This clinical investigation will evaluate a novel contactless technology for assessing arterial stiffness and explore its potential in assessment of risk for and development of cardiovascular disease. The main aims of the study are: 1. To assess device and method performance for assessment of arterial stiffness and cardiovascular risk, on a prospective primary care cohort. 2. To see if precision may be added in CVD risk assessment through a multi-modal approach, combining data on macro- and micro-circulatory function.
Arterial stiffness, commonly assessed as pulse wave velocity (PWV), is a marker of aging of the cardio-vascular system strongly associated with hypertension and increased risk for and development of cardiovascular disease. This clinical investigation aims at evaluating the clinical safety, performance and potential value of a novel laser-radar-based vibrometer technology, for the assessment of arterial stiffness and to explore correlations of various measurements made with the technology with risk and development of cardiovascular disease, specifically ischemic heart disease, hypertension and aortic valve pathology. The study participants mainly consist of a prospective primary care population, that undergo an investigation (including vibrometer and microwave radar assessment, blood pressure, ECG and ankle-brachial index) at a primary care visit. An extended investigation (including vibrometer assessment, cardiovascular ultrasound and other reference methods for pulse wave velocity and cardiovascular risk assessment) will be offered to participants judged to have an increased risk of cardiovascular disease in the primary care population, or for separately invited subjects with increased cardiovascular risk, known valvular disease, or as healthy controls. Repeated yearly measurements plan to be performed in interested subjects. A subset of the participants will undergo a contactless multi-modal investigation which includes combining data from the current study with contactless spatial frequency domain data from the investigation "Spectrum 1" (CIV ID: CIV-22-07-039907). The hypothesis is that CVD risk assessment may be improved through a multi-modal approach, combining data on both macro- and micro-circulatory function. A subset of the data will be used to evaluate the association between the prevalence of hypertension and total peripheral resistance, as well as cardiac output. The study is of exploratory character with many analyses; however, the main outcomes are outlined below.
Study Type
OBSERVATIONAL
Enrollment
8,000
Atrium Health Care Centre
Stockholm, Sweden
RECRUITINGNeko Health Centre, Regeringsgatan
Stockholm, Sweden
RECRUITINGNeko Health Centre, Sibyllegatan
Stockholm, Sweden
RECRUITINGCorrelation between vibrometer-based PWV and ultrasound-based PWV
Vibrometer-based PWV in relation to ultrasound-based PWV, including both the carotid-femoral and aorto-femoral pathways. PWV in m/s, a measure of arterial stiffness.
Time frame: Typically same day or within 3-6 months of enrolment, at extended visit. If attending a 1-year follow-up, then around 1 year and 3-6 months from enrolment (follow-up extended visit).
Assess associations between vibrometer measurements and clinical measures of increased cardiovascular risk
Vibrometer-derived PWV association with risk or presence of established atherosclerotic cardiovascular disease (ASCVD) based on ultrasound or clinical assessment.
Time frame: Typically within 3 months of initial visit and enrolment, at extended visit. If attending a 1-year follow-up, then around 1 year and 3 months from enrolment.
Assess prediction performance of increased cardiovascular risk when combining vibrometer measurements, brachial BP, ABI and ECG in prediction models
Combining vibrometer measurements, brachial BP, ABI, TBI and ECG in prediction models, may provide an improved prediction of increased cardiovascular risk (as defined above).
Time frame: Typically within 3-6 months of enrolment (extended visit). If attending a 1-year follow-up, then around 1 year and 3 months from enrolment (follow-up extended visit)..
Assess performance of a multimodal risk score using data from the current study and the in parallel performed investigation "Spectrum 1" (CIV ID: CIV-22-07-039907).
Assess prediction of cardiovascular disease risk when adding parameters from the clinical study "Spectrum 1" to models based on parameters from the present study (vibrometer-based parameters, brachial BP, ABI, TBI, ECG). Outcome will be defined by presence of CVD risk or confirmed CVD based on ultrasound or clinical information, increased risk by risk scores, familial hypercholesterolemia, diabetes mellitus.
Time frame: Typically within 3-6 months after enrolment (extended visit). May include 1-year follow-up, in which case 1 year and 3-6 months (follow-up extended visit).
Assess associations between vibrometer measurements and presence of aortic valve pathology
Vibrometer measurements, including left ventricular ejection time (LVET), in relation to aortic valve pathology, including aortic sclerosis, stenosis, or insufficiency, ranging from none to severe, and bicuspid aorta valve, assessed by ultrasound.
Time frame: Typically within 3-6 months of enrolment, at extended visit. If attending a 1-year follow-up, then around 1 year and 3-6 months from enrolment (follow-up extended visit).
Assess associations between vibrometer measurements and ankle-brachial index
Vibrometer-derived PWV measurements in relation to increased risk for CVD as assessed by ankle-brachial index (ABI).
Time frame: Typically at initial visit, same day as enrolment. If attending a 1-year follow-up, then around 1 year from enrolment.
Assess associations between vibrometer measurements and measure of increased cardiovascular risk by risk score
Vibrometer-derived PWV measurements in relation to increased risk for CVD as assessed by established risk score (SCORE2). SCORE 2 is a risk prediction model to estimate 10-year risk of fatal or non-fatal atherosclerotic cardiovascular disease. Variables used in the model are age, sex, smoking status, systolic blood pressure and non-HDL cholesterol levels.
Time frame: Typically at initial visit, same day as enrolment. If attending a 1-year follow-up, then around 1 year from enrolment.
Assess correlation between vibrometer-based PWV and other PWV reference methods
Vibrometer-based PWV in relation to other reference methods for assessment of PWV, such as a single brachial-cuff based method (Arteriograph, Tensiomed), and peripheral piezo sensors (located on hands and feet). PWV in m/s, a measure of arterial stiffness.
Time frame: Typically same day as enrolment, or within 3-6 months of enrolment (extended visit). If 1-year follow-up, then within 1 year and 3-6 months from enrolment.
Assess correlation between vibrometer-based LVET and ultrasound-based LVET
Vibrometer-based LVET as assessed by detection of systolic onset and end, in relation to ultrasound-based LVET as assessed by LVET measured directly at the left ventricular outflow tract.
Time frame: Typically same day or within 3-6 months of enrolment, at extended visit. If attending a 1-year follow-up, then around 1 year and 3-6 months from enrolment (follow-up extended visit).
Assess correlation between vibrometer-based LVET and aortic valve Vmax by ultrasound continuous doppler signal
Vibrometer-based LVET as assessed by detection of systolic onset and end in relation to peak aortic jet velocity (Vmax) assessed by continuous doppler signal. Vmax is a measure of the speed at which blood travels across the aortic valve.
Time frame: Same day as enrolment, or within 3-6 months of enrolment (extended visit). If 1-year follow-up visit, then 1 year and 3-6 months from enrolment (follow-up extended visit).
Association between prevalence of hypertension and cardiac output and peripheral resistance
Association between blood pressure and ultrasound-derived markers for cardiac output and peripheral resistance.
Time frame: Same day as enrolment, or typically within 3-6 months of enrolment, (extended visit). If attending a 1-year follow-up, then around 1 year and 3-6 months from enrolment (follow-up extended visit).
Assess associations between vibrometer measurements and measures of increased cardiovascular risk by pulse pressure
Vibrometer-derived PWV measurements in relation to increased risk for CVD as assessed by pulse pressure.
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Time frame: Typically at initial visit, same day as enrolment, or at extended visit. If attending a 1-year follow-up, then around 1 year from enrolment.