Imaging procedures such as 1-(2-\[18F\]FLUOROETHYL)-L-Tryptophan PET/CT in patients with cancers may help doctors assess a patient's response to treatment and help plan the best treatment in the future. The purpose is to see if there can be a better differentiation of tumor and non-tumor tissue where the tumor tissue has a higher uptake of Tryptophan.
In this research study, we will compare the uptake of the tracer on F-Tryp PET/CT in patients with cancers; specifically, to evaluate whether the tumors show increased tracer uptake as compared to non-tumor tissues, using F-Tryp PET/CT. Additionally, we will evaluate the biodistribution (i.e. track where the tracer has traveled in the body) and radiation dosimetry (i.e., absorbed dose of tracer in tissue). These changes may be compared with results of the physical examination and scans (CT and MRI or standard clinical PET) that are done as part of routine clinical care or as part of other studies. Pictures (images) from the PET scan will be made showing the distribution throughout the body of substances containing a small amount of radioactive material.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
24
Radioactive tracer 1-(2-\[18F\]FLUOROETHYL)-L-Tryptophan 0.14mCi/kg/5MBq/kg injection given one time prior to PET Scan.
Karmanos Cancer Institute
Detroit, Michigan, United States
RECRUITINGThe percent difference in tracer uptake values between the tumor mass and the background (non-tumor tissue)
The percent difference in 1-(2-\[18F\]fluoroethyl)-L-tryptophan tracer standardized uptake values, measured between tumor and non-tumor (normal) tissues by PET/CT imaging, in each subject, will be calculated. Mean and standard deviation of the percent differences will be calculated for each tumor type.
Time frame: During procedure (from right after tracer injection to 1-hour post-injection)
Correlation between the 1-(2-[18F]fluoroethyl)-L-tryptophan tracer uptake values and the tracer transport rates measured in the same breast tumor tissue.
The 1-(2-\[18F\]fluoroethyl)-L-tryptophan tracer standardized uptake values and the volume of distribution (characterizing the tracer transport rates) will be measured by PET/CT imaging in the same breast tumor tissues, and the correlation of these two measures will be calculated.
Time frame: During procedure (from right after tracer injection to 1-hour post-injection)
Radiation doses to the various organs.
Radiation doses received by the various organs (heart, lungs, pancreas, gallbladder, liver, small intestines, kidneys, muscle, bladder, ovaries/testes) will be measured from the dynamic 1-(2-\[18F\]fluoroethyl)-L-tryptophan PET/CT images. Mean and standard deviation of the radiation doses will be calculated for each organ.
Time frame: During procedure (from right after tracer injection to 1-hour post-injection)
Overall radiation dose to the study participants.
Overall radiation dose received by the study participants from the PET/CT scan will be calculated from the dynamic 1-(2-\[18F\]fluoroethyl)-L-tryptophan PET/CT images. Mean and standard deviation of the overall radiation dose will be calculated.
Time frame: During procedure (from right after tracer injection to 1-hour post-injection)
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