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Overview

BackgroundInterventional echocardiography (IE) plays a critical role in guiding structural heart interventions. IE specialists face challenges including high radiation exposure and unfavorable ergonomics. To address these issues, a novel remote-control robotic (RCR) system for transesophageal echocardiography (TEE) control has been developed. This study aims to describe the novel RCR system and to assess its performance in bench tests and in vitro models in terms of functionality, image quality, and reproducibility.MethodsBench testing and in vitro testing were performed using the RCR system. All tests were performed using the GE 6VT-D TEE probe and the GE Vivid E95.ResultsKey findings include proof of concept through bench testing, remote control of all five degrees of freedom of the TEE probe, and reliable, fast, and accurate reproducibility using automated navigation. The ROB'E Base is securely attached to the operating table, optimizing the footprint in the operating room. The ROB'E Guide accurately performs the forward and backward motion of the flexible portion of the TEE probe, stabilizing the achieved positions and preventing twisting during rotation. The ROB'E RCR system can store and reproduce TEE probe positions and has demonstrated reliable and accurate automated reproducibility in both bench and in vitro tests.ConclusionsThe ROB'E RCR system for TEE overcomes the limitations of conventional IE by using a RCR approach that eliminates the need for the echocardiographer to be physically present in the operating room. Thus, it significantly reduces radiation exposure and demonstrates its capabilities to improve image quality, reproducibility, and overall safety in IE.

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100 Translational Medicine associated with Robe GmbH

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