Prostate Cancer Clinical Trial
Official title:
A Pilot Study of 11C-Acetate Positron Emission Tomography (PET) and 3 Telsa Magnetic Resonance Imaging (MRI) in Men With Prostate Cancer Undergoing Prostatectomy
Background:
- Prostate cancers are difficult to see on most imaging studies such as X-rays, computed
tomography (CT) scans, conventional magnetic resonance imaging (MRI) scans and
conventional positron emission tomography (PET) scans.
- An experimental radioactive tracer called 11C-acetate accumulates in prostate tumor
cells and may help find prostate cancers more accurately than other imaging methods.
Objectives:
- To determine the accuracy of prostate tumor imaging using the tracer 11C-acetate.
Eligibility:
- Patients 18 years of age and older who are undergoing surgery for localized prostate
cancer at the National Institutes of Health (NIH) Clinical Center.
Design:
- Patients have a positron emission tomography (PET scan). For this test, an intravenous
(IV) line is placed in the patient's arm and the patient lies on a table inside the
donut shaped scanner. (11)C-acetate is injected into the vein through the catheter and
images of the lower pelvis and abdomen are obtained over 30 minutes.
- Patients have an endorectal coil MRI scan. For this test, a tube is placed in the
rectum, just behind the prostate, to increase the amount of signal received by the
magnetic resonance (MR) unit. Other coils may be wrapped around the pelvis to further
improve the quality of the scan. The patient lies on the scanning table for about 75 to
90 minutes while images are obtained. During the scan, a contrast agent called
gadolinium is injected through an intravenous (IV) line to brighten the images.
Background:
- Accurate localization of prostate cancer (PC) is important in developing targeted
minimally invasive therapies. While T2 weighted imaging, dynamic contrast enhanced
(DCE) imaging, diffusion weighted imaging (DWI), and magnetic resonance (MR)
spectroscopy imaging performed at 3T is a useful technique for localizing prostate
cancer, it has limitations both in sensitivity and specificity.
- Positron emission tomography (PET) radiopharmaceuticals are more sensitive than
magnetic resonance imaging (MRI) for the detection of cancers; however, the resolution
of PET is inferior to MRI. Therefore, a combined PET/MR approach might be desirable.
- We propose to evaluate the utility of a PET radiopharmaceutical, (11C) acetate
((11C)AC) for the detection of PC within the prostate and compare its distribution with
T2 weighted imaging, dynamic contrast enhanced (DCE) imaging, diffusion weighted
imaging (DWI), and MR spectroscopy imaging preformed at 3T.
- Unlike fludeoxyglucose F18(18F)FDG, a routinely used PET radiopharmaceutical which is
excreted by the urinary system and accumulates in the bladder, limiting its utility in
pelvic imaging, (11C)AC has low physiologic distribution in the pelvis. Several studies
involving small numbers of patients have demonstrated that (11C)AC PET imaging can
localize in pelvic nodes involved with prostate cancer (PC).
- Dynamic (11C)AC PET/CT examination will be performed in patients with biopsy proven
prostate cancer (estimated enrollment 40) who will also undergo prostate/pelvic 3T
endorectal coil MR/magnetic resonance spectroscopic imaging (MRSI) followed by surgical
resection (+/- pelvic lymphadenectomy).
- Histological comparison with the PET/CT and MRI results will be conducted. This study
of (11C)AC in PC will permit the direct comparison of MR/MRSI and (11C)AC PET/CT in the
detection of prostate cancer within the prostate.
Objectives:
Primary Objective:
- To compare the biodistribution of (11C) acetate ((11C)AC) PET/CT imaging in tumor and
non-tumorous regions of the prostate in patients with known prostate cancer.
Secondary Objective:
- To examine the diagnostic accuracy of the standardized uptake value (SUV) of (11C)AC
obtained using PET/CT imaging for detecting region (sextant)-specific malignancy using
receiver operating curves (ROC).
- To examine whether pelvic biodistribution of (11C)AC PET/CT imaging predicts
sextant-specific malignancy better than T2 weighted imaging, dynamic contrast enhanced
(DCE) imaging, diffusion weighted imaging (DWI), and MR spectroscopy (MRS) imaging
performed at 3T.
- To evaluate for potential physiological effects of (11C)AC
- To correlate the intensity of (11C)AC uptake with histopathologic Gleason Grade
- Tabulate the incidence of extraprostatic lesions accumulating(11C)AC PET/CT detection
which are suspicious for extraprostatic disease by comparing suspicious lesions on
(11C)AC PET/CT with standard of care diagnostic imaging modalities, additional biopsy
results, or clinical follow-up performed at the discretion of the referring physician.
Eligibility:
- Participants must be scheduled to undergo standard of care prostatectomy for presumed
localized prostate cancer at the National Institutes of Health (NIH) Clinical Center.
- Recent (within 12 months of study entry) biopsy indicating the presence of
adenocarcinoma of the prostate gland
- Participant must be 18 years or older
- Serum creatinine within 1 week prior to MR imaging less than or equal to 1.8mg/dl AND
epidermal growth factor receptor (eGFR) must be greater than 30 ml/min/1.73m^2
- Eastern Cooperative Oncology Group (ECOG) Performance score of 0 or 1
- Participants may not have received androgen deprivation therapy or pelvic radiation
therapy
Design:
- Participants with prostate cancer scheduled for prostatectomy at the NIH Clinical
Center will undergo 30-minute dynamic (11C)AC PET/CT imaging, and endorectal
coil/pelvic T2 weighted, DCE, DWI, and MRS imaging performed at 3T.
- We will accrue 40 participants to this study.
;
Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Diagnostic
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