3T Endorectal Magnetic Resonance Spectroscopic Imaging (MRSI) of Prostate
|ClinicalTrials.gov Identifier: NCT00429338|
Recruitment Status : Terminated (Slow Accrual)
First Posted : January 31, 2007
Last Update Posted : January 9, 2015
The objective of this study is to evaluate the feasibility of 3T magnetic resonance spectroscopic imaging (MRSI) of the prostate in improving the spectral resolution, using a perfluorocarbon compound (PFC)-filled endorectal coil.
Specific Aim 1: To compare the spectral quality, measured in Hz (linewidth), of 3T MRSI performed with an air-filled endorectal coil (AIR-MRSI) and a PFC-filled endorectal coil (PFC-MRSI).
Specific Aim 2: To compare the quality of spectra of PFC-MRSI by grading the overall quality of MRSI data of each patient subjectively as being "excellent," "good," "fair," "poor," and "non-diagnostic," based on the status of subjective spectral resolution of Cho, Cr and Po peaks, signal to noise ratio (SNR), baseline distortion, and fat contamination.
|Condition or disease||Intervention/treatment|
|Prostate Cancer||Procedure: AIR-MRSI Procedure: PFC-MRSI|
MRSI is a type of magnetic resonance imaging (MRI) that uses the same type of scanner as a standard MRI. Unlike standard MRI, which takes pictures of the anatomy (body regions), MRSI takes pictures of the metabolic features of the body. Prostate cancer tissue has certain differences in its metabolism (chemical makeup) that are not seen in normal tissue. MRSI is used to detect prostate tumors by measuring the metabolic features, and an endorectal (inside of the rectum) coil is used. The coil is like an antenna.
Endorectal coils inflated with air are commonly used to detect prostate tumors and measure the status of the disease using a 1.5T (lower-powered, standard clinical) scanner. However, the accuracy of endorectal MRSI scanning still needs improvement. Researchers want to find out if the quality of endorectal MRSI scanning can be improved by using a stronger (3T) scanner and/or using PFC in the endorectal coil instead of air. PFC is a clear and odorless liquid that is known to be virtually non-toxic to the human body. It has been used as an oral contrast (swallowed by mouth) for standard MRIs. As opposed to air, PFC is physically very similar to prostate tissue, which may improve the quality of the MRSI images.
If you agree to take part in this study, you will have 2 endorectal MRSI studies (one with air and one with PFC). The MRSI study with air is diagnostic and considered standard of care, and the MRSI study with PFC is investigational. Before being inserted into your rectum, the coil will be filled with air in order to test for any leakage. You will lie on one side, inside of a 3T MRI scanner, and the coil (covered with protective latex) will be inserted into your rectum. Having the coil inserted is similar to having an enema tip inserted. The coil will be filled with air, and you will lie on your back so the first MRSI study can be completed. The study doctor will carefully check the coil to be sure it is centered at the right place to cover the entire prostate.
After the first MRSI study is completed, the air will be removed using a syringe. The coil will then be filled with PFC, and the second MRSI study will be repeated in the same manner. Once both studies are completed, the coil will be removed after the PFC is removed from the coil. There will be no direct contact between the air or PFC within the coil and your body. In total, the 2 MRSI studies should take about 60 minutes.
After the MRSI studies are completed, researchers will study the information with a special computer to compare the technical quality of the 2 sets of MRSIs. Your participation in this study will be over. Your doctor will receive a report of your diagnostic exam (the MRSI study with air).
This is an investigational study. 3T scanners and the software for routine MRI used for this study are FDA-approved. The use of air in the endorectal coil is a standard procedure. MRSI/MRI equipment for a 1.5T scanner is commercially available and FDA-approved for routine clinical care. PFC used for this study and the software for MRSI acquisition at a 3T scanner have not been FDA-approved. Up to 20 patients will take part in this study. All will be enrolled at M. D. Anderson.
|Study Type :||Interventional (Clinical Trial)|
|Actual Enrollment :||8 participants|
|Intervention Model:||Single Group Assignment|
|Masking:||None (Open Label)|
|Official Title:||Feasibility Study of 3T Endorectal Magnetic Resonance Spectroscopic Imaging (MRSI) of Prostate|
|Study Start Date :||January 2007|
|Primary Completion Date :||October 2013|
|Study Completion Date :||October 2013|
Endorectal MRSI with Air
3T Magnetic Resonance Spectroscopic Imaging (MSRI) scan performed with an air-filled endorectal coil (AIR-MRSI).
Endorectal MRSI with PFC
3T Magnetic Resonance Spectroscopic Imaging (MSRI) scan performed with a perfluorocarbon compound (PFC)-filled endorectal coil (PFC-MRSI).
- Spectral quality (linewidth) of 3T MRSI performed with air-filled endorectal coil (AIR-MRSI) and a PFC-filled endorectal coil (PFC-MRSI) [ Time Frame: 60 Minutes for 2 sets of MRIs ]Comparison of each linewidths (measured in Hz) between two modalities: endorectal magnetic resonance spectroscopy imaging (MRSI) of prostate using "3 Tesla (3T)" scanner with 1) perfluorocarbon compound (PFC) within endorectal coil versus 2) air.
- Total number of patients for each grade from each group with AIR-MRSI and PFC-MRSI [ Time Frame: Patients: 60 Minutes for 2 sets of MRIs; Study Duration 4 Years ]The quality of PFC-MRSI and AIR-MRSI will be graded subjectively as being "excellent," "good," "fair," "poor," and "non-diagnostic," based on the status of subjective spectral resolution of Cho, Cr, Po, and Ci peaks, signal-noise-ratio (SNR), baseline distortion, and fat and seminal vesicle contaminations.
Please refer to this study by its ClinicalTrials.gov identifier (NCT number): NCT00429338
|United States, Texas|
|UT MD Anderson Cancer Center|
|Houston, Texas, United States, 77030|
|Principal Investigator:||Haesun Choi, MD||M.D. Anderson Cancer Center|