Coronary Artery Disease Clinical Trial
Official title:
In-human Validation of a Technique for Measuring Central Aortic Hemodynamics With Peripheral Arterial Waveforms
Central aortic blood pressure (BP) and flow are generally more informative about the health
condition of the heart and the arterial system compared with BP measured in peripheral
locations (e.g. arm or leg). However, their clinical impact has been limited due to the
cost, risk and discomfort associated with their measurements. Peripheral BP is attractive
because it can be measured relatively easily than central aortic BP. However, peripheral BP
is not as useful as central aortic BP since the shape of its waveform is different from that
of central aortic BP. The applicant recently developed two innovative methods, the
"Individualized Transfer Functions (ITF)," which is able to estimate the central aortic BP
waveform of a patient using the measurements of peripheral BP waveform(s). The methods were
successfully validated using animal and simulated human subjects. The objective of the
proposed research project is to examine the validity of these innovative methods in human
subjects.
Cardiovascular disease accounts for 1/3 of all deaths and more than $22 billion
healthcare-related cost in Canada every year. The proposed research project will make
significant contribution in improving clinical care by the potential of ITF in detection and
diagnostics of cardiovascular disease. In fact, the proposed research project is a key
initial step towards our long-term research objective of non-invasive cardiovascular disease
diagnostics. The success of the proposed research project will demonstrate that ITF can
serve as a low-cost, non-invasive and convenient alternative for central aortic BP
measurement, which can further be used for the development of detection and diagnostics
methods for a number of cardiovascular diseases (e.g. aortic valve impairment and peripheral
arterial disease) by virtue of the relevant health and disease conditions of central and
peripheral arterial vessels that ITF can deliver.
Central aortic blood pressure (BP) and flow are generally more informative about cardiac
dynamics and global circulation compared with cardiovascular parameters measured in the
periphery [1,2]. However, their clinical impact has been limited due to significant clinical
risk and substantial cost associated with their measurements. Peripheral arterial BP's are
easily obtained non-invasively, but they cannot serve as direct substitutes for central
aortic BP due to the distortion of arterial BP waveform caused by pressure wave propagation
and reflection. Recently, two innovative model-based methods, the "Individualized Transfer
Functions (ITF)," have been developed by Dr. Hahn to estimate central aortic BP waveform
using the measurements of peripheral BP waveform(s) [3-6]. These techniques have been
validated in animal and simulated human subjects. The objective of the proposed research
project is to 1) examine the feasibility and validity of these innovative methods in human
subjects, and 2) compare the performance of these methods against direct peripheral BP and
existing non-individualized (NITF) methods.
The proposed research project consists of two major parts: 1) collection of central aortic
and peripheral BP data, and 2) evaluation of ITF methods using these data. BP data will be
collected from the patients already undergoing procedures with cardiopulmonary bypass.
Central aortic, radial and femoral BP waveforms will be simultaneously recorded. A
non-invasive finger BP waveform will also be recorded. The pair of radial-femoral or
finger-femoral BP recordings will be analyzed by the two-measurement ITF [3-5] to estimate
individual-specific central aortic BP waveform. In addition, radial or finger BP recording
will be analyzed by the single-measurement ITF [6] to estimate individual-specific central
aortic BP waveform. The feasibility and validity of the methods in human subjects will be
assessed by comparing the estimated central aortic BP waveforms with the measured central
aortic BP waveforms. Its relative performance with respect to direct peripheral BP and
existing NITF methods will be analyzed by comparing the difference between measured central
aortic versus ITF-derived central aortic BP waveforms with those between measured central
aortic versus direct peripheral and NITF-derived central aortic BP waveforms.
Cardiovascular disease accounts for 1/3 of all deaths and more than $22 billion
healthcare-related cost in Canada every year [7]. The proposed research project will make
significant contribution in improving clinical care through the use of ITF in detection and
diagnostics of cardiovascular disease. In fact, the proposed research project is a key
initial step towards our long-term research objective of non-invasive cardiovascular disease
diagnostics. The success of the proposed research project will be a milestone to demonstrate
that ITF can serve as minimally invasive and/or non-invasive approach whose individually
estimated central aortic BP waveform and cardiovascular system model can be exploited for
detection and diagnostics of a number of cardiovascular disease, e.g. aortic valve
impairment and peripheral arterial disease, by virtue of diagnostically relevant health and
disease conditions of central and peripheral arterial vessels that ITF can deliver.
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Observational Model: Case-Only, Time Perspective: Prospective
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