13600040 (P.T.A.B. Aug. 1, 2017)

Ex Parte Carpentier

Patent Trial and Appeal BoardAug 1, 2017

13600040 (P.T.A.B. Aug. 1, 2017)

United States Patent and Trademark Office UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O.Box 1450 Alexandria, Virginia 22313-1450 www.uspto.gov APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 13/600,040 08/30/2012 Alain Carpentier HVT-5782C 8840 30452 7590 08/01/2017 EDWARDS LIFESCIENCES CORPORATION LEGAL DEPARTMENT ONE EDWARDS WAY IRVINE, CA 92614 EXAMINER WOZNICKI, JACQUELINE ART UNIT PAPER NUMBER 3774 MAIL DATE DELIVERY MODE 08/01/2017 PAPER Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte ALAIN CARPENTIER Appeal 2016-001369 Application 13/600,0401 Technology Center 3700 Before ULRIKE W. JENKS, JOHN G. NEW, and DEVON ZASTROW NEWMAN, Administrative Patent Judges. NEWMAN, Administrative Patent Judge. DECISION ON APPEAL This appeal under 35 U.S.C. Â§ 134 involves claims to a prosthetic tricuspid annuloplasty ring. The Examiner entered final rejections for anticipation and obviousness. We have jurisdiction under 35 U.S.C. Â§ 6(b). We REVERSE. STATEMENT OF THE CASE Background Heart valve disease is a widespread condition in which one or more of the valves of the heart fails to function properly. . . . 1 Appellant identifies the real party in interest as Edwards Lifesciences Corporation of Irvine, California. App. Br. 1. Appeal 2016-001369 Application 13/600,040 Valve disease can be severely debilitating and even fatal if left untreated. Various surgical techniques may be used to repair a diseased or damaged valve. In a valve replacement operation, the damaged leaflets are excised and the annulus sculpted to receive a replacement valve. Another less drastic method for treating defective valves is through repair or reconstruction, which is typically used on minimally calcified valves. One repair technique that has been shown to be effective in treating [blood flow] incompetence is annuloplasty, in which the deformed valve annulus is reshaped by attaching a prosthetic annuloplasty repair segment or ring to the valve annulus. The annuloplasty ring is designed to support the functional changes that occur during the cardiac cycle: maintaining coaptation and valve integrity to prevent reverse flow while permitting good hemodynamics during forward flow. The present application has particular relevance to the repair of the tricuspid valve, which regulates blood flow between the right atrium and right ventricle. Spec. 114, 5, 8. The present invention provides an improved tricuspid annuloplasty ring that better conforms to the native annulus and is shaped to protect certain features of the surrounding anatomy. . . . Additionally, the present ring is contoured to better approximate the three-dimensional shape of the tricuspid annulus; specifically, the ring is substantially planar but includes a bulge in the inflow direction at the location of the bulge created by the adjacent aorta. The bulge helps reduce stress between the ring and surrounding tissue, and thus the potential for tearing or ring dehiscence. Id. 135. 2 Appeal 2016-001369 Application 13/600,040 The Claims Claims 1â€”22 are pending. Claims 1, 2, 4â€”7, and 9-22 are on appeal.2 Claims 1 and 12 are illustrative and read as follows (with claim terms at issue italicized for reference): 1. A prosthetic tricuspid annuloplasty ring for implant at a tricuspid annulus having the following anatomical landmarks as seen in series in a clockwise direction: an antero-septal commissure, an anterior leaflet with an aortic part and a remaining part, a postero septal commissure, a septal leaflet, the ring comprising: a ring body surrounding a central open area and having a plan view shape lying partially in a plane and having an inflow side and an outflow side, wherein the plan view as seen looking at the inflow side has an asymmetric ovoid shape that includes the following elements connected in series in a clockwise direction when implanted at the tricuspid annulus: a first free end located adjacent the antero-septal commissure, a first segment corresponding to the aortic part of the anterior leaflet, a second segment corresponding to the remaining part of the anterior leaflet and ending at the postero septal commissure, a third segment from the postero septal commissure to part way along the septal leaflet, and a fourth segment that terminates in a second free end at a septal point on the tricuspid annulus, the second and third segments extending around a large end of the ovoid shape, and the ring body being discontinuous so that the first free end and the second free end are separated across a gap, wherein the second segment lies in the plane while a majority of the other segments are out of the plane, wherein the ring body has at least one arcuate bulge out of the plane toward the inflow side defining a path that rises up and down, and 2 The Examiner notes that claims 3 and 8 are objected to in form only. Ans. 12. 3 Appeal 2016-001369 Application 13/600,040 wherein the first and secondfree ends are bent in an inflow direction, each bend commencing in close proximity with an extreme tip of the respective free end. Appeal Brief (Claims Appendix, emphasis added) 12. A prosthetic tricuspid annuloplasty ring for implant at a tricuspid annulus having the following anatomical landmarks as seen in series in a clockwise direction: an antero-septal commissure, an anterior leaflet with an aortic part and a remaining part, a postero septal commissure, and a septal leaflet, the ring comprising: a ring body having a plan view shape lying partially in a plane relative to an axis in an inflow-outflow direction circumscribed by the ring body such that the ring body has an upper, inflow side and a lower, outflow side, wherein the plan view shape as seen looking at the inflow side is an asymmetric ovoid that includes the following elements connected in series in a clockwise direction when implanted at the tricuspid annulus, a first free end located adjacent the antero- septal commissure, a first segment, a second segment which is larger than the first segment, a third segment which is smaller than the first segment, and a fourth segment which is smaller than the first segment and terminates in a second free end located at a septal point on the tricuspid annulus, the second and third segments extending around a large end of the ovoid shape, and the ring body being discontinuous so that the first free end and the second free end are separated across a gap, wherein the second segment lies in the plane while a majority of the other segments are out of the plane, wherein the ring body has an upward saddle-shaped aortic arcuate bulge in the first segment out of the plane toward the inflow side to accommodate an anatomical bulge of the aorta into the tricuspid annulus, and wherein the first free end is bent upward in an inflow direction commencing in close proximity with an extreme tip of the first free end with a downward bend located between the first free end and the aortic arcuate bulge. Id. at 19-20, emphasis added. 4 Appeal 2016-001369 Application 13/600,040 The Issues The following rejections are before us to review: Claims 1, 2, 6, 12, 13, 16, and 19 are rejected under pre-AIA 35 U.S.C. Â§ 102(e) as being anticipated by Redmond.3 Ans. 2. Claims 4, 5, 14, and 15 are rejected under pre-AIA 35 U.S.C. Â§ 103(a) as obvious over Redmond and McCarthy.4 Id. at 8. Claims 7, 17, and 18 are rejected under pre-AIA 35 U.S.C. Â§ 103(a) as obvious over Redmond as is applied above. Id. at 9. Claims 9â€”11 and 20â€”22 are rejected under pre-AIA 35 U.S.C. Â§ 103(a) as obvious over Redmond and Carpentier.5 Id. at 11. ANTICIPATION The Examiner has rejected claims 1,2, 6, 12, 13, 16, and 19 as anticipated by Redmond. The Examiner finds that Redmond discloses all of the claim limitations, including â€œwherein the first and second free ends are bent in an inflow direction.â€ Ans. 4, emphasis omitted. In so doing, the Examiner provides the following Annotated Figure 3: 3 US 2009/0036979 Al, published Feb. 5. 2009 (â€œRedmondâ€). 4 US 2003/0208264 Al, published Nov. 6, 2003 (â€œMcCarthyâ€). 5 US 4,917,698, issued Apr. 17, 1990 (â€œCarpentierâ€). 5 Appeal 2016-001369 Application 13/600,040 5CJ Annotated Figure 3 is an annotated version of Figure 3 of Redmond, which is an isometric view of an exemplary annuloplasty band. Redmond 120. The Examiner also provides Annotated Figure 4, copied below: Annotated Figure 4 is an annotated version of Figure 4 of Redmond, which is a side view of an exemplary annuloplasty band. Redmond 121. Appellant argues, among other points, that â€œRedmond does not have the two free ends of the stiffening element of the annuloplasty ring turned upward.â€ App. Br. 9. In support, Appellant points to Figures 2, 4, and 5 of Redmond, shown below. 6 Appeal 2016-001369 Application 13/600,040 -\ 'â– "si / 4 r- . \ $4 Fig. 3 Figure 2 of Redmond is a top view of an exemplary annuloplasty band. Redmond 119. Figure 4 of Redmond is a side view of an exemplary annuloplasty band. Redmond 121. Figure 5 of Redmond is a view from the anterior portion end of an exemplary annuloplasty band. Redmond 122. According to Appellant, The first free end 51 appears to show a slight downward bend, although any implication of a sudden bend is nullified by the top plan view in Figure 2, wherein the first free and 51 merely curls inward toward the second free end 52. The second free end 52 in Figure 4 appears to be angled slightly upward, though any â€œbendâ€ which creates this shape is gradual and not â€œin close proximity with the tip.â€ App. Br. 9. The Examiner responds that: the claim language is simply too broad for Appellant to argue that the upward bends of both ends are not â€œin close proximity with an extreme tipâ€ of each free end. The Examiner maintains that the specification has no examples or specific distances that 7 Appeal 2016-001369 Application 13/600,040 would limit the Examiner to agreeing that the ring of Redmond does not meet the very broad claim limitation. Ans. 17. With regard to claim 12, Appellant argues Redmond does not teach the claim limitation â€œdownward bend located between the first free end and the aortic arcuate bulge.â€ App. Br. 12. Appellant argues â€œ[t]he left side of Figs. 4 and 5 in Redmond shows a gentle upward curve which is downwardly concave. This is a single curvature, and does not anticipate an upward bulge, a downward bend, and then an upward bend near the tip of the free end.â€ Id. The Examiner responds that â€œ[Annotated Figure 4] does indeed depict a gentle upward curve. Examiner points out that the angles and severity of said bend is not a part of the claim language however, and so appears to be a moot point.â€ Ans. 17. We agree with Appellant that the evidence does not support the Examinerâ€™s finding that Redmond teaches all of the limitations of claims 1 and 12. With regard to claim 1, we agree with Appellant that the Figures cited above support that the free ends of Redmond do not meet the limitation â€œwherein the first and second free ends are bent in an inflow direction, each bend commencing in close proximity with an extreme tip of the respective free endâ€ because at least one free end does not point â€œin an inflow direction.â€ In reaching this conclusion, we find Figure 7, shown below, helpful to clarify the location of each portion of the ring: 8 Appeal 2016-001369 Application 13/600,040 111 Fig. 7 Figure 7 is a schematic view of a stiffening element of an exemplary annuloplasty band that has been opened and laid out providing a 2D view of the circumferential side view of the stiffening element, showing maximum and minimum positions and range between them. Redmond 25, 45. Redmond discloses that Figure 7 shows the â€œ[t]he maximum positions 111 and minimum positions 112 can occur at desired positions along the perimeter of the device and correspond to desired positions along the annulus in order to preferably mimic the natural anatomical shape of the annulus.â€ Id. 145. Accordingly, Figure 7 shows the elevation increases and decreases of the respective portions of the annulus, proceeding from the first free end on the left along the annulus to the second free end at the terminus of the annulus on the right. If, as the Examiner suggests, both free ends were â€œbent in an inflow direction, each bend commencing in close proximity with an extreme tip of the respective free end,â€ both ends shown in Figure 7 would be pointed toward the same (inflow) direction. Thus, Figure 7 clarifies that the free ends of the ring do not both â€œpoint in an inflow direction.â€ 9 Appeal 2016-001369 Application 13/600,040 With regard to claim 12, we likewise find Figure 7 clarifies that Redmond does not teach a ring with a â€œdownward bend located between the first free end and the aortic arcuate bulge.â€ To begin, we construe this term to clarity where the claim requires the downward bend must be located. The Specification provides the following: a prosthetic tricuspid annuloplasty ring comprises an asymmetric generally ovoid ring body generally arranged in a plane and about an axis along an inflow-outflow direction with a first free end located adjacent an antero-septal commissure when implanted and a second free end located at a septal point. The ring body extends in a clockwise direction as seen looking at an inflow side from the first free end around a first segment, a second segment, a third segment, and a fourth segment that terminates in the second free end. Spec. 121. As seen in Figs. 7B and 7C, the exemplary ring 50 also includes an upward arcuate bow or bulge 64 in the first segment 60a, and another upward bulge 65 in the fourth segment 60d. The â€œaorticâ€ bulge 64 accommodates a similar contour of the tricuspid annulus due to the external presence of the aorta and desirably extends from near the first free end 56a along first segment 60a to a location that corresponds to the end of the aortic part of the anterior leaflet. Id. 147. 10 Appeal 2016-001369 Application 13/600,040 Figures 7Aâ€”7C of the Specification are shown below: Phi 7C Fig. 7A 67 6 2a-- Y" n, f / 4qÂ£S\ / //// f / /( Iff ' f Yâ€˜\J ......oYv y _) 'â– O' ... ^ V- '66 â– '""54 W'Â® i 5 i: [ipâ€”62b *:â€¢ ffi s6h v Mt Fig. 7B Figures 7Aâ€”C are plan, septal and anterior elevational views, respectively, of an exemplary tricuspid annuloplasty ring illustrating its free ends bent toward the inflow side and an aortic bulge and a septal bulge. Spec. 131. Thus, according to the Specification portions above, the â€œdownward bendâ€ at issue in claim 12 is marked at 62a with 64 being the aortic arcuate bulge and 65 being the septal bulge. Spec. H 21, 47. Figure 7 is copied below again for reference: ill Fig. 7 Figure 7 is a schematic view of a stiffening element of an exemplary annuloplasty band that has been opened and laid out providing a 2D view of 11 Appeal 2016-001369 Application 13/600,040 the circumferential side view of the stiffening element, showing maximum and minimum positions and range between them. Redmond 25, 45. Figure 7, which shows elevation changes along the length of the ring as discussed above, clarifies that the ring of Redmond lacks a â€œdownward bulgeâ€ between the free end on the left (corresponding to 56a in Figure 7A above, from the Specification) and the anterior arcuate bulge (corresponding to 62a in Figure 7C above, from the Specification). The Examiner has not pointed to other disclosures in Redmond that teach this limitation. â€œAnticipation requires that all of the claim elements and their limitations are shown in a single prior art reference.â€ In re Skvorecz, 580 F.3d 1262, 1266 (Fed. Cir. 2009). Because the Examiner has not provided evidence sufficient to support a prima facie case of anticipation, we reverse the rejection of claims 1 and 12 as anticipated by Redmond. Because claims 2, 6, 13, 16, and 19 depend from claims 1 or 12, we likewise reverse the rejections of these claims. OBVIOUSNESS The Examiner has rejected claims 4, 5, 14, and 15 as obvious over Redmond and McCarthy; claims 7, 17, and 18 as obvious over Redmond; and claims 9-11 and 20â€”22 as obvious over Redmond and Carpentier. Ans. 8â€”11. As discussed above, however, the Examiner has not shown that Redmond teaches all of the limitations of the independent claims. Because all of the obviousness rejections depend on the Examinerâ€™s findings regarding Redmond with respect to claims 1 and 12, we therefore reverse the rejections. 12 Appeal 2016-001369 Application 13/600,040 SUMMARY We reverse the rejection of all claims. REVERSED 13