Your search keyword '"Fabio Gibilisco"' showing total 6 results

1. Science and pseudo science: racist eugenics in Italy

Author

Carlo Patriarca, Piergiorgio Modena, Maura Massimino, Fabio Gibilisco, Mattia Barbareschi, and Andreas Conca

Subjects

Pathology and Forensic Medicine

Published

2023

2. Improvements in digital pathology equipment for renal biopsies: updating the standard model

Author

Vincenzo L’Imperio, Gabriele Casati, Giorgio Cazzaniga, Andrea Tarabini, Maddalena Maria Bolognesi, Fabio Gibilisco, Filippo Fraggetta, Fabio Pagni, L'Imperio, V, Casati, G, Cazzaniga, G, Tarabini, A, Bolognesi, M, Gibilisco, F, Fraggetta, F, and Pagni, F

Subjects

Nephrology, Digital pathology, Whole slide image, Glomerulonephriti, Renal biopsy

Abstract

Introduction: Digital pathology can improve the technical and interpretative workflows in nephropathology by creating hub-spoke networks and virtuous collaboration projects among centers in different geographical regions. New high-resolution fast-scanning instruments combined with currently existing equipment were tested in a nephropathology hub to evaluate possible upgrading in the routine processing phases. Methods: The scanning performance of two different instruments (Aperio vs hybrid MIDI II) was evaluated and a comparative quality control check was performed on obtained whole slide images. Results: Both with default and custom settings for light microscopy, MIDI II proved to be faster, with only slightly more time required to prepare the scan and larger final file size as compared to Aperio (p < 0.001). No differences were noted in the number of out-of-focus slides per case (p = 0.75). Regarding immunofluorescence, the new scanner required longer preparation time (p = 0.001) with comparable scanning times and final file size (p = 0.169 and p = 0.177, respectively). Quality control showed differences in 3 quality features related to white background and blurriness (p < 0.001). No major discordances in the final diagnosis were recorded after comparing the report obtained with slides scanned using the two instruments, with only one case (4%) showing minor disagreement. Conclusion: The present report describes the experience of a hub nephropathology center adopting next generation digital pathology tools for the routine assessment of renal biopsies, highlighting the need for a complementary approach towards a philosophy of interoperability.

Published

2023

3. Real-world digital pathology: considerations and ruminations of four young pathologists

Author

Alessandro Caputo, Fabio Gibilisco, Beatrice Belmonte, Andrea Mondello, Vincenzo L'Imperio, Filippo Fraggetta, Caputo, A, Gibilisco, F, Belmonte, B, Mondello, A, L'Imperio, V, Fraggetta, F, Caputo, A., Gibilisco, F., Belmonte, B., Mondello, A., L'Imperio, V., Fraggetta, F., Caputo, Alessandro, Gibilisco, Fabio, Belmonte, Beatrice, Mondello, Andrea, L'Imperio, Vincenzo, and Fraggetta, Filippo

Subjects

COMPUTER SYSTEMS, EDUCATION, General Medicine, INFORMATION TECHNOLOGY, Settore MED/08 - Anatomia Patologica, DIGITAL PATHOLOGY, Pathology and Forensic Medicine

Abstract

none

Published

2023

4. A commemoration of the 'digital' side of Juan Rosai: a junior’s perspective of the legacy of an all-round pathologist

Author

Bethany Jill Williams, Fabio Gibilisco, and Filippo Fraggetta

Subjects

WSI, Male, Pathology, medicine.medical_specialty, History, Perspective (graphical), Telepathology, Digital pathology, Pathology and Forensic Medicine, Rosai, Pathologists, Editorial, medicine, Humans, Icon, digital pathology, computer, computer.programming_language

Abstract

Juan Rosai, the “Maradona” of surgical pathology, played a role not only as a diagnostician but also as a researcher, a consultant and a teacher, distinguishing himself as a real icon at all levels of modern pathology. He was an innovative promoter of emerging technologies including digital pathology. These few lines commemorate the digital side of the “Maestro” Juan Rosai from a junior’s perspective highlighting how Rosai supported digital pathology and remembering that, according to his own words, digital pathology “will revolutionize the field of pathology, if it is not doing that already”. (read more)

Published

2021

5. What is essential is (no more) invisible to the eyes: The introduction of blocdoc in the digital pathology workflow

Author

Vincenzo L'Imperio, Fabio Gibilisco, Filippo Fraggetta, L'Imperio, V, Gibilisco, F, and Fraggetta, F

Subjects

Computer science, Digital slide, Health Informatics, Barcode, Pathology and Forensic Medicine, law.invention, Block (programming), law, Histological diagnosis, Glass slide, Technical Note, Computer vision, quality control, business.industry, Thumbnail, Digital pathology, MED/08 - ANATOMIA PATOLOGICA, Computer Science Applications, Workflow, BlocDoc, macroimage, whole slide image, Artificial intelligence, business, digital pathology, paraffin block

Abstract

Background: The implementation of a fully digital workflow in any anatomic pathology department requires a complete conversion to a tracked system. Ensuring the strict correspondence of the material submitted for the analysis, from the accessioning to the reporting phase, is mandatory in the anatomic pathology laboratory, especially when implementing the digital pathology for primary histological diagnosis. The proposed solutions, up to now, rely on the verification that all the materials present in the glass slide are also present in the whole slide images (WSIs). Although different methods have already been implemented for this purpose (e.g., the 'macroimage' of the digital slide, representing the overview of the glass slide), the recent introduction of a device to capture the cut surface of paraffin blocks put the quality control of the digital workflow a step forward, allowing to match the digitized slide with the corresponding block. This system may represent a reliable, easy-to-use alternative to further reduce tissue inconsistencies between material sent to the lab and the final glass slides or WSIs. Methods: The Anatomic Pathology of the Gravina Hospital in Caltagirone, Sicily, Italy, has implemented the application of the BlocDoc devices (SPOT Imaging, Sterling Heights, USA) in its digital workflow. The instruments were positioned next to every microtome/sectioning station, with the possibility to capture the 'normal' and the polarized image of the cut surface of the blocks directly by the technician. The presence of a monitor in the BlocDoc device allowed the technician to check the concordance between the cut surface of the block and the material on the corresponding slide. The link between BlocDoc and the laboratory information system, through the presence of the 2D barcode, allowed the pathologists to access the captured image of the cut surface of the block at the pathologist workstation, thus enabling the direct comparison between this image and the WSI (thumbnail and 'macroimage'). Results: During the implementation period, more than 10.000 (11.248) blocks were routinely captured using the BlocDoc. The employment of this approach allowed a drastic reduction of the discordances and tissue inconsistencies. The implementation of the BlocDoc in the routine allowed the detection of two different types of 'errors,' the so-called 'systematic' and 'occasional' ones. The first type was intrinsic of some specific specimens (e.g., transurethral resection of the prostate, nasal polypectomies, and piecemeal uterine myomectomies) characterized by the three-dimensional nature of the fragments and affected almost 100% of these samples. On the other hand, the 'occasional' errors, mainly due to inexperience or extreme caution of the technicians in handling tiny specimens, affected 98 blocks (0.9%) of these samples and progressively reduced with the rising confidence with the BlocDoc. One of these cases was clinically relevant. No problems in the recognition of the 2D barcodes were encountered using a laser cassette printer. Finally, rare failures have been recorded during the period, accounting for

Published

2021

6. Modelling of Distributed Problem Solving Using Logic Modified Petri Nets

Author

Fabio Gibilisco, Orazio Mirabella, and Antonella Di Stefano

Subjects

Theoretical computer science, Horn clause, Distributed knowledge, Computer science, Simple (abstract algebra), Concurrency, Distributed computing, Stochastic Petri net, Process architecture, Petri net, Communications protocol

Abstract

Distributed Problem Solving (DPS) combines aspects of distributed processing networks and logical inferential strategies. The design of DPS systems requires a formal model to represent distributed knowledge and inherent communication protocols. This paper presents a proposal that logic modified Petri Nets be used to represent distributed knowledge evolution. Some simple examples will be used to discuss the proposed model and to indicate the features which render it suitable for

Published

1990