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A feasibility study for salvage radiation therapy in prostate cancer

by Medical Xpress
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An editorial paper was published in Oncoscience on May 20, 2024, titled, “Deep learning-assisted lesion segmentation in PET/CT imaging: A feasibility study for salvage radiation therapy in prostate cancer.”

In this new editorial, researchers Richard L.J. Qiu, Chih-Wei Chang, and Xiaofeng Yang from Emory University discuss . Prostate cancer persists as the most frequently diagnosed malignancy in men beyond skin cancer.

Despite substantial advancements in treatment outcomes over the past half century, progression or recurrence post-initial treatments like prostatectomy or remains a challenge for a subset of patients.

“In those scenarios, salvage radiation therapy is often offered to patients as a . To design the salvage radiation therapy, imaging is required to detect and locate the recurrence disease regime,” the researchers write.

Traditional imaging modalities employed post-prostatectomy, such as CT, bone scans, MRI or 18F-FDG PET, often fall short in accurately detecting and determining the volume of the recurrent disease, which is crucial for salvage radiation treatment planning. However, the introduction of 18F-fluciclovine (anti-1-amino-3-18F-fluorocyclobutane-1-carboxylic acid) PET/CT has marked a significant advancement in salvage disease management.

Recent studies, including the Phase II/III randomized controlled trial, Emory Molecular Prostate Imaging for Radiotherapy Enhancement (EMPIRE-1), demonstrated improved biochemical recurrence or persistence free survival rates when incorporating 18F-fluciclovine PET/CT into post-prostatectomy radiation therapy planning.






One key step in salvage radiation therapy planning is the delineation of lesions on the 18F-fluciclovine PET/CT images, a task currently undertaken manually by physicians.

This practice, while meticulous, is labor-intensive and prone to inter- and intra-observer variations. With the recent explosion of using (AI) algorithms in medical image processing, automatic segmentation of lesions using deep learning (DL)-based lesion delineation methods demonstrate promising potential to improve treatment quality, as opposed to manual contouring.

More information:
Richard L.J. Qiu et al, Deep learning-assisted lesion segmentation in PET/CT imaging: A feasibility study for salvage radiation therapy in prostate cancer, Oncoscience (2024). DOI: 10.18632/oncoscience.603

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A feasibility study for salvage radiation therapy in prostate cancer (2024, July 1)
retrieved 1 July 2024
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