Abstract: The invention relates to a medical robot (10) comprising a motorized mobile base (13), spatial-location sensors (17) secured to the mobile base, and a control unit (16) that stores in memory an intervention plan comprising at least one action to be performed on the anatomy of interest of a patient (30). The control unit is configured to: —detect, from information coming from the spatial-location sensors (17), a position of the anatomy of interest of the patient with respect to the medical robot, —identify, from the position of the anatomy of interest of the patient and from the intervention plan, at least one favourable position of the mobile base of the medical robot for which position the medical robot is capable of performing the action or actions from the intervention plan, —move the mobile base of the medical robot into an optimal position selected from among the favourable position or positions identified.

Abstract: The invention relates to a recalibration device (1) used during the acquisition of images of an anatomical area of a patient during robot-assisted surgery, including a body (3) made of radxoliacent material, which comprises fiducial markers (9) made of radiopaque material, said body (3) having a bearing surface (7) intended to be manually placed on a surface of said anatomical area of the patient. According to the invention, said fiducial markers (9) are arranged in a specific geometrical pattern enabling a certain detection of the positioning and orientation of the recalibration device (1) in a three-dimensional digital model built from the images derived from the acquisition of the anatomical area.

Abstract: The invention relates to a method for positioning an articulated arm of a medical robot assisted by a navigation system comprising an electromagnetic field generator and two sensors. The generated field forms a measurement zone in which the position of a sensor can be determined by the navigation system and communicated to the robot. A first sensor is positioned at an anatomical location of interest of a patient. A second sensor is positioned on the articulated arm. When the two sensors are located in the measurement zone, a so-called “region of reduced influence” of the measurement zone is determined, in which the introduction of a metal object has virtually no influence on the determination of the position of the sensors by the navigation system. The articulated arm is then configured so that any metal part of the articulated arm located in the measurement zone is situated within the region of reduced influence.

Abstract: A device for guiding a needle includes a tool holder intended to be fixed to the end of a medical assistance robotic arm, said tool-holder supporting a needle guide; the needle guide includes two jaws including a respective groove, said two grooves extending along parallel longitudinal axes, said jaws being supported by the tool-holder so as to allow mobility in rotation of the jaws relative to one another between a position termed the “guiding position” in which the grooves are adjacent and define a duct for guiding a needle and a position termed the “disengaged position” in which the grooves are moved away from one another and define a needle lateral disengagement zone.

Abstract: The invention relates to a recalibration device (1) used during the acquisition of images of an anatomical area of a patient during robot-assisted surgery, including a body (3) made of radxoliacent material, which comprises fiducial markers (9) made of radiopaque material, said body (3) having a bearing surface (7) intended to be manually placed on a surface of said anatomical area of the patient. According to the invention, said fiducial markers (9) are arranged in a specific geometrical pattern enabling a certain detection of the positioning and orientation of the recalibration device (1) in a three-dimensional digital model built from the images derived from the acquisition of the anatomical area.

Abstract: The invention relates to a method for positioning an articulated arm of a medical robot assisted by a navigation system comprising an electromagnetic field generator and two sensors. The generated field forms a measurement zone in which the position of a sensor can be determined by the navigation system and communicated to the robot. A first sensor is positioned at an anatomical location of interest of a patient. A second sensor is positioned on the articulated arm. When the two sensors are located in the measurement zone, a so-called “region of reduced influence” of the measurement zone is determined, in which the introduction of a metal object has virtually no influence on the determination of the position of the sensors by the navigation system. The articulated arm is then configured so that any metal part of the articulated arm located in the measurement zone is situated within the region of reduced influence.

Abstract: The invention relates to a recalibration device (1) used during the acquisition of images of an anatomical area of a patient during robot-assisted surgery, including a body (3) made of radxoliacent material, which comprises fiducial markers (9) made of radiopaque material, said body (3) having a bearing surface (7) intended to be manually placed on a surface of said anatomical area of the patient. According to the invention, said fiducial markers (9) are arranged in a specific geometrical pattern enabling a certain detection of the positioning and orientation of the recalibration device (1) in a three-dimensional digital model built from the images derived from the acquisition of the anatomical area.

Abstract: The invention relates to a medical robot (10) comprising a motorized mobile base (13), spatial-location sensors (17) secured to the mobile base, and a control unit (16) that stores in memory an intervention plan comprising at least one action to be performed on the anatomy of interest of a patient (30). The control unit is configured to: —detect, from information coming from the spatial-location sensors (17), a position of the anatomy of interest of the patient with respect to the medical robot, —identify, from the position of the anatomy of interest of the patient and from the intervention plan, at least one favourable position of the mobile base of the medical robot for which position the medical robot is capable of performing the action or actions from the intervention plan, —move the mobile base of the medical robot into an optimal position selected from among the favourable position or positions identified.

Abstract: The invention relates to a recalibration device (1) used during the acquisition of images of an anatomical area of a patient during robot-assisted surgery, including a body (3) made of radxoliacent material, which comprises fiducial markers (9) made of radiopaque material, said body (3) having a bearing surface (7) intended to be manually placed on a surface of said anatomical area of the patient. According to the invention, said fiducial markers (9) are arranged in a specific geometrical pattern enabling a certain detection of the positioning and orientation of the recalibration device (1) in a three-dimensional digital model built from the images derived from the acquisition of the anatomical area.

Abstract: The invention relates to a recalibration device (1) used during the acquisition of images of an anatomical area of a patient during robot-assisted surgery, including a body (3) made of radxoliacent material, which comprises fiducial markers (9) made of radiopaque material, said body {3) having a bearing surface (7) intended to be manually placed on a surface of said anatomical area of the patient. According to the invention, said fiducial markers (9) are arranged in a specific geometrical pattern enabling a certain detection of the positioning and orientation of the recalibration device (1) in a three-dimensional digital model built from the images derived from the acquisition of the anatomical area.

Abstract: The invention relates to a recalibration device (1) used during the acquisition of images of an anatomical area of a p patient during robot-assisted surgery, including a body (3) made of radxoliacent material, which comprises fiducial markers (9) made of radiopaque material, said body (3) having a bearing surface (7) intended to be manually placed on a surface of said anatomical area of the patient. According to the invention, said fiducial markers (9) are arranged in a specific geometrical pattern enabling a certain detection of the positioning and orientation of the recalibration device (1) in a three-dimensional digital model built from the images derived from the acquisition of the anatomical area.