Myocardial Ischemia Clinical Trial
Official title:
Magnetic Resonance Imaging for the Detection of Oxygen Changes in the Heart
The ability of a new SSFP-based BOLD MRI sequence to assess myocardial oxygenation changes in response to coronary flow changes induced by adenosine and increased CO2-partial pressure will be examined in healthy volunteers and patients with suspected coronary artery disease. Also the susceptibility of a new SSFP-based BOLD sensitive MRI sequence to changes in arterial oxygenation will be examined. This will help understand the physiologic basis of oxygen sensitive imaging of the heart.
A new SSFP based T2 and T2* sensitive sequence which provides good BOLD contrast will be
used. It was developed by researchers at the Stephenson CMR Centre and Northwestern
University of Chicago. Its major advantage to previous BOLD sensitive sequences is its lower
susceptibility to motion artifacts.
MR imaging is performed with a commercial 1.5 T Siemens MR scanner (Siemens Avanto). In
order to obtain a homogeneous magnetic field an additional surface chest coil is used in
combination to the body coil. Three short axis views representing basal, mid and apical
slices are set up and are used throughout the study. If the volunteer has to be moved from
their position for any reason, similar short axis views will be attempted.
In order to improve and further develop the MRI sequence the technique will be used in a
arm-cuff model in healthy volunteers, using reactive hyperemia, which is easier to image
than the heart. The BOLD-MRI signal intensity of the forearm will be assessed during a
short, 3 min. lasting upper arm-cuff occlusion and the following reactive hyperemia.
Main interest of the study is the examination of the heart of healthy volunteers as well as
patients with suspected coronary heart disease with this BOLD-MRI technique. The signal
intensity of the myocardium at rest and after different coronary flow stimulation will be
assessed. These stimuli will be pharmacologic (adenosine) as well as changes in arterial CO2
and O2 pressure.
All subjects that will undergo changes in their breathing gases, will first be examined in
the vascular research laboratory of Dr. M. Poulin. There the subjects will be familiarized
with the modified end-tidal forcing system (MEFS) and their individual response to changes
in breathing gases will be assessed. A complete dry-run of the breathing protocol will be
performed including 2 capillary blood gas analysis. On a second day subjects will be studied
in the temperature-controlled MR scanning room at Stephenson CMR Centre in a fasting state
for the previous 4 hours. This includes refrain from caffeine and nicotine in these
preceding 4 hours. Prior to baseline scanning, capillary blood will be sampled from the
finger for blood gas, hemoglobin and hematocrit analysis. Thereafter, the volunteer will be
connected to the MEFS. A baseline scan will then be performed comprising of localization,
cine imaging, cross sectional flow measurement of the coronary sinus (CS) and BOLD MRI of
three representative short axis slices. Then an intravenous adenosine infusion will be
started. After 3 min. MR scan will be repeated. After 5 min. of rest another baseline will
be recorded. Then successively the carbon dioxide pressure will be increased in two steps to
40 and 45 mmHg. After a resting period of 5 min, another baseline scan will be performed.
Then oxygen partial pressure of the inspired air will be reduced in 3 steps as described in
the following paragraph until an inspiratory oxygen partial pressure of 45 mmHg is achieved.
This will reflect an arterial oxygen saturation of approximately 90, 85 and 80%. At each
step, BOLD MRI (3 axial slices) and cross sectional flow measurements of CS will be
performed. Following 5 minutes of rest another baseline scan will be performed. Throughout
experimentation the subject will be connected to the METFS and we will measure ventilation,
blood pressure (noninvasive), heart rate (electrocardiogram) and arterial oxygen saturation
(pulse oximetry).
Image-analysis: A region of interest will be drawn around the myocardium of each short axis.
The averaged signal intensity is assessed and compared to baseline after adenosine infusion
and at the different levels of arterial oxygenation and carbon dioxide concentration.
Additionally, differential analysis for subendocardium and subepicardium will be performed.
Coronary flow in the coronary sinus will be calculated using phase contrast MRI. This
technique was first described by van Rossum, validated in phantoms and animal studies and
successfully used in human patient studies. Because of the relatively small diameter of the
CS, absolute flow values may not be very accurate; therefore the relative change between
different levels of hypoxia will be calculated.
End-points:
BOLD SI in the myocardium defined as the averaged signal intensity of the myocardium.
Relative flow changes in CS to baseline.
;
Allocation: Non-Randomized, Endpoint Classification: Safety Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Diagnostic
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