V Cunha-Cruz scite author profile

V Cunha-Cruz

3Publications

18Citation Statements Received

53Citation Statements Given

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RWTH Aachen University

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Robot- and computer-assisted craniotomy (CRANIO): From active systems to synergistic man—machine interaction

Cunha-Cruz

Follmann

Popović

et al. 2010

Proc Inst Mech Eng H

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Computer and robot assistance in craniotomy/craniectomy procedures is intended to increase precision and efficiency of the removal of calvarial tumours, enabling the preoperative design and manufacturing of the corresponding implant. In the framework of the CRANIO project, an active robotic system was developed to automate the milling processes based on a predefined resection planning. This approach allows for a very efficient milling process, but lacks feedback of the intra-operative process to the surgeon. To better integrate the surgeon into the process, a new teleoperated synergistic architecture was designed. This enables the surgeon to realize changes during the procedure and use their human cognitive capabilities. The preoperative planning information is used as guidance for the user interacting with the system through a master—slave architecture. In this article, the CRANIO system is presented together with this new synergistic approach. Experiments have been performed to evaluate the accuracy of the system in active and synergistic modes for the bone milling procedure. The laboratory studies showed the general feasibility of the new concept for the selected medical procedure and determined the accuracy of the system. Although the integration of the surgeon partially reduces the efficiency of the milling process compared with a purely active (automatic) milling, it provides more feedback and flexibility to the user during the intra-operative procedure. Editor's note: This paper was commissioned for this Image Guided Surgery special issue, but has been published in an earlier issue. It can be found in Proc. IMechE, Part H: J. Engineering in Medicine, 2010, 224(H3), 441–452. DOI: 10.1243/09544119JEIM596.

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Robot- and computer-assisted craniotomy (CRANIO): From active systems to synergistic man—machine interaction

Cunha-Cruz

Follmann

Popović

et al. 2009

Proc Inst Mech Eng H

View full text Add to dashboard Cite

Computer and robot assistance in craniotomy/craniectomy procedures is intended to increase precision and efficiency of the removal of calvarial tumours, enabling the preoperative design and manufacturing of the corresponding implant. In the framework of the CRANIO project, an active robotic system was developed to automate the milling processes based on a predefined resection planning. This approach allows for a very efficient milling process, but lacks feedback of the intra-operative process to the surgeon. To better integrate the surgeon into the process, a new teleoperated synergistic architecture was designed. This enables the surgeon to realize changes during the procedure and use their human cognitive capabilities. The preoperative planning information is used as guidance for the user interacting with the system through a master-slave architecture. In this article, the CRANIO system is presented together with this new synergistic approach. Experiments have been performed to evaluate the accuracy of the system in active and synergistic modes for the bone milling procedure. The laboratory studies showed the general feasibility of the new concept for the selected medical procedure and determined the accuracy of the system. Although the integration of the surgeon partially reduces the efficiency of the milling process compared with a purely active (automatic) milling, it provides more feedback and flexibility to the user during the intra-operative procedure.

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Synergistic CT based tele-manipulator for needle placement in spine procedures

Cunha-Cruz

Serefoglou

Bruners

et al. 2009

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V Cunha-Cruz

Robot- and computer-assisted craniotomy (CRANIO): From active systems to synergistic man—machine interaction

Robot- and computer-assisted craniotomy (CRANIO): From active systems to synergistic man—machine interaction

Synergistic CT based tele-manipulator for needle placement in spine procedures

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