Non-invasive Screening of the Status of the Vascular System: Feasibility Test
- Conditions
- To Evaluate the Validity of the Measure Method, we Will Compare Vasculight v1.0 PWV Measures With Those Obtained From E-tracking (Echocardiographic Method).
- Interventions
- Device: Vasculight
- Registration Number
- NCT02392260
- Lead Sponsor
- University of Pavia
- Brief Summary
This project is part of the EU funded project NISTAS. NISTAS aims at the development of a new medical device for non-contact, non-invasive screening of the health status of the vascular system of adult subjects. The instrument, called VascuLight, is intended to be deployed at out-patient points-of-care and hospitals, and it provides output parameters related to the PWV as measured at local and/or at regional level.
NISTAS brings together four European SMEs in four different, but complementary, technology areas (JULIGHT, ECLEXYS, EPI-LIGHT, OIP) and links them with five RTD Performers (UNIPV, OSM, CORK UNIVERSITY, Saphyrion, Eudax srl ) to develop new knowledge and a new medical device which will have significant commercial benefits for all of the SME partners.
VascuLight responds to an unmet need in the medical diagnosis practice: the request for a fast and sustainable method for the screening of the health of the vascular system in large series, capable of providing a reliable indicator of the cardiovascular risk of the screened subjects.
The VascuLight idea is founded on a paradigm shift: bringing and adapting to the biomedical field measurement techniques that are to date confined to the industrial environment. NISTAS will develop new non-contact distance/displacement/vibration sensors based on a variant of the well-known and reliable laser triangulation technique.
JUL and UNIPV have carried out proof-of-concept, in-vivo tests of the VascuLight approach to demonstrate that the concept is realistic and attainable. Results have been obtained using Laser Doppler Vibrometry (LDV), a displacement-measuring technique based on the principle of light interference, and an area where both JUL and UNIPV have made important contributions. In the tests it was possible to use TWO small LDV optical heads to simultaneously measure the pulse wave in two points on the carotid spaced by 2.5 cm, allowing for the calculation of the time-delay between the pulse waves, and thus providing a direct local measurement of the PWV.
The aim of the study is to test the implemented contactless optical technique for the measurement of the PWV and the arterial stiffness at the carotid artery level.
To evaluate the validity of the measure method, the investigators will compare Vasculight v1.0 PWV measures with those obtained from e-tracking (echocardiographic method) . The main idea is to compare the distribution of measures (comparable mean and standard deviation) in the same mixed adult population, using the two different methods.
- Detailed Description
Not available
Recruitment & Eligibility
- Status
- UNKNOWN
- Sex
- All
- Target Recruitment
- 50
- Age 18-65
- Systolic BP >160 mmHg or diastolic BP >100 mmHg
- Treated hypertension
- Diagnosis of type 1 or type 2 diabetes mellitus
- Treated hypercholesterolaemia
- Past or current, symptomatic or proven, coronary artery disease
- Clinical cerebrovascular disease
- Carotid arterial stenosis
- Severe peripheral vascular disease
- Hypertrophic or dilated cardiomyopathy
- Congestive heart failure
- Heart valve disease
- Previous cardiac surgery
- Congenital heart disease
- Other systemic diseases such as cancers, endocrine diseases and autoimmune diseases
- Any regular drug treatment
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- SINGLE_GROUP
- Arm && Interventions
Group Intervention Description Vasculight prototype zero level Vasculight -
- Primary Outcome Measures
Name Time Method Pulse Wave velocity 1 month Bland Altmann test and ROC analysis will be used to compare the 2 methods
- Secondary Outcome Measures
Name Time Method