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This study aims to determine the functional outcomes of patients who underwent internal hemipelvectomy with or without reconstruction or external hemipelvectomy for pelvic tumors. Learning about the outcomes of these patients may help researchers determine the long-term effects of different types of hemipelvectomy procedures and may help improve quality of life.
This early phase I trial studies how well tranexamic acid works in reducing the loss of blood in patients with pelvic tumors undergoing hemipelvectomy surgery. Tranexamic acid decreases blood loss by stabilizing clots and preventing clot lysis in patients undergoing surgery.
The present study evaluates empty and full bladder protocols for radiation therapy of genitourinary (GU), gynecological (Gyn), and gastrointestinal (GI) malignancies of the pelvis.
Pediatric Oncologic Recovery Trial After Surgery (PORTS) trial is an investigator-initiated, multicenter, multidisciplinary prospective case-control study of the implementation of an Enhanced Recovery After Surgery (ERAS) protocol at five tertiary-care pediatric hospitals in pediatric patients undergoing abdominal or retroperitoneal surgical resections for cancer. A pilot phase will determine characteristics of a successful protocol implementation and an exploratory phase plans to examine adherence, objective patient outcomes, and patient-reported outcomes. After completing primary enrollment, this collaborative will continue to enroll patients in the shared data registry and continue to refine the underlying ERAS protocol developed for this project.
This phase III trial studies how well pafolacianine works for identifying cancerous lesions in children and adolescent patients with primary solid tumors or solid tumors that have spread from where they first started (primary site) to other places in the body (metastatic). Pafolacianine is a fluorescent imaging agent that targets folate receptors which are overexpressed in many cancers and is used with near infrared (NIR) imaging during surgery to identify tumor cells. NIR uses a special camera that uses wavelengths in the infrared range to visualize and locate the tumor cells that are lit up by the pafolacianine. Giving pafolacianine for NIR imaging may work better than other imaging agents in identifying cancerous lesions in pediatric patients with solid tumors.
This phase III trial compares the effect of adding tivozanib to standard therapy pembrolizumab versus pembrolizumab alone for the treatment of patients with high-risk renal cell carcinoma (RCC). Immunotherapy with monoclonal antibodies, such as pembrolizumab, may help the body's immune system attack the cancer, and may interfere with the ability of tumor cells to grow and spread. Tivozanib is in a class of medications called kinase inhibitors. It works by blocking the action of the abnormal protein that signals tumor cells to multiply. This helps stop the spread of tumor cells. Giving pembrolizumab and tivozanib together may work better than pembrolizumab alone in treating patients with RCC.
The purpose of this study is to find out whether the study drug, LY4052031, is safe, tolerable and effective in participants with advanced, or metastatic solid tumors including urothelial cancer. The study is conducted in two parts - phase Ia (dose-escalation, dose-optimization) and phase Ib (dose-expansion). The study will last up to approximately 4 years.
This research study will enroll people who have cancer in their abdomen or pelvis that was treated previously with radiation therapy. The purpose of this research study is to test the safety and possible harms of treating tumors in these regions with another round of radiation therapy, called reirradiation or "reRT." The researchers want to find out what effects (good and bad) reRT has in people with cancer in the abdomen and pelvis.
The purpose of this study is to find out whether the study drug, LY4101174, is safe, tolerable and effective in participants with select advanced or metastatic solid tumors. The study is conducted in two parts - phase Ia (dose-escalation, dose-optimization) and phase Ib (dose-expansion). The study will last up to approximately 4 years.
The primary objective of radiation therapy is to deliver a therapeutic dose of radiation precisely to the target while minimizing exposure to healthy surrounding tissues. Image-guided radiation therapy (IGRT) involves acquiring cone beam computed tomography (CBCT) scans just before or during treatment sessions. By comparing the CBCT images with the reference images from the treatment planning process, clinicians can make necessary adjustments to ensure precise targeting and account for any changes that may have occurred since the initial planning. Conventional CBCT technology is, however, limited by several factors including long acquisition times that result in motion artifacts in the image, smaller fields of view that limit the volume of anatomy that can be imaged, poor image quality that limits soft tissue visibility, and artifacts created by dense metal implants. This study will evaluate a novel CBCT imaging solution ("HyperSight") that has the potential to address the challenges of conventional CBCT.