Deep learning for surgical instrument recognition and segmentation in robotic-assisted surgeries: a systematic review

Applying deep learning (DL) for annotating surgical instruments in robot-assisted minimally invasive surgeries (MIS) represents a significant advancement in surgical technology. This systematic review examines 48 studies that utilize advanced DL methods and architectures. These sophisticated DL mode...

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Veröffentlicht in:	The Artificial intelligence review 2024-11, Vol.58 (1), p.1, Article 1
Hauptverfasser:	Ahmed, Fatimaelzahraa Ali, Yousef, Mahmoud, Ahmed, Mariam Ali, Ali, Hasan Omar, Mahboob, Anns, Ali, Hazrat, Shah, Zubair, Aboumarzouk, Omar, Al Ansari, Abdulla, Balakrishnan, Shidin
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Schlagworte:	Annotations Artificial Intelligence Assessments Augmented reality Computer Science Deep learning Real time Robot learning Robotic surgery Segmentation Surgical apparatus & instruments Surgical instruments Systematic review Video data
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creator	Ahmed, Fatimaelzahraa Ali Yousef, Mahmoud Ahmed, Mariam Ali Ali, Hasan Omar Mahboob, Anns Ali, Hazrat Shah, Zubair Aboumarzouk, Omar Al Ansari, Abdulla Balakrishnan, Shidin
description	Applying deep learning (DL) for annotating surgical instruments in robot-assisted minimally invasive surgeries (MIS) represents a significant advancement in surgical technology. This systematic review examines 48 studies that utilize advanced DL methods and architectures. These sophisticated DL models have shown notable improvements in the precision and efficiency of detecting and segmenting surgical tools. The enhanced capabilities of these models support various clinical applications, including real-time intraoperative guidance, comprehensive postoperative evaluations, and objective assessments of surgical skills. By accurately identifying and segmenting surgical instruments in video data, DL models provide detailed feedback to surgeons, thereby improving surgical outcomes and reducing complication risks. Furthermore, the application of DL in surgical education is transformative. The review underscores the significant impact of DL on improving the accuracy of skill assessments and the overall quality of surgical training programs. However, implementing DL in surgical tool detection and segmentation faces challenges, such as the need for large, accurately annotated datasets to train these models effectively. The manual annotation process is labor-intensive and time-consuming, posing a significant bottleneck. Future research should focus on automating the detection and segmentation process and enhancing the robustness of DL models against environmental variations. Expanding the application of DL models across various surgical specialties will be essential to fully realize this technology’s potential. Integrating DL with other emerging technologies, such as augmented reality (AR), also offers promising opportunities to further enhance the precision and efficacy of surgical procedures.
doi_str_mv	10.1007/s10462-024-10979-w
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subjects	Annotations Artificial Intelligence Assessments Augmented reality Computer Science Deep learning Real time Robot learning Robotic surgery Segmentation Surgical apparatus & instruments Surgical instruments Systematic review Video data
title	Deep learning for surgical instrument recognition and segmentation in robotic-assisted surgeries: a systematic review
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