Lung Cancer Clinical Trial
Official title:
The Use of Breathing Synchronized PET/CT Imaging In the Detection and Quantification of FDG Uptake in Lung Nodules
The purpose of this study is to see if researchers can improve the detection of lung cancer
by using a new method which will help us to take multiple snapshot images of the lungs while
the patient is breathing. We are also investigating whether with the help of this new method
we can better measure the actual amount of radioactivity that is taken up by the cancer. The
name of this new method is respiratory gated PET/CT. Previous research has shown that PET
scans may be useful in investigating whether cancer has spread to other parts of the lung or
body. Using our standard method, smaller cancers are sometimes difficult to detect in the
lungs because the PET images are taken over several minutes and the patient is breathing
during that time. That means the cancer may appear "blurred" on the images (like a poor
photograph) or may not be identified at all. In this study, in addition to the images that
were ordered by your doctor, we will take additional images of your lungs while you are
following a breathing command ("breath in-hold-breath out"). We will then compare the images
of your cancer during the regular PET study with those taken during the breathing commands.
The hypotheses to be tested in this pilot study are:
1. Respiratory gated image acquisition reduces partial volume effects on PET image that
may render lung lesions undetectable.
2. Breath-hold CT may detect small lung lesions that are beyond the limit of detection in
shallow-breathing CT scans, related to respiratory motion which causes blurring
artifacts around smaller lung lesions.
Positron emission tomography is now a clinically accepted imaging modality for the evaluation of pulmonary nodules as well as for the staging of patients with lung cancer. PET imaging with the radiotracer 18 Fluoro-deoxy-glucose (FDG) has a high accuracy for the differentiation between benign and malignant lung lesions and for the detection of nodal metastases. This is because malignant tumors are characterized by an increase in glucose metabolism as compared to most normal tissues. In clinical practice, PET images are interpreted visually or semiquantitatively, using a standardized uptake value (SUV). Previous studies have shown that SUV thresholds can be used with high accuracy to distinguish between benign and malignant lesions that exhibit increased uptake of FDG. In addition, the SUV is frequently used as a surrogate marker for the evaluation of a response to chemo- or radiation therapy. Unfortunately, the accuracy of SUV measurements may be affected by lesion motion during the image acquisition. This is a particular problem in PET imaging of the lung. Normal respiratory motion, and hence lesion motion, causes a smearing effect, whereby the concentration of radiotracer within a given lesion is spread out over a larger area. For the same reason small lesions and lesions with relatively low uptake of radiotracer may become undetectable during normal breathing (partial volume effect). PET images are acquired for several minutes, image acquisition during breath hold is therefore not an option for clinical scans. However recently published work from UCLA (Auerbach et al. J Nucl Med., February 2006) shows that 3 lesions per patient on average can be missed on shallow breathing scans compared to breath-hold CT scans. These lesions did not show any FDG uptake on clinical PET scans. The goal of this pilot study is to evaluate whether respiratory gating during PET image acquisition enables the detection of those lesions which are identified during the breath-hold CT scan. ;
Endpoint Classification: Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Diagnostic
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