Specimen collectors configured for use with robotic medical systems are described herein. A robotic medical system can include a medical instrument that can be inserted into a patient to capture a specimen. A robotic manipulator can be engaged with the medical instrument and configured to operate the medical instrument. A sterile barrier can be used to separate a sterile field containing the medical instrument from a non-sterile field containing the robotic manipulator. A specimen collector can include a receptacle portion in the sterile field and configured to receive the specimen when the distal end of the medical instrument is withdrawn from the patient and a connector coupled to the receptacle portion and configured to attach to the robotic medical system. The robotic system can deposit the specimen in the receptacle portion.

A robotic medical system can include a patient platform configured to support a patient during a robotic medical procedure, a column supporting the patient platform, and an arm support coupled to the column with at least one robotic arm coupled to the arm support. The system can also include an indicator positioned on at least one of the arm support and the patient platform, wherein the indicator is configured to indicate state or identity information of the system. The indicator can be a visual indicator.

A patient introducer for use with a surgical robotic system is disclosed. In one aspect, the patient introducer may include an introducer tube extending between (i) a distal end connectable to a port and (ii) a proximal end configured to receive a surgical tool. The introducer tube may be configured to guide the surgical tool into the port. The patient introducer may also include an alignment member connected to the introducer tube and including a first shape and a first alignment marking. The alignment member may be configured to interface with a manipulator assembly of a robotic system. The manipulator assembly may include a second shape and a second alignment marking, the first shape being complementary to the second shape. The first alignment marking of the alignment member may facilitate rotational alignment of the alignment member and the manipulator assembly.

The present invention provides a minimally invasive surgical instrument with a terminal steerable mechanism, comprising an intervention device, a control device and one or more wires. The strip-shaped intervention device sequentially includes a main section, a flexible section and an operation section from the top to the end. The control device includes a sphere with a preset rotational degree of freedom, and an operating lever connected to the sphere. Said one or more wires are extended along the main section of the intervention device. Here, the second ends of said at least one or more wires are connected to the flexible section or the operation section of the intervention device, and the first ends thereof are connected to at least a part of the control device.

A surgical instrument comprises a first member including a drive engageable with a first mating surface of a bone fastener. A second member is rotatable relative to the first member and includes an engagement element connectable with a second mating surface of the bone fastener. A part is disposed with the first member and being alternately connectable with an actuator and an adaptor attachable with an image guide. Systems, surgical adaptors, spinal implants and methods are disclosed.

A medical system comprises a surgical device including a tracking system disposed along a length of an elongate flexible body of the surgical device. The system further comprises a memory storing anatomical data describing a patient anatomy and comprises a processor configured for: generating a first model, including a set of anatomical passageways including a proximal branch connected to a distal branch, from the stored anatomical data; determining a shape of the elongate body positioned within the proximal and distal branches; computing, based on the determined shape, a total set of forces acting on the set of anatomical passageways in response to the surgical device positioned within the proximal and distal branches; deforming the first model into a second model of the set of anatomical passageways by adjusting a joint between branches in the anatomical passageways in the first model based on the total set of forces, to thereby change a pose of a branch through which the surgical device extends and an additional branch through which the surgical device does not extend; and displaying a representation of the second model and a representation of the surgical device as positioned within the second model.

A surgical system includes a drive unit on a support. The drive unit includes motors or other actuators and a plurality of output elements arranged such that operation of each drive unit linearly translates a corresponding one of the output elements. A surgical device has actuation elements extending through an elongate shaft to a distal articulation section, and an input subsystem carried at the proximal end of the shaft. Linear translatable input elements or pistons of the input subsystem are each associated with a corresponding one of the actuation elements. The input and output elements are positioned such that operation of an actuator linearly translates an output element, causing linear translation of a corresponding input element and engagement of an actuation element. A sterile drape is positionable between the input elements and the output elements.

A medical manipulator system includes: a treatment tool including an arm with joints and an end effector provided at a distal end of the arm; an insertion aid device; an advancement/retraction driving unit configured to drive the treatment tool to be advanced/retracted in the insertion aid device; an advancement/retraction operation unit configured to drive the advancement/retraction driving unit; a stopper configured to limit an operation of the advancement/retraction driving unit by actuation; an interference detector configured to be capable of detecting interference between an arm unit projected out of the insertion aid device and the insertion aid device; and an operation instruction unit configured to be capable of actuating the stopper. The operation instruction unit limits retraction movement of the treatment tool with respect to the insertion aid device by actuating the stopper.

A backend mechanism of a control system for a steerable elongated medical instrument includes a plurality of drive components and steering components arranged to provide a compact, reliable, steering control to the elongated medical instrument.

A patient introducer for use with a surgical robotic system is disclosed. In one aspect, the patient introducer may include an introducer tube extending between (i) a distal end connectable to a port and (ii) a proximal end configured to receive a surgical tool. The introducer tube may be configured to guide the surgical tool into the port. The patient introducer may also include an alignment member connected to the introducer tube and including a first shape and a first alignment marking. The alignment member may be configured to interface with a manipulator assembly of a robotic system. The manipulator assembly may include a second shape and a second alignment marking, the first shape being complementary to the second shape. The first alignment marking of the alignment member may facilitate rotational alignment of the alignment member and the manipulator assembly.