Patent Description:
The disclosure is directed to devices for suturing tissue and more particularly to devices that work with an endoscope or similar device for endoscopically suturing tissue.

A variety of endoscopic treatments may result in defects (or wounds) that are too large for hemostasis clips to easily bridge and thus help to close the defect. Examples of such endoscopic treatments include removal of large lesions, tunneling under the mucosal layer, full thickness removal of tissue, treating other organs by passing outside of the gastrointestinal tract, and repair of post-surgical issues such as post-surgical leaks, failing surgical staple lines and anastomotic leaks. Endoscopic treatments also include bariatric revision procedures. Of the known devices and methods for endoscopically closing large defects, each has certain advantages and disadvantages.

Document <CIT>discloses an endoscopic suturing system with a first actuating member having two needle holders, each mounting a removable needle. A needle fixing device is removably mounted on a second actuating member. Two needle lock means for engaging the removable needles are formed at the needle fixing device. The first actuating member and the fixing device are pivotable with respect to a shaft.

Document <CIT> discloses a laparoscopic suturing device that comprises a handle assembly, an elongate shaft, and a jaw assembly. The handle assembly has a proximal end and a distal end. The handle assembly comprises a handle body, a trigger, and a toggle mechanism. The trigger is pivotably coupled to the handle body. The toggle mechanism is actuatable by pivotal movement of the trigger with respect to the handle body. The toggle mechanism comprises a toggle tube, a first shim, and a second shim. The toggle tube is rotatable within the handle body responsive to pivotal movement of the trigger. The toggle tube comprises a shim guide. The first shim has a proximal end with a first follower positioned in the shim guide. The first shim is longitudinally movable by rotation of the toggle tube. The second shim has a proximal end with a second follower positioned in the shim guide. The second shim is longitudinally movable by rotation of the toggle tube. The elongate shaft extends distally from the distal end of the handle assembly and defines a central longitudinal axis. The jaw assembly extends distally from the elongate shaft. The jaw assembly has a proximal end pivotably coupled to the elongate shaft and a distal end. The jaw assembly comprises a first jaw and a second jaw. The first jaw has a proximal end pivotably coupled to the elongate shaft and a distal end having a first needle retention slot therein. The second jaw has a proximal end pivotably coupled to the elongate shaft and a distal end having a second needle retention slot therein. The first shim extends distally to a distal end positioned in the first jaw and the second shim extends distally to a distal end positioned in the second jaw. The toggle mechanism is operable in a toggle cycle to alternately longitudinally advance the distal end of the first shim adjacent the first needle retention slot and advance the distal end of the second shim adjacent the second needle slot.

The disclosure is directed to several alternative designs, materials and methods of devices for endoscopically closing large defects. According to the invention and as defined in claim <NUM>, a medical device includes a mounting structure that is adapted to be secured to a distal end of an endoscope. A first suture arm is pivotably secured to the mounting structure via a first pivot point. The first suture arm includes a first latching member at an end of the first suture arm opposing the first pivot point and a first latching feature that is pivotably secured to the first latching member, the first latching feature pivotable between a latching position in which a needle is secured between the first latching member and the first latching feature and a release position. A second suture arm is pivotably secured to the mounting structure via a second pivot point. The second suture arm includes a second latching member at an end of the second suture arm opposing the second pivot point and a second latching feature pivotably secured to the second latching member, the second latching feature pivotable between a latching position in which a needle is secured between the second latching member and a release position.

The medical device may further include a first control element operably coupled to the first suture arm such that pulling on the first control element causes the first suture arm to move towards the second suture arm and pushing on the first control element causes the first suture arm to move away from the second suture arm.

The medical device may further include a second control element operably coupled to the second suture arm such that pulling on the second control element causes the second suture arm to move towards the first suture arm and pushing on the second control element causes the second suture arm to move away from the first suture arm.

The medical device may further include a third control element operably coupled with the first latching feature in order to cause the first latching feature to move between its latching position and its release position and a fourth control element operably coupled with the second latching feature in order to cause the second latching feature to move between its latching position and its release position.

The medical device may further include a first rounded pin secured to the first latching member and adapted to engage a latching detent of the needle when the needle is disposed between the first latching member and the first latching feature and a second rounded pin secured to the first latching feature and adapted to engage the latching detent of the needle when the first latching feature is in its latching position.

The first latching member and the first latching feature together may define a first lumen adapted to accept the needle when the first latching feature is in its latching position, and the first rounded pin and the second rounded pin may extend partially into the first lumen.

The medical device may further include a third rounded pin secured relative to the second latching member and adapted to engage a latching detent of the needle when the needle is disposed between the second latching member and the second latching feature and a fourth rounded pin secured relative to the second latching feature and adapted to engage the latching detent of the needle when the second latching feature is in its latching position.

The second latching member and the second latching feature in combination may define a second lumen adapted to accept the needle when the second latching feature is in its latching position, and the third rounded pin and the fourth rounded pin may extend partially into the second lumen.

The first suture arm may be adapted to pivot from a position about <NUM> degrees from vertical in an outward direction away from the second suture arm to a horizontal position in an inward direction towards the second suture arm.

The second suture arm may be adapted to permit the first suture arm to pivot through the second suture arm as the first suture arm approaches its horizontal position.

The second suture arm may be adapted to pivot from a position about <NUM> degrees from vertical in an outward direction away from the first suture arm to a position about <NUM> degrees from vertical in an inward direction towards the first suture arm.

In another example not forming part of the invention, a medical device includes a mounting structure adapted to be secured to a distal end of an endoscope. A first suture arm is pivotably secured to the mounting structure, the first suture arm adapted to releasably secure a needle that is adapted to puncture tissue while accommodating a suture, the first suture arm having a first width. A second suture arm is pivotably secured to the mounting structure, the second suture arm adapted to releasably secure the needle, the second suture arm having a second width greater than the first width such that the first suture arm is able to pivot through the second suture arm in order to capture a newly delivered needle. The first suture arm and the second suture arm are together adapted to pass the needle back and forth therebetween along an arcuate path.

Alternatively or additionally, the first suture arm may be adapted to pivot from a position about <NUM> degrees from vertical in an outward direction away from the second suture arm to a horizontal position in an inward direction towards the second suture arm.

Alternatively or additionally, the second suture arm may be adapted to pivot from a position about <NUM> degrees from vertical in an outward direction away from the first suture arm to a position about <NUM> degrees from vertical in an inward direction towards the second suture arm.

Alternatively or additionally, the medical device may further include a first control element operably coupled to the first suture arm such that pulling on the first control element causes the first suture arm to move towards the second suture arm and pushing on the first control element causes the first suture arm to move away from the second suture arm.

Alternatively or additionally, the medical device may further include a second control element operably coupled to the second suture arm such that pulling on the second control element causes the second suture arm to move towards the first suture arm and pushing on the second control element causes the second suture arm to move away from the first suture arm.

Alternatively or additionally, the medical device may further include a third control element operably coupled with the first latching feature in order to cause the first latching feature to move between its latching position and its release position and a fourth control element operably coupled with the second latching feature in order to cause the second latching feature to move between its latching position and its release position.

In another example not forming part of the invention, a medical device includes a mounting structure adapted to be secured to a distal end of an endoscope. A first suture arm is pivotably secured to the mounting structure, the first suture arm adapted to releasably secure a needle that is adapted to puncture tissue while accommodating a suture. A second suture arm is pivotably secured to the mounting structure, the second suture arm adapted to releasably secure the needle that is adapted to puncture tissue while accommodating a suture. The first suture arm and the second suture arm are each actuated to move towards each other and to move away from each other in order to pass the needle back and forth therebetween along an arcuate path.

Alternatively or additionally, the first suture arm may include a first latching member and a first latching feature pivotably secured to the first latching member, the first latching feature pivotable between a latching position in which a needle is secured between the first latching member and the first latching feature and a release position.

Alternatively or additionally, the second suture arm may include a second latching member and a second latching feature pivotably secured to the second latching member, the second latching feature pivotable between a latching position in which a needle is secured between the second latching member and the second latching feature and a release position.

The disclosure may be more completely understood in consideration of the following description of in connection with the accompanying drawings, in which:.

Definitions of certain terms are provided below and shall be applied, unless a different definition is given in the claims or elsewhere in this specification.

Although some suitable dimensions, ranges and/or values pertaining to various components, features and/or specifications are disclosed, one of skill in the art, incited by the present disclosure, would understand desired dimensions, ranges and/or values may deviate from those expressly disclosed.

As used in this specification and the appended claims, the singular forms "a," "an," and "the" include or otherwise refer to singular as well as plural referents, unless the content clearly dictates otherwise. As used in this specification and the appended claims, the term "or" is generally employed to include "and/or," unless the content clearly dictates otherwise.

The disclosure pertains to devices that are configured to be used in combination with an endoscope or a similar delivery device for closing wounds within the body. In some instances, the suture devices described herein may be configured such that they may be used in combination with a single working channel endoscope or a dual working channel endoscope within a single working or available channel of an endoscope, and in some cases may be operated by a single individual, although in some cases a second individual may be involved.

<FIG> is a perspective view of an illustrative assembly <NUM> that includes an illustrative suture device <NUM> secured to a distal end of an endoscope <NUM> while <FIG> is an end view of the illustrative assembly <NUM>. The suture device <NUM> may be used in combination with a variety of different endoscopes <NUM>, including but not limited to endoscopes <NUM> that have a primary working channel with a <NUM> millimeter (mm) diameter, a <NUM> diameter or a <NUM> diameter. It is also understood that the suture device <NUM> may be used with any of an endoscope, colonoscope, gastroscope, duodenoscope, bronchoscope, uretoscope, catheter, medical device, or the like.

As shown, the illustrative suture device <NUM> includes an end cap <NUM> that is configured to secure the suture device <NUM> relative to the endoscope <NUM>. In general, a first device being adapted to be secured relative to a second device includes the first device being secured directly to the second device and also includes the first device being secured to the second device with one or more intervening structures. For example, the end cap <NUM> may be any over-the-scope connector. In some instances, the suture device <NUM> may instead include other structures or features (not illustrated) that are adapted to secure the suture device <NUM> relative to the endoscope <NUM>. In some cases, as shown, the assembly <NUM> may include a tissue grasping device <NUM> that may be used to grasp tissue and pull the tissue into a working space <NUM> so that the suture device <NUM> may be used to place one or a plurality of stitches into the tissue. In some embodiments, the tissue grasping device <NUM> may be a helical device. While the helical tissue grasping device <NUM> is shown, in some cases other types of graspers may be used, as long as the graspers can fit through the main working channel of the endoscope <NUM>.

The suture device <NUM> includes a first suture arm <NUM> and a second suture arm <NUM> that are configured to be able to pass a needle <NUM> back and forth between the first suture arm <NUM> and the second suture arm <NUM>. It will be appreciated that due to the motion of the first suture arm <NUM> and the second suture arm <NUM>, as will be demonstrated in <FIG>, the needle <NUM> may be considered as traveling along an arcuate path. As the needle <NUM> passes through the tissue, the needle <NUM> pulls a suture <NUM> along with the needle <NUM>, thereby pulling the suture <NUM> through the tissue.

The first suture arm <NUM> includes a first latching member <NUM> and a first latching feature <NUM>. The second suture arm <NUM> includes a second latching member <NUM> and a second latching feature <NUM>. As will be discussed, the first latching member <NUM> and the first latching feature <NUM> work together to releasably secure the needle <NUM> to the first suture arm <NUM>. Similarly, the second latching member <NUM> and the second latching feature <NUM> work together to releasable secure the needle <NUM> to the second suture arm <NUM>.

In order to cause the first suture arm <NUM> and the second suture arm <NUM> to move as desired, the suture device <NUM> includes a first control element <NUM> that is attached to a first clevis <NUM> that is secured to the first suture arm <NUM> proximate a first pivot point <NUM>. The first control element <NUM> may be a wire, for example, or other elongate structure having sufficient tensile strength to be able to push or pull the first control element <NUM>. When the first control element <NUM> is pushed distally, such as by an appropriate handle mechanism (not shown), the first suture arm <NUM> will be caused to pivot away from the working space <NUM> and away from the second suture arm <NUM>. When the first control element <NUM> is pulled proximally, such as by an appropriate handle mechanism (not shown), the first suture arm <NUM> will be caused to pivot into the working space <NUM> and towards the second suture arm <NUM>.

The suture device <NUM> includes a second control element <NUM> that is attached to a second clevis <NUM> that is secured to the second suture arm <NUM> proximate a second pivot point <NUM>. The second control element <NUM> may be a wire, for example, or other elongate structure having sufficient tensile strength to be able to push or pull the second control element <NUM>. When the second control element <NUM> is pushed distally, such as by an appropriate handle mechanism (not shown), the second suture arm <NUM> will be caused to pivot away from the working space <NUM> and away from the first suture arm <NUM>. When the second control element <NUM> is pulled proximally, such as by an appropriate handle mechanism (not shown), the second suture arm <NUM> will be caused to pivot into the working space <NUM> and towards the second suture arm <NUM>. In some cases, other actuation mechanisms are contemplated, such as the use of one or more gears within the handle mechanism. This is just an example.

The first latching feature <NUM> is pivotably secured to the first latching member <NUM> at a pivot point <NUM>. As will be discussed with respect to <FIG>, a third control element may be used to open and close the first latching feature <NUM> relative to the first latching member <NUM>. The second latching feature <NUM> is pivotably secured to the second latching member <NUM> at a pivot point <NUM>. As will be discussed with respect to <FIG>, a fourth control element may be used to open and close the second latching feature <NUM> relative to the second latching member <NUM>.

With particular respect to <FIG>, it can be seen that the first suture arm <NUM> and the second suture arm <NUM> are not identical. Rather, the first suture arm <NUM> can be seen as being relatively narrow relative to the second suture arm <NUM>, which is wider. This size discrepancy allows the first suture arm <NUM> to tilt towards the second suture arm <NUM> and actually fit through the second suture arm <NUM>.

<FIG> shows the first suture arm <NUM> in a horizontal or substantially horizontal position in which the first suture arm <NUM> extends through the second suture arm <NUM>. The first suture arm <NUM> is in a position to be able to capture the needle <NUM> as the needle <NUM> is provided through the external tube <NUM>. This may occur if there is a need to replace the needle <NUM>, for example. In some cases, the needle <NUM> may be used to terminate a suture, meaning that the needle <NUM> may be left within the patient's body proximate the tissue being sutured. This may mean that another needle <NUM> may be needed, if there is another suture to be placed. While in some cases the assembly <NUM> is advanced towards a suturing site with the needle <NUM> firmly secured between the first suture arm <NUM> and the second suture arm <NUM>, in some cases there may be a desire to instead advance the assembly <NUM> without the needle <NUM>, and only provide the needle <NUM> once the assembly <NUM> has reached the suturing site.

As will be appreciated, the first suture arm <NUM> and the second suture arm <NUM> are not allowed to freely pivot to any position, but are configured to provide limits on travel. In some cases, for example, the first suture arm <NUM> may be allowed to pivot from a position about <NUM> degrees from vertical in an outward direction (roughly the position of the first suture arm <NUM> shown in <FIG>) and away from the second suture arm <NUM> to a horizontal position in an inward direction towards the second suture arm <NUM> (roughly the position of the first suture arm <NUM> shown in <FIG>. The second suture arm <NUM> may be allowed to pivot form a position about <NUM> degrees from vertical in an outward direction (roughly the position of the second suture arm <NUM> in <FIG>) to a position about <NUM> degrees from vertical in an inward direction towards the first suture arm <NUM>.

The first suture arm <NUM> and the second suture arm <NUM> include physical features in order to accomplish these travel limits. <FIG> shows a portion of the first suture arm <NUM> relative to the end cap <NUM>. It can be seen that the first suture arm <NUM> includes a pivot pin <NUM> that interacts with a corresponding surface <NUM> formed on the end cap <NUM>. A portion <NUM> of the surface <NUM> can be seen as being configured to limit how far the first suture arm <NUM> is allowed to pivot in an outward direction, while a portion <NUM> of the surface <NUM> is configured to allow the pivot pin <NUM> to move across the portion <NUM>, allowing the first suture arm <NUM> to pivot all the way to a horizontal orientation in an inward direction.

<FIG> and <FIG> show a portion of the second suture arm <NUM> relative to the end cap <NUM>. It can be seen that the second suture arm <NUM> includes a pivot pin <NUM> that interacts with a corresponding surface <NUM> formed on the end cap <NUM>. A portion <NUM> of the surface <NUM> can be seen as being configured to limit how far the second suture arm <NUM> is allowed to pivot in an outward direction while a portion <NUM> of the surface <NUM> is configured to limit how far the second suture arm <NUM> is allowed to pivot in an inward direction. As seen in particular in <FIG>, the second suture arm <NUM> includes pivot stops <NUM> and <NUM> that prevent the first suture arm <NUM> from pivoting past a horizontal position.

<FIG> is a partial cutaway view of a portion of a suture arm <NUM> that may be considered as representing either of the first suture arm <NUM> or the second suture arm <NUM>. The suture arm <NUM> includes a latching member <NUM> and a latching feature <NUM>. The latching feature <NUM> is attached to the latching member <NUM> via a pivot point <NUM>. It will be appreciated that the latching member <NUM> may be considered as representing either the first latching member <NUM> or the second latching member <NUM> and that the latching feature <NUM> may be considered as representing either the first latching feature <NUM> or the second latching feature <NUM>.

A control element <NUM> extends up through the suture arm <NUM> and passes through the aperture <NUM> and into the aperture <NUM>. The control element <NUM> may be considered as representing either the third control element or the fourth element, depending on whether the suture arm <NUM> represents the first suture arm <NUM> or the second suture arm <NUM>. The control element <NUM> may be a wire, for example, and includes a plug portion <NUM> that secures the control element <NUM> within the aperture <NUM>. The plug portion <NUM> may represent a solder ball, for example, or simply a widened portion of the control element <NUM> that is frictionally secured within the aperture <NUM>. Pushing the control element <NUM> may cause the latching feature <NUM> to open relative to the latching member <NUM> while pulling the control element <NUM> may cause the latching feature <NUM> to close relative to the latching member <NUM>.

The latching member <NUM> includes a rounded pin <NUM> that is secured within an aperture <NUM> formed within the latching member <NUM>. The latching feature <NUM> includes a rounded pin <NUM> that is secured within an aperture <NUM> formed within the latching feature <NUM>. It will be appreciated that the rounded pin <NUM> and the rounded pin <NUM> are configured to releasably engage a detent <NUM> that is formed near either end of the needle <NUM>. When the latching feature <NUM> is in a closed or latching position (such as the latching features <NUM>, <NUM> are shown in <FIG> or <FIG>), the rounded pins <NUM> and <NUM> engage one of the detents <NUM> to secure the needle <NUM> relative to the suture arm <NUM>. When the latching feature <NUM> is in an open or release position (as shown in <FIG>), the needle <NUM> is not held in place and thus is released. In some cases, apertures <NUM> and <NUM> that are formed within the latching member <NUM> and the latching feature <NUM>, respectively, allow a control element to pass up to and be secured relative to the latching feature <NUM>. This is not required in all cases, however. It will be appreciated that the needle <NUM> includes a suture aperture <NUM> through which a suture such as the suture <NUM> may be secured.

In comparing <FIG> with <FIG>, it will be appreciated that the suture device <NUM> may include a first rounded pin that is secured relative to the first latching member <NUM> and that is adapted to engage a latching detent <NUM> of the needle <NUM> when <NUM> the needle is disposed between the first latching member <NUM> and the first latching feature <NUM> as well as a second rounded pin that is secured relative to the first latching feature <NUM> and adapted to engage the latching detent <NUM> of the needle <NUM> when the first latching feature <NUM> is in its latching position. The first latching member <NUM> and the first latching feature <NUM> may be considered as together defining a first lumen (such as a lumen <NUM> as shown in <FIG>) that is adapted to accept the needle <NUM> when the first latching feature <NUM> is in its latching position, and the first rounded pin and the second rounded pin each extend partially into the first lumen.

The suture device <NUM> may include a third rounded pin that is secured relative to the second latching member <NUM> and that is adapted to engage a latching detent <NUM> of the needle <NUM> when the needle <NUM> is disposed between the second latching member <NUM> and the second latching feature <NUM> as well as a fourth rounded pin that is secured relative to the second latching feature <NUM> and is adapted to engage the latching detent <NUM> of the needle <NUM> when the second latching feature <NUM> is in its latching position. The second latching member <NUM> and the second latching feature <NUM> may be considered as together defining a second lumen (such as the lumen <NUM> shown in <FIG>) that is adapted to accept the needle <NUM> when the second latching feature <NUM> is in its latching position, and the third rounded pin and the fourth rounded pin each extend partially into the second lumen.

As an example, the suture device <NUM> may be secured to the end of the endoscope <NUM>. A needle <NUM> and suture <NUM> may be loaded into the suture device <NUM>, with the needle <NUM> locked into both the first suture arm <NUM> and the second suture arm <NUM>. The suture <NUM> extends through the external tubing <NUM> and the suture device <NUM> (and endoscope <NUM> are passed to an area of interest, such as the stomach or the esophagus, for example. In some cases, an over tube (not shown) may be used during intubation in order to protect the patient's esophagus. Once the suture device <NUM> has been appropriately placed, a tissue grasping device such as but not limited to the helical tissue grasping device <NUM> may be advanced down a working channel of the endoscope <NUM>. The first suture arm <NUM> and the second suture arm <NUM> may be moved into an open position in which the first suture arm <NUM> and the second suture arm <NUM> both tilt away from the working space <NUM> in order to allow for clearance for the tissue grasping device. At this point, the needle <NUM> remains locked to either the first suture arm <NUM> or the second suture arm <NUM>. The tissue grasping device may be advanced distally and engages with the tissue. The tissue grasping device may then be pulled proximally in order to pull the tissue into the working space <NUM>. The first suture arm <NUM> and the second suture arm <NUM> are rotated towards each other into a closed position in which the needle <NUM> is able to engage both the first suture arm <NUM> and the second suture arm <NUM>, thereby forcing the needle <NUM> and the suture <NUM> to pass through the tissue. The needle <NUM> may be transferred from one suture arm to the other by unlocking the suture arm with the needle and locking the arm receiving the needle.

This is illustrated for example in <FIG>. In <FIG>, the needle <NUM> is locked into the first suture arm <NUM>, and the first suture arm <NUM> and the second suture arm <NUM> have been pivoted into an open position in which the first suture arm <NUM> and the second suture arm <NUM> tilt away from each other. An unseen tissue grasping device has clearance to grasp tissue and pull the tissue in the working space <NUM>. In <FIG>, the first suture arm <NUM> and the second suture arm <NUM> have tilted towards each other, and the second latching feature <NUM> has been opened in order to allow the needle <NUM> to enter.

In <FIG>, the first suture arm <NUM> and the second suture arm <NUM> are in the closed position in which the first suture arm <NUM> and the second suture arm <NUM> are roughly parallel with each other. The first latching feature <NUM> has opened, and the second latching feature <NUM> has closed. As a result, the needle <NUM> has been secured relative to the second suture arm <NUM>, and has been released by the second suture arm <NUM>. In <FIG>, the second suture arm <NUM> has tilted away from the first suture arm <NUM>, with the needle <NUM> secured to the second suture arm <NUM>.

<FIG> is a perspective view of an illustrative assembly <NUM> that includes an illustrative suture device <NUM> secured relative to the endoscope <NUM>. The suture device <NUM> may be used in combination with a variety of different endoscopes <NUM>, including but not limited to endoscopes <NUM> that have a primary working channel with a <NUM> millimeter (mm) diameter, a <NUM> diameter or a <NUM> diameter. As shown, the illustrative suture device <NUM> includes an end cap <NUM> that is configured to secure the suture device <NUM> relative to the endoscope <NUM>. For example, the end cap <NUM> may be any over-the-scope connector. In some instances, the suture device <NUM> may instead include other structures or features (not illustrated) that are adapted to secure the suture device <NUM> relative to the endoscope <NUM>.

The suture device <NUM> includes a first suture arm <NUM> and a second suture arm <NUM>. The first suture arm <NUM> includes a first needle receiving feature <NUM> and the second suture arm <NUM> includes a second needle receiving feature <NUM>. While not shown, the suture device <NUM> may include a first control wire extending proximally from the first suture arm <NUM> and a second control wire extending proximally from the second suture arm <NUM> so that a user can actuate the first suture arm <NUM> and the second suture arm <NUM> as desired. The first suture arm <NUM> and the second suture arm <NUM> may lock to a needle <NUM> via separate control wires that run through the center of each of the suture arms <NUM>, <NUM> and releasably engage corresponding apertures formed within the needle <NUM>. It will be appreciated that the needle <NUM> includes a first aperture positioned to receive a wire extending through the first suture arm <NUM> and a second aperture positioned to receive a wire extending through the second suture arm <NUM>. These apertures are referenced with respect to <FIG>. The wires that control needle engagement are individually movable, thus the needle <NUM> can be locked to the first suture arm <NUM>, or locked to the second suture arm <NUM>, or released from either the first suture arm <NUM> or the second suture arm <NUM> as desired.

<FIG> is a perspective view of an illustrative assembly <NUM> that includes an illustrative suture device <NUM> secured relative to the endoscope <NUM>. The suture device <NUM> is similar to the suture device <NUM>, but the second suture arm <NUM> has been replaced with a stationary suture arm <NUM>.

<FIG> is a perspective view of the needle <NUM>. The needle <NUM> includes a first aperture <NUM> that is configured to accommodate a wire extending through the first suture arm <NUM>, for example. The needle <NUM> includes a second aperture <NUM> that is configured to accommodate a wire extending through the second suture arm <NUM>, for example. A suture aperture <NUM> permits a suture to be secured to the needle <NUM>.

<FIG> is a perspective view of an illustrative assembly <NUM> that includes an illustrative suture device <NUM> secured relative to the endoscope <NUM>. <FIG> is a partial cross-sectional view of the illustrative assembly <NUM>. The suture device <NUM> may be used in combination with a variety of different endoscopes <NUM>, including but not limited to endoscopes <NUM> that have a primary working channel with a <NUM> millimeter (mm) diameter, a <NUM> diameter or a <NUM> diameter. The suture device <NUM> includes one static arm <NUM> and one moving arm <NUM> that may be controlled using control wires running from the moving arm <NUM>. The control wires may pivot or swing the moving arm <NUM> in order to pass a needle <NUM> back and forth between the static arm <NUM> and the moving arm <NUM>. The needle <NUM> may be locked to the static arm <NUM> via an actuating lock mechanism <NUM> that is controlled via a control wire by a user at the proximal end. The needle <NUM> may be locked to the moving arm <NUM> passively via a spring force. In some cases, the actuating lock mechanism <NUM> may be configured to provide a force that is sufficient to overcome the spring force.

It will be appreciated that a variety of different materials may be used in forming the devices described herein. In some cases, a variety of different metals may be used. Illustrative but non-limiting examples of suitable metals include titanium, stainless steel, magnesium, cobalt chromium and others. In some cases, the first control element <NUM> and the second control element may be made of Nitinol. In some embodiments, for example, the devices described herein may include any suitable polymeric material, including biocompatible materials such as polyurethane or silicone. Suitable polymers include PEEK (polyetheretherketone) and Polycarbonate. Other suitable polymers include but are not limited to polytetrafluoroethylene (PTFE), ethylene tetrafluoroethylene (ETFE), fluorinated ethylene propylene (FEP), polyoxymethylene (POM, for example, DELRIN® available from DuPont), polyether block ester, polyurethane (for example, Polyurethane 85A), polypropylene (PP), polyvinylchloride (PVC), polyether-ester (for example, ARNITEL® available from DSM Engineering Plastics), ether or ester based copolymers (for example, butylene/poly(alkylene ether) phthalate and/or other polyester elastomers such as HYTREL® available from DuPont), polyamide (for example, DURETHAN® available from Bayer or CRISTAMID® available from Elf Atochem), elastomeric polyamides, block polyamide/ethers, polyether block amide (PEBA, for example available under the trade name PEBAX®), ethylene vinyl acetate copolymers (EVA), silicones, polyethylene (PE), Marlex high-density polyethylene, Marlex low-density polyethylene, linear low density polyethylene (for example REXELL®), polyester, polybutylene terephthalate (PBT), polyethylene terephthalate (PET), polytrimethylene terephthalate, polyethylene naphthalate (PEN), polyetheretherketone (PEEK), polyimide (PI), polyetherimide (PEI), polyphenylene sulfide (PPS), polyphenylene oxide (PPO), poly paraphenylene terephthalamide (for example, KEVLAR®), polysulfone, nylon, nylon-<NUM> (such as GRILAMID® available from EMS American Grilon), perfluoro(propyl vinyl ether) (PFA), ethylene vinyl alcohol, polyolefin, polystyrene, epoxy, polyvinylidene chloride (PVdC), poly(styrene-b-isobutylene-b-styrene) (for example, SIBS and/or SIBS 50A), polycarbonates, ionomers, biocompatible polymers, other suitable materials, or mixtures, combinations, copolymers thereof, polymer/metal composites, and the like.

Claim 1:
A medical device (<NUM>), comprising:
a mounting structure (<NUM>) adapted to be secured to a distal end of an endoscope (<NUM>);
a first suture arm (<NUM>) pivotably secured to the mounting structure via a first pivot point, the first suture arm (<NUM>) including:
a first latching member (<NUM>) at an end of the first suture arm (<NUM>) opposing the first pivot point;
a first latching feature (<NUM>) pivotably secured to the first latching member (<NUM>), the first latching feature pivotable between a latching position in which a needle (<NUM>) is secured between the first latching member (<NUM>) and the first latching feature (<NUM>) and a release position; and
a second suture arm (<NUM>, <NUM>) pivotably secured to the mounting structure via a second pivot point, the second suture arm (<NUM>) including:
a second latching member (<NUM>) at an end of the second suture arm (<NUM>) opposing the second pivot point;
a second latching feature (<NUM>) pivotably secured to the second latching member (<NUM>), the second latching feature (<NUM>) pivotable between a latching position in which a needle (<NUM>) is secured between the second latching member (<NUM>) and a release position.