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1. Exploring Optical Flow Inclusion into nnU-Net Framework for Surgical Instrument Segmentation

Author

Fernández-Rodríguez, Marcos, Silva, Bruno, Queirós, Sandro, Torres, Helena R., Oliveira, Bruno, Morais, Pedro, Buschle, Lukas R., Correia-Pinto, Jorge, Lima, Estevão, and Vilaça, João L.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Surgical instrument segmentation in laparoscopy is essential for computer-assisted surgical systems. Despite the Deep Learning progress in recent years, the dynamic setting of laparoscopic surgery still presents challenges for precise segmentation. The nnU-Net framework excelled in semantic segmentation analyzing single frames without temporal information. The framework's ease of use, including its ability to be automatically configured, and its low expertise requirements, have made it a popular base framework for comparisons. Optical flow (OF) is a tool commonly used in video tasks to estimate motion and represent it in a single frame, containing temporal information. This work seeks to employ OF maps as an additional input to the nnU-Net architecture to improve its performance in the surgical instrument segmentation task, taking advantage of the fact that instruments are the main moving objects in the surgical field. With this new input, the temporal component would be indirectly added without modifying the architecture. Using CholecSeg8k dataset, three different representations of movement were estimated and used as new inputs, comparing them with a baseline model. Results showed that the use of OF maps improves the detection of classes with high movement, even when these are scarce in the dataset. To further improve performance, future work may focus on implementing other OF-preserving augmentations.

Published
2024
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2. Why is the winner the best?

Author

Eisenmann, Matthias, Reinke, Annika, Weru, Vivienn, Tizabi, Minu Dietlinde, Isensee, Fabian, Adler, Tim J., Ali, Sharib, Andrearczyk, Vincent, Aubreville, Marc, Baid, Ujjwal, Bakas, Spyridon, Balu, Niranjan, Bano, Sophia, Bernal, Jorge, Bodenstedt, Sebastian, Casella, Alessandro, Cheplygina, Veronika, Daum, Marie, de Bruijne, Marleen, Depeursinge, Adrien, Dorent, Reuben, Egger, Jan, Ellis, David G., Engelhardt, Sandy, Ganz, Melanie, Ghatwary, Noha, Girard, Gabriel, Godau, Patrick, Gupta, Anubha, Hansen, Lasse, Harada, Kanako, Heinrich, Mattias, Heller, Nicholas, Hering, Alessa, Huaulmé, Arnaud, Jannin, Pierre, Kavur, Ali Emre, Kodym, Oldřich, Kozubek, Michal, Li, Jianning, Li, Hongwei, Ma, Jun, Martín-Isla, Carlos, Menze, Bjoern, Noble, Alison, Oreiller, Valentin, Padoy, Nicolas, Pati, Sarthak, Payette, Kelly, Rädsch, Tim, Rafael-Patiño, Jonathan, Bawa, Vivek Singh, Speidel, Stefanie, Sudre, Carole H., van Wijnen, Kimberlin, Wagner, Martin, Wei, Donglai, Yamlahi, Amine, Yap, Moi Hoon, Yuan, Chun, Zenk, Maximilian, Zia, Aneeq, Zimmerer, David, Aydogan, Dogu Baran, Bhattarai, Binod, Bloch, Louise, Brüngel, Raphael, Cho, Jihoon, Choi, Chanyeol, Dou, Qi, Ezhov, Ivan, Friedrich, Christoph M., Fuller, Clifton, Gaire, Rebati Raman, Galdran, Adrian, Faura, Álvaro García, Grammatikopoulou, Maria, Hong, SeulGi, Jahanifar, Mostafa, Jang, Ikbeom, Kadkhodamohammadi, Abdolrahim, Kang, Inha, Kofler, Florian, Kondo, Satoshi, Kuijf, Hugo, Li, Mingxing, Luu, Minh Huan, Martinčič, Tomaž, Morais, Pedro, Naser, Mohamed A., Oliveira, Bruno, Owen, David, Pang, Subeen, Park, Jinah, Park, Sung-Hong, Płotka, Szymon, Puybareau, Elodie, Rajpoot, Nasir, Ryu, Kanghyun, Saeed, Numan, Shephard, Adam, Shi, Pengcheng, Štepec, Dejan, Subedi, Ronast, Tochon, Guillaume, Torres, Helena R., Urien, Helene, Vilaça, João L., Wahid, Kareem Abdul, Wang, Haojie, Wang, Jiacheng, Wang, Liansheng, Wang, Xiyue, Wiestler, Benedikt, Wodzinski, Marek, Xia, Fangfang, Xie, Juanying, Xiong, Zhiwei, Yang, Sen, Yang, Yanwu, Zhao, Zixuan, Maier-Hein, Klaus, Jäger, Paul F., Kopp-Schneider, Annette, and Maier-Hein, Lena

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

International benchmarking competitions have become fundamental for the comparative performance assessment of image analysis methods. However, little attention has been given to investigating what can be learnt from these competitions. Do they really generate scientific progress? What are common and successful participation strategies? What makes a solution superior to a competing method? To address this gap in the literature, we performed a multi-center study with all 80 competitions that were conducted in the scope of IEEE ISBI 2021 and MICCAI 2021. Statistical analyses performed based on comprehensive descriptions of the submitted algorithms linked to their rank as well as the underlying participation strategies revealed common characteristics of winning solutions. These typically include the use of multi-task learning (63%) and/or multi-stage pipelines (61%), and a focus on augmentation (100%), image preprocessing (97%), data curation (79%), and postprocessing (66%). The "typical" lead of a winning team is a computer scientist with a doctoral degree, five years of experience in biomedical image analysis, and four years of experience in deep learning. Two core general development strategies stood out for highly-ranked teams: the reflection of the metrics in the method design and the focus on analyzing and handling failure cases. According to the organizers, 43% of the winning algorithms exceeded the state of the art but only 11% completely solved the respective domain problem. The insights of our study could help researchers (1) improve algorithm development strategies when approaching new problems, and (2) focus on open research questions revealed by this work., Comment: accepted to CVPR 2023

Published
2023

3. CholecTriplet2022: Show me a tool and tell me the triplet -- an endoscopic vision challenge for surgical action triplet detection

Author

Nwoye, Chinedu Innocent, Yu, Tong, Sharma, Saurav, Murali, Aditya, Alapatt, Deepak, Vardazaryan, Armine, Yuan, Kun, Hajek, Jonas, Reiter, Wolfgang, Yamlahi, Amine, Smidt, Finn-Henri, Zou, Xiaoyang, Zheng, Guoyan, Oliveira, Bruno, Torres, Helena R., Kondo, Satoshi, Kasai, Satoshi, Holm, Felix, Özsoy, Ege, Gui, Shuangchun, Li, Han, Raviteja, Sista, Sathish, Rachana, Poudel, Pranav, Bhattarai, Binod, Wang, Ziheng, Rui, Guo, Schellenberg, Melanie, Vilaça, João L., Czempiel, Tobias, Wang, Zhenkun, Sheet, Debdoot, Thapa, Shrawan Kumar, Berniker, Max, Godau, Patrick, Morais, Pedro, Regmi, Sudarshan, Tran, Thuy Nuong, Fonseca, Jaime, Nölke, Jan-Hinrich, Lima, Estevão, Vazquez, Eduard, Maier-Hein, Lena, Navab, Nassir, Mascagni, Pietro, Seeliger, Barbara, Gonzalez, Cristians, Mutter, Didier, and Padoy, Nicolas

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Formalizing surgical activities as triplets of the used instruments, actions performed, and target anatomies is becoming a gold standard approach for surgical activity modeling. The benefit is that this formalization helps to obtain a more detailed understanding of tool-tissue interaction which can be used to develop better Artificial Intelligence assistance for image-guided surgery. Earlier efforts and the CholecTriplet challenge introduced in 2021 have put together techniques aimed at recognizing these triplets from surgical footage. Estimating also the spatial locations of the triplets would offer a more precise intraoperative context-aware decision support for computer-assisted intervention. This paper presents the CholecTriplet2022 challenge, which extends surgical action triplet modeling from recognition to detection. It includes weakly-supervised bounding box localization of every visible surgical instrument (or tool), as the key actors, and the modeling of each tool-activity in the form of triplet. The paper describes a baseline method and 10 new deep learning algorithms presented at the challenge to solve the task. It also provides thorough methodological comparisons of the methods, an in-depth analysis of the obtained results across multiple metrics, visual and procedural challenges; their significance, and useful insights for future research directions and applications in surgery., Comment: MICCAI EndoVis CholecTriplet2022 challenge report. Published at Elsevier journal of Medical Image Analysis. 25 pages, 15 figures, 8 tables

Published
2023
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4. SurgT challenge: Benchmark of Soft-Tissue Trackers for Robotic Surgery

Author

Cartucho, Joao, Weld, Alistair, Tukra, Samyakh, Xu, Haozheng, Matsuzaki, Hiroki, Ishikawa, Taiyo, Kwon, Minjun, Jang, Yong Eun, Kim, Kwang-Ju, Lee, Gwang, Bai, Bizhe, Kahrs, Lueder, Boecking, Lars, Allmendinger, Simeon, Muller, Leopold, Zhang, Yitong, Jin, Yueming, Bano, Sophia, Vasconcelos, Francisco, Reiter, Wolfgang, Hajek, Jonas, Silva, Bruno, Lima, Estevao, Vilaca, Joao L., Queiros, Sandro, and Giannarou, Stamatia

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Robotics, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

This paper introduces the ``SurgT: Surgical Tracking" challenge which was organised in conjunction with MICCAI 2022. There were two purposes for the creation of this challenge: (1) the establishment of the first standardised benchmark for the research community to assess soft-tissue trackers; and (2) to encourage the development of unsupervised deep learning methods, given the lack of annotated data in surgery. A dataset of 157 stereo endoscopic videos from 20 clinical cases, along with stereo camera calibration parameters, have been provided. Participants were assigned the task of developing algorithms to track the movement of soft tissues, represented by bounding boxes, in stereo endoscopic videos. At the end of the challenge, the developed methods were assessed on a previously hidden test subset. This assessment uses benchmarking metrics that were purposely developed for this challenge, to verify the efficacy of unsupervised deep learning algorithms in tracking soft-tissue. The metric used for ranking the methods was the Expected Average Overlap (EAO) score, which measures the average overlap between a tracker's and the ground truth bounding boxes. Coming first in the challenge was the deep learning submission by ICVS-2Ai with a superior EAO score of 0.617. This method employs ARFlow to estimate unsupervised dense optical flow from cropped images, using photometric and regularization losses. Second, Jmees with an EAO of 0.583, uses deep learning for surgical tool segmentation on top of a non-deep learning baseline method: CSRT. CSRT by itself scores a similar EAO of 0.563. The results from this challenge show that currently, non-deep learning methods are still competitive. The dataset and benchmarking tool created for this challenge have been made publicly available at https://surgt.grand-challenge.org/.

Published
2023

6. Fetal Brain Tissue Annotation and Segmentation Challenge Results

Author

Payette, Kelly, Li, Hongwei, de Dumast, Priscille, Licandro, Roxane, Ji, Hui, Siddiquee, Md Mahfuzur Rahman, Xu, Daguang, Myronenko, Andriy, Liu, Hao, Pei, Yuchen, Wang, Lisheng, Peng, Ying, Xie, Juanying, Zhang, Huiquan, Dong, Guiming, Fu, Hao, Wang, Guotai, Rieu, ZunHyan, Kim, Donghyeon, Kim, Hyun Gi, Karimi, Davood, Gholipour, Ali, Torres, Helena R., Oliveira, Bruno, Vilaça, João L., Lin, Yang, Avisdris, Netanell, Ben-Zvi, Ori, Bashat, Dafna Ben, Fidon, Lucas, Aertsen, Michael, Vercauteren, Tom, Sobotka, Daniel, Langs, Georg, Alenyà, Mireia, Villanueva, Maria Inmaculada, Camara, Oscar, Fadida, Bella Specktor, Joskowicz, Leo, Weibin, Liao, Yi, Lv, Xuesong, Li, Mazher, Moona, Qayyum, Abdul, Puig, Domenec, Kebiri, Hamza, Zhang, Zelin, Xu, Xinyi, Wu, Dan, Liao, KuanLun, Wu, YiXuan, Chen, JinTai, Xu, Yunzhi, Zhao, Li, Vasung, Lana, Menze, Bjoern, Cuadra, Meritxell Bach, and Jakab, Andras

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

In-utero fetal MRI is emerging as an important tool in the diagnosis and analysis of the developing human brain. Automatic segmentation of the developing fetal brain is a vital step in the quantitative analysis of prenatal neurodevelopment both in the research and clinical context. However, manual segmentation of cerebral structures is time-consuming and prone to error and inter-observer variability. Therefore, we organized the Fetal Tissue Annotation (FeTA) Challenge in 2021 in order to encourage the development of automatic segmentation algorithms on an international level. The challenge utilized FeTA Dataset, an open dataset of fetal brain MRI reconstructions segmented into seven different tissues (external cerebrospinal fluid, grey matter, white matter, ventricles, cerebellum, brainstem, deep grey matter). 20 international teams participated in this challenge, submitting a total of 21 algorithms for evaluation. In this paper, we provide a detailed analysis of the results from both a technical and clinical perspective. All participants relied on deep learning methods, mainly U-Nets, with some variability present in the network architecture, optimization, and image pre- and post-processing. The majority of teams used existing medical imaging deep learning frameworks. The main differences between the submissions were the fine tuning done during training, and the specific pre- and post-processing steps performed. The challenge results showed that almost all submissions performed similarly. Four of the top five teams used ensemble learning methods. However, one team's algorithm performed significantly superior to the other submissions, and consisted of an asymmetrical U-Net network architecture. This paper provides a first of its kind benchmark for future automatic multi-tissue segmentation algorithms for the developing human brain in utero., Comment: Results from FeTA Challenge 2021, held at MICCAI; Manuscript submitted

Published
2022
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7. CholecTriplet2021: A benchmark challenge for surgical action triplet recognition

Author

Nwoye, Chinedu Innocent, Alapatt, Deepak, Yu, Tong, Vardazaryan, Armine, Xia, Fangfang, Zhao, Zixuan, Xia, Tong, Jia, Fucang, Yang, Yuxuan, Wang, Hao, Yu, Derong, Zheng, Guoyan, Duan, Xiaotian, Getty, Neil, Sanchez-Matilla, Ricardo, Robu, Maria, Zhang, Li, Chen, Huabin, Wang, Jiacheng, Wang, Liansheng, Zhang, Bokai, Gerats, Beerend, Raviteja, Sista, Sathish, Rachana, Tao, Rong, Kondo, Satoshi, Pang, Winnie, Ren, Hongliang, Abbing, Julian Ronald, Sarhan, Mohammad Hasan, Bodenstedt, Sebastian, Bhasker, Nithya, Oliveira, Bruno, Torres, Helena R., Ling, Li, Gaida, Finn, Czempiel, Tobias, Vilaça, João L., Morais, Pedro, Fonseca, Jaime, Egging, Ruby Mae, Wijma, Inge Nicole, Qian, Chen, Bian, Guibin, Li, Zhen, Balasubramanian, Velmurugan, Sheet, Debdoot, Luengo, Imanol, Zhu, Yuanbo, Ding, Shuai, Aschenbrenner, Jakob-Anton, van der Kar, Nicolas Elini, Xu, Mengya, Islam, Mobarakol, Seenivasan, Lalithkumar, Jenke, Alexander, Stoyanov, Danail, Mutter, Didier, Mascagni, Pietro, Seeliger, Barbara, Gonzalez, Cristians, and Padoy, Nicolas

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Context-aware decision support in the operating room can foster surgical safety and efficiency by leveraging real-time feedback from surgical workflow analysis. Most existing works recognize surgical activities at a coarse-grained level, such as phases, steps or events, leaving out fine-grained interaction details about the surgical activity; yet those are needed for more helpful AI assistance in the operating room. Recognizing surgical actions as triplets of combination delivers comprehensive details about the activities taking place in surgical videos. This paper presents CholecTriplet2021: an endoscopic vision challenge organized at MICCAI 2021 for the recognition of surgical action triplets in laparoscopic videos. The challenge granted private access to the large-scale CholecT50 dataset, which is annotated with action triplet information. In this paper, we present the challenge setup and assessment of the state-of-the-art deep learning methods proposed by the participants during the challenge. A total of 4 baseline methods from the challenge organizers and 19 new deep learning algorithms by competing teams are presented to recognize surgical action triplets directly from surgical videos, achieving mean average precision (mAP) ranging from 4.2% to 38.1%. This study also analyzes the significance of the results obtained by the presented approaches, performs a thorough methodological comparison between them, in-depth result analysis, and proposes a novel ensemble method for enhanced recognition. Our analysis shows that surgical workflow analysis is not yet solved, and also highlights interesting directions for future research on fine-grained surgical activity recognition which is of utmost importance for the development of AI in surgery., Comment: CholecTriplet2021 challenge report. Paper accepted at Elsevier journal of Medical Image Analysis. 22 pages, 8 figures, 11 tables. Challenge website: https://cholectriplet2021.grand-challenge.org

Published
2022
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10. A Comparison Review of Existing Personal Health Management Apps in the Portuguese Health Sector Framework

Author

Viana, Óscar T., Terroso, Miguel, Serejo, Cristiana, Vilaça, João L., Tosi, Francesca, Editor-in-Chief, Germak, Claudio, Series Editor, Zurlo, Francesco, Series Editor, Jinyi, Zhi, Series Editor, Pozzatti Amadori, Marilaine, Series Editor, Caon, Maurizio, Series Editor, Raposo, Daniel, editor, Neves, João, editor, Silva, Ricardo, editor, Correia Castilho, Luísa, editor, and Dias, Rui, editor

Published
2023
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11. SurgT challenge: Benchmark of soft-tissue trackers for robotic surgery

Author

Cartucho, João, Weld, Alistair, Tukra, Samyakh, Xu, Haozheng, Matsuzaki, Hiroki, Ishikawa, Taiyo, Kwon, Minjun, Jang, Yong Eun, Kim, Kwang-Ju, Lee, Gwang, Bai, Bizhe, Kahrs, Lueder A., Boecking, Lars, Allmendinger, Simeon, Müller, Leopold, Zhang, Yitong, Jin, Yueming, Bano, Sophia, Vasconcelos, Francisco, Reiter, Wolfgang, Hajek, Jonas, Silva, Bruno, Lima, Estevão, Vilaça, João L., Queirós, Sandro, and Giannarou, Stamatia

Published
2024
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14. Fetal brain tissue annotation and segmentation challenge results

Author

Payette, Kelly, Li, Hongwei Bran, de Dumast, Priscille, Licandro, Roxane, Ji, Hui, Siddiquee, Md Mahfuzur Rahman, Xu, Daguang, Myronenko, Andriy, Liu, Hao, Pei, Yuchen, Wang, Lisheng, Peng, Ying, Xie, Juanying, Zhang, Huiquan, Dong, Guiming, Fu, Hao, Wang, Guotai, Rieu, ZunHyan, Kim, Donghyeon, Kim, Hyun Gi, Karimi, Davood, Gholipour, Ali, Torres, Helena R., Oliveira, Bruno, Vilaça, João L., Lin, Yang, Avisdris, Netanell, Ben-Zvi, Ori, Bashat, Dafna Ben, Fidon, Lucas, Aertsen, Michael, Vercauteren, Tom, Sobotka, Daniel, Langs, Georg, Alenyà, Mireia, Villanueva, Maria Inmaculada, Camara, Oscar, Fadida, Bella Specktor, Joskowicz, Leo, Weibin, Liao, Yi, Lv, Xuesong, Li, Mazher, Moona, Qayyum, Abdul, Puig, Domenec, Kebiri, Hamza, Zhang, Zelin, Xu, Xinyi, Wu, Dan, Liao, Kuanlun, Wu, Yixuan, Chen, Jintai, Xu, Yunzhi, Zhao, Li, Vasung, Lana, Menze, Bjoern, Cuadra, Meritxell Bach, and Jakab, Andras

Published
2023
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16. CholecTriplet2021: A benchmark challenge for surgical action triplet recognition

Author

Nwoye, Chinedu Innocent, Alapatt, Deepak, Yu, Tong, Vardazaryan, Armine, Xia, Fangfang, Zhao, Zixuan, Xia, Tong, Jia, Fucang, Yang, Yuxuan, Wang, Hao, Yu, Derong, Zheng, Guoyan, Duan, Xiaotian, Getty, Neil, Sanchez-Matilla, Ricardo, Robu, Maria, Zhang, Li, Chen, Huabin, Wang, Jiacheng, Wang, Liansheng, Zhang, Bokai, Gerats, Beerend, Raviteja, Sista, Sathish, Rachana, Tao, Rong, Kondo, Satoshi, Pang, Winnie, Ren, Hongliang, Abbing, Julian Ronald, Sarhan, Mohammad Hasan, Bodenstedt, Sebastian, Bhasker, Nithya, Oliveira, Bruno, Torres, Helena R., Ling, Li, Gaida, Finn, Czempiel, Tobias, Vilaça, João L., Morais, Pedro, Fonseca, Jaime, Egging, Ruby Mae, Wijma, Inge Nicole, Qian, Chen, Bian, Guibin, Li, Zhen, Balasubramanian, Velmurugan, Sheet, Debdoot, Luengo, Imanol, Zhu, Yuanbo, Ding, Shuai, Aschenbrenner, Jakob-Anton, van der Kar, Nicolas Elini, Xu, Mengya, Islam, Mobarakol, Seenivasan, Lalithkumar, Jenke, Alexander, Stoyanov, Danail, Mutter, Didier, Mascagni, Pietro, Seeliger, Barbara, Gonzalez, Cristians, and Padoy, Nicolas

Published
2023
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25. Body Fluid Collection Devices for Ostomy Patients: A Review.

Author

Barbosa, Isaías, Morais, Pedro, Torres, Helena, Fonseca, Jaime C., and Vilaça, João L.

Abstract

Background/Objectives: Abdominal ostomy surgery has a severe impact on individuals' daily lives. These procedures are typically indicated for conditions such as cancer, inflammatory bowel disease, or traumatic injuries. They involve creating an artificial opening, denominated the stoma, in the abdominal area to divert feces or urine, establishing a connection between the affected organs and the body's exterior. Thus, specialized products to collect the body fluids are required, being effective and tailored products crucial to enhance the quality of life of such patients. Methods: This paper presents a review of fecal fluid collection devices and advanced technologies designed to assist patients with ostomies. The study aims to identify the known bags/devices and evaluate their attributed performance in enhancing the population's physical and social quality of life. This review is based on a systematic search conducted between 20 February and 2 March 2024, in the PubMed, Scopus, Web of Science, Google Scholar, and Google Patents databases. Articles published within the last eight years from this period were included in the analysis. Results: The devices found in the study were classified as passive, requiring active monitoring by the user, and active, providing automated assistance. Three main categories were identified, reflecting the most significant concerns of patients: (1) devices that control fluid leakage, reducing peristomal dermatological problems; (2) devices that minimize odors and noise, reducing social embarrassment; and (3) devices that monitor fluid volume, helping with electrolyte balance, especially in patients with ileostomies. Conclusions: This study revealed that the existing devices meet primary collection and disposal needs. However, introducing smart devices could offer greater control and confidence to users, providing real-time information on gas pressure, stool texture, and accumulated volume. Thus, overall, the development of advanced technologies can significantly improve patients' quality of life, restore social confidence, and enable a more effective management of the condition by sharing information with medical teams. [ABSTRACT FROM AUTHOR]

Published
2024
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28. Monitoring Wearable Devices for Elderly People with Dementia: A Review.

Author

Rocha, Inês C., Arantes, Marcelo, Moreira, António, Vilaça, João L., Morais, Pedro, Matos, Demétrio, and Carvalho, Vítor

Subjects
OLDER people, RESEARCH questions, DEMENTIA, POPULATION aging, CAREGIVERS
Abstract

The growth in the prevalence of dementias is associated with a phenomenon that challenges the 21st century, population aging. Dementias require physical and mental effort on the part of caregivers, making it difficult to promote controlled and active care. This review aims to explore the usability and integration of wearable devices designed to measure the daily activities of elderly people with dementia. A survey was carried out in the following databases: LILACS, Science Direct and PubMed, between 2018 and 2024 and the methodologies as well as the selection criteria are briefly described. A total of 27 articles were included in the review that met the inclusion criteria and answered the research question. As the main conclusions, the various monitoring measurements and interaction aspects are critically important, demonstrating their significant contributions to controlled, adequate and active monitoring, despite the incomplete compliance with the key aspects which could guarantee solutions economically accessible to institutions or other organizations through the application of the design requirements. Future research should not only focus on the development wearable devices that follow the essential requirements but also on further studying the needs and adversities that elderly people with dementia face as a pillar for the development of a feasible device. [ABSTRACT FROM AUTHOR]

Published
2024
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30. A Novel Interventional Guidance Framework for Transseptal Puncture in Left Atrial Interventions

Author

Morais, Pedro, Vilaça, João L., Queirós, Sandro, Rodrigues, Pedro L., Tavares, João Manuel R. S., D’hooge, Jan, Hutchison, David, Series Editor, Kanade, Takeo, Series Editor, Kittler, Josef, Series Editor, Kleinberg, Jon M., Series Editor, Mattern, Friedemann, Series Editor, Mitchell, John C., Series Editor, Naor, Moni, Series Editor, Pandu Rangan, C., Series Editor, Steffen, Bernhard, Series Editor, Terzopoulos, Demetri, Series Editor, Tygar, Doug, Series Editor, Weikum, Gerhard, Series Editor, Stoyanov, Danail, editor, Taylor, Zeike, editor, Aylward, Stephen, editor, Tavares, João Manuel R.S., editor, Xiao, Yiming, editor, Simpson, Amber, editor, Martel, Anne, editor, Maier-Hein, Lena, editor, Li, Shuo, editor, Rivaz, Hassan, editor, Reinertsen, Ingerid, editor, Chabanas, Matthieu, editor, and Farahani, Keyvan, editor

Published
2018
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31. SurgT challenge: Benchmark of soft-tissue trackers for robotic surgery

Author

Cartucho, João, primary, Weld, Alistair, additional, Tukra, Samyakh, additional, Xu, Haozheng, additional, Matsuzaki, Hiroki, additional, Ishikawa, Taiyo, additional, Kwon, Minjun, additional, Jang, Yong Eun, additional, Kim, Kwang-Ju, additional, Lee, Gwang, additional, Bai, Bizhe, additional, Kahrs, Lueder, additional, Boecking, Lars, additional, Allmendinger, Simeon, additional, Müller, Leopold, additional, Zhang, Yitong, additional, Jin, Yueming, additional, Bano, Sophia, additional, Vasconcelos, Francisco, additional, Reiter, Wolfgang, additional, Hajek, Jonas, additional, Silva, Bruno, additional, Lima, Estevão, additional, Vilaça, João L., additional, Queirós, Sandro, additional, and Giannarou, Stamatia, additional

Published
2023
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32. CholecTriplet2022: Show me a tool and tell me the triplet — An endoscopic vision challenge for surgical action triplet detection

Author

Nwoye, Chinedu Innocent, primary, Yu, Tong, additional, Sharma, Saurav, additional, Murali, Aditya, additional, Alapatt, Deepak, additional, Vardazaryan, Armine, additional, Yuan, Kun, additional, Hajek, Jonas, additional, Reiter, Wolfgang, additional, Yamlahi, Amine, additional, Smidt, Finn-Henri, additional, Zou, Xiaoyang, additional, Zheng, Guoyan, additional, Oliveira, Bruno, additional, Torres, Helena R., additional, Kondo, Satoshi, additional, Kasai, Satoshi, additional, Holm, Felix, additional, Özsoy, Ege, additional, Gui, Shuangchun, additional, Li, Han, additional, Raviteja, Sista, additional, Sathish, Rachana, additional, Poudel, Pranav, additional, Bhattarai, Binod, additional, Wang, Ziheng, additional, Rui, Guo, additional, Schellenberg, Melanie, additional, Vilaça, João L., additional, Czempiel, Tobias, additional, Wang, Zhenkun, additional, Sheet, Debdoot, additional, Thapa, Shrawan Kumar, additional, Berniker, Max, additional, Godau, Patrick, additional, Morais, Pedro, additional, Regmi, Sudarshan, additional, Tran, Thuy Nuong, additional, Fonseca, Jaime, additional, Nölke, Jan-Hinrich, additional, Lima, Estevão, additional, Vazquez, Eduard, additional, Maier-Hein, Lena, additional, Navab, Nassir, additional, Mascagni, Pietro, additional, Seeliger, Barbara, additional, Gonzalez, Cristians, additional, Mutter, Didier, additional, and Padoy, Nicolas, additional

Published
2023
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48. Design optimization of medical robotic systems based on task performance metrics: A feasibility study for robotic guided vascular laser treatments.

Author

Oliveira, Bruno, Morais, Pedro, Torres, Helena R., Fonseca, Jaime C., and Vilaça, João L.

Subjects
MEDICAL robotics, TASK performance, ROBOTICS, ROBUST optimization, FEASIBILITY studies, SURGICAL robots, LASERS
Abstract

While designing an end‐effector tool for a specific task using an already available robotic arm is a common strategy for developing robot‐based solutions, it is subject to the designer's subjective biases, especially in the medical robotics field. Consequently, this approach can result in suboptimal solutions that may limit the performance of the robotic arm and the overall system. This work introduces a novel framework for developing a virtual scenario that enables the robust optimization of design guidelines for robotics‐based medical solutions. The proposed framework aims to address the issue of subjectivity involved in the design process, improving the reliability and accuracy of the robotic system. Specifically, it aims to find the optimized 3D positioning of the Tool Center Point and the robot base that takes full advantage of the robotic arm kinematics. The feasibility of the proposed methodology is validated for designing a system for robotic‐guided vascular laser treatments. First, a simulated treatment environment is constructed to compute the optimal trajectories to treat a wide population of synthetic human models. Next, a design optimization methodology based on robot task performance metrics is developed. Overall, the proposed design guidelines allowed the performance of 94.1% of the treatment trajectories free of collisions with median precision of around 0.5 mm while guaranteeing high manipulability. Thus, proving the added value of the proposed strategy and showing the potential for promoting the development of optimized robotics‐based solutions. [ABSTRACT FROM AUTHOR]

Published
2024
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