Clinical Trial Details
— Status: Completed
Administrative data
NCT number |
NCT03065725 |
Other study ID # |
PETCT2 |
Secondary ID |
|
Status |
Completed |
Phase |
|
First received |
|
Last updated |
|
Start date |
February 1, 2017 |
Est. completion date |
January 1, 2022 |
Study information
Verified date |
May 2023 |
Source |
Aarhus University Hospital |
Contact |
n/a |
Is FDA regulated |
No |
Health authority |
|
Study type |
Observational
|
Clinical Trial Summary
The aim of this study is to examine if late FDG-PET/CT images after intravenous FDG injection
has a higher sensitivity and specificity in detecting local lymph node metastases in patients
with muscle invasive BC than FDG-PET/CT images 60 minutes after FDG injection. The latter
procedure has been used routinely until now.
Description:
Background: Approximately 900 patients are diagnosed with invasive bladder cancer (BC) in
Denmark each year. Approximately 50% are diagnosed with non-muscle invasive BC (T1) and
approximately 50% are diagnosed with a muscle invasive BC (T2-4). Male-female ratio is 75% -
25% and the median age among all diagnosed patients at time of diagnose is 73 years (range 32
- 98) (national data from September 1st 2014 to august 31st 2015).1 One third of all
diagnosed patients will be treated with surgical removal of the urinary bladder, radical
cystectomy (RC). Additional 14% will receive curative intended radiotherapy. At the
Department of Urology, Aarhus University Hospital, approximately 120 patients will be treated
with RC due to BC every year.
2-[18F]-Fluoro-2-deoxy-D-glucose (FDG) - positron emission tomography (PET) /computed
tomography (CT) is standard for primary staging at Aarhus University Hospital, Denmark, when
evaluating patients with muscle invasive BC before radical curative intended treatment.
Evaluation of disease stage is done by investigation for lymph node metastasis and non-local
metastases separately.
FDG is a radioactively marked glucose analogue used as a tracer for cells with high glucose
uptake. The uptake of glucose in most malignant cells are much greater than the glucose
uptake in normal cells. Because of this, FDG can be used as a tracer in the diagnosis of
cancers and hereby also BC. However, FDG is not a cancer specific tracer. Cells of the immune
system like neutrophil leucocytes, macrophages and lymphocytes also have high glucose uptake
and thus, high FDG uptake. Being a glucose analogue, the uptake of FDG in the cells is
similar to the uptake of glucose by, the transport protein GLUT-1. Inside the cells FDG is
phosphorylated into FDG-6-phosphate by the enzyme hexokinase. FDG-6-phosphate is not
metabolized further and is trapped inside the cells. Malignant cells have a tendency to
up-regulate both GLUT-1 and hexokinase which results in increase FDG uptake in cancer cells.
Hereby optimizing imagine of primary tumour and possible metastasis but also possible
inflammatory changes.
After intravenous injection of FDG, the distribution of FDG in the body can be visualized by
performing a PET-scan. FDG-PET has a high sensitivity in detecting even small malignant
changes but is not very specific to show the anatomical localization of these changes. Thus,
the FDG-PET is combined with a CT-scan, which has a high sensitivity in anatomical
localization. Hybrid PET/CT scanners are now widely used for imaging.
International studies have shown that FDG-PET/CT is superior to CT and magnetic resonance
(MR) alone in detecting lymph node metastasis in patients with BC.2,3
Aim: The aim of this study is to examine if late FDG-PET/CT images after intravenous FDG
injection has a higher sensitivity and specificity in detecting local lymph node metastases
in patients with muscle invasive BC than FDG-PET/CT images 60 minutes after FDG injection.
The latter procedure has been routinely until now.
Hypothesis: FDG-PET/CT after 180 minutes post injection (PI) will have a higher specificity
than FDG-PET/CT after 60 minutes PI regarding differentiation between local lymph node
metastasis and benign inflammatory changes in local lymph nodes when evaluating patients with
muscle invasive BC before radical treatment.
Method: 200 consecutive patients diagnosed with muscle invasive BC and candidate for radical
cystectomy will be examined with an FDG-PET/CT scan as primary staging for evaluation of
local lymph node metastasis and distant metastasis. In our standard procedure, the patient is
given intravenous FDG and will rest for 30 minutes and after 60 minutes a PET/CT-scan will be
performed. The PET/CT scan will be performed over the course of 25-40 minutes. In this study,
the included patients will have an additional PET/CT (low dose)-scan of the pelvic area
performed 180 minutes PI.
The FDG-PET/CT scans will be evaluated by a experienced specialist in nuclear medicine
together with a experienced specialist in radiology. SUVmax values of regional lymph nodes on
early and late images will be compared with histology of removed lymph nodes.
Lymph node dissection during cystectomy will be performed according to an extended template
with the aortic bifurcation as the proximal limit. Lymph nodes or lymph node packages that
are FDG-positive on the preoperative PET/CT will be send marked separately for pathological
evaluation if possible. All dissected lymph nodes will undergo pathological evaluation.
Histological evaluation will be performed by a specialist from the Institute of Pathology on
histological tissue either from a needle biopsy or from dissected lymph nodes at the time of
cystectomy.
The study will take place between the 1th of January 2017 and until a total of 100 patients
are included, which is expected to be by the end of 2018.
Ethical aspects:
Patients included in this study will only receive small additional radiation dose (1-1 1/2
mSv) due to the extra low dose CT of the pelvic area. The patients will not receive further
radiation dose from FDG. The patients will have a longer stay at The Department of Nuclear &
PET Center due to the extra PET/CT scan 2 hours after the first PET/CT scan. Duration of the
extra scan of the pelvic area is 6-8 min. The radiation dose from the standard FDG PET/CT in
bladder cancer is 18-28 mSv.
The regional ethics committee of Central Denmark Region was notified of the study. They
considered this to be quality assurance and hence had no objections to the performance of the
study.
After one year inclusion preliminary results will be evaluated. It is expected that 50
patients will be included by this time.
Perspectives: As of today it is common practice that all patients who are found possibly
suitable for cystectomy due to BC will get an FDG-PET/CT performed prior to treatment to
evaluate their disease stage. The sensitivity for FDG-PET/CT in detecting malignant local
lymph nodes is high. The specificity, however, is invert proportional depending on SUVmax
cut-off. If a method of improving the specificity could be found this would mean a
significant difference for some of the patients who may get a better treatment due to their
BC with lower mortality over time.
If the study finds that PET scan 180 minutes after FDG injection has a higher specificity in
detecting malign local lymph nodes in patients with BC than PET scan after 60 minutes, we
will change our procedure according to this. As a consequence, it will be better to evaluate
the BC patients prior to potential curative treatment.