A brief history of the development of transcranial tissue Doppler ultrasound
A brief history of the development of transcranial tissue Doppler ultrasound
This article documents the early development of the first transcranial Doppler (TCD)-based ultrasound system for continuous monitoring of brain tissue pulsations (BTPs). Transcranial tissue Doppler (TCTD) uses a lightweight, wearable single-element ultrasound probe to track tissue motion perpendicular to the skin's surface, providing tissue displacement estimates along a single beam line. Feasibility tests using an adapted TCD system confirmed that brain tissue motion data can be obtained from existing TCD hardware. Brain Tissue Velocimetry (Brain TV), a TCTD data acquisition system, was then developed to provide a lightweight and portable means of continuously recording TCTD data in real-time. Brain TV measurements are synchronized to a 3-lead electrocardiogram and can be recorded alongside other physiological measurements, such as blood pressure, heart rate and end-tidal carbon dioxide. We have shown that Brain TV is able to record BTPs from sample depths ranging from 22 to 80 mm below the probe's surface and from multiple positions on the head. Studies in healthy volunteers, stroke patients and ultrasound phantom brain models demonstrate how TCTD might provide insights into the relationships between physiological measurements and brain tissue motion and show promise for rapid clinical assessment and continuous monitoring of BTPs.
brain tissue pulsation amplitude, brain tissue pulsations, transcranial doppler, transcranial tissue doppler, ultrasound
Nicholls, Jennifer k.
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Lecchini-Visintini, Andrea
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Ince, Jonathan
55157657-56bb-45ef-b67c-1ff1c23ab4dd
Pallett, Edward
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Minhas, Jatinder s.
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Oura, Mitsuhiro
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Chung, Emma m. l.
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Nicholls, Jennifer k.
89678848-ffe5-4157-8bfc-cc495babaa09
Lecchini-Visintini, Andrea
23cc1428-c307-4fba-b171-cb3f53ba8c80
Ince, Jonathan
55157657-56bb-45ef-b67c-1ff1c23ab4dd
Pallett, Edward
60654e18-a8cb-41e6-ac7a-aec5efde10b3
Minhas, Jatinder s.
30fb32c8-5c1a-4ea5-9e1c-5df576bab99b
Oura, Mitsuhiro
8118dd55-12b5-4161-bc66-c3cc54630f10
Chung, Emma m. l.
2a4bf9d7-6ed4-4726-94aa-a57d6fd78b3e
Nicholls, Jennifer k., Lecchini-Visintini, Andrea, Ince, Jonathan, Pallett, Edward, Minhas, Jatinder s., Oura, Mitsuhiro and Chung, Emma m. l.
(2024)
A brief history of the development of transcranial tissue Doppler ultrasound.
Interface Focus, 14 (6), [20240031].
(doi:10.1098/rsfs.2024.0031).
Abstract
This article documents the early development of the first transcranial Doppler (TCD)-based ultrasound system for continuous monitoring of brain tissue pulsations (BTPs). Transcranial tissue Doppler (TCTD) uses a lightweight, wearable single-element ultrasound probe to track tissue motion perpendicular to the skin's surface, providing tissue displacement estimates along a single beam line. Feasibility tests using an adapted TCD system confirmed that brain tissue motion data can be obtained from existing TCD hardware. Brain Tissue Velocimetry (Brain TV), a TCTD data acquisition system, was then developed to provide a lightweight and portable means of continuously recording TCTD data in real-time. Brain TV measurements are synchronized to a 3-lead electrocardiogram and can be recorded alongside other physiological measurements, such as blood pressure, heart rate and end-tidal carbon dioxide. We have shown that Brain TV is able to record BTPs from sample depths ranging from 22 to 80 mm below the probe's surface and from multiple positions on the head. Studies in healthy volunteers, stroke patients and ultrasound phantom brain models demonstrate how TCTD might provide insights into the relationships between physiological measurements and brain tissue motion and show promise for rapid clinical assessment and continuous monitoring of BTPs.
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nicholls-et-al-2024-a-brief-history-of-the-development-of-transcranial-tissue-doppler-ultrasound
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Accepted/In Press date: 4 November 2024
e-pub ahead of print date: 6 December 2024
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Publisher Copyright:
© 2024 The Authors.
Keywords:
brain tissue pulsation amplitude, brain tissue pulsations, transcranial doppler, transcranial tissue doppler, ultrasound
Identifiers
Local EPrints ID: 496746
URI: http://eprints.soton.ac.uk/id/eprint/496746
ISSN: 2042-8898
PURE UUID: f7c1db15-fa4a-4faf-ac01-8b59454cfcd1
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Date deposited: 07 Jan 2025 23:11
Last modified: 08 Jan 2025 14:19
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Contributors
Author:
Jennifer k. Nicholls
Author:
Andrea Lecchini-Visintini
Author:
Jonathan Ince
Author:
Edward Pallett
Author:
Jatinder s. Minhas
Author:
Mitsuhiro Oura
Author:
Emma m. l. Chung
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