一个新的3D成像工具RUS-PAT提供快速、安全和详细的组织和血管扫描,没有辐射或磁铁,显示出诊断中风、癌症和糖尿病并发症的希望。 A new 3D imaging tool, RUS-PAT, offers fast, safe, and detailed scans of tissues and blood vessels without radiation or magnets, showing promise for diagnosing stroke, cancer, and diabetes complications.

由USC和Caltech的研究人员开发的称为RUS-PAT的一个新的3D成像系统,将旋转超声波超声波和光声波摄影相结合,在大约10秒内制作大体区域组织和血管的详细实时图像。 A new 3D imaging system called RUS-PAT, developed by researchers from USC and Caltech, combines rotational ultrasound and photoacoustic tomography to produce detailed, real-time images of tissue and blood vessels across large body areas in about 10 seconds. 与MRI、CT或传统的超声波不同,它不使用电离辐射或强烈磁铁,提供更广阔的视野、更深的成像、更高的分辨率和较低的成本。 Unlike MRI, CT, or traditional ultrasound, it uses no ionizing radiation or strong magnets, offers a broader field of view, deeper imaging, higher resolution, and lower cost. 在对创伤性脑损伤患者以及大脑、乳房、手脚和脚部进行测试后,该技术显示出诊断中风、癌症和糖尿病并发症的前景。 Tested on patients with traumatic brain injury and in the brain, breast, hand, and foot, the technology shows promise for diagnosing stroke, cancer, and diabetic complications. 在NIH的资助下,该系统在《自然生物医学工程》中发表,可以改变非侵入性诊断。 Funded by the NIH, the system was published in Nature Biomedical Engineering and could transform noninvasive diagnostics.