Abstract: A robotic catheter rotatable device cartridge may include a housing member attachable to a drive mechanism for rotating the cartridge and a catheter attached to the cartridge along an axial direction of the catheter. A slider block may be generally slidable relative to the housing and engaged with one or more steering wires for controlling movement of the catheter in a transverse direction relative to the axial direction. The catheter may include the steering wire(s) engaged therewith and movable in the transverse direction when the slider block is linearly driven in a predetermined direction.

Abstract: A haptic feedback system for a robotic catheter system including a robotic catheter manipulator assembly including one or more removably mounted robotic catheter device cartridges and robotic sheath device cartridges, with each cartridge being generally linearly movable relative to the robotic catheter manipulator assembly. The haptic feedback system may include a user interface device for controlling an operation associated with the catheter and/or sheath device cartridges, and a control system for evaluating a predetermined and/or a measured operational parameter of the haptic feedback system. The user interface device may provide haptic feedback to a user based on the evaluation by the control system.

Abstract: A robotic catheter system including one or more robotic catheter manipulator assemblies supported on a manipulator support structure. The robotic catheter manipulator assembly may include one or more removably mounted robotic catheter device cartridges and robotic sheath device cartridges, with each cartridge being generally linearly movable relative to the robotic catheter manipulator assembly. An input control system may be provided for controlling operation of the robotic catheter manipulator assembly. A visualization system may include one or more display monitors for displaying a position of a catheter and/or a sheath respectively attached to the robotic catheter and sheath device cartridges.

Abstract: A robotic catheter rotatable device cartridge may include a housing member attachable to a drive mechanism for rotating the cartridge and a catheter attached to the cartridge along an axial direction of the catheter. A slider block may be generally slidable relative to the housing and engaged with one or more steering wires for controlling movement of the catheter in a transverse direction relative to the axial direction. The catheter may include the steering wire(s) engaged therewith and movable in the transverse direction when the slider block is linearly driven in a predetermined direction.

Abstract: A robotic catheter manipulator assembly may include a support member including a catheter manipulation base and a sheath manipulation base movable relative to each other and to the support member. Each respective manipulation base may be releasably connectable to a catheter cartridge and a sheath cartridge. A drive mechanism may be provided for moving the catheter and sheath manipulation bases relative to each other and to the support member. The manipulation base or the cartridge may include a first element engageable with a complementary second element slidably engaged with the other one of the manipulation base or the cartridge for controlling movement of a component connected to the cartridge. The cartridge, for example, may be a transseptal cartridge, a catheter cartridge or a sheath cartridge, and the component may respectively be a surgically insertable device such as a transseptal needle, a catheter or a sheath.

Abstract: An input device (101) for a robotic medical system (10) includes a handle (102) configured to be rotatable about a center axis, and to be longitudinally displaceable along the center axis. The input device (101) also includes a deflection control element disposed on the handle (102), and configured to selectively control deflection of the distal end of a flexible medical instrument electrically coupled to the input device. Longitudinal displacement of the handle (102) may cause or result in a corresponding longitudinal motion of the flexible medical instrument. Rotation of the handle (102) may cause or result in a corresponding rotation of the deflection plane. Longitudinal displacement and rotation of the handle (102) may be detected or sensed electronically. The handle (102) can be easily replaced with a device that mimicks the performance of one or more novel, known or traditional handles.

Abstract: An obstruction detection system for a robotic catheter system including a robotic catheter manipulator assembly including one or more catheter manipulation bases and one or more sheath manipulation bases. Each manipulation base may be generally linearly movable on one or more tracks relative to the robotic catheter manipulator assembly. The obstruction detection system may include one or more obstruction detection sensors disposed on the track or on the manipulation bases to detect an obstruction along a path of motion of one or more manipulation bases. A software system may be provided for monitoring movement of the catheter and sheath manipulation bases, and/or a status of the obstruction detection sensors.

Abstract: A robotic catheter system includes a robotic controller; a robotic manipulator; and in input controller. The input controller includes communication circuitry configured to receive a signal from a user input device; memory having stored therein a plurality of device drivers associated with a different type of input device or a differently configured input device; and a processor configured to recognize an input device connected with the communications circuitry, load a device driver according to the recognized input device, initialize the input device, and/or one of reject and notify an end user, and deliver an image to a display or graphical user interface.

Abstract: An apparatus for maintaining a robotic catheter system in a responsive state includes a catheter, a plurality of linear translatable control elements, and a controller. In an embodiment, the catheter includes a proximal portion, a distal portion, and at least two steering wires. The steering wires may be configured at one end to control the movement of at least a portion of the distal portion of the catheter and at the other end for connection to a control member. In an embodiment, each control element may be configured to engage or interface with a respective control member, and the controller may be configured to measure a force exerted on at least one control member by a respective control element and further configured to linearly translate the control element to substantially maintain a force within a predetermined range.

Abstract: An input device for a robotic medical system includes a handle configured to be rotatable about a center axis, and to be longitudinally displaceable along the center axis. The input device also includes a deflection control element disposed on the handle and configured to selectively control deflection of the distal end of a flexible medical instrument electrically coupled to the input device. Longitudinal displacement of the handle may cause or result in a corresponding longitudinal motion or deflection of the flexible medical instrument. Rotation of the handle may cause or result in a corresponding rotation of the deflection plane. Longitudinal displacement and rotation of the handle may be detected or sensed electronically.

Abstract: A robotic system for manipulating a catheter with a plurality of steering wires longitudinally situated within a length of the catheter includes a user interface configured to display a view of an anatomical model and to receive one or more user inputs; a catheter manipulator assembly configured to linearly actuate one or more control members of a catheter; and a robotic controller configured to provide a view of an anatomical model to the user interface; accept one or more user inputs from the user interface; register the one or more user inputs to a coordinate system associated with the anatomical model; compute one or more actuator commands from the one or more registered inputs; and cause the catheter manipulator assembly to linearly actuate one or more control members of a catheter in accordance with the computed actuator commands.

Abstract: A haptic feedback system for a robotic catheter system including a robotic catheter manipulator assembly including one or more removably mounted robotic catheter device cartridges and robotic sheath device cartridges, with each cartridge being generally linearly movable relative to the robotic catheter manipulator assembly. The haptic feedback system may include a user interface device for controlling an operation associated with the catheter and/or sheath device cartridges, and a control system for evaluating a predetermined and/or a measured operational parameter of the haptic feedback system. The user interface device may provide haptic feedback to a user based on the evaluation by the control system.

Abstract: A robotic catheter manipulator assembly may include a support member including a catheter manipulation base and a sheath manipulation base movable relative to each other and to the support member. Each respective manipulation base may be releasably connectable to a catheter cartridge and a sheath cartridge. A drive mechanism may be provided for moving the catheter and sheath manipulation bases relative to each other and to the support member. The manipulation base or the cartridge may include a first element engageable with a complementary second element slidably engaged with the other one of the manipulation base or the cartridge for controlling movement of a component connected to the cartridge. The cartridge, for example, may be a transseptal cartridge, a catheter cartridge or a sheath cartridge, and the component may respectively be a surgically insertable device such as a transseptal needle, a catheter or a sheath.

Abstract: A robotic catheter device cartridge may include a finger or a slider block generally disposed in a channel and engaged with a steering wire. The steering wire may control movement of a component having the steering wire engaged thereto when the finger or the slider block is linearly driven in a predetermined direction. The cartridge may be a transseptal cartridge having a transseptal needle connected thereto, a catheter cartridge having a catheter connected thereto, or a sheath cartridge having a sheath connected thereto.

Abstract: A robotic catheter system including one or more robotic catheter manipulator assemblies supported on a manipulator support structure. The robotic catheter manipulator assembly may include one or more removably mounted robotic catheter device cartridges and robotic sheath device cartridges, with each cartridge being generally linearly movable relative to the robotic catheter manipulator assembly. An input control system may be provided for controlling operation of the robotic catheter manipulator assembly. A visualization system may include one or more display monitors for displaying a position of a catheter and/or a sheath respectively attached to the robotic catheter and sheath device cartridges.

Abstract: A robotic catheter rotatable device cartridge may include a housing member attachable to a drive mechanism for rotating the cartridge and a catheter attached to the cartridge along an axial direction of the catheter. A slider block may be generally slidable relative to the housing and engaged with one or more steering wires for controlling movement of the catheter in a transverse direction relative to the axial direction. The catheter may include the steering wire(s) engaged therewith and movable in the transverse direction when the slider block is linearly driven in a predetermined direction.

Abstract: An input device for a robotic medical system includes a sheath handle, comprising a flexible shaft defining a lumen therein. The input device also includes a catheter handle comprising a second flexible shaft which is at least partially disposed within the lumen of the first shaft. The sheath handle and the catheter handle are each coupled to a plurality of respective guide wires, which are configured such that movement of the handles causes a corresponding tension response in one or more of the plurality of guide wires. Sensors are connected to the guide wires to measure the movement of the sheath handle and the catheter handle.

Abstract: An inlet filter includes a cap and a body that are securely connectable to one another. Once connected, these elements form the structural backbone of the filter. Disposed between the cap and body is a transparent cover that allows one to view a filtering screen located within. Thus, the inlet filter serves to remove particulate matter from a supply of water prior to supplying it to a high pressure sprayer or similar device. As the filtering screen becomes clogged, its status can be visually determined. Thus a clear and readily apparent indication is presented as to when the filter needs to be cleaned or replaced.