Early Detection of Vascular Dysfunction Using Biomarkers From Lagrangian Carotid Strain Imaging

Recruiting

• Conditions: Healthy; Carotid Artery Diseases
• Interventions: Device: Ultrasound imaging; Device: Magnetic Resonance Imaging (MRI); Other: Neurocognitive testing; Device: Transcranial Doppler (TCD); Device: Pulse Wave Doppler

• Registration Number: NCT04632485
• Lead Sponsor: University of Wisconsin, Madison

Brief Summary

The purpose of this research is assess imaging and identification of soft plaque that undergoes large deformations or strain will identify plaque vulnerable to rupture which could lead to 'silent strokes'. Validation of current study results with MRI will foster use of real-time ultrasound (US) strain imaging and strain indices as a screening tool for identifying normal human participants susceptible to increased vascular aging and developing plaque prone to rupture or micro-embolization.

Current research will evaluate Lagrangian carotid strain imaging (LCSI) for prediction of vascular health on volunteers. In this study, investigators will evaluate age-related strain variations (due to plaque deposition) in the carotid artery, establishing groundwork that will help identify typical and atypical values for these indices. Investigator's hypothesis is that plaques with higher strain indices (softer plaques) are more prone to rupture than plaques with lower strain indices (stiffer) plaques, thus requiring intervention. Clinical criteria for treatment has focused primarily on the degree of stenosis. Long-term objectives are to provide non-invasive methods for screening participants at risk for vascular aging or plaque rupture in asymptomatic participants, expanding upon current criteria for risk assessments based on focal transient ischemic attack (TIA) or strokes. Variations in vessel strain have been associated with, or are precursors to, plaque deposition, vascular aging, or cerebrovascular diseases. Increased arterial strain and pressure changes have been linked to brain aging using magnetic resonance imaging (MRI) based vascular indices, and memory deficits commonly linked to Alzheimer dementia. Stiffening and thickening of the arterial walls have also been associated with cerebrovascular disease. Investigators hypothesize that strain indices as vascular biomarkers can be utilized for screening possible 'vulnerable participants' validated with MRI, with the potential ability to improve endothelial function and reverse vascular aging. Strain indices may enable differentiating study participants with vascular cognitive impairment (VCI) from other dementias. Cognitive testing is unable to make this differentiation.

Detailed Description

Not available

Study Timeline

• Study First Submitted: 2020-10-27
• Study First Submitted QC: 2020-11-10
• Study First Posted: 2020-11-17
• Study Start: 2021-09-09
• Status Verified: 2025-02
• Last Update Submitted: 2025-02-24
• Last Update Posted: 2025-02-25
• Primary Completion: 2025-07
• Study Completion: 2025-07

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 280

Inclusion Criteria

Aim 1 (Ultrasound (US) only):

• Adults at least 18 years
• Are able to provide written informed consent on their own behalf

Aim 2 (US and MRI):

• Participation in the US study (Aim 1)
• Determined by presence of hypoechogenic or echolucent lipid-rich soft plaque during initial ultrasound imaging session
• Adults willing to participate over 5 years

Exclusion Criteria

Aim 1 (US only)

• Women that are currently pregnant

• Inability to cooperate with the ultrasound study, in particular those unable to sit without gross movement for the duration the ultrasound study (estimated at 60-90 minutes)

• Open wounds or sores in the anterior neck

• History of cancer treatment, vascular disease, cardiac disease, stroke or TIA

• History of medications that affect vascular wall and plaque

• History of statin medications*

• History of hypertension medications*

• History of anticoagulation, blood thinners

  • These criteria will not be exclusionary for the cohort that is greater than 70 years of age.

Aim 2 (US and MRI):

• Women that are currently pregnant
• Inability to cooperate with the ultrasound study, in particular those unable to sit without gross movement for the duration the ultrasound study (estimated at 60-90 minutes)
• Patients that require intravenous (IV) conscious sedation for imaging are not eligible; patients requiring mild, oral anxiolytics for research imaging will be allowed to participate as long as the following criteria are met:
• The participant has their own prescription for the medication;
• The informed consent process is conducted prior to the self-administration of this medication; and,
• The participant comes to the research visit with a driver
• Contraindications to MR
• Unable to lie in the MRI scanner for 45-60 minutes
• Patients with a contraindication to gadolinium based contrast agents, including allergy or impaired renal function (per University of Wisconsin Health Guidelines)

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Arm && Interventions

Group	Intervention	Description
Aim 1: Ultrasound Only	Ultrasound imaging	Approximately 280 asymptomatic participants will participate in ultrasound (US) studies and blood work.
Aim 2: Ultrasound and MRI	Pulse Wave Doppler	A sub-group of 40 at risk volunteers determined from the clinical ultrasound scans and bloodwork from Aim 1 will be asked to participate in a longitudinal US and MRI study. Participants will be selected from a population of individuals that do not have significant atherosclerosis, but present with increased risk due to the presence of soft, lipid rich plaque that are hypoechogenic or echolucent on ultrasound B-mode images. These participants may also satisfy the current clinical guidelines of increased vessel diameter and decreased blood flow velocity with ultrasound that may result in plaque deposition for being in the at risk population. Participants will receive US, strain and shear wave imaging every 2 years after the first scan in Aim 1 and MRI Imaging in Year 1 and Year 5: separated by 4 years
Aim 2: Ultrasound and MRI	Magnetic Resonance Imaging (MRI)	A sub-group of 40 at risk volunteers determined from the clinical ultrasound scans and bloodwork from Aim 1 will be asked to participate in a longitudinal US and MRI study. Participants will be selected from a population of individuals that do not have significant atherosclerosis, but present with increased risk due to the presence of soft, lipid rich plaque that are hypoechogenic or echolucent on ultrasound B-mode images. These participants may also satisfy the current clinical guidelines of increased vessel diameter and decreased blood flow velocity with ultrasound that may result in plaque deposition for being in the at risk population. Participants will receive US, strain and shear wave imaging every 2 years after the first scan in Aim 1 and MRI Imaging in Year 1 and Year 5: separated by 4 years
Aim 2: Ultrasound and MRI	Ultrasound imaging	A sub-group of 40 at risk volunteers determined from the clinical ultrasound scans and bloodwork from Aim 1 will be asked to participate in a longitudinal US and MRI study. Participants will be selected from a population of individuals that do not have significant atherosclerosis, but present with increased risk due to the presence of soft, lipid rich plaque that are hypoechogenic or echolucent on ultrasound B-mode images. These participants may also satisfy the current clinical guidelines of increased vessel diameter and decreased blood flow velocity with ultrasound that may result in plaque deposition for being in the at risk population. Participants will receive US, strain and shear wave imaging every 2 years after the first scan in Aim 1 and MRI Imaging in Year 1 and Year 5: separated by 4 years
Aim 2: Ultrasound and MRI	Neurocognitive testing	A sub-group of 40 at risk volunteers determined from the clinical ultrasound scans and bloodwork from Aim 1 will be asked to participate in a longitudinal US and MRI study. Participants will be selected from a population of individuals that do not have significant atherosclerosis, but present with increased risk due to the presence of soft, lipid rich plaque that are hypoechogenic or echolucent on ultrasound B-mode images. These participants may also satisfy the current clinical guidelines of increased vessel diameter and decreased blood flow velocity with ultrasound that may result in plaque deposition for being in the at risk population. Participants will receive US, strain and shear wave imaging every 2 years after the first scan in Aim 1 and MRI Imaging in Year 1 and Year 5: separated by 4 years
Aim 2: Ultrasound and MRI	Transcranial Doppler (TCD)	A sub-group of 40 at risk volunteers determined from the clinical ultrasound scans and bloodwork from Aim 1 will be asked to participate in a longitudinal US and MRI study. Participants will be selected from a population of individuals that do not have significant atherosclerosis, but present with increased risk due to the presence of soft, lipid rich plaque that are hypoechogenic or echolucent on ultrasound B-mode images. These participants may also satisfy the current clinical guidelines of increased vessel diameter and decreased blood flow velocity with ultrasound that may result in plaque deposition for being in the at risk population. Participants will receive US, strain and shear wave imaging every 2 years after the first scan in Aim 1 and MRI Imaging in Year 1 and Year 5: separated by 4 years

Primary Outcome Measures

Name	Time	Method
High-sensitivity C-reactive protein (HS-CRP) test for inflammatory markers for Aim 1 participants	up to 13 hours	For aim-1 participants, a single fasting (10-12 hours) blood sample will be collected for High-sensitivity C-reactive protein (HS-CRP) test
Hemoglobin A1C test for diabetes	up to 13 hours	For aim-1 participants, a single fasting (10-12 hours) blood sample will be collected for a Hemoglobin A1C test
Characterization of artery wall stiffness and possible plaque by capturing B-mode, Doppler and color-flow modes of Ultrasound	up to 60 minute	Participants will receive complete clinical carotid ultrasound examination. B-mode, Doppler and color-flow modes of Ultrasound will be captured. This measure will characterize artery wall stiffness and possible plaque by using Ultrasound.
Characterization of artery wall stiffness and possible plaque by using radiofrequency ultrasound signals to estimate strain tensors, pulse wave velocity (PWV), and shear wave imaging	up to 60 minute	Participants will receive complete clinical carotid ultrasound examination. Clinical strain and shear wave imaging will be performed. This measure will characterize artery wall stiffness and possible plaque by using Ultrasound.
Carotid artery ultrasound examination for Aim-1 participants: backscattered and beam-steered RF data acquisition using research mode	up to 60 minute	Participants will receive complete clinical carotid ultrasound examination. Backscattered and beam-steered RF data acquisition using research mode, and reference phantom RF data acquisition will be performed. This measure will characterize artery wall stiffness and possible plaque by using Ultrasound.
Fasting Lipid panel Analysis	up to 13 hours	For aim-1 participants, a single fasting (10-12 hours) blood sample will be collected for a fasting lipid panel
Detection of Plaques by MRI- Accuracy of MRI detection method as compared to Ultrasound and blood work	up to 60 minute	Longitudinal Ultrasound strain and MRI study will be performed on on a sub-group of 40(aim-2) at risk participants determined from the clinical ultrasound scans and bloodwork from Aim 1. This subgroup meet the criteria for being in a higher risk group for atherosclerosis or those with softer lipid-rich plaque (hypoechogenic or lower brightness on ultrasound).; Participants will be contacted on the phone to discuss these incidental findings and to request if they would be interested in participating in follow-up MRI, US and strain. MRI results will be compared to previous Ultrasound and blood work results to test the accuracy of MRI method in detecting plaques.

Trial Locations

Locations (1)

Department of Medical Physics, University of Wisconsin; 🇺🇸 Madison, Wisconsin, United States