The specific aims of this study are: 1. To determine the safety and feasibility of treating patients with a combination of MRI guided stereotactic body radiation therapy and microwave ablation. 2. To assess short and long-term toxicity rates of patients treated with a combined modality approach. 3. To assess local control, survival, and pathologic response to treatment
Renal cell carcinoma is traditionally managed via a surgical approach. Increasingly, local therapy with radiofrequency and microwave ablation is being utilized as an alternative for patients who may not tolerate a nephrectomy or who refuse one. Although local control rates for small lesions are excellent, they drop off precipitously for lesions over 4 cm. Furthermore, lesions in critical areas such as the renal hilum may be difficult to treat with this method. Stereotactic body radiation therapy (SBRT) has had a long record of treating patients with inoperable tumors in locations such as the lung and central nervous system, and there is increasing evidence that it may be useful for patients with renal cell carcinoma. The recent emergence of MRI-guided radiation therapy allows for direct visualization of tumors during treatment, and may potentially allow clinicians to treat tumors more precisely. This phase I study will treat renal cell carcinoma patients using a combination of MRI-guided stereotactic body radiation therapy and microwave ablation.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
3
Patients will be treated on study with a course of SBRT treatment by a radiation oncologist. Three SBRT dose levels targeting the primary tumor will be evaluated; level I: 6 Gy x 5 fractions (a common palliative dose), level II: 8 Gy x 5 fractions, and level III: 10 Gy x 5 fractions (a common definitive dose).
Performed under sedation using ultrasound and computed tomography (CT) guidance for percutaneous antenna placement and confirmation. Depending on size and location of tumor, one to three antennas (Certus 140; NeuWave Medical) will be used. The system is an FDA-approved, high-powered third-generation MW device that uses CO2 gas cooling to prevent shaft heating. The gas cooling allows the probes to be stuck into tissue by creating a small ice ball at the tip using the Joule-Thomson method, similar to the tissue cooling mechanism of cryoablation systems. Probes are 17-gauge, and various ablation zone configurations are available depending on the probe selected. An ablation protocol using the 65W power setting for 5 minutes will be used for most patients. Ultrasound will be used for real-time monitoring of the extent of ablation to achieve a 5mm margin beyond tumor, and immediate post-procedure imaging performed using contrast-enhanced CT (CECT) for patients with adequate renal functions.
University of Wisconsin Carbone Cancer Center
Madison, Wisconsin, United States
Dose-limiting Toxicity With SBRT Combined With Microwave Ablation for Renal Cell Carcinoma
Dose-limiting toxicity (DLT) will be defined as grade 4 or higher non-hematologic toxicity attributable to treatment. This will exclude toxicities not caused by treatment, such as pain due to tumor progression. Toxicities will be defined per NCI CTCAE v5.0.
Time frame: Until 30 days after ablation (up to 12 weeks on study)
Local Control Rate Per RECIST Criteria as Reported by Count of Participants
Radiologic response per RECIST criteria and volumetric measurements.
Time frame: 8 weeks
Progression Free Survival
Time frame: 8 weeks
Overall Survival
Time frame: 8 weeks
Tumor Pathology of Post-SBRT Specimen (H&E Staining)
H\&E staining for percentage of viable tumor remaining as measured by the presence of necrosis, fibrosis, hyalinization, and/or calcification, compared to pre-SBRT pathology
Time frame: 8 weeks
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