新生大鼠高频超快超声无创微血管成像
Noninvasive microvascular imaging in newborn rats using high-frequency ultrafast ultrasound.
作者信息
Zhao Yunlong, Zhang Jiabin, Yu Hao, Hou Xinlin, Zhang Jue
机构信息
Department of Pediatrics, Peking University First Hospital, Beijing, China; Academy for Advanced Interdisciplinary Studies, Peking University, Beijing, China.
College of Future Technology, Peking University, Beijing, China.
出版信息
Neuroimage. 2024 Aug 15;297:120738. doi: 10.1016/j.neuroimage.2024.120738. Epub 2024 Jul 14.
Ultrasound imaging stands as the predominant modality for neonatal health assessment, with recent advancements in ultrafast Doppler (μDoppler) technology offering significant promise in fields such as neonatal brain imaging. Combining μDoppler with high-frequency ultrasound (HF-μDoppler) presents a potential efficient avenue to enhance in vivo microvascular imaging in small animals, notably newborn rats, a crucial preclinical animal model for neonatal disease and development research. It is necessary to verify the imaging performance of HF-μDoppler in preclinical trials. This study investigates the microvascular imaging capabilities of HF-μDoppler using a 30 MHz high-frequency linear array probe in newborn rats. Results demonstrate the clarity of cerebral microvascular imaging in rats aged 1 to 7 postnatal days, extending to whole-body microvascular imaging, encompassing the central nervous system, including the brain and spinal cord. In conclusion, HF-μDoppler technology emerges as a reliable imaging tool, offering a new perspective for preclinical investigations into neonatal diseases and development.
超声成像一直是新生儿健康评估的主要方式,随着超快多普勒(μDoppler)技术的最新进展,其在新生儿脑成像等领域展现出巨大潜力。将μDoppler与高频超声(HF-μDoppler)相结合,为增强小动物(尤其是新生大鼠,这是新生儿疾病与发育研究的关键临床前动物模型)的体内微血管成像提供了一条潜在的有效途径。有必要在临床试验中验证HF-μDoppler的成像性能。本研究使用30 MHz高频线性阵列探头,研究HF-μDoppler在新生大鼠中的微血管成像能力。结果表明,出生后1至7天的大鼠脑微血管成像清晰,扩展至全身微血管成像,涵盖包括脑和脊髓在内的中枢神经系统。总之,HF-μDoppler技术是一种可靠的成像工具,为新生儿疾病与发育的临床前研究提供了新视角。
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