Endothelial Function Clinical Trial
Official title:
Assessment of Endothelial Function Using Blood Oxygen Level-Dependent MRI (BOLD-MRI)
The purpose of this study is to assess the applicability of a new SSFP-based BOLD sensitive
MRI sequence in evaluating endothelial function. Endothelial function will be tested in a
setting of reactive hyperemia in the forearm. In a setting of ischemia-reperfusion, the
effect of transient endothelial function impairment will be tested. Comparison with
endothelial function assessment by brachial ultrasound (FMD) and finger tip plethysmography
(PAT) will be incorporated.
Hypothesis: BOLD-MRI is a feasible tool to assess endothelial function in the human forearm
during reactive hyperemia. There is significant correlation to established flow-mediated
dilation (FMD).
This is a single center study on healthy volunteers. The subjects will be seen by the study
coordinator in the SCMRC to obtain written informed consent and to assess the co-variable
data (vitals, medication, history, contraindications for MRI). The study nurse will schedule
two visits for endothelial function assessment that are at least one but not more than three
weeks apart. Both visits are to be at the same time of day. The initial volunteer will be
assigned an endothelial function assessment with MRI first followed by FMD in the
endothelial function lab. Subsequent volunteers will alternate assignment to FMD or MRI
first to rule out pre-conditioning effects. Simultaneous to FMD assessment, plethysmographic
pulse volume will be evaluated with finger probes on the index finger of each hand. Subjects
will be studied in a temperature-controlled room with minimal background distraction and in
a fasting state for the previous 4 hours. Subjects will also refrain from ingesting caffeine
or nicotine in these preceding 4 hours. Each study day volunteers will undergo two
endothelial function assessments. The first baseline assessment takes place after a 10
minute accommodation period. The volunteer is then subjected to a 15 minute upper arm
tourniquet. The second assessment takes place 15 minutes after the release of the
tourniquet. This so called 'ischemia reperfusion' is known to markedly impair endothelial
function for approximately one hour without affecting the early bloodflow responses to
reactive hyperemia. This effect is reversible and will help to determine the actual
endothelial component of measured BOLD signal changes.
One day: 2 CMR studies without contrast agent to assess endothelial function during reactive
hyperemia. Each will last 15 minutes. A 15 minutes upper arm occlusion with a pressure cuff
in between the 2 measurements will be applied.
Another day: 2 FMD studies with ultrasound to assess endothelial function during reactive
hyperemia. Each will take 15 minutes. Simultaneously a PAT hyperemic index will be measured.
A 15 minutes upper arm occlusion with a pressure cuff in between the 2 measurements will be
applied.
Blood work (fasting glucose, creatinine, lipids, hsCRP), performed by Calgary Labs Services
(CLS).
The effect of the reperfusion ischemia will be tested by individually comparing the BOLD
signal change (BC) at baseline with BC after reperfusion ischemia. Since these are paired,
related data a Wilcoxon rank sum test will be performed and a p value < 0.05 will be
regarded as significant. The same will be done for the FMD and PAT index before and after
reperfusion ischemia.
FMD as the most accepted technique and will be considered as gold standard and a linear
regression analysis of FMD with MBC and TBC will be performed. r2-value will be calculated
and a value of > 0.25 will be considered as reasonable of > 0.5 as good correlation. If the
correlation does not appear linear a Spearman's correlation test will be done.
The correlations between PAT index and FMD and PAT index and TBC will also be assessed with
linear regression analysis.
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Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Diagnostic
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