Title of Invention

APPLIER FOR FASTENER FOR SINGLE LUMEN ACCESS ANASTOMOSIS

Abstract The invention relates to Creating an anastomosis, or the surgical formation of a passage between two normally distinct vessels or lumens, is enhanced by an applier (10) that introduces a ring device (30) without the need for a separate anvil to form a hollow rivet shaped attachment. Moreover, the ring device (30) may be advantageously formed in a cylindrical shape from molded polymer material or stamped from sheet metal with proximal and distal rings (32,36) connected by proximal and distal arms (38,40) that respectively form hinged, ring shaped so appose tissue walls (14,16). A center ring (34) or portion sits in the attachment site. The applier (10) causes actuating by moving the rings (32- 36) relative to one another. A latching mechanism (74) locks the rings (32-36) in the actuating state. {Fig. 1}
Full Text APPLIER FOR FASTENER FOR SINGLE LUMEN ACCESS
ANASTOMOSIS
Cross Reference to Related Applications
[ooo1] The present application is related to four co-pending and commonly-owned
application filed o 1 even date herewith, the disclosure of each is hereby incorporated
by reference in its entirety:
"Anastomosis Wire Ring Device", Serial No._________to Don Tanaka, Mark
Ortiz and Darrel Powell;
"Unfolding; Anastomosis Ring Device", Serial No._______to Jean Beaupre,
"Single Lumen Access Deployable Ring for Intralumenal Anastomosis", Serial
No.________to Mark Ortiz; and
"Single Lumen Anastomosis Applier for Fastener", Serial No.________to
Mark Ortiz, Robeit McKenna, Bill Kramer, Mike Stokes, and Foster Stulen.
Field of the Invention
[0002] The present invention relates, in general, to devices and methods for surgically
modifying organs and vessels. More particularly, it relates to anastomosis devices for
joining two organs such as, for example, two separate lengths of small bowel to each
other, a section of small bowel to the stomach, or the common bile duct to the
duodenum in a procedure called a choledochoduodenostomy. Vascular anastomosis
may be performed as well.
Background of the Invention
(0003] The percentage of the world population suffering from morbid obesity is
steadily increasing. Severely obese persons are susceptible to increased risk of heart
disease, stroke, die betes, pulmonary disease, and accidents. Because of the effect of
morbid obesity to ;he life of the patient, methods of treating morbid obesity are being
researched.
[0004] Numerous ion-operative therapies for morbid obesity have been tried with
virtually no permanent success. Dietary counseling, behavior modification, wiring a
patient's jaws shut, and pharmacological methods have all been tried, and though
temporarily effective, failed to correct the condition. Further, introducing an object in
the stomach, such as an esophagogastric balloon, to fill the stomach have also been
used to treat the condition; however, such approaches tend to cause irritation to the
stomach and are not effective long-term.
[ooo5] Surgical treatments of morbid obesity have been increasingly used with
greater success. These approaches may be generalized as those that reduce the
effective size of the stomach, limiting the amount of food intake, and those that create
malabsorption of the food that it is eaten. For instance, some patients benefit from
adjustable gastric bands (AGB) that are advantageously laparoscopically placed about
the stomach to forn a stoma of a desired size that allows food to fill an upper portion
of the stomach, cansing a feeling of satiety. To allow adjustment of the size of the
stoma after importation, a fluid conduit communicates between an inwardly
presented fluid bladder of the AGB to a fluid injection port subcutaneously placed in
front of the patient's sternum. A syringe needle may then inject or withdraw fluid as
desired to adjust the AGB.
[0006] Although an effective approach to obesity for some, other patients may find
the lifestyle changes undesirable, necessitated by the restricted amount of food intake.
In addition, the medical condition of the patient may suggest the need for a more
permanent solution. To that end, surgical approaches have been used to alter the
portions of the stomach and/or small intestine available for digesting food. Creating
an anastomosis, or the surgical formation of a passage between two normally distinct
vessels, is a critical step of many surgical procedures. This is particularly true of
gastric bypass procedures in which two portions of small intestine are joined together
and another portion of small intestine is joined to the stomach of the patient. This is
also true of surgery to alleviate blockage in the common bile duct by draining bile
from the duct to the small intestine during surgery for pancreatic cancer.
[0007] With particular reference to gastric bypass; procedures, current methods of
performing a laparoscopic anastomoses for a gastric bypass include stapling, suturing,
and placing biofragmentable rings, each having significant challenges. For instance,
suturing is time consuming, as well as being technique and dexterity dependent.
Stapling requires placement of an anvil, which is a large device that cannot be
introduced through a trocar port Having to introduce the port through a laparotomy
presents an increased incidence of wound site infection associated with Intraluminal
content being dragged to the laparotomy entry she.
[0008] As an example of the latter approach, in U.S. Pat. No. 6,543,456 a method for
gastric bypass surgery includes the insertion of proximal and distal anastomosis
members (e.g., anvils) transorally with grasping forceps. The stomach and the small
intestine are transacted endoscopically by a surgical severing and stapling instrument
to create a gastric pouch, a drainage loop, and a Roux limb. An endoscopically
inserted circular s apler attaches to the distal anastomosis member to join the drainage
loop to a distal portion of the intestine, and the circular stapler attaches to the
proximal anastomasis member to join the Roux limb to the gastric pouch. Thereafter,
the anastomosis members are removed to create an orifice between joined portions of
the stomach and intestine. This method reduces the number oflaparoscopic ports,
avoids a laparoscopic insertion of an anastomosis instrument (e.g., circular stapler)
into an enlarged s lrgical port, and eliminates the need for an enterotomy and an
enterotomy closure.
[ooo9] For many inastomoses, surgeons use circular staplers, linear staplers, or
manual sutures. However, to reduce incision size and to make the surgical process
less technically demanding and time consuming, an anastomotic device that deforms
to hold tissue portions together when the device is ejected from a constraining
enclosure has been described. Such an approach is described in U.S. Pat. Appl. Publ.
No. US 2003/003:1967 and PCT application WO 03/000142 both to Adrian Park et al,
which is hereby ircorporated herein by reference, describes such a device. Therein,
gastrointestinal or enteric (including biliary) anastomosis is achieved by insertion of a
sheath that perforates the walls of two tissue passages, such as the stomach and small
intestine. A three- limensional woven tube of wire of having a thermal shape memory
effect (SME) ("generally-known nitinol ring device") is presented by a cannula of the
sheath on both sides of the openings. Deployment of the woven tube causes the outer
loops or ends of the tube to fold or loop back to hold the luminal interface of the
anastomosis site in apposition. Thereby, the need for a mechanical compression
component in a delivery system is reduced or avoided, reducing the size and
complexity of the delivery device.
[0010] The anasto notic device disclosed in WO 03/000142 is constrained by a
retractable sheath ;o an advantageous small-diameter tubular shape. A surgeon applies
the anastomotic device by maneuvering the sheath through the tissue portions
requiting anastomosis and retracting the sheath. Retracting the sheath removes the
constraint on the device, allowing the device to assume a roughly hourglass shape.
The larger ends of the hourglass shape hold the two tissue portions together in an
effective anastomosis.
[0011] The constmined anastomotic device, which may be made of a shape memory
material such as nitinol, exerts a force against the inner diameter of the sheath and
tends to warp towards its roughly hourglass-shaped deployed position. When the
sheath is retracted proximally, the forces generated by the device in transition from a
tubular shape to an hourglass shape urge the anastomotic device distally. This device
movement makes surgical control harder to achieve when placing the device through
the otomies of two tissue portions requiring anastomosis.
[0012]| While the generally-known nitinol ring device is a significant advancement in
the treatment of morbid obesity, it is believed that further improvements would be
desirable. For instance, weaving the wire strands and fastening together the ends and
heat treating the woven tubes into an SME device is expensive. In addition, it may
tend to be difficult to maintain two lumens that are to be anastomotized in extremely
close contact in order for the generally-known nitinol ring device to successfully
attach to both sides. Having to insert one or more grasping tools along with the
anastomosis ring applier tends to mitigate the advantages of a single lumen
anastomosis by requiring multiple access ports. Moreover, even if the lumens are
proximately position, the generally-known nitinol ring device tends to actuate slowly,
if at all, by being limited to SME actuation.
[0013]| Consequertly, there is a general need for an device for single lumen access
anastomosis that can be used in existing trocar perls (e.g., 12 mm size) and that
reliably and effectively creates an anastomotic attachment between lumens,
eliminating the need for surgical stapling and suturing to form an anastomosis
Brief Summary of the Invention
[0014] The invention overcomes the above-noted and other deficiencies of the prior
art by providing an applier for an absorbable ring for a single lumen access
anastomosis, the combination being suitable and sufficient to perform lumen control
and apposition as well as enterotomy control. The applier that may be inserted
through a trocar and applied without any additional parts such as an anvil. The applier
holds the absorbable ring that has distal and proximal arm segments that the applier
individually actuares to enhance control. For instance, the distal arm segments may be
expanded in a distal lumen, which is then drawn back into closer contact with the
proximal lumen before actuating the proximal arm segment. Alternatively, the
proximal arm segments may be expanded first and the first lumen positioned relative
to the second lumen. Thereby, positioning the two lumens to be anastomotized is
simplified.
[0015] In one aspect of the invention, an applier has an implement portion that
receives an anastomosis ring device with an unactuated shape of a cylinder with a
proximal ring at one end and a distal ring at the other. The ring device further has
proximal arms that are attached to the proximal ring and has distal arms are attached
to the distal ring. Inwardly directed ends of the dastal arms are coupled to inwardly
directed ends of the proximal arms at a center ring such that the arms will outwardly
actuate when the tings arc drawn closer together during actuation. The ring device has
a latching mechanism that locks the rings in this actuated shape of a rivet. The applier
engages the ring such that the spacing of the distal ring to the center ring and the
spacing of the proximal ring to the center ring may be reduced, causing actuation and
latching. Then, the implement portion is removed from the ring device. Thus, a
single lumen procedure is achieved without the need for a separate anvil device to
actuate (he device Moreover, since the applier affirmatively actuates the ring device,
limitations of generally-known shape memory effect (SME) actuation of a wire stent-
like ring device are avoided.
|[0016] These and other objects and advantages of the present invention shall be made
apparent from the accompanying drawings and the description thereof.
Brief Description of the Figures
[0017] The accorr panying drawings, which are incorporated in and constitute a part
of this specificaticn, illustrate embodiments of the invention, and, together with the
general description of the invention given above, and the detailed description of the
embodiments given below, serve to explain the principles of the present invention.
(0018! FIGURE 1 is perspective view of an single lumen access deployable ring for
Intralumenal anasiomosis installed upon an applier being inserted laparoscopically to
an anastomosis target site on each of two portions of a patient's small intestine.
[0019] FIGURE 2 is the applier of FIG. 1 after actuation of the single lumen access
deployable ring to appose the two portions of small intestine.
[002C] FIGURE 2 is a detail view of the unactuated single lumen access deployable
ring and distal tip and catches of the applier.
|[0021] FIGURE 4 is a perspective detail view of a partially-actuated ring device and
the catches and distal tip of the applier of FIG. 2 .
[0022] FIGURE 5 is a side elevation detail view of the partially-actuated nng device
and distal portion of the applier of FIG. 2 cutaway along the longitudinal axis.
[0023| FIGURE 6 is a perspective detail view of a fully actuated ring device and
distal portion of the applier of FIG. 2.
[0024] FIGURE 7 is a side elevation view of the fully actuated and deployed ring
device of FIG. 6.
Detailed Description of :he Invention
[002S| Turning to the Drawings, wherein like numerals denote like components
throughout the several views, FIG. 1 depicts an applier 10 having an elongate
implement portion 12 dimensionally sized for insertion through a cannula of a trocar
or laparoscopic pert to tissues walls 14, 16 to anastomose two lumens. A distal
introducer tip 18 of the applier 10 pierces through an opening 20 at an anastomosis
site 22 to position an actuating portion 24 that holds a ring device 30 for single lumen
anastomosis.
|0026| The ring device 30 has three primary rings, depicted as a proximal ring 32, a
center ring 34, and a distal ring 36, that are cylindncally aligned with one another.
The proximal ring 32 is longitudinally attached to the center ring 34 by proximal arms
38, which in tuni s longitudinally attached to the distal ring 36 by distal amis 40.
Each proximal and distal arm 38,40 is bisected respectively by a hinged joint 42, 44
defining an inner irm segment 46, 48 also hingeclly attaching to the center ring 34 and
an outer arm segment SO, 52 also hingediy attached to the respective proximal or
distal ring 32, 36. In its unactuated state as depicted in FIG. 1, the device 30 is
cylindrical. The n lative lengths of the inner arm segments 46, 48 to outer arm
segments 50, 52 may be selected to provide a desired angular contact to tissue walls
14, 16. In the illustrative version, the relationship resembles a cantilevered contact
with the inner am segments 46, 48 actuating to an approximately parallel relationship
to the tissue walls 14, 16.
[O027| A handle portion 54 is proximally connected to a shaft 56 of the implement
portion 12. The si aft 56 may be rigid or flexible, with the latter being desirable for
Intralumenal inseition, such as through the esophagus. The handle includes controls
for longitudinally positioning the rings 32-36 of the ring device 30. In the illustrative
version, this includes a center nng slide control 58 and a distal ring slide control 60.
Although a manually positioned and actuated applier 10 is depicted for clarity, it
should be appreciated that a remotely positioned and actuated applier may be used
consistent with asaects of the invention, for instance to allow placement in a more
controlled nian.nei, to avoid disturbing an imaging modality, or for other reasons. The
handle 54 may fuither include controls for a distal tip illumination capability so that
actuation of the distal arms 40 in the distal lumen may be proximally viewed from an
endoscope. It will be appreciated that the terms "proximal" and "distal" are used
herein with refereice to a clinician gripping the handle portion 54 of the applier 10.
[0O28| In FIG. 2, two slide controls 58, 62 have been withdrawn proximally, bringing
both the center and distal rings 34, 36 into locking proximity of the proximal ring 32,
which is held in piace by resting against the shafl 56. In response thereto, the
proximal and distal arms 38, 40 hinge outwardly from the longitudinal axis of the
device 30, creating a hollow rivet or hourglass shape for apposing tissue walls 14, 16.
The center ring 34 sits at a tissuejunction between lumens and the distal and proximal
rings 32, 36 come to rest in respective lumens. By latching rings 32-38 one to another
when actuated, (he device 30 is held in the actuated position with bent arms 38,40
apposing tissue. Tie proximal arms 38 may be staggered, as depicted, from distal
arms 40 to create i. tortuous path for the compressed tissue. Alternatively, the arms
38, 40 may be aliened to directly mate to each other.
|0029| It should b; appreciated that in the illustrative version, the proximal ring 36 is
stationary with respect to the applier 10. In some applications, a third control may be
incorporated so that each of the tliree rings may be positioned independently from the
rest, further enhancing the ability to actuate either the distal or the proximal arms 40,
38. As another alternative, the center ring'34 may be stationary with respect to the
applier 10, with controls effective to move the proximal and distal rings 32, 36
inwardly to the center ring 34.
{0030| In FIG. 3, ihe unactuated ring device 30 is shown with the distal introducer tip
18 of the applier 10. The ring device 10 may be comprised of a single piece of molded
or stamped materi il. For instance, the ring device 10 may be advantageously formed
from a stamped pi jce of sheet metal that is wound around a mandrel and tack welded
into a cylindrical fhape. Cuts define the arms 38, 40 and creases define the hinged
portions. Similar manufacturing economies may be achieved by molding the ring
device 30 from a polymeric material. Furthermore, the device 10 may be formed
entirely or partial! / of a biofragmentable or absorbable material to assist in the
eventual passing cf the device 10, leaving a patent anastomosis. The ring device 10
may advantageously include radiopaque markers in the arms to allow diagnostic
imaging to confirm placement of the device 10 and/or to confirm passing. It should be
appreciated that the afore-described methods of manufacture are believed to yield
economical and therapeutic advantages; however, other techniques for fabrication and
assembly may be employed.
100311 Also depicted in FIG. 3, a center ring actuating member 62 and a distal ring
actuating member 64 are shown that move within the shaft 56 in response to the
center and distal ring slide controls 58, 60. In the illustrative version, each actuating
member 62, 64 is brmed from a rigid polymer or sheet metal to have two parallel
elongate prongs 6, 68 springedly outwardly biased or urged outwardly by other
portions of the applier 10 to present distally and laterally presented catches 70 to the
inner surface of th ;ir respective rings for engagement. Proximal to each catch 70 is a
releasing ramp 72 that causes the catch 70 to move inwardly as the releasing ramp 72
contacts the next more proximal nng at or near full actuation. Thus, the ring device 30
is disengaged from the actuating portion 24 of the applier 10 and may be deployed.
[0032| In FIGS 4 5, the actuating members 62, 64 are depicted as having moved
proximally to art intermediate locking position. The shaft 56 (shown in phantom) has
restrained the pro imal ring 32 while center ring actuating member 62 has drawn back
the center ring 34 ;uch that the proximal arms 38 have partially actuated. Similarly,
the distal ring actuating member 64 has drawn back the distal ring 36 such that the
relative distance between the distal and center 36, 34 is sufficient to also partially
actuate the distal srms 40. A locking mechanism, depicted as proximally directed
locking hook 74, i; connected to the distal ring 36 and is depicted as transitioning past
the center ring 34 at this intermediate actuating position. It may be desired in some
applications for thsre to be sufficient interference or latching at intermediate points
during actuation for the nng device 30 to remain in a partially actuated position.
[0033| In FIGS. 6-7, the ring device 30 has fully actuated. In FIG 6, the actuating
members 62, 64 h ive caused the locking hook 74 to lock the distal ring 36 to the
proximal ring 32. It should be appreciated that this simple latching mechanism is
illustrative and for clarity. A distally presented hook from the proximal ring 32 for
instance may inteimediately latch to the center ring 34 when the proximal arms 38 are
partially actuated ind latch to the distal ring 36 when the proximal arms 38 are fully
actuated. In FIG. ', the applier 10 has been withdrawn from the ring device 30. An
advantage of haviig the locking hook exposed in the proximal lumen is convenient
access for confim ing latching and for reversing the closing of the device 30 in
instances when: a leak is detected after actuation (e.g., from the opening 20 out
between the tissue walls 14, 16).
10034] In use, a nng device 30 is received upon an actuating portion 24 of an
implement portioi. 12 of an applier 10. Specifically, the proximal ring 32 of the device
30 rests against the shaft 56, a center ring actuating member 62 engages the center
ring 34 of the dev ce 30, and a distal ring actuating member 64 engages the distal nng
36 of the device 30. A clinician manipulates the handle 54 to insert the implement
portion 12 throng l the cannula of a trocar, laparoscopic port, or through a lumen such
as the esophagus io the anastomosis site 22. The tissue walls 14, 16 are proximately
placed and the introducer tip 18 of the implement portion 12 passes through the
opening 20 formed in these walls 14, 16. The introducer tip may include a piercing
shape and/or electromagnetically or thermally enhanced cutting features to assist in
forming the opening 20. Once the distal arms 40 of the device 30 are in the distal
lumen, the distal ung slide control 60 may be proximally moved to actuate the distal
arms into a pama ly actuated ring shape, latching the locking hook 74 to the center
ring 34. The distal tissue wall 16 thus held may be drawn back proximally if
necessary such th it the proximal arms 38 reside within the first lumen. Drawing back
the center ring slide control 58 thus partially actuates the proximal arms 38. If the
positioning is correct, the slide controls 58, 60 may be fully slid, latching the locking
hook 74 to the proximal ring and causing the proximal and distal arms 38,40 to be
fully actuated and disengaging the catches 70 that hold the applier 10 to the ring
device 30. Then, ihe distal tip 18 of the applier is withdrawn from the ring device 30
leaving it deployed to form the anastomotic attachment. Over time, the tissue walls
14, 16 permanent y heal together and the ring device 30 may be passed out of the
digestive tract, especially if biofragmentable.
(0035) While the present invention has been illustrated by description of several
embodiments and while the illustrative embodiments have been described in
considerable dcta: 1, it is not the intention of the applicant to restrict or in any way
limit the scope of the appended claims to such detail. Additional advantages and
modifications may readily appear to those skilled in the art
f0036| For example, aspects of the invention have application to surgical procedures
performed endoscopically and laparoscopically, as well as an open procedure. Use
herein of one of these or similar terms should not be construed to limit the present
invention for use n only one category of surgical procedure.
f0037| For another example, although bariatric procedures for bypassing portions of a
gastrointestinal tract arc depicted, it should be appreciated that other surgical
procedures may benefit by an anastomotic ring device having aspects described
herein, such as for the bile duct and vascular bypasses.
[0038| As an acldi tonal example, instead of a center ring 34, the proximal arms 38
may attach to the distal arms 40 in an accordion-like fashion with the proximal ring
32 locking to the c istal ring 36. Thus, the center portion of the device 30 at the tissue
junction is capable of dilating, thereby further stabilizing the lumens to be
anastomosed and preventing tissue slippage. This dilation may be effected either by
the proximal and distal rings 32, 36 forcing a center portion to dilate with a wedging
action or by making the inner arm segments 46-48 shorter than the outer arm
segments 50-52.
I0039| As yet a further example, the rings 32, 34, 36 present an internally projecting
contour that may be engaged by the catches 70 of the applier. Other engagements may-
be incorporated, sich as a frangible adhesion between actuating members and one or
more rings. In addition, a distal introducer tip may act as an anvil that may be
withdrawn proxin ally to longitudinally compress the device, with features that may
be radially withdrawn to thereafter allow the distal introducer tip to be removed from
the ring device foi deployment.
[0040] As yet another example, pads on the inner arm segments may be included to
control the pressu e profile on the tissue. Corners may be softened or smoothed to
avoid any adverse effects of a traumatic contact to tissue.
|0041] What is claimed is:
We Claim:
1. A system comprising an applier (10) such as an anvil with an anastomosis ring
device (30) having proximal (32), center(34), and distal rings (36) connected
respectively by proximal and distal hinged arms (38,40), the ring device (30)
having a generally cylindrical shape when unactuated and a rivet shape when
actuated, the applier (10) comprising :
an elongate implement portion (12);
a handle (54) connected to the implement portion (12);
a first actuating member (62) of the elongate implement portion (12) having a
first set of prongs (66) internally engaged to the distal ring (36) of the
anastomosis device (30), the first set of prongs (66) being configured to
deflectably disengage from the distal ring (36) of the anastomosis ring device
when the anastomosis ring device (30) is actuated;
an arresting member (74) of the elongate implement portion (12) engaged to
the proximal ring (32) of the anastomosis device (30);
a second actuating member (64) of the elongate implement portion (12) having
a second set of prongs (68) internally engaged to the center ring (34) of the
anastomosis device (30), the second set of prongs (68) being configured to
deflectably disengage from the center ring (34) of the anastomosis ring device
(30) when the anastomosis ring device (30) is actuated; and
a first control (58) coupled to the handle (54) operably configured to cause
proximal movement of the first actuating member (62) and the distal ring (36)
engaged thereto toward the arresting member and toward the proximal ring
(32);
a second control (60) coupled to the handle (54) operably configured to cause
proximal movement of the second actuating member (64) and the center ring
(34) engaged thereto toward the arresting member (74) and toward the
proximal ring (32);
wherein the first and second controls (58,60) are operable to be selectively
positioned to contemporaneously perform both of the following:
(i)- reduce a first longitudinal separation between the center ring (34) and a
selected one of the proximal and distal rings (32,36) thereby causing actuating
of the interposed hinged arms (38,40) located between the center ring (34) and
the selected one of the proximal (32) and distal rings (36) of the ring device, and
(ii) maintain a second longitudinal separation between the center ring (34) and
the other ring (32,36) thereby preventing actuating of the interposed hinged
arms (38,40) located between the center ring (34) and the other ring (32,36) of
the ring device (30) to configure the anastomosis ring device (30) into a
partially actuated ring shape having one set of at least partially actuated arms
(62) and one set of unactuated arms (64); and
wherein the first and second controls (58,60) are further operable to be
selectively positioned to reduce the longitudinal separation between the center
ring (34) and both the proximal ring (32) and distal ring (36), causing actuation
of all of the hinged arms (38,40) of the anastomosis ring device (30).
2. The system as claimed in claim 1, wherein the first actuating member that
is engaged to the distal ring of the ring device distally terminates in a
catch.
3. The system as claimed in claim 2, wherein the prongs of the first
actuating member that is engaged to the distal ring of the ring device
includes a releasing surface responsive to an actuated condition of the
ring device to disengage the first actuating member from the distal ring of
the ring device.
4. The system as claimed in claim 1, comprising a distal tip illuminator
connected to the implement portion.
5. The system as claimed in claim 1, wherein the implement portion is
dimensionally sized for endoscopic surgical use.
6. An applier such as an anvil for an anastomotic ring device having a center
circular portion longitudinally connected by a plurality of proximal arms to
a proximal ring and by a plurality of distal arms to a distal ring, the ring
expanding each plurality of arms by compressing a respective ring toward
the center circular portion, the applier comprising:
a first member having prongs operative to internally engage the distal
ring;
a second member having prongs operative to internally engage the
center circular portion;
a third member operative to engage the proximal ring; and
a handle;
a first control on the handle operatively configured to position at least
one of the first, second and third members to separately actuate the
plurality of distal arms; and
a second control on the handle operatively configured to position at
least one of the first, second and third members to separately actuate the
plurality of proximal arms;
wherein when said center circular portion of said anastomotic ring device
is engaged directly with said second member of said applier, movement of
said center circular portion is constrained to movement of said second
member;
wherein when said proximal ring and said distal ring are adjacent to said
center circular portion, said first member and said second member are
deflectably disengaged from said distal ring and said center circular portion.
7. The applier as claimed in claim 6, wherein the center circular portion of
the ring device comprises a center ring, the second member engaged to
the center ring.
8. The applier as claimed in claim 7, wherein the prongs of first and third
members comprise a releasable engagement surface responsive to an
actuated condition of the anastomotic device.
9. The applier as claimed in claim 8, comprising a cannula distally supporting
the first, second, and third members, wherein the cannula is proximally
attached to the handle, operatively configured to distally receive the
anastomotic device, and dimensioned for endoscopic use.
10.The system as claimed in claim 1, comprising a locking member extending
proximally from the distal ring, wherein the locking member is configured
to selectively engage the center ring, thereby preventing distal movement
of the distal ring relative to the center ring, when the distal ring has been
moved toward the center ring to actuate the distal hinged arms.
11.The system as claimed in claim 10, wherein the locking member is
configured to selectively engage the proximal ring, thereby preventing
distal movement of the distal ring relative to the proximal ring, when the
center ring has been moved toward the proximal ring to actuate the
proximal hinged arms.


The invention relates to Creating an anastomosis, or the surgical formation of a
passage between two normally distinct vessels or lumens, is enhanced by an
applier (10) that introduces a ring device (30) without the need for a separate
anvil to form a hollow rivet shaped attachment. Moreover, the ring device (30)
may be advantageously formed in a cylindrical shape from molded polymer
material or stamped from sheet metal with proximal and distal rings (32,36)
connected by proximal and distal arms (38,40) that respectively form hinged,
ring shaped so appose tissue walls (14,16). A center ring (34) or portion sits in
the attachment site. The applier (10) causes actuating by moving the rings (32-
36) relative to one another. A latching mechanism (74) locks the rings (32-36) in
the actuating state.
{Fig. 1}

Documents:

608-kol-2004-abstract.pdf

608-kol-2004-amanded claims.pdf

608-KOL-2004-CORRESPONDENCE 1.1.pdf

608-KOL-2004-CORRESPONDENCE.pdf

608-kol-2004-description (complete).pdf

608-kol-2004-drawings.pdf

608-kol-2004-examination report reply recieved.pdf

608-kol-2004-form 1.pdf

608-KOL-2004-FORM 18.pdf

608-kol-2004-form 2.pdf

608-KOL-2004-FORM 3 .1.pdf

608-kol-2004-form 3.pdf

608-KOL-2004-FORM 5.pdf

608-KOL-2004-GPA.pdf

608-KOL-2004-GRANTED-ABSTRACT.pdf

608-KOL-2004-GRANTED-CLAIMS.pdf

608-KOL-2004-GRANTED-DESCRIPTION (COMPLETE).pdf

608-KOL-2004-GRANTED-DRAWINGS.pdf

608-KOL-2004-GRANTED-FORM 1.pdf

608-KOL-2004-GRANTED-FORM 2.pdf

608-KOL-2004-GRANTED-SPECIFICATION.pdf

608-kol-2004-others.pdf

608-kol-2004-pa.pdf

608-kol-2004-petition under rulr 137-1.1.pdf

608-kol-2004-petition under rulr 137.pdf

608-KOL-2004-REPLY TO EXAMINATION REPORT 1.1.pdf


Patent Number 250992
Indian Patent Application Number 608/KOL/2004
PG Journal Number 07/2012
Publication Date 17-Feb-2012
Grant Date 15-Feb-2012
Date of Filing 29-Sep-2004
Name of Patentee ETHICON ENDO-SURGERY INC.
Applicant Address 4545 CREEK ROAD, CINCINNATI, OH
Inventors:
# Inventor's Name Inventor's Address
1 MARK S. ORTIZ 1145 GLEN ECHO LANE, MILFORD, OHIO 45150 UNITED STATES OF AMERICA
PCT International Classification Number N/A
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 10/675,077 2003-09-30 U.S.A.