Cardiac Magnetic Resonance Imaging Clinical Trial
Official title:
Real-time MRI Pericardiocentesis Using Passive Needles
Background:
- Pericardiocentesis uses a needle and small tube to drain fluid from space around the heart.
The most common reason to perform this procedure is that the fluid is interfering with heart
function. This procedure is usually guided by X-rays. However, researchers want to try the
procedure using magnetic resonance imaging (MRI) instead of X-rays. MRI guidance may be more
precise than X-rays, which can make the procedure easier and more effective.
Objectives:
- To test whether MRI guidance can improve pericardiocentesis.
Eligibility:
- Individuals at least 18 years of age who need to have pericardiocentesis.
Design:
- Participants will have a physical exam before the procedure. Blood samples will be
taken.
- The pericardiocentesis will be performed using MRI guidance. The procedure may take up
to 2 hours.
- If for some reason the MRI guidance is not successful, participants will have the
regular X-ray procedure. The MRI system will be used to take high-quality pictures
afterward to check the results....
Pericardiocentesis is a minimally invasive procedure to drain fluid from the pericardial
space, created by the pericardial sac which cradles the heart. The most common reason to
perform this procedure is that pericardial fluid is interfering with heart function. The next
most common reason is to obtain pericardial fluid for testing to make a clinical diagnosis.
Pericardiocentesis is performed using a long needle that may be guided by various means
including blindly without imaging guidance, using electrocardiography electrodes to determine
when the needle accidentally touches the heart, using echocardiography, using X-ray with- or
without- contrast injections, or using a combination. Each has its advantages and
limitations.
We have developed real-time magnetic resonance imaging (MRI) to guide heart catheterization
with tissue visualization but without X-ray radiation. When used to guide needle access to
the pericardial space or from there even into heart cavities, MRI provides superb imaging
guidance. What is especially valuable about MRI is that it provides the entire thoracic
context of needle access, allowing the operator to avoid critical structures including the
liver, lung, pleural space, and heart muscle.
We have developed real-time magnetic resonance imaging (MRI) to guide heart catheterization
in patients with tissue visualization but without X-ray radiation. We also have used these
developments to guide needle access to the heart and pericardium in animal models.
In this protocol we test the safety and feasibility of pericardiocentesis in adult patients,
using commercially available MRI-compatible (passive) needles.
If successful, this will enable more advanced minimally invasive procedures in adults and
children.
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