Brain Ultrasound With Contrast Microbubbles Injection in Shock Status
-
- STATUS
- Recruiting
-
- participants needed
- 40
-
- sponsor
- Universitair Ziekenhuis Brussel
Summary
Alterations in the brain microcirculation may be involved in patients with shock. For a three-day period, we investigate the brain microcirculation using contrast-enhanced ultrasound with microbubble injection in patients with septic and non-septic shock.Ultrasound examination is performed daily to estimate global cerebral blood flow, and to evaluate the brain microcirculation, using variables of the time-intensity brain perfusion curve, after sulphur hexafluoride microbubble Sonovue injection.
Description
Non-invasive brain ultrasound with transcranial echo-color doppler (IE 33, Philips Medical System, the Netherlands) is performed in three steps to 1) evaluate the global cerebral blood volume, 2) to estimate the presence or absence of cerebral autoregulation, and 3) to qualitatively evaluate the cerebral perfusion and microcirculation by enhanced microbubbles contrast injection (CEUS). Brain ultrasound is performed in the first 48 hours after hemodynamic stabilization (MAP > 65mm Hg, normotherm) and respiratory parameters stabilization (PaCO2 between 35-45mmHg and the PaO2/FiO2 > 200) after ICU admission. The second and third examination is performed in the next 48-72 hours before sedation withdrawal to limit the effect of change of cerebral hemodynamics.
Before performing brain ultrasound, echocardiography (IE 33, Philips medical System, the Netherlands) is performed to evaluate left ventricular ejection fraction and cardiac output (L/min).
First, the global cerebral blood volume (L/min) is evaluated as the sum of flow volumes of the internal carotid (ICA) and vertebral arteries (VA) extracranial arteries of both sides. The internal carotid artery (ICA) is examined with a 7-MHz linear array transducer with the head of the patient slightly titled upward, in midline position. The site of measurement is approximately 1.5cm below the carotid bulb in the in the common carotid artery (CCA) during expansion and 1.5cm away from the bifurcation in ICA. In the presence of atheromatous calcifications plaques, ICA doppler measurement is performed outside and before the plaques. The B-mode bidimensional is magnified to achieve a higher resolution and details. The internal diameter of the vessel is measured at the exact site of the pulse doppler velocity measurement ample volume, between both endothelial layers, perpendicular of the course of the vessel. The diameter of the vertebral artery is examined and magnified in B-mode. The transducer is positioned along the CCA, shiftily laterally and angled until the intertransverse segment of the VA is seen and the doppler velocity is measured at the C4-C5 transverse area along the common carotid artery exactly at the same place of diameter measurement. The following measurements of flow velocities are taken in each artery: Peak systolic and end-diastolic velocity, time-averaged velocity (TAV), Pulsatility Index (PI). Flow volume (Q) of each artery is determined as Q = TAV x Area ((diameter of the artery /2) x PI).
Transcranial echo-color doppler is performed via temporal windows and the Pulsatility Index (PI) and the mean flow velocities (cm/sec) are measured of MCA, at both sides are recorded. Cerebrovascular resistance index as defined as the ration MAP/Mean Flow velocity of MCA (mmHg/cm per second).
Second, after measuring the global cerebral blood volume, the presence or absence of cerebral autoregulation (CA) is tested with the Transient hyperemic response (THR) by measuring the velocity of the media cerebral artery (MCA) the following an ipsilateral common carotid compression during 8 seconds. THR is defined as the F3/F1 ratio F1 as the MCA velocity before compression and F3 is the second MCA velocity after compression test). THR test is valid when onset of compression results a sudden and maximal decrease in MCA blood velocity and remains stable during compression.
Third, after testing the THR, the brain regional microcirculation is evaluated by the microbubbles contrast injection SONOVUE (Italy) following the European guidelines recommendation for contrast microbubbles enhanced ultrasound. The brain parenchyma is insonated via the temporal bone windows at the depth of 10cm with the ultrasound S5 multifrequency transducer 2-5 MHz probe. After optimizing the acoustic bone window, SONOVUE is injected intravenously as a bolus 2.4ml followed by 10ml saline flushed. The contralateral brain is evaluated 5 minutes after the first injection of SONOVUE to allow a complete evacuation of contrast microbubbles.
All real-time CEUS images were stored digitally on the hard disk as DICOM (Digital Image Communications in Medicine) images. Offline analysis used the QLAB 10 quantification software (Philips Medical System, the Netherlands) to convert brain perfusion images into time-intensity curves (TIC) corresponding to the five different regions of interest (ROI) of brain parenchyma: anterior and posterior thalamus, lentiform nucleus, parieto-temporal and posterior white matter. Four variables were extracted from these TIC curves to qualitatively evaluate the brain microcirculation: peak intensity in dB (PI), time to peak intensity in seconds (TTP), mean transit time in seconds (MTT), and area under the curve in dB/seconds (AUC) .
Details
Condition | Shock, Microcirculation |
---|---|
Age | 18years - 85years |
Treatment | Sulphur hexafluoride microbubbles SONOVUE (BRACCO, Milan, Italy) |
Clinical Study Identifier | NCT04290767 |
Sponsor | Universitair Ziekenhuis Brussel |
Last Modified on | 19 February 2024 |
How to participate?
,
You have contacted , on
Your message has been sent to the study team at ,
What happens next?
- You can expect the study team to contact you via email or phone in the next few days.
- Sign up as volunteer to help accelerate the development of new treatments and to get notified about similar trials.
You are contacting
Primary Contact
Additional screening procedures may be conducted by the study team before you can be confirmed eligible to participate.
Learn moreIf you are confirmed eligible after full screening, you will be required to understand and sign the informed consent if you decide to enroll in the study. Once enrolled you may be asked to make scheduled visits over a period of time.
Learn moreComplete your scheduled study participation activities and then you are done. You may receive summary of study results if provided by the sponsor.
Learn moreSimilar trials to consider
Browse trials for
Not finding what you're looking for?
Sign up as a volunteer to stay informed
Every year hundreds of thousands of volunteers step forward to participate in research. Sign up as a volunteer and receive email notifications when clinical trials are posted in the medical category of interest to you.
Sign up as volunteerStudy AnnotationsStudy Notes
Notes added here are public and can be viewed by anyone. Notes added here are only available to you and those who you share with.
Lorem ipsum dolor sit amet consectetur, adipisicing elit. Ipsa vel nobis alias. Quae eveniet velit voluptate quo doloribus maxime et dicta in sequi, corporis quod. Ea, dolor eius? Dolore, vel!
No annotations made yet
Add a private note
- Select a piece of text from the left.
- Add notes visible only to you.
- Send it to people through a passcode protected link.
Study Definition
WikipediaAdd a private note
- Select a piece of text.
- Add notes visible only to you.
- Send it to people through a passcode protected link.