ROBOTIC SURGICAL SYSTEM WITH PATIENT SUPPORT

Abstract

A robotic surgery system for supporting a patient and a robotic surgical manipulator. The robotic surgery system includes a base, a pillar coupled to the base at a first end and extending vertically upwardly to an opposing second end, and an attachment structure coupled to the second end of the pillar. A patient table is coupled to the attachment structure. A robot support arm has a first end coupled to the attachment structure. The robot support arm extends vertically upwardly from the first end to a second end. The robot support arm may further extend horizontally over the patient table to support a robotic surgical manipulator that will extend generally downward from the robot support arm toward a patient supported by the patient table to place an end effector of the robotic surgical manipulator adjacent a desired surgical site on the patient.

Claims

1. A surgical system, comprising: a base; a pillar coupled to the base; a table movably supported by the pillar; and a surgical instrument manipulator supported by the pillar via a sliding connection, the sliding connection facilitating the positioning of the surgical instrument manipulator relative to the table.

2. The surgical system of claim 1, wherein: the surgical instrument manipulator is positioned at a first longitudinal position of a first end of the table via the sliding connection.

3. The surgical system of claim 2, wherein: the surgical instrument manipulator is configured to slide between the first longitudinal position and a second longitudinal position via the sliding connection.

4. The surgical system of claim 1, further comprising: a surgical instrument supported by the surgical instrument manipulator, the surgical instrument extending downwardly toward the table.

5. The surgical system of claim 4, wherein: the surgical instrument is positioned at a first vertical position relative to the table via the sliding connection.

6. The surgical system of claim 5, wherein: the surgical instrument is configured to transition between the first vertical position and a second vertical position via a sliding of the surgical instrument manipulator along the sliding connection.

7. The surgical system of claim 1, wherein: the surgical instrument manipulator is configured to slide between a first longitudinal position and a second longitudinal position via the sliding connection; a surgical instrument is positioned by the surgical instrument manipulator at a first vertical position relative to the table when the surgical instrument manipulator is at the first longitudinal position; the surgical instrument is positioned by the surgical instrument manipulator at a second vertical position relative to the table when the surgical instrument manipulator is at the second longitudinal position; and the second vertical position being different from the first vertical position.

8. The surgical system of claim 1, wherein: the sliding connection is positioned on a plane that is parallel to a longitudinal axis of the table.

9. The surgical system of claim 1, wherein the surgical instrument manipulator is a first surgical instrument manipulator supporting a first surgical instrument, the surgical system further comprising: a second surgical instrument manipulator supporting a second surgical instrument; and the second surgical instrument manipulator is supported by the pillar via the sliding connection.

10. The surgical system of claim 9, wherein: the first surgical instrument and the second surgical instrument are positioned to converge an end effector of the first surgical instrument and an end effector of the second surgical instrument on a surgical site.

11. The surgical system of claim 1, wherein: the surgical instrument manipulator is further supported by a support arm; and the support arm is operably coupled to the sliding connection.

12. The surgical system of claim 1, wherein: a portion of the table is movable relative to the sliding connection.

13. A surgical system, comprising: a base; a pillar coupled to the base; a table movably supported by the pillar; and a support bar configured to support a surgical instrument manipulator, the support bar being supported by the pillar and pivotable relative to the table to affect a position of the surgical instrument manipulator relative to the table.

14. The surgical system of claim 13, wherein: the surgical instrument manipulator is positioned at a first longitudinal position relative to the table via the support bar being at a first rotational position.

15. The surgical system of claim 14, wherein: the support bar is pivotable relative to the table between the first rotational position and a second rotational position; and the surgical instrument manipulator is positioned at a second longitudinal position relative to the table by the support bar being at the second rotational position.

16. The surgical system of claim 13, further comprising: a surgical instrument supported by the surgical instrument manipulator, the surgical instrument extending downwardly toward the table.

17. The surgical system of claim 16, wherein the surgical instrument is a first surgical instrument and the surgical instrument manipulator is a first surgical instrument manipulator supporting the first surgical instrument, the surgical system further comprising: a second surgical instrument manipulator supported by the support bar, the second surgical instrument manipulator supporting a second surgical instrument.

18. The surgical system of claim 17, wherein: the first surgical instrument and the second surgical instrument are positioned to converge an end effector of the first surgical instrument and an end effector of the second surgical instrument on a surgical site.

19. The surgical system of claim 13, wherein: the support bar has a curved form.

20. The surgical system of claim 13, wherein: a portion of the table is movable relative to the support bar.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] The invention may best be understood by referring to the following description and accompanying drawings that are used to illustrate embodiments of the invention by way of example and not limitation. In the drawings, in which like reference numerals indicate similar elements:

[0020] FIG. 1 is a side elevation of a robotic surgery system that embodies the invention.

[0021] FIG. 2 is a side elevation of a portion of another robotic surgery system that embodies the invention.

[0022] FIG. 3 is a right end view of the portion of the robotic surgery system shown in FIG. 2.

[0023] FIG. 4 is a side elevation of a portion of another robotic surgery system that embodies the invention.

[0024] FIG. 5 is a side elevation of a portion of another robotic surgery system that embodies the invention.

[0025] FIG. 6 is a side elevation of a portion of another robotic surgery system that embodies the invention.

[0026] FIG. 7 is an oblique top view of a portion of the robotic surgery system shown in FIG. 6.

DETAILED DESCRIPTION

[0027] In the following description, numerous specific details are set forth. However, it is understood that embodiments of the invention may be practiced without these specific details. In other instances, well-known circuits, structures and techniques have not been shown in detail in order not to obscure the understanding of this description.

[0028] Robotic surgical systems have generally been viewed as an addition to a traditional surgical theatre. Systems intended to be added to conventional surgical suites generally make trade-offs in patient access and stiffness to accommodate the equipment found in a standard operating room. In particular, accommodating the standard operating table is a challenge for a robotic surgical system.

[0029] Embodiments of the present invention provide an integrated robotic surgery system for supporting a patient and a robotic surgical manipulator. Addressing the issues of patient support and robot support with a single system may provide advantages that are difficult to obtain with retrofit type solutions.

[0030] FIG. 1 shows a robotic surgery system 100 that is supported by a base 110. A pillar 120 is coupled to the base 110 at a first end 122 and extends vertically upward to an opposing second end 124. An attachment structure 130 is coupled to the second end 124 of the pillar 120.

[0031] A patient table 140 is coupled to the attachment structure 130. As shown, the patient table may be an articulated structure with sections 140a, 140b, 140c that can be moved relative to one another to position the patient advantageously for surgery. Preferably the patient will be supported by the section 140b of an articulated table that is most directly coupled to the attachment structure 130.

[0032] A patient table 140 is coupled to the attachment structure 130. As shown, the patient table 140 may be an articulated structure with sections 140a, 140b, 140c that can be moved relative to one another to position the patient advantageously for surgery. Preferably the patient will be supported by the section 140b of an articulated patient table 140 that is most directly coupled to the attachment structure 130.

[0033] Advantageously the attachment structure 130 provides a substantial base that supports both the patient table 140 and the robot support arm 150. The attachment structure 130 provides a stiff coupling member between the patient support and the robot support in the robotic surgery system 100. The pillar 120 may be of a telescoping construction that can raise and lower the attachment structure 130 with respect to the base 110. The height of the attachment structure 130 with respect to the base 110 does not change the relationship between the robot support arm 150 and the patient table 140 because the attachment structure provides a common base for both.

[0034] It will be appreciated that the patient and the robotic surgical manipulators are both substantial subsystems to be supported and may be somewhat equal in weight. It will be further appreciated that the relative positions of the two subsystems are dictated by the location of the surgical site. This may require supporting one or both of the subsystems as a cantilevered load. It will be recognized that this can result in very substantial forces being imposed on the attachment structure 130, forces that are not readily borne by conventional operating room equipment.

[0035] In some embodiments of the invention the patient table 140 may be slidingly coupled to the attachment structure 130 to allow different portions of the patient to be adjacent to the end effector 162 of the robotic surgical manipulator. It will be appreciated that this may require supporting the patient substantially offset from the pillar 120 and require the base 110 to be sized and weighted to stably support such offset loads. For example, the patient may be supported largely to one side of the pillar 120 to perform head surgery.

[0036] FIGS. 2 and 3 show a robotic surgery system in which the attachment structure 230 is coupled to the second end 224 of the pillar 220 with a pivotal connection 232 that allows the attachment structure to be placed at an angle to the vertical axis of the pillar. This may allow the attached patient table (not shown) to be inclined which may be desirable for certain surgeries to position internal organs by gravity effects.

[0037] FIG. 4 shows another robotic surgery system in which the attachment structure 430 is coupled to the pillar 220 with a pivotal connection that allows the attachment structure to be placed at an angle to the vertical axis of the pillar. In this embodiment the first end 452 of the robot support arm 450 is coupled to the attachment structure 430 such that the portion of the robot support arm extending upward is not perpendicular to an upper surface 432 of the attachment structure. The angle of attachment of the robot support arm 450 may be chosen to be equal and opposite to a frequently used angle of inclination of the attachment structure 430 and the attached patient table 140b. This allows the upright portion of the robot support arm 450 to be substantially vertical during many surgeries, allowing the patient-side surgeons and surgical room staff greater access to the patient and the robotic surgical equipment.

[0038] In this embodiment the second end 454 of the robot support arm 450 may be joined to the upright portion at other than a right angle so the second end 454, which supports the robotic surgical manipulator 160, is substantially parallel to the upper surface 432 of the attachment structure 430. This allows the robotic surgical manipulator 160 to be supported in a substantially horizontal position when the attachment structure 430 and the attached section 140b of the patient table 140 are horizontal for patient loading and initial setup of the robotic surgical manipulator.

[0039] FIG. 5 shows another robotic surgery system 500 in which the attachment structure 530 is coupled to the pillar 520 with a pivotal connection that allows the attachment structure to be placed at an angle to the vertical axis of the pillar. In this embodiment the first end 552 of the robot support arm 550 is pivotally coupled 532 to the attachment structure 530. A mechanism, such as a link 534 coupled between the pillar 520 and the first end 552 of the robot support arm 550, may operate to keep the portion of the robot support arm extending upward substantially vertical as the attachment structure 530 is inclined.

[0040] FIG. 6 shows another robotic surgery system 600 in which the first end 652 of the robot support arm 650 is coupled to the attachment structure 630 with a sliding connection 632 that allows the robot support arm to be moved along an axis of the attachment structure as suggested by the double headed arrow 660.

[0041] The first end 652 of the robot support arm 650 may be coupled to the attachment structure 630 with a sliding connection 658 that allows a length of the portion of the robot support arm extending upward to be adjusted as suggested by the double headed arrow 662. The sliding connection 658 may be a telescoping structure.

[0042] The robotic surgical manipulator 160 may be supported adjacent the second end 654 of the robot support arm 650 by a robot support bar 656 that is pivotally coupled to the robot support arm adjacent the second end. FIG. 7 shows an oblique view of the second end 654 of the robot support arm 650 looking along the pivot axis of the robot support bar 656. The robot support bar may support more than one robotic surgical manipulator and the bar may have a curved form to allow the end effectors 162 of several manipulators to converge on a surgical site. The pivoting of the robot support bar 656 may allow the supported robotic surgical manipulators 160 to be rotated away from the patient table 140 during patient loading onto the surgical table. In addition, the pivoting support bar may also allow the robot to be fitted with sterile covers and sterile instrumentation prior to the patient being loaded onto the table, and to maintain this sterility during pre-operative room activities, as the robot can be moved into a position where it at lower risk of being contacted by non-sterile persons or objects.

[0043] While certain exemplary embodiments have been described and shown in the accompanying drawings, it is to be understood that such embodiments are merely illustrative of and not restrictive on the broad invention, and that this invention is not limited to the specific constructions and arrangements shown and described, since various other modifications may occur to those of ordinary skill in the art. The description is thus to be regarded as illustrative instead of limiting.