Prostate Cancer Clinical Trial
Official title:
Applying PET/MR in Oncology - a Prospective Project
Cancer is a global health issue. According to the World Health Organization, Cancer is the
second leading cause of death globally, and is responsible for an estimated 9.6 million
deaths in 2018. In Israel, more than 30,000 new cases of cancer were diagnosed, and more than
11,000 deaths were cancer-related during 2016.
Imaging plays a pivotal role in cancer management, and multiple techniques are used in all
phases of cancer management. The overall morphological, structural, metabolic and functional
information obtained in imaging is used for improved individualized therapy planning.
Different imaging modalities are available during different time points in the natural
history of different malignancies:
Early detection of cancer through screening based on imaging is probably a major contributor
to a reduction in mortality for certain cancers .
Once a diagnosis is made, determining the clinical stage of cancer, meaning the extent of the
disease before any treatment is given, is a critical element in determining appropriate
treatment based on the experience and outcomes of groups of previous patients with similar
stage . Precise clinical staging of cancer is crucial. Not only that this clear non-ambiguous
description is a key factor that defines prognosis, it is also a chief component of
inclusion, exclusion, and stratification criteria for clinical trials. Several cancer staging
systems are used worldwide. The most clinically useful staging system is the tumor, node, and
metastasis (TNM) staging system developed by the American Joint Committee on Cancer (AJCC) in
collaboration with the Union for International Cancer Control (UICC). The AJCC TNM system
classifies cancers by the size and extent of the primary tumor (T), involvement of regional
lymph nodes (N), and the presence or absence of distant metastases (M). There is a TNM
staging algorithm for cancers of virtually every anatomic site and histology, with the
primary exception of pediatric cancers. The clinical TNM (cTNM) classification should be used
to determine correctly the clinical stage of cancer and to help guide primary therapy
planning.
Stage may be defined at several time points during the monitoring period of cancer patients.
When using imaging obtained during the relevant time frame, one may use one of the other TNM
categories to stage correctly the cancer:
For example, imaging is of high value in assessing therapy response during and after systemic
and/or radiation therapy is given . Using imaging data and the clinical posttherapy TNM
classification (ycTNM) is helpful in determining the patient's response to treatment.
In case a patient is given the systemic therapy as a neoadjuvant therapy before a planned
curative surgery, imaging may categorize the patient as a responder vs non-responder. If
categorized as an early non-responder, another therapy or an upfront surgery may be advised,
while eliminating therapy toxicity. If imaging, however, supports major response to
treatment, more conservative treatment and avoidance of surgical intervention may be
considered and change patients quality of life dramatically.
In patients given a systemic therapy as a curative or a palliative therapy, assessing the
response via imaging is crucial as well - if imaging studies support a progressive disease,
changing therapy protocol is advised. In a disease controlled by the therapy, imaging may aid
in guiding follow-up schedule, lifestyle and medical management.
In the context of therapy response assessment, imaging is also important in assessing side
effects of the therapy. Imaging may identify radiation-induced injuries, and may recognize
pathologies associated with chemotherapy, biologic and immunotherapy.
Imaging is also critical when recurrence of malignant disease is suspected. In such cases,
when signs or symptoms suggest local recurrence, or when raised level of a tumor marker is
documented, different imaging techniques can dramatically guide restaging of the disease
using the recurrence-TNM classification (rTNM). In such cases imaging may localize the
recurrent disease and may guide surgical/radiation/systemic therapy .
Different imaging modalities allow assessment of virtually every cancer site and in every
time frame during the continuum of the disease. Imaging aids in assessing tumor's size,
location, and relationship to normal anatomic structures, as well as the existence of nodal
and/or distant metastatic disease. Among the most commonly used imaging modalities are
computed tomography (CT), magnetic resonance (MR) imaging, positron emission tomography (PET)
and ultrasound. In addition to providing key information for assigning the T, N, and M
categories, imaging is invaluable for guiding biopsies and surgical resections.
PET imaging has revolutionized the imaging evaluation of cancer . By exploiting biochemical
and physiologic differences between tumor cells and normal tissues , PET imaging has become
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