2016
DOI: 10.1109/jtehm.2016.2588504
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A System for Simple Real-Time Anastomotic Failure Detection and Wireless Blood Flow Monitoring in the Lower Limbs

Abstract: Current totally implantable wireless blood flow monitors are large and cannot operate alongside nearby monitors. To alleviate the problems with the current monitors, we developed a system to monitor blood flow wirelessly, with a simple and easily interpretable real-time output. To the best of our knowledge, the implanted electronics are the smallest in reported literature, which reduces bio-burden. Calibration was performed across realistic physiological flow ranges using a syringe pump. The device’s sensors c… Show more

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Cited by 14 publications
(7 citation statements)
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“…17 18 Additionally, these devices require a skin component for measurement. 19 Several alternative devices have been proposed, such as fully implantable ultrasound Doppler systems 26 27 and Doppler-equipped venous couplers. 28 These offer improvements on the design of the commonly-used Cook Doppler, which requires an external wire and offers no opportunities for remote monitoring.…”
Section: Discussionmentioning
confidence: 99%
“…17 18 Additionally, these devices require a skin component for measurement. 19 Several alternative devices have been proposed, such as fully implantable ultrasound Doppler systems 26 27 and Doppler-equipped venous couplers. 28 These offer improvements on the design of the commonly-used Cook Doppler, which requires an external wire and offers no opportunities for remote monitoring.…”
Section: Discussionmentioning
confidence: 99%
“…This clinical problem has spurred the proposal of several potential wireless solutions. These include a totally implantable Doppler system, [19][20][21] and an implantable biodegradable arterial pressure sensor which is able to detect flow across the arterial pedicle vessel. 22,23 These innovations represent a potential improvement upon the familiar Cook-Swartz Doppler 24 which requires a wired connection between the vascular cuff and the bedside device.…”
Section: Discussion Prior Innovations For Wireless Continuous Flap Monitoringmentioning
confidence: 99%
“…[1,53] Although it has been widely used and proven to be accurate, effective, and cost-efficient to reduce surgical failure rates, limitations include the limitation of patient activity that prevents long-term use, the risk of vascular injury, the potential for increased false-positive rates due to the learning curve, and the difficulty of early identification of venous occlusion. [3,32,54] However, due to the limitations of size and lifetime, there is a lack of ideal wireless implantable ultrasound sensors that have the potential to outperform traditional implantable probes for post-surgical monitoring, and the application of technologies such as wireless power transmission is expected to be a solution to the problem. [3,55] In a study, the size can be reduced to approximately 18.0 cm 3 , but it still falls short of the ideal level and has a short lifetime limited by the built-in battery.…”
Section: Using Ultrasound Sensorsmentioning
confidence: 99%
“…[3,55] In a study, the size can be reduced to approximately 18.0 cm 3 , but it still falls short of the ideal level and has a short lifetime limited by the built-in battery. [54] Figure 4. A bioresorbable dynamic pressure sensor for cardiovascular postoperative care.…”
Section: Using Ultrasound Sensorsmentioning
confidence: 99%