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Publications

Publications by Pedro Henriques Abreu

2023

Automatic Delta-Adjustment Method Applied to Missing Not At Random Imputation

Authors
Pereira, RC; Rodrigues, PP; Figueiredo, MAT; Abreu, PH;

Publication
Computational Science - ICCS 2023 - 23rd International Conference, Prague, Czech Republic, July 3-5, 2023, Proceedings, Part I

Abstract

2023

Siamese Autoencoder-Based Approach for Missing Data Imputation

Authors
Pereira, RC; Abreu, PH; Rodrigues, PP;

Publication
Computational Science - ICCS 2023 - 23rd International Conference, Prague, Czech Republic, July 3-5, 2023, Proceedings, Part I

Abstract

2023

Evaluating Post-hoc Interpretability with Intrinsic Interpretability

Authors
Amorim, JP; Abreu, PH; Santos, JAM; Müller, H;

Publication
CoRR

Abstract

2023

Bone Metastases Detection in Patients with Breast Cancer: Does Bone Scintigraphy Add Information to PET/CT?

Authors
Santos, JC; Abreu, MH; Santos, MS; Duarte, H; Alpoim, T; Próspero, I; Sousa, S; Abreu, PH;

Publication
ONCOLOGIST

Abstract
This article compares the effectiveness of the PET/CT scan and bone scintigraphy for the detection of bone metastases in patients with breast cancer. Background Positron emission tomography/computed tomography (PET/CT) has become in recent years a tool for breast cancer (BC) staging. However, its accuracy to detect bone metastases is classically considered inferior to bone scintigraphy (BS). The purpose of this work is to compare the effectiveness of bone metastases detection between PET/CT and BS. Materials and Methods Prospective study of 410 female patients treated in a Comprehensive Cancer Center between 2014 and 2020 that performed PET/CT and BS for staging purposes. The image analysis was performed by 2 senior nuclear medicine physicians. The comparison was performed based on accuracy, sensitivity, and specificity on a patient and anatomical region level and was assessed using McNemar's Test. An average ROC was calculated for the anatomical region analysis. Results PET/CT presented higher values of accuracy and sensitivity (98.0% and 93.83%), surpassing BS (95.61% and 81.48%) in detecting bone disease. There was a significant difference in favor of PET/CT (sensitivity 93.83% vs. 81.48%), however, there is no significant difference in eliminating false positives (specificity 99.09% vs. 99.09%). PET/CT presented the highest accuracy and sensitivity values for most of the bone segments, only surpassed by BS for the cranium. There was a significant difference in favor of PET/CT in the upper limb, spine, thorax (sternum) and lower limb (pelvis and sacrum), and in favor of BS in the cranium. The ROC showed that PET/CT has a higher sensitivity and consistency across the bone segments. Conclusion With the correct imaging protocol, PET/CT does not require BS for patients with BC staging.

2023

A global taxonomy of interpretable AI: unifying the terminology for the technical and social sciences

Authors
Graziani, M; Dutkiewicz, L; Calvaresi, D; Amorim, JP; Yordanova, K; Vered, M; Nair, R; Abreu, PH; Blanke, T; Pulignano, V; Prior, JO; Lauwaert, L; Reijers, W; Depeursinge, A; Andrearczyk, V; Müller, H;

Publication
ARTIFICIAL INTELLIGENCE REVIEW

Abstract
Since its emergence in the 1960s, Artificial Intelligence (AI) has grown to conquer many technology products and their fields of application. Machine learning, as a major part of the current AI solutions, can learn from the data and through experience to reach high performance on various tasks. This growing success of AI algorithms has led to a need for interpretability to understand opaque models such as deep neural networks. Various requirements have been raised from different domains, together with numerous tools to debug, justify outcomes, and establish the safety, fairness and reliability of the models. This variety of tasks has led to inconsistencies in the terminology with, for instance, terms such as interpretable, explainable and transparent being often used interchangeably in methodology papers. These words, however, convey different meanings and are weighted differently across domains, for example in the technical and social sciences. In this paper, we propose an overarching terminology of interpretability of AI systems that can be referred to by the technical developers as much as by the social sciences community to pursue clarity and efficiency in the definition of regulations for ethical and reliable AI development. We show how our taxonomy and definition of interpretable AI differ from the ones in previous research and how they apply with high versatility to several domains and use cases, proposing a-highly needed-standard for the communication among interdisciplinary areas of AI.

2023

FAIR-FATE: Fair Federated Learning with Momentum

Authors
Salazar, T; Fernandes, M; Araújo, H; Abreu, PH;

Publication
Computational Science - ICCS 2023 - 23rd International Conference, Prague, Czech Republic, July 3-5, 2023, Proceedings, Part I

Abstract

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