经颅多普勒超声声窗的超声检测及相关程序

T. de Souza-Daw, T. Hoang, Tien Dzung Nguyen
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摘要

经颅超声(TCD)是一种神经超声检查颅内脑供应动脉,通过可视化脑血流模式。在患有严重血流中断的脑神经病理学疾病的患者中,如狭窄,闭塞和血管痉挛可被识别为TCD。缺血性和出血性中风需要定期监测TCD。然而,TCD程序在很大程度上取决于操作人员的技能和经验。在颞平面(声窗)上寻找一个合适的位置进行经颅超声治疗对于声窗差或无声窗的患者来说是具有挑战性的。在这种情况下,诊断和预后可能有问题。大约10-20%的患者声窗差或无声窗。因此,早期发现经颅超声声窗是可取的。本文研究了体外牛生物经颅介质的超声信号,以早期发现声窗。结果表明,超声信号可以检测到经颅声窗。超声衰减速度和b超检测对比颞骨和周围软组织,提示可以检测到声窗。
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Towards ultrasonic detection of acoustic windows for transcranial Doppler ultrasound and related procedures
Transcranial Ultrasound (TCD) is a neurosonological procedure to examine intracranial brain supplying arteries, by visualizing cerebral blood flow patterns. In patients suffering from severe blood flow disruption to the brain neurological pathology conditions such as stenosis, occlusions and vasospasm can be identified with TCD. Ischemic and hemorrhagic strokes require regular TCD monitoring. However, the TCD procedure is largely dependent on the operator's skills and experiences. Finding a suitable site on the temporal plane (an acoustic window) for transcranial insonoification can be challenging in patients with poor or no acoustic windows. In such cases, diagnosis and prognosis may be problematic. Approximately, 10–20% of patients have poor or no acoustic windows. Therefore, early detection of acoustic windows for transcranial sonograph is desirable. This paper examines ultrasound signals in-vitro bovine's biological transcranial media to early detect acoustic windows. The results suggest that transcranial acoustic windows can be detected with an ultrasound signal. Ultrasound attenuation-velocity and B-Mode Ultrasound detection contrast the temporal bone and the surrounding soft-tissue, suggesting that acoustic windows can be detected.
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