Abstract: A manipulator includes a first member, a second member that supports the first member such that the first member can rotate about a first rotation axis, a driven portion connected to the first member, which moves on a circumference with respect to the first rotation axis as a center in accordance with a rotation operation of the first member, a flexible member that provides, by a reciprocating operation, a force to drive the driven portion, and a change unit including an arc guide surface, which changes a path of the flexible member in accordance with the rotation operation of the first member. The arc guide surface is arranged to maintain a path length of the flexible member in the reciprocating operation during the rotation operation of the first member.

Abstract: A dexterous manipulation device is provided that includes disc element and actuation wires. In preferred systems, the disc elements each have a curved top surface and a corresponding curved bottom surface. The actuation wires are threaded through apertures of each disc element. In certain aspects, the disc elements are stacked alternating with the curved top and bottom surfaces of adjacent disc elements forming a rolling joint. In preferred systems, the device has a total of 45 degrees of bending motion with two degrees of freedom.

Abstract: A cap opening and closing apparatus comprises: a first arm including a catch portion that moves, engages with an edge portion of a cap of a microtube, and opens the cap as the first arm rotates about a first rotation axis in a first direction; and a second arm including a pressing member that presses and closes the cap as the second arm rotates about a second rotation axis in a second direction opposite to the first direction. When opening the cap, the first and second arms are rotated in the first direction while the cap is positioned between the catch portion and the pressure member and an angle formed by a line joining the first rotation axis and the catch portion and a line joining the second rotation axis and the pressing member is kept within a predetermined angle range.

Abstract: A surgery system that includes a multiple-degree freedom slave arm, which is able to be mounted with a surgical instrument and includes a plurality of joints and a plurality of motors corresponding the respective joints of the plurality of joints; a first input device configured to operate the multiple-degree freedom slave arm; a second input device configured to operate the multiple-degree freedom slave arm and different from the first input device; and a controller configured to control the multiple-degree freedom slave arm so that the multiple-degree freedom slave arm is operated by one of the first input device and the second input device.

Abstract: A surgery system that includes a multiple-degree freedom slave arm, which is able to be mounted with a surgical instrument and includes a plurality of joints and a plurality of motors corresponding the respective joints of the plurality of joints; a first input device configured to operate the multiple-degree freedom slave arm; a second input device configured to operate the multiple-degree freedom slave arm and different from the first input device; and a controller configured to control the multiple-degree freedom slave arm so that the multiple-degree freedom slave arm is operated by one of the first input device and the second input device.

Abstract: A method of retrieving calculus in a living body and relocating the calculus to a different location in the living body involves positioning an elongated member in the living body in which the calculus is located, drawing the calculus in the living body toward the elongated member while the elongated member is positioned in the living body so that the calculus is retained by the elongated member; moving the elongated member so that the elongated member is located at a position in the living body that is different from the position of the elongated member in the living body during the drawing of the calculus toward the elongated member; and releasing the calculus from the elongated member so that the calculus is at a position in the living body different from a location of the calculus in the living body while the calculus is being drawn toward the elongated member.

Abstract: A surgery system that includes a multiple-degree freedom slave arm, which is able to be mounted with a surgical instrument and includes a plurality of joints and a plurality of motors corresponding the respective joints of the plurality of joints; a first input device configured to operate the multiple-degree freedom slave arm; a second input device configured to operate the multiple-degree freedom slave arm and different from the first input device; and a controller configured to control the multiple-degree freedom slave arm so that the multiple-degree freedom slave arm is operated by one of the first input device and the second input device.

Abstract: A remote operation-type surgery system is disclosed, which includes a multiple-degree freedom slave arm, which is able to be mounted with a medical instrument including a shaft portion and an end effector disposed at a distal end of the shaft portion; a first input device configured to receive a first input to operate the multiple-degree freedom slave arm; a second input device configured to receive a second input to operate the multiple-degree freedom slave arm and different from the first input device; a touch panel configured to set an operation mode for the multiple-degree freedom slave arm operated by the second input device; and a controller configured to control the multiple-degree freedom slave arm based on the first input or second input, wherein the controller is configured to: determine whether or not an in-operation signal is turned on.

Abstract: A blood vessel dissecting device is disclosed, which includes at least two dissecting devices, which are inserted into a living body along a blood vessel to dissect tissue in a direction of alignment thereof with the blood vessel. The at least two dissecting devices include a first dissecting device and a second dissecting device. The first dissecting device and the second dissecting device are disposed juxtaposedly in the living body, and a branch vessel branched from the blood vessel is located between the first dissecting device and the second dissecting device.

Abstract: A blood vessel dissecting device is disclosed, which includes a dissecting device which, when being inserted into a living body along a blood vessel, dissects tissue in a direction of alignment thereof with the blood vessel, and a cutting device which, when being inserted into the living body along the blood vessel, cuts tissue surrounding the blood vessel in a direction of alignment thereof with the blood vessel. The cutting device includes a main body section which is inserted into the living body and holds the tissue between itself and the dissecting device, and a cutting section which cuts the tissue held between the main body section and the dissecting device.

Abstract: A liquid transport method is disclosed for efficiently producing cell cultures. The liquid transport method of the present disclosure, which is in processing of cells, includes: a) a step in which a container holding a liquid is gripped by a gripping tool of a robot; and b) a step in which the liquid in the container is transported to a collection container by rotating the gripped container. In steps a) and b) the robot operates such as not to pass over a vertical line of an opening of the collection container.

Abstract: A remote operation-type surgery system is disclosed, which includes: a multiple-degree freedom slave arm; a first operation interface configured to operate the multiple-degree freedom slave arm; a second operation interface configured to operate the multiple-degree freedom slave arm; a third operation interface configured to operate the multiple-degree freedom slave arm and different from the first and second operation interfaces; and a controller configured to control the multiple-degree freedom slave arm, wherein the controller is configured to: determine whether or not an in-operation signal is turned on; until the in-operation signal is turned on, control the multiple-degree freedom slave arm so that the multiple-degree freedom slave arm is operated by at least one of the second operation interface and the third operation interface; and while the in-operation signal is turned on, control the multiple-degree freedom slave arm so that the multi-degree-of-freedom slave arm is operated by the first operation

Abstract: A remote operation-type surgery system is disclosed, which includes a multiple-degree freedom slave arm; a first operation interface configured to operate the multiple-degree freedom slave arm to make a movement of a medical instrument; a second operation interface configured to receive an operational instruction for the multiple-degree freedom slave arm and different from the first operation interface; and a controller configured to control the multiple-degree freedom slave arm, wherein the controller is configured to: determine whether or not in-operation signal is turned on; until the in-operation signal is turned on, control the multiple-degree freedom slave arm so that the multiple-degree freedom slave arm performs a movement based on the operational instruction via the second operation interface; and while the in-operation signal is turned on, control the multiple-degree freedom slave arm so that the multi-degree-of-freedom slave arm follows the movement of the first operation interface.

Abstract: A medical manipulator is disclosed, which includes a multiple-degree freedom arm, which can be mounted with a medical instrument; a memory configured to retain an insertion port position indicating a spatial position of an insertion port for inserting the medical instrument mounted in the multiple-degree freedom arm into a human body; and a controller configured to determine an insertion posture of the medical instrument so as to cause an extended line of a major axis of the medical instrument to pass through the spatial position indicated by the insertion port position, and configured to move the multiple-degree freedom arm to the determined insertion posture.

Abstract: A treatment device is disclosed, which includes a dissecting section main body which is configured to dissect tissue in a living body when inserted into the living body along a blood vessel, and which has a slit permitting a branch vessel branched from the blood vessel to enter into the slit, a stanching section which is disposed at the slit and which presses and cauterizes the branch vessel introduced into the slit, and a cutting section which is disposed at the slit and which cuts the cauterized branch vessel.

Abstract: Disclosed are a cell processing method, a device, and a robot system that has a simple constitution and are reasonable. A robot system is provided for injecting liquid by rotating an injection container containing the liquid and an injection volume of the liquid is constant around an axis vertical to a long axis of the injection container. The robot system executes an injection start control to rotate the injection container around a predetermined axis, an injection control to stop rotation for a predetermined time and inject the liquid, and an injection end control to reversely rotate the injection container around the predetermined axis, and the predetermined time is calculated based on an injection flow rate measured in real time.

Abstract: A remote operation-type surgery system is disclosed, which includes a multiple-degree freedom slave arm, which is able to be mounted with a medical instrument including a shaft portion and an end effector disposed at a distal end of the shaft portion; a first input device configured to receive a first input to operate the multiple-degree freedom slave arm; a second input device configured to receive a second input to operate the multiple-degree freedom slave arm and different from the first input device; a touch panel configured to set an operation mode for the multiple-degree freedom slave arm operated by the second input device; and a controller configured to control the multiple-degree freedom slave arm based on the first input or second input, wherein the controller is configured to: determine whether or not an in-operation signal is turned on.

Abstract: A liquid transport method is disclosed for efficiently producing cell cultures. The liquid transport method of the present disclosure, which is in processing of cells, includes: a) a step in which a container holding a liquid is gripped by a gripping tool of a robot; and b) a step in which the liquid in the container is transported to a collection container by rotating the gripped container. In steps a) and b) the robot operates such as not to pass over a vertical line of an opening of the collection container.

Abstract: A liquid transport method is disclosed for efficiently producing cell cultures. The liquid transport method of the present disclosure, which is in processing of cells, includes: a) a step in which a container holding a liquid is gripped by a gripping tool of a robot; and b) a step in which the liquid in the container is transported to a collection container by rotating the gripped container. In steps a) and b) the robot operates such as not to pass over a vertical line of an opening of the collection container.

Abstract: A manipulator comprises a first member, a second member that supports the first member such that the first member can rotate about a first rotation axis, a driven portion connected to the first member, which moves on a circumference with respect to the first rotation axis as a center in accordance with a rotation operation of the first member, a flexible member that provides, by a reciprocating operation, a force to drive the driven portion, and a change unit including an arc guide surface, which changes a path of the flexible member in accordance with the rotation operation of the first member. The arc guide surface is arranged to maintain a path length of the flexible member in the reciprocating operation during the rotation operation of the first member.