Philippe Arbeille1, Kathryn Zuj1, Arnaud Saccomandi2, Jose Ruiz3, Elise Andre2, Cedric de la Porte4, Gabriel Carles5, Joel Blouin1, Monica Georgescu1. 1. 1 UMPS-CERCOM (Unit of Medicine and Space Physiology), Faculty of Medicine, University of Tours , Tours, France . 2. 2 Multidisciplinary Health House , Richelieu, France . 3. 3 Department of Obstetrics and Gynecology, University Hospital , Ceuta, Spain . 4. 4 Multidisciplinary Health House , Ligueil, France . 5. 5 Hospital of North East Guyana , St. Laurent du Maroni, Guyana, France .
Abstract
PURPOSE: The objective of this study was to design and validate a "Tele-Operated UltRasound System" ("TOURS") to perform ultrasound examinations on patients located in isolated areas. MATERIALS AND METHODS: A commercially available portable echograph was modified to allow functions (Doppler, two-dimensional, three-dimensional, elastography, etc.) and settings (gain, depth, freeze, record, etc.) to be teleoperated through an Internet connection. Specialized probes were developed that contained motorized transducers that could be teleoperated to change the transducer orientation. The system was installed and tested in four medical centers 50 km, 60 km, 1,800 km, and 7,000 km away from the university hospital. RESULTS: Using the teleoperated system, 100 examinations were performed on the abdomen and pelvis (36%), vascular structures (42%), and small parts (thyroid and muscle, 22%), and 15 were performed on fetuses. During these examinations the expert sonographer was able to teleoperate the echograph and motorized probe to obtain images of sufficient quality for diagnoses in 97% of the cases. The average time for one examination was 17 ± 4 min. This new system (dimensions of 400 cm(3) and weighing 430 g) was found to be more ergonomic that a robotic arm previously developed by us for tele-echography (dimensions of 35 × 40 × 40 cm(3) and weighing 3-4 kg). In addition, the teleoperation of the echograph settings and functions allowed for greater ease in acquiring images, resulting in faster examinations with improved quality images. CONCLUSIONS: The results of this study demonstrate that the teleoperated echograph and probe system developed by our research group can be successfully used for ultrasound examinations in areas isolated from trained sonographers.
PURPOSE: The objective of this study was to design and validate a "Tele-Operated UltRasound System" ("TOURS") to perform ultrasound examinations on patients located in isolated areas. MATERIALS AND METHODS: A commercially available portable echograph was modified to allow functions (Doppler, two-dimensional, three-dimensional, elastography, etc.) and settings (gain, depth, freeze, record, etc.) to be teleoperated through an Internet connection. Specialized probes were developed that contained motorized transducers that could be teleoperated to change the transducer orientation. The system was installed and tested in four medical centers 50 km, 60 km, 1,800 km, and 7,000 km away from the university hospital. RESULTS: Using the teleoperated system, 100 examinations were performed on the abdomen and pelvis (36%), vascular structures (42%), and small parts (thyroid and muscle, 22%), and 15 were performed on fetuses. During these examinations the expert sonographer was able to teleoperate the echograph and motorized probe to obtain images of sufficient quality for diagnoses in 97% of the cases. The average time for one examination was 17 ± 4 min. This new system (dimensions of 400 cm(3) and weighing 430 g) was found to be more ergonomic that a robotic arm previously developed by us for tele-echography (dimensions of 35 × 40 × 40 cm(3) and weighing 3-4 kg). In addition, the teleoperation of the echograph settings and functions allowed for greater ease in acquiring images, resulting in faster examinations with improved quality images. CONCLUSIONS: The results of this study demonstrate that the teleoperated echograph and probe system developed by our research group can be successfully used for ultrasound examinations in areas isolated from trained sonographers.
Authors: Christopher Uschnig; Florian Recker; Michael Blaivas; Yi Dong; Christoph F Dietrich Journal: Ultrasound Med Biol Date: 2022-01-10 Impact factor: 3.694