Your search keyword '"Ammendolia, Ilario"' showing total 2 results

1. How smart is artificial intelligence in organs delineation? Testing a CE and FDA-approved Deep- Learning tool using multiple expert contours delineated on planning CT images.

Author

Strolin, Silvia, Santoro, Miriam, Paolani, Giulia, Ammendolia, Ilario, Arcelli, Alessandra, Benini, Anna, Bisello, Silvia, Cardano, Raffaele, Cavallini, Letizia, Deraco, Elisa, Donati, Costanza Maria, Galietta, Erika, Galuppi, Andrea, Guido, Alessandra, Ferioli, Martina, Laghi, Viola, Medici, Federica, Ntreta, Maria, Razganiayeva, Natalya, and Siepe, Giambattista

Subjects

ARTIFICIAL organs, COMPUTED tomography, ARTIFICIAL intelligence, DEEP learning, SATISFACTION

Abstract

Background: A CE- and FDA-approved cloud-based Deep learning (DL)-tool for automatic organs at risk (OARs) and clinical target volumes segmentation on computer tomography images is available. Before its implementation in the clinical practice, an independent external validation was conducted. Methods: At least a senior and two in training Radiation Oncologists (ROs) manually contoured the volumes of interest (VOIs) for 6 tumoral sites. The auto-segmented contours were retrieved from the DL-tool and, if needed, manually corrected by ROs. The level of ROs satisfaction and the duration of contouring were registered. Relative volume differences, similarity indices, satisfactory grades, and time saved were analyzed using a semi-automatic tool. Results: Seven thousand seven hundred sixty-five VOIs were delineated on the CT images of 111 representative patients. The median (range) time for manual VOIs delineation, DL-based segmentation, and subsequent manual corrections were 25.0 (8.0-115.0), 2.3 (1.2-8) and 10.0 minutes (0.3-46.3), respectively. The overall time for VOIs retrieving and modification was statistically significantly lower than for manual contouring (p<0.001). The DL-tool was generally appreciated by ROs, with 44% of vote 4 (well done) and 43% of vote 5 (very well done), correlated with the saved time (p<0.001). The relative volume differences and similarity indexes suggested a better inter-agreement of manually adjusted DL-based VOIs than manually segmented ones. Conclusions: The application of the DL-tool resulted satisfactory, especially in complex delineation cases, improving the ROs inter-agreement of delineated VOIs and saving time. [ABSTRACT FROM AUTHOR]

Published

2023

2. Recent Applications of Artificial Intelligence in Radiotherapy: Where We Are and Beyond.

Author

Santoro, Miriam, Strolin, Silvia, Paolani, Giulia, Della Gala, Giuseppe, Bartoloni, Alessandro, Giacometti, Cinzia, Ammendolia, Ilario, Morganti, Alessio Giuseppe, and Strigari, Lidia

Subjects

ARTIFICIAL intelligence, RADIOTHERAPY, MACHINE learning, INFORMATION storage & retrieval systems, COMMUNITY support

Abstract

Featured Application: Computational models based on artificial intelligence (AI) variants have been developed and applied successfully in many areas, both inside and outside of medicine. However, the full potential of AI in the entire radiotherapy workflow is not fully understood, while potential ethical, legal, and skill barriers might limit or postpone the application of AI in support of clinical practice. In recent decades, artificial intelligence (AI) tools have been applied in many medical fields, opening the possibility of finding novel solutions for managing very complex and multifactorial problems, such as those commonly encountered in radiotherapy (RT). We conducted a PubMed and Scopus search to identify the AI application field in RT limited to the last four years. In total, 1824 original papers were identified, and 921 were analyzed by considering the phase of the RT workflow according to the applied AI approaches. AI permits the processing of large quantities of information, data, and images stored in RT oncology information systems, a process that is not manageable for individuals or groups. AI allows the iterative application of complex tasks in large datasets (e.g., delineating normal tissues or finding optimal planning solutions) and might support the entire community working in the various sectors of RT, as summarized in this overview. AI-based tools are now on the roadmap for RT and have been applied to the entire workflow, mainly for segmentation, the generation of synthetic images, and outcome prediction. Several concerns were raised, including the need for harmonization while overcoming ethical, legal, and skill barriers. [ABSTRACT FROM AUTHOR]

Published

2022