Clinical Trial Finder

Inclusion Criteria:

• - Two adult patient groups will be eligible for inclusion in this study: Group A: Patients where there is compelling evidence, based on the MRI and/or CT imaging, that a high-grade primary brain tumor is present.

Pathologic confirmation will occur with biopsy or surgery. Patients whose tumor is felt to be inoperable and a biopsy is performed but no surgery. Patients with a newly diagnosed primary malignant brain tumor (WHO Grade III or IV) who will be receiving chemoradiation and who either did not undergo surgical resection or underwent incomplete resection with residual tumor > 1.0 cm in greatest diameter by contrast MRI postoperatively. Group B: Patients with pathologically proven malignant brain tumor (WHO Grade III or IV glial-based tumors) who have undergone chemoradiation and have MRI-documented possible recurrence/progression versus treatment effect (pseudoprogression) within 6 months from the time of completion of chemoradiation.

• - Patients must be 18 years or older for inclusion in this study.

There is little experience with the safety of [18F]FLT or [18F]Fluciclovine in children, and the risks associated with radiation exposure may be increased for children under 18 years old as well.

• - Patients must document their willingness to be followed for at least 24 months after recruitment by signing informed consent documenting their agreement to have clinical endpoints and the results of histopathologic tissue analysis (when tissue becomes available from routine care) entered into a research database.

• - All patients, or their legal guardians, must sign a written informed consent and HIPAA authorization in accordance with institutional guidelines.

• - Determination of pregnancy status: Female patients who are not postmenopausal or surgically sterile will undergo a serum pregnancy test prior to each set of [18F]FLT and [18F]Fluciclovine PET scans.

A negative test will be necessary for such patients to undergo research PET imaging.

• - Pre-imaging laboratory tests must be performed within 28 days prior to the [18F]FLT imaging procedure.

These must be less than 4.0 times below or above the upper or lower limit range for the respective laboratory test for entry into the study (unless clinically not relevant). In those instances where a laboratory value is outside of this range, then such a patient will be ineligible for enrollment unless at the discretion of the PI the abnormal lab value is of no clinical significance to the safety or integrity of the study results. . For follow-up scanning sessions after therapy has been instituted, laboratory testing will also be required due to the use of [18F]FLT. The patients have brain tumors and will have received chemoradiation; therefore, many routine laboratory tests may not be within the typical normal range. As such, a factor of 4.0 times above or below the upper or lower value for the normal range for any laboratory test will also be used to determine the acceptable range for the 2nd and possibly 3rd imaging time points (unless clinically not relevant as explained above). The baseline laboratory testing will include liver enzymes (ALT, AST), bilirubin (total), serum electrolytes, CBC with platelets, prothrombin time, partial thromboplastin time, BUN, and creatinine. For those patients receiving coumadin or another anticoagulant the upper limit for prothrombin time or partial thromboplastin time must not exceed 6 times the upper limit of the normal range. (Appendix E, Laboratory Study Results).

Exclusion Criteria:

• - Patients with clinically significant signs of uncal herniation, such as acute pupillary enlargement, rapidly developing motor changes (over hours), or rapidly decreasing level of consciousness, are not eligible.

• - Patients with known allergic or hypersensitivity reactions to previously administered radiopharmaceuticals.

Patients with significant drug or other allergies or autoimmune diseases may be enrolled at the Investigator's discretion.

• - Patients who are pregnant or lactating or who suspect they might be pregnant.

Serum pregnancy tests will be obtained prior to each set of multi-tracer PET scans in female patients that are not postmenopausal or surgically sterile.

• - Adult patients who require monitored anesthesia for PET scanning.

• - Patients who are too claustrophobic to undergo PET scanning.

• - Known HIV positive patients due to the previous toxicity noted with [18F]FLT in this patient group.

The standard treatment approach for patients with high-grade primary brain tumors includes maximum feasible surgical resection, followed by 6 weeks of concurrent cranial irradiation, and daily low-dose temozolomide chemotherapy; followed by 12 cycles of high-dose temozolomide administered for 5 consecutive days every 4 weeks (Stupp et al., 2005). Contrast-enhanced MRI is the current standard for evaluating the success of therapy and monitoring for tumor recurrence. MRI is typically obtained prior to initial surgery, within 24 hours after surgery, at the conclusions of cranial irradiation, and then every 8 weeks during temozolomide chemotherapy until evidence of recurrence. Despite this careful clinical and radiographic surveillance, and despite decades of research into the histologic and molecular classification of primary brain tumors, our ability to predict tumor behavior remains very limited. Some gliomas will result in overall survival times of only months, whereas other histologically-identical gliomas may yield survivals of years to decades (Curran et al., 1993, Carson et al., 2007). Current assessment of tumor response to therapy is also poor. Patients with complete radiographic response after cranial irradiation often progress rapidly post-irradiation. In contrast, some patients with enhancing masses at the end of chemoradiotherapy may respond dramatically to further chemotherapy alone; or the masses may even disappear in the absence of further therapy, so called "tumor pseudoprogression" (Chamberlain et al., 2007). This confounding situation demonstrates a need for better assessment of tumor response. Improvements in the ability to predict tumor behavior prior to the start of therapy would allow more efficient and effective tumor surveillance; better prognostication; and more appropriate assignment of patients to conventional, aggressive, or investigational therapies early in their clinical courses. This would provide huge economic and social benefits, and could afford decisive insights into brain tumor physiology and biology. Similarly, the ability to identify, earlier and more accurately, whether individual patients were responding to therapy would allow prompt discontinuation of ineffectual treatments and institution of potentially more effective therapies. Previous efforts using imaging for such tasks have generally been limited to a single modality (e.g. MRI) and/or single-tracer (e.g. FDG-PET). However, there is a significant and growing body of evidence that complementary imaging of multiple aspects of tumor physiology (i.e. using multiple PET tracers) can provide greatly enhanced information over imaging with a single modality or tracer alone. In solid tumors, complex interactions exist between blood flow, metabolic activity, and oxygen status which affect metastatic and proliferative activity. Heterogeneous tumors may contain both slow-growing and fast-growing regions that present different profiles of proliferation rates and amino acid uptake.

Arms

Experimental: All Enrolled participants

Multi-tracer PET exams of [18F]FLT and [18F]Fluciclovine

Interventions

Drug: - Multi-tracer PET exams of [18F]FLT and [18F]Fluciclovine

Multi-tracer PET exams of [18F]FLT and [18F]Fluciclovine will be acquired in each patient at up to three time points: (1) prior to any tumor-directed therapy, either prior to surgery or immediately after surgery providing a complete surgical resection was not performed and confirmed by a post-operative contrast MRI scan where residual tumor > 1.0 cm in diameter was present and prior to any tumor-directed therapy; (2) at the conclusions of the initial (~6-8 weeks) chemoradiotherapy; and (3) patients with MRI-documented possible recurrence/progression versus treatment effect (pseudoprogression) within 6 months from the time of completion of chemoradiation.