Cerebral, Splanchnic, and Renal Transit Time Measurement and Blood Volume Estimation Using Contrast-Enhanced Ultrasonography.

IF 0.7 4区 医学 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Ultrasound Quarterly Pub Date : 2024-09-16 eCollection Date: 2024-12-01 DOI:10.1097/RUQ.0000000000000687
Ken Monahan, Deborah Kerrigan, Cyndya Shibao, William Fissell, Roman Perri, Virginia Planz
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Abstract

Abstract: We aimed to measure cerebral, splanchnic, and renal transit times and the associated blood volumes using contrast ultrasound. In healthy individuals, regional transit times were calculated from time-intensity curves generated as ultrasound contrast passed through the associated inflow and outflow vessels. These included the internal carotid artery and internal jugular vein (brain), the superior mesenteric artery and portal vein (intestines), and the renal artery and renal vein (kidney). An organ's blood volume relative to the stroke volume delivered to that organ with each cardiac cycle was calculated from the product of heart rate and transit time of contrast passage through the associated vascular bed. The fraction of systemic stroke volume received by each organ was calculated from the respective velocity-time integral and inflow vessel cross-sectional area and used to estimate absolute organ blood volume. The cohort consisted of 16 participants (age: 42 ± 13 years; 5 female) without known cerebrovascular, gastrointestinal, or renal disease. Cerebral, splanchnic, and renal transit times were obtained for 15, 14, and 8 individuals, respectively. Anatomic variability of the renal vessels confounded the acquisition of renal transit times. For all organs, transit times were reproducible and the associated blood volumes were generally comparable to reference values. Cerebral, gastrointestinal, and renal transit times/blood volumes can be reasonably acquired from contrast ultrasound, although the latter is less reliably available. Assessment of the impact on regional blood volumes of pharmacologic or other interventions is a next step toward clinical application of this technique.

使用对比增强超声波测量大脑、脾脏和肾脏的转运时间并估算血容量。
摘要:我们的目的是利用造影剂超声波测量大脑、脾脏和肾脏的转运时间以及相关的血容量。根据超声造影剂通过相关流入和流出血管时产生的时间强度曲线,计算出健康人的区域通过时间。这些血管包括颈内动脉和颈内静脉(大脑)、肠系膜上动脉和门静脉(肠道)以及肾动脉和肾静脉(肾脏)。根据心率与造影剂通过相关血管床的时间乘积计算出器官的血容量与每个心动周期输送到该器官的每搏容量的相对值。每个器官接收到的系统搏出量的一部分是根据各自的速度-时间积分和流入血管的横截面积计算出来的,并用于估算器官的绝对血容量。队列由 16 名参与者组成(年龄:42 ± 13 岁;5 名女性),均无已知的脑血管、胃肠道或肾脏疾病。分别获得了 15 人、14 人和 8 人的大脑、脾脏和肾脏转运时间。肾脏血管的解剖变异对肾脏转运时间的采集造成了干扰。所有器官的转运时间都是可重复的,相关的血容量一般与参考值相当。脑、胃肠道和肾脏的转运时间/血容量可通过造影剂超声合理获取,但后者的可靠性较低。评估药物或其他干预措施对区域血容量的影响是该技术临床应用的下一步。
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来源期刊
Ultrasound Quarterly
Ultrasound Quarterly RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
2.50
自引率
7.70%
发文量
105
审稿时长
>12 weeks
期刊介绍: Ultrasound Quarterly provides coverage of the newest, most sophisticated ultrasound techniques as well as in-depth analysis of important developments in this dynamic field. The journal publishes reviews of a wide variety of topics including trans-vaginal ultrasonography, detection of fetal anomalies, color Doppler flow imaging, pediatric ultrasonography, and breast sonography. Official Journal of the Society of Radiologists in Ultrasound
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