Study of Palliative Radiotherapy for Symptomatic Hepatocellular Carcinoma and Liver Metastases
Hepatocellular CarcinomaLiver MetastasesThe purpose of this study is to see whether one dose of palliative radiation therapy directed to the liver in combination with standard BSC might help to reduce liver pain/discomfort due to cancer when compared to getting standard BSC alone.
Immunotherapy With Y90-RadioEmbolization for Metastatic Colorectal Cancer
Colorectal Cancer MetastaticColon Cancer8 moreThis clinical trial will be conducted as a single-center, open-label, Phase I/2 trial to evaluate the feasibility and safety of Yttrium-90 radioembolization (Y90-RE) in combination with a fixed dose of of immunotherapy (durvalumab - 750 mg) in subjects with liver-predominant, metastatic colorectal cancer (mCRC), which is mismatch repair proficient/microsatellite stable (pMMR/MSS).
Pilot Phase 2 Study Whole Brain Radiation Therapy With Simultaneous Integrated Boost for Patients...
Brain MetastasesThis trial is a pilot, Phase 2, sequential two-cohort study designed to test two de-escalated whole brain radiation therapy (WBRT) dose levels and assess their ability to maintain acceptable in-brain distant control. The WBRT dose would decrease as the study moves forward, both in terms of absolute value and equivalent dose in 2 Gray fractions (EQD2) (as determined by the linear quadratic radiobiological model). The absolute value of the simultaneous integrated boost (SIB) dose will change with each dose level because the number of fractions delivered will depend on the WBRT dose. As such, the SIB dose will be manipulated such that the EQD2 will remain essentially equivalent despite the difference in the number of fractions delivered. This design will ensure that the only variable is the change in WBRT dose. The concept is that WBRT with SIB would be expected to maximize both local and in-brain distant control as has already been shown in studies exploring WBRT with SRS boost. However, by itself WBRT with SIB does not address the concern over neurocognitive outcomes. Therefore, investigators hypothesize that there is a lower WBRT dose threshold that will maintain acceptable in-brain distant control, particularly in the setting of a SIB to gross lesions to maintain treated lesion control. In addition, lower overall brain dose (including lower hippocampal dose without specific hippocampal avoidance) may potentially improve neurocognitive function. Investigators are also interested in evaluating treated lesion control, overall survival, neurocognitive sequelae of therapy, quality of life, performance status, and adverse effects of therapy. Biomarker identification for potential correlative circulating tumor DNA and microRNA is an exploratory endpoint to generate data for future prospective evaluation.
Treatments for Brain Metastases With Poor Prognostic Factors
Brain MetastasesThe goal of this observational study is to learn about treatments in brain metastases with poor prognostic factors. The main questions it aims to answer are: What kind of local treatment provides a survival benefit for patients with poor prognostic factors? What kind of systemic treatment provides a survival benefit for patients with poor prognostic factors? Will the combination of local treatment and systemic treatment provide a survival benefit for patients with poor prognostic factors? Participants will be asked to provide personal information about their living status, symptoms, and disease control during the follow-up.
Study of PAT in Patients With Solid Tumor Cancers
MetastasisSolid TumorThis is a single center Phase I study with extension of peptide alarm therapy (PAT) administered by intratumoral (IT) injection during the 1st course of a standard of care intravenous PD-1/PD-L1 inhibitor for the treatment of locally advanced or metastatic solid tumor cancers that has failed to be controlled after one or more prior therapies including a previous PD-1/PD-L1 inhibitor
Gadoxetate Abbreviated MRI in Metastatic Colorectal Cancer
Liver Metastasis Colon CancerAfter a patient is diagnosed with colon cancer, they receive a CT of the chest, abdomen, and pelvis to see if the cancer has spread (metastasized) to other parts of the body. A common site for the cancer to spread to is the liver. If an abnormality is seen in the liver on CT, sometimes an MRI of the liver is required to determine a) whether it is cancer or not and b) whether there are small tumours in the liver that were not visible on CT. During the MRI, the patient is injected with intravenous (IV) contrast. This makes liver lesions more conspicuous and also helps determine if they are cancerous or not. The most commonly used IV contrast agent is called Gadovist. However, there is another IV contrast agent called Primovist that is better at detecting liver metastases from colon cancer than Gadovist. This is very important information for surgeons, because if they considering cutting out (resecting) the liver tumours, they want to make sure they get them all. Unfortunately, Primovist is used sparingly in Canadian hospitals because it is more expensive than Gadovist and the MRI takes longer. Some early small studies have suggested that it may be possible to shorten the Primovist MRI significantly (e.g. from 60 minutes to 15 minutes), making it economically feasible to offer Primovist to more patients. However, there have not been any large studies performed to confirm these findings. The purpose of this study is to compare the accuracy of colon cancer liver metastasis detection between a regular, full-length Primovist MRI versus a shortened Primovist MRI protocol. The economic impact will also be assessed.
A Pilot Study to Assess the Clinical Utility of 18F-Fluciclovine (Axumin) PET-CT for Detecting True-versus...
Brain MetastasesTo learn if 18F-Fluciclovine (Axumin) PET-CT scans can be used to better detect brain metastatic lesions in patients who are receiving immunotherapy.
PSMA Response in Metastasized Hormone Sensitive Prostate Cancer - Enzalutamide
Prostate CancerPSMA-PET/CT response measurements after LHRH agonist and upfront enzalutamide therapy in men diagnosed with de novo metastasized hormonal sensitive prostate cancer.
Phase II/Pilot Study of 2nd Generation Anti-CEA Designer T Cells in Adenocarcinomas
Metastatic CancersT cells can penetrate virtually every biologic space and have the power to dispose of normal or malignant cells as seen in viral and autoimmune diseases and in the rare spontaneous remis-sions of cancer. However, T cells are easily tolerized to self or tumor antigens and "immune surveillance" has manifestly failed in every cancer that is clinically apparent. It is the goal of these studies to supply the specificities and affinities to patient T cells without regard for their "endogenous" T cell receptor repertoire, directed by antibody-defined recognition to kill malignant cells based on their expression of antigen. We will achieve this by preparing chimeric IgCD28TCR genes in mammalian expression vectors to yield "designer T cells" from normal patient cells. This extends the approach of Anderson, Rosenberg and co-workers to introduce or augment expression of genes in patients' T cells in a therapeutic setting. Prior studies in model systems demonstrated that recombinant IgCD28TCR could direct modified T cells to respond to antigen targets with IL2 secretion, cellular proliferation, and cytotoxicity, the hallmarks of an effective, self-sustaining immune response. It therefore becomes of paramount interest to extend these studies to a human system of widespread clinical relevance to explore the clinical potential of this new technology. The target antigen for these studies is carcinoembryonic antigen (CEA) which is predominantly expressed on tumors of the colon and rectum, breast, pancreas and other sites.
OAR-Based, Dose Escalated SBRT With Real Time Adaptive MRI Guidance for Liver Metastases
Liver MetastasesStereotactic Body Radiation Therapy1 moreStereotactic Body Radiation Therapy (SBRT) is a noninvasive local therapy with proven efficacy in a number of solid tumor types. However, colorectal cancer (CRC) liver metastases have been shown to be particularly resistant to SBRT, and often are found to have significantly worse rates of control compared with other histologies. Higher SBRT dose was recently shown to improve local control in CRC pulmonary metastases, however, increasing dose delivery with SBRT has been limited based on the risk of toxicity to adjacent structures, and the ability to visualize them during treatment. This is particularly relevant in treating liver tumors, as tumor and small bowel movement can often make tumor targeting and organs-at-risk (OAR) avoidance especially difficult. MRI-guided SBRT for liver tumors is both safe and feasible and offers an as yet unprecedented opportunity to achieve the highest possible safe dose to liver tumors. The purpose of this trial is to identify a safe maximum tolerated dose level for MRI-guided SBRT treatment of bowel and liver metastases, respectively. Eligible participants will be on study for up to 12 months.