of photoacoustics and photoacoustic-augmented imaging techniques in comprehensive cancer detection, diagnosis and treatment guidance.
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