Single-site access robot-assisted epicardial mapping with a snake robot: preparation and first clinical experience

Neužil, Petr; Černý, Štěpán; Královec, Štěpán; Svanidze, Oleg; Bohuslavek, Jan; Plášil, Petr; Jehlička, Pavel; Holy, Frantisek; Petrů, Jan; Kuenzler, Richard; Šedivá, Lucie

doi:10.1007/s11701-012-0343-6

Cited by 18 publications

(11 citation statements)

References 25 publications

(22 reference statements)

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“…S oft robotics is a new field of robotic engineering 1,2 that furthers the design of flexible robots consisting of an actuating chain of multiple stiff nodes. 3 Soft robots have the potential to be used in surgical applications, 2,4,5 as the fluidlike flexibility and soft materials of these robots offer them the advantage of being able to navigate through narrow passages between organs with minimum harm to the organ soft tissue, covering outer membrane and vascular blood supply. Elastomer-based robotics have shown great promise in developing robots that mimic the muscular hydrostatic systems found in nature 6,7 such as the octopus tentacles, 8,9 caterpillars, 10 jelly fish and asteroids, 11 and elephant trunk.…”

Section: Introductionmentioning

confidence: 99%

Finite Element Analysis and Design Optimization of a Pneumatically Actuating Silicone Module for Robotic Surgery Applications

et al. 2014

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The design of a pneumatically actuated silicone module, resembling soft tissue, with three pneumatic chambers is considered and optimized in this study with the aim of using it in a soft robot arm for robotic surgery applications. Three types of silicone materials, Ecoflex 0030 and 0050 and Dragonskin 0030, have been investigated, and a constitutive model has been derived for each of them. Design optimization of the silicone module was based on finite element analysis (FEA) that was validated against experimental data of one-degree bending under one-channel actuation. This was followed by FEA parametric studies for module design optimization to minimize the ballooning effect in one-degree bending as well as reduce the actuation pressure. Modules made from Ecoflex 0030 and Ecoflex 0050 exhibited the same bending shape in FEA, but about three times higher actuation pressure was required for the harder Ecoflex 0050. Design parameters under investigation in the parametric FEA studies included the shape of the pneumatic channel cross section, the ratio of channel length to module length, the distance of channel from the module wall, and the ratio of channel to module cross-sectional area. After FEA design optimization yielded least ballooning for pneumatic chambers of semicircular cross section, an internal dragonskin structure was added internally below the module surface to enable and guide the bending under one-channel pneumatic actuation and further contain the ballooning effect: the benefits of this design were successfully verified under both FEA and experimental analysis

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Section: Introductionmentioning

confidence: 99%

Finite Element Analysis and Design Optimization of a Pneumatically Actuating Silicone Module for Robotic Surgery Applications

et al. 2014

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“…In recent years, the development of surgical robot is rapid, the robot Da Vinci developed by Intuitive Surgical played an important role in Surgical work [7], [8]. ZEUS robot developed by Computer Motion [9], ROSA robot developed by Medtech [10], Magellan robot developed by Hansen Medical [11],and CardioArm robot from Carnegie Mellon University [12] played important roles in medicine. The development of these surgical robots provides important reference and hardware support for the realization of acupuncture robots.…”

Section: Related Workmentioning

confidence: 99%

“…+ 0.002) + 0.098, (12) where the object with different forces. The actual and estimated values of the force are shown in Fig.…”

Section: B Eye-force Coordinationmentioning

confidence: 99%

Hand-Eye-Force Coordination of Acupuncture Robot

Zhu

2019

IEEE Access

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Acupoint is the intersection point of the main and collateral channels in a human body, through which energy circulates according to eastern philosophy. Acupuncture is the essential traditional Chinese method to treat disease by sticking the proper acupoints on the patient's body, having achieved a great therapeutic effect. Normally, acupuncture is mainly performed by skilled doctors of traditional Chinese medicine, which are far from enough for requirements. Hence it is natural to resort to robots to perform acupuncture work. There has no complete theoretical guidance for the development of an acupuncture robot so far. Thus, this paper digs out that acupuncture is essentially a visual servoing task with force constraints and the handeye-force coordination framework is first proposed. With the guidance of the framework, the acupuncture task is divided into three parts: hand-eye coordination, eye-force coordination, and hand-force coordination. The hand represents the end-effector of the acupuncture robot, the eye represents the visual sensor of the acupuncture robot, and the force represents the interaction between the acupuncture robot and the patient's body. The hand-eye coordination is the visual servoing control, eye-force coordination is to estimate force by vision, and hand-force coordination is the acupuncture operation with force constraint. The acupuncture task can be completed only when the three coordinations are well organized. The solutions are proposed for the three coordination tasks, which are finally validated by the experiments.

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“…The Medrobotics ® Flex ® System (Medrobotics Corp., Raynham, MA – USA) is an operator controlled flexible endoscope that includes a flexible endoscope and computer-assisted controllers, consisting of numerous articulating segments that are capable of rotating and provide lateral motion [7,8] . The endoscope is comprised of two segments, an inner and outer segment, which are arranged in a concentric mechanical assembly to form the endoscope.…”

Section: Introductionmentioning

confidence: 99%

Transoral surgery for oropharyngeal tumors using the Medrobotics® Flex® System – a case report

Mandapathil

Duvvuri

Güldner

et al. 2015

International Journal of Surgery Case Reports

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Single-site access robot-assisted epicardial mapping with a snake robot: preparation and first clinical experience

Cited by 18 publications

References 25 publications

Finite Element Analysis and Design Optimization of a Pneumatically Actuating Silicone Module for Robotic Surgery Applications

Finite Element Analysis and Design Optimization of a Pneumatically Actuating Silicone Module for Robotic Surgery Applications

Hand-Eye-Force Coordination of Acupuncture Robot

Transoral surgery for oropharyngeal tumors using the Medrobotics® Flex® System – a case report

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