CANNULA ASSEMBLY FOR ROBOTICALLY ASSISTED PRESSURE REGULATED LAPAROSCOPIC SURGICAL PROCEDURES

Abstract

A cannula assembly for use in robotic surgery is disclosed that includes a robotic cannula having a housing with an open end and a tubular portion extending distally from the housing, the tubular portion being dimensioned to accommodate passage of a surgical instrument having a 12 mm diameter, an adapter assembly configured for engagement within the open end of the cannula housing and including a tubular body with a passage supporting a primary seal dimensioned to accommodate passage of a surgical instrument having a 12 mm diameter, and an insert tube dimensioned to extend through the passage of the body portion of the adapter assembly and the tubular portion of the robotic cannula, the insert tube including a head portion with a passage supporting a secondary seal dimensioned to accommodate a surgical instrument having an 8 mm diameter.

Claims

1. A cannula assembly for use in robotically assisted laparoscopic surgery, comprising: a) an adapter assembly configured for reception within an open end of a proximal housing portion of a robotic cannula and including a tubular body with a central passage supporting a primary seal; and b) an insert tube dimensioned and configured to extend through the central passage of the tubular body of the adapter assembly and a tubular portion of the robotic cannula portion, the insert tube including an upper cup with an access port supporting a secondary seal.

2. The cannula assembly of claim 1, wherein the adapter assembly includes an upper housing for supporting the primary seal within the central passage of the tubular body of the adapter assembly.

3. The cannula assembly of claim 2, wherein an inlet port extends from the upper housing of the adapter for connecting the adapter to a gas delivery tube.

4. The cannula assembly of claim 3, wherein a toggle valve is operatively associated with the inlet port for controlling the flow of gas to the adapter assembly.

5. The cannula assembly of claim 2, further comprising a clamping collar operatively associated with the upper housing of the adapter assembly for releasably securing the adapter assembly to a proximal housing portion of the robotic cannula.

6. The cannula assembly of claim 2, further comprising an O-ring seal surrounding the tubular body portion of the adapter below the upper housing for sealingly engaging an interior surface of a proximal housing portion of the robotic cannula.

7. The cannula assembly of claim 1, wherein a flat seal is supported within a central passage of the upper cup of the insert tube.

8. The cannula assembly of claim 7, wherein the flat seal is positioned proximal to the secondary seal.

9. The cannula assembly of claim 7, further comprising an upper cover for enclosing the secondary seal and flat seal within a proximal head portion of the insert tube.

10. The cannula assembly of claim 1, wherein the central passage of the tubular body portion of the adapter assembly is dimensioned and configured to accommodate a surgical instrument having a 12 mm outer diameter, and the access port of the upper cup of the insert tube is dimensioned and configured to accommodate a surgical instrument having an 8 mm outer diameter.

11. The cannula assembly of claim 1, further comprising a robotic cannula portion having a proximal housing portion with an open end and an elongated tubular portion extending distally from the proximal housing portion.

12. A cannula assembly for use in robotically assisted laparoscopic surgery, comprising: a) a robotic cannula portion having a proximal housing portion with an open end and an elongated tubular body portion extending distally from the proximal housing portion, the tubular body portion of the cannula being dimensioned and configured to accommodate passage of a surgical instrument having a 12 mm outer diameter; b) an adapter assembly configured for releasable engagement within the open end of the proximal housing portion of the cannula and including a tubular body portion with a central passage supporting a primary seal dimensioned to accommodate passage of a surgical instrument having a 12 mm outer diameter; and c) an insert tube dimensioned and configured to extend through the central passage of the tubular body portion of the adapter and the tubular body portion of the robotic cannula, the insert tube including an upper cup with an access port supporting a secondary seal dimensioned and configured to accommodate a surgical instrument having an 8 mm outer diameter.

13. The cannula assembly of claim 12, wherein the adapter assembly includes an upper housing for supporting the primary seal within the central passage of the tubular body of the adapter assembly.

14. The cannula assembly of claim 13, wherein an inlet port extends from the upper housing of the adapter assembly for connecting the adapter assembly to a gas delivery tube.

15. The cannula assembly of claim 14, wherein a toggle valve is operatively associated with the inlet port for controlling the flow of gas to the adapter assembly.

16. The cannula assembly of claim 13, further comprising a clamping collar operatively associated with the upper housing of the adapter assembly for releasably securing the adapter assembly to a proximal housing portion of the robotic cannula.

17. The cannula assembly of claim 13, further comprising an O-ring seal surrounding the tubular body portion of the adapter below the upper housing for sealingly engaging an interior surface of the proximal housing portion of the robotic cannula.

18. The cannula assembly of claim 12, wherein a flat seal is supported within the central passage of the upper cup of the insert tube.

19. The cannula assembly of claim 18, wherein the flat seal is positioned proximal to the secondary seal.

20. The cannula assembly of claim 19, further comprising an upper cover for enclosing the secondary seal and flat seal within a proximal head portion of the insert tube.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] So that those skilled in the art to which the subject invention appertains will readily understand how to make and use the robotic cannula assembly of the subject invention without undue experimentation, preferred embodiments thereof will be described in detail herein below with reference to certain figures, wherein:

[0017] FIG. 1 is an illustration of a robotically assisted laparoscopic surgical procedure involving a plurality of robotic cannula devices;

[0018] FIG. 2 is a perspective view of an embodiment of the cannula assembly of the subject invention, which includes a robotic cannula portion having a 12 mm working diameter, an adapter assembly configured for reception in the housing of the robotic cannula, and an insert tube in a partially inserted positon relative to the adapter assembly which has an 8 mm working diameter, and wherein the adapter assembly has a conventional luer fitting for engaging a tube connector;

[0019] FIG. 3 is an exploded perspective view of the cannula assembly of FIG. 2, with parts separated for ease of illustration;

[0020] FIG. 4 is a perspective view of another embodiment of the cannula assembly of the subject invention, which includes a robotic cannula portion having a 12 mm working diameter, an adapter assembly configured for reception in the housing of the robotic cannula portion, and an insert tube in a partially inserted positon relative to the adapter assembly which has an 8 mm working diameter, and wherein the adapter assembly has a proprietary tube fitting with camming lugs for engaging a tube connector;

[0021] FIG. 5 is an exploded perspective view of yet another embodiment of the cannula assembly of the subject invention, which includes a robotic cannula portion having a 12 mm working diameter, an adapter assembly configured for reception in the housing of the robotic cannula portion, and an insert tube having an 8 mm working diameter, and wherein the adapter assembly has a proprietary tube fitting with camming lugs for engaging a tube connector; and

[0022] FIG. 6 is an exploded perspective view of the adapter assembly shown in FIG. 5 with parts separated for ease of illustration.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0023] Referring now to the drawings wherein like reference numerals identify similar structural features and/or elements of the subject matter disclosed herein, there is illustrated in FIG. 1 an illustration of a robotically assisted laparoscopic surgical procedure involving a plurality of access devices or cannulas 10 which provide access for surgical instrumentation 12 controlled by robotic manipulators 14. More particularly, the robotic manipulators 14 are part of a system such as the da Vinci Surgical System, which is manufactured by Intuitive Surgical, Inc., of Sunnyvale, Calif., or a similar robotic surgical system.

[0024] Referring now to FIG. 2, there is illustrated a cannula assembly constructed in accordance with a preferred embodiment of the subject invention and designated generally by reference numeral 100. Cannula assembly 100 is particularly adapted and configured for use in robotically assisted, pressure regulated laparoscopic surgery, involving, for example, the da Vinci Surgical System.

[0025] Cannula assembly 100 includes a robotic cannula portion 112 having a proximal housing portion 114 with an open end and a distally extending tubular body 116, which has a 12 mm working diameter, i.e., the tubular body portion is dimensioned and configured to accommodate a surgical instrument having a 12 mm outer diameter. The housing portion 114 includes an engagement flange 118 configured to be selectively engaged by a robotic manipulator 14, for use as shown for example in FIG. 1. Cannula assembly 100 further includes an adapter assembly 120 configured for reception in the proximal housing portion 114 of the robotic cannula portion 112, and a separable insert tube 130 which has an upper cap 132 with an access port 134 and a distally extending tubular body portion 136 having an 8 mm working diameter, i.e. the tubular body portion 136 is dimensioned and configured to accommodate a surgical instrument having an 8 mm outer diameter. The tubular body portion 136 is configured to extend through the central passage of the tubular body 144 of the adapter assembly 120 and the tubular body 116 of the robotic cannula portion 112. A mechanical seal, such as for example, a duckbill seal or the like, is associated with the access port 134 to support a secondary seal for sealed access to the tubular body portion 136 for an 8 mm surgical instrument. While it is not shown in this embodiment, this seal is shown in the embodiments illustrated in FIGS. 3 and 6, e.g., seals 150 and 350.

[0026] Referring now to FIG. 3, the adapter assembly 120 is configured for reception within the open end of the proximal housing portion 114 and includes an upper housing 122 and a lower housing 124. The upper housing 122 includes a cover 126 that defines an access port 128 for receiving a 12 mm instrument as well as the tubular portion 136 of insert tube 130. The cover 126 encloses a pair of diametrically opposed latches 142a and 142b which form a clamping collar operatively associated with the upper housing 122 for releasably securing the adapter assembly 120 to the open end of the proximal housing portion 114 and which interact with corresponding diametrically opposed locking tabs 138a and 138b on the upper cap 132 of insert 130 for selectively securing the insert tube 130 to the adapter assembly 120 during use.

[0027] The upper housing 122 of the adapter assembly 120 further includes a tubular body 144 with a central passage that supports, encloses or otherwise houses a primary seal 150. In this embodiment, the primary seal assembly 150 includes a four-part double lipped duckbill seal, for example, and can include a main seal above the duckbill seal. The primary seal 150 includes an upper flange portion 152 that is dimensioned and configured to be captured and retained between the upper and lower housing 122 and 124 of the adapter assembly 120 and more particularly between the top of the tubular body 144 and the bottom of lower housing 124 which seats against the cover 126 inside the lower housing 122 as oriented in FIG. 3. The tubular body 144 supports an O-ring seal 154 that functions to seal the interface between the inner diameter of the open end of the proximal housing 114 of the robotic cannula portion 112 and the outer diameter of the tubular body 144 of the of the adapter assembly 120.

[0028] The upper housing 122 of the adapter assembly 120 also includes a valve assembly 160 that includes a rotatable toggle valve stem 162 and an inlet port 164 in the form of a luer lock connection port extending from the adapter assembly 120. Those skilled in the art will readily appreciate that any other suitable type of connection port can be used. This port is configured to connect with a gas delivery tube that could be associated with a source of insufflation gas.

[0029] Referring now to FIG. 4, there is illustrated another cannula assembly constructed in accordance with a preferred embodiment of the subject invention and designated generally by reference numeral 200. Cannula assembly 200 is substantially similar to cannula assembly 100 in that it includes a robotic cannula portion 212 having a proximal housing portion 214 and a distally extending tubular body portion 216, which has a 12 mm working diameter. The housing portion 214 includes an engagement flange 218 configured to be selectively engaged by a robotic manipulator 14, for use as shown in FIG. 1.

[0030] Cannula assembly 200 further includes an adapter assembly 220 configured for reception in the proximal housing portion 214 of the robotic cannula portion 212, and a separable insert tube 230 which has an upper cap 232 with an access port 234 and a distally extending tubular body portion 236 having an 8 mm working diameter.

[0031] Cannula assembly 200 differs from cannula assembly 100 in that the valve assembly 260 that includes an over-sized inlet port 164 with unique proprietary configuration that includes a plurality of circumferentially spaced apart camming lugs 266 for engagement with a proprietary coupling, such as for example, the type of coupling disclosed in commonly assigned U.S. Patent Application Publication No. 2014/0171855, and its progeny, which are incorporated herein by reference in their entirety.

[0032] Referring now to FIGS. 5 and 6, there is illustrated another embodiment of the cannula assembly of the subject invention, which is designated generally by reference numeral 300. As illustrated, cannula assembly 300 includes a robotic cannula portion 312 having a proximal housing portion 314 and a distally extending tubular body portion 316, which has a 12 mm working diameter. The proximal housing portion 314 includes an engagement flange 318 configured to be selectively engaged by a robotic manipulator 14, for use as shown in FIG. 1.

[0033] Cannula assembly 300 further includes an adapter assembly 320 configured for reception in the proximal housing portion 314 of the robotic cannula portion 312, and a separable insert tube 330 which has an upper cover 332 with an access port 334 and a distally extending tubular body portion 336 having an 8 mm working diameter. The adapter assembly 320, which is best seen in FIG. 6, includes a 12 mm two-part single lipped duckbill seal 350 and a valve assembly 360 that includes an over-sized toggle valve 362 and inlet port 364 with a unique proprietary configuration. The insert tube 330 also includes an 8 mm duckbill seal 360 and a secondary 8 mm flat seal 363 supported within the central passage or access port 334 of the upper cup or cover 332 of the tube insert 330 for sealed access into the tubular portion 336. The flat seal 363 is positioned proximal to the duckbill seal 360. The upper cover 332 encloses the duckbill seal 360 and flat seal 363 within a proximal head portion of the insert tube 330.

[0034] While the subject invention has been shown and described with reference to preferred embodiments, those skilled in the art will readily appreciate that various changes and/or modifications may be made thereto without departing from the scope of this disclosure.