10985491 (P.T.A.B. Nov. 27, 2012)

Ex Parte Casanova

Patent Trial and Appeal BoardNov 27, 2012

10985491 (P.T.A.B. Nov. 27, 2012)

UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________ Ex parte R. MICHAEL CASANOVA ____________ Appeal 2010-009199 Application 10/985,491 Technology Center 3700 ____________ Before KEN B. BARRETT, BENJAMIN D. M. WOOD, and RICHARD E. RICE, Administrative Patent Judges. RICE, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE This is an appeal under 35 U.S.C. § 134 involving claims to an annuloplasty ring that exhibits a compressed form or an expanded form depending upon temperature. The Examiner has rejected claims 1-10, 15, 28, 37-39, 42, 44, 45, 47, 48, 50, and 52 as obvious. We have jurisdiction under 35 U.S.C. § 6. We affirm. Appeal 2010-009199 Application 10/985,491 2 CLAIMED SUBJECT MATTER Claim 1, reproduced below, is representative of the claimed subject matter on appeal: 1. An annuloplasty ring, comprising: an elastomeric member; a shape memory member disposed in the elastomeric member enabling the annuloplasty ring to exhibit a compressed form and an expanded form having a desired flexibility after implantation; and an outer wrap covering the elastomeric member, wherein the shape memory member is configured to change the annuloplasty ring from the compressed form to the expanded form upon being heated to a temperature above a transformation temperature range, the transformation temperature range being between about 15°C and about 30°C such that heat from a patient's body can cause the annuloplasty ring to change from its compressed form to its expanded form. REJECTIONS The following Examiner’s rejections are before us for review: 1. Claims 1-10, 15, 28, 42, 44, 45, and 47 stand rejected under 35 U.S.C. § 103(a) as unpatentable over Quijano (US 2003/0191528 A1, pub. Oct. 9, 2003) and Navia (2004/0243230 A1, pub. Dec. 2, 2004). 2. Claims 37-39, 48, 50, and 52 stand rejected under 35 U.S.C. § 103(a) as unpatentable over Quijano, Navia and Garrison (US 2002/0183839 A1, pub. Dec. 5, 2002). Appeal 2010-009199 Application 10/985,491 3 OPINION Claims 1-10, 15, 28, 42, 44, 45, and 47 as unpatentable over Quijano and Navia The Examiner found that “Quijano discloses an annuloplasty ring comprising a shape memory member disposed within an elastomeric member (paragraph 016-0019) wherein the elastomeric member is covered by a knit polyester fabric (paragraph 0021) and the shape memory member is comprised of Nitinol.” Ans. 3. The Examiner also found that Quijano’s “annuloplasty ring further comprises a compressed form and an expanded form wherein the shape memory member is configured to change from the compressed form to the expanded form upon being heated to a temperature above a transition temperature range (paragraph 0018).” Id. While finding that Quijano fails to disclose a transformation temperature range between about 15°C and about 30°C, the Examiner found that “Navia et al. discloses annuloplasty rings comprising Nitinol having a transition temperature range between 15-30°C in order to allow the body temperature to produce a desired change of shape (see paragraphs 0037, 0038, and 0061).” Id. at 4. The Examiner concluded: Therefore it would have been obvious to one of ordinary skill in the art at the time of the invention to combine the teaching of Nitinol with a transition temperature 15-30°C, as taught by Navia et al, to the annuloplasty ring of Quijano. The motivation to combine the Quijano annuloplasty ring with a Nitinol comprising a transition temperature of about 15-30°C being that the ring shape could change upon exposure to internal body temperature without the need for applying external energy means thus simplifying the surgical procedure. Id. Appeal 2010-009199 Application 10/985,491 4 Appellant argues that, in contrast with the subject matter of independent claims 1, 28 and 42,1 Quitano teaches “controlled expansion” of an annuloplasty ring through use of an external energy source (an energy source other than body temperature, such as radiofrequency (RF) energy), and teaches away from utilizing the temperature of the human body to provide heat activation to cause a shape change. App. Br. 5-6; see also id. at 7 (“The use of a controllable, external energy source (whether heating or cooling means) is fundamental to the operation of the Quijano device. [It fails] to provide any teaching or suggestion as to how its device could be used in a manner whereby a relatively uncontrolled heat source, i.e., body heat, provides the energy for heating the device to above its transformation temperature range.”) (italics omitted). Appellant further argues that Navia and Quijano teach “entirely different modes of operation.” Id. at 6. In particular, Appellant argues that Navia utilizes human body temperature to contract a device, rather than to expand a device as in Quijano. Id. at 6-7. Appellant contends that “there is no apparent reason to modify the Quijano device according to Navia in light of the divergent teachings of the two references,” and that combining the teachings of Navia with Quitano would “fundamentally alter the mode of operation of both devices.” Id. at 7 (italics omitted). In response to Appellant’s argument that the use of body temperature would not allow control over the procedure, the Examiner contends that “a determinable period of time would occur before the Nitinol reached the transition temperature (for example, the device is not exposed to body 1 Separate patentability is not argued for dependent claims 2-10, 15, 44, 45, and 47. App. Br. 7. Appeal 2010-009199 Application 10/985,491 5 temperature until released from the delivery catheter).” Id. 5-6. The Examiner also contends that “Appellant has not shown that selecting body temperature as the transition temperature would prevent control over the procedure as desired by Quijano.” Id. at 6. Appellant has not persuaded us that the Examiner lacked an apparent reason to combine the teachings of Quijano and Navia. Quijano discloses an annuloplasty ring made from shape-memory Nitinol having a transition temperature above human body temperature, in the range of about 39-90°C. Quijano, paras. [0052], [0062]; see Ans. 3. Navia discloses a form of shape- memory Nitinol having a transition temperature below human body temperature, in the range of 75-95°F.2 Navia, paras. [0061], [0070]; see Ans. 4. An apparent reason for substituting Navia’s Nitinol in Quijano’s annuloplasty ring would have been to use human body temperature instead of an external energy source for expanding the ring, as the Examiner determined. Ans. 4; see KSR Int'l Co. v. Teleflex Inc., 550 U.S. 398, 416 (2007) (“when a patent claims a structure already known in the prior art that is altered by the mere substitution of one element for another known in the field, the combination must do more than yield a predictable result”) (citing United States v. Adams, 383 U.S. 39, 50-51 (1966)). We do not agree with Appellant’s argument that Quijano teaches away from utilizing the temperature of the human body to provide heat activation to cause a shape change.3 App. Br. 5-6. Quijano discloses an 2 We note that 75-95°F is approximately 24-35°C. National Weather Service, NOAA (found at: http:www.wbuf.noaa.gov/tempfc.htm). 3 A prior art reference is said to teach away from an applicant's invention “when a person of ordinary skill, upon reading the reference, would be discouraged from following the path set out in the reference, or would be led Appeal 2010-009199 Application 10/985,491 6 embodiment having a shape-transition temperature of “preferably” between about 39-90°C, which requires use of an external energy source to heat the shape-memory material above the shape-transition temperature (Quijano, para. [0020]). But Quijano does not contain language warning against use of a shape-memory material that changes shape upon exposure to human body temperature.4 See DyStar Textilfarben GmbH & Co. Deutschland KG v. C.H. Patrick Co., 464 F.3d 1356, 1364 (Fed. Cir. 2006) (“[w]e will not read into a reference a teaching away from a process where no such language exists”); Para-Ordnance Mfg. v. SGS Importers Int’l Inc., 73 F.3d 1085, 1090 (Fed Cir. 1995) (a warning against use of an element, rather than omission of mention of the element, is required to find teaching away). We determine that Quijano would not have discouraged the person of ordinary skill in the art from using a heat-transition temperature in the range of 75- 95°F as taught by Navia. We also do not agree with Appellant’s argument that combining the teachings of Navia and Quijano would “fundamentally alter the mode of operation of both devices.” App. Br. 7. While Navia discloses heating a Nitinol annuloplasty ring from an expanded form to a contracted form, rather than the reverse, the rejection as articulated by the Examiner relies in a direction divergent from the path that was taken by the applicant.” In re Gurley, 27 F.3d 551, 553 (Fed. Cir. 1994). 4 Quijano actually incorporates by reference (at para. [0013]) “the entire contents” of U.S. Patent No. 5,163,952 to Froix, which discloses shape- memory plastics having a shape-transition temperature at or below human body temperature and teaches surgical procedures for keeping the temperature of a stent made from such material below human body temperature prior to insertion of the stent into the vessel of a patient to prevent premature shape change. Froix, col. 5, ll. 22-47, col. 10, ll. 38 – col. 11, l. 7. Appeal 2010-009199 Application 10/985,491 7 only on Navia’s disclosure of a form of shape-memory Nitinol having a shape-transition temperature of between 15-30°C. Ans. 4-6. Appellant has not persuaded us that using body heat to activate the shape-memory material would change the fundamental principle of operation of Quijano’s annuloplasty ring, which would still be radially expandable in situ by way of non-mechanical expandable means in keeping with Quijano’s basic teaching. See Quijano, p. 2, para. [0016]. Further, Appellant has not explained why measures such as cooling (see Navia, para. [0065]) or insulating (see Ans. 5-6) the annuloplasty ring prior to, or during, a surgical implantation procedure would not be sufficient to control expansion. We determine that the Examiner’s conclusion of obviousness is supported by adequate articulated reasoning with rational underpinning. We sustain the rejection of claims 1-10, 15, 28, 42, 44, 45, and 47. Claims 37-39, 48, 50, and 52 as unpatentable over Quijano, Navia and Garrison Claims 37-39 Appellant argues claims 37-39 as a group. App. Br. 8. We select claim 37 as representative. Claims 38 and 39 stand or fall with claim 37. Independent claim 37 calls for “a shape memory member … enabling the annuloplasty ring to exhibit a compressed form … defining an outer diameter sized for minimally-invasive delivery of the annuloplasty ring through an access cannula” and “a holder comprising a handle, a head defining a groove, and a stem extending between the handle and the head, such that the annuloplasty ring, in its compressed form, is retained in the groove.” Appeal 2010-009199 Application 10/985,491 8 The Examiner found that Quijano discloses an annuloplasty ring that is adapted to be retracted in a compressed state for minimally invasive delivery procedures, but that neither Quijano nor Navia discloses a holder with a groove for delivery of the annuloplasty ring. Ans. 4. The Examiner further found, however, that “Garrison teaches various annuloplasty ring holders having a head with a groove (for receiving an annuloplasty ring), a handle, and a stem for delivering annuloplasty rings in a minimally invasive procedure via small incision or access ports (see paragraph 0119).” Id. at 4- 5. The Examiner concluded that it would have been obvious to one of ordinary skill in the art at the time of the invention to combine the teaching of a holder having a head with a groove, handle, and stem as taught by Garrison with the annuloplasty ring, as per Quijano in view of Navia, the motivation to combine being that a holder secures the annuloplasty ring during the minimally invasive implantation process. Id. at 5. Appellant argues that Garrison does not disclose or teach “a holder configured to retain an expandable annuloplasty ring in a ‘compressed form’ that defines an ‘outer diameter sized for minimally-invasive delivery of the annuloplasty ring through an access cannula,’ as required by claim 37.” App. Br. 8. Appellant further argues that “Garrison's annuloplasty ring holder assemblies appear to have only a single form or shape corresponding to the shape of the cardiac valve annulus for which the ring is being used to repair” and that “[n]othing in Garrison teaches or suggests how any of its disclosed holders could be utilized in combination with an annuloplasty ring such as that disclosed in Quijano, or any expandable annuloplasty ring for Appeal 2010-009199 Application 10/985,491 9 that matter.” Id. (citing Garrison, figs. 6A-6C, 7A-7C, 8A-8C, 10A- 10G)(italics omitted). Appellant's arguments attack Garrison individually and do not address the rejection as articulated by the Examiner, which is based on the combination of Quijano, Navia and Garrison. See In re Merck & Co., 800 F.2d 1091, 1097 (Fed. Cir. 1986) (one cannot show nonobviousness by attacking references individually where the rejections are based on combinations of references) (citing In re Keller, 642 F.2d 413, 425 (CCPA 1981)). In response to Appellant’s argument that Garrison’s holder is not configured for retaining a ring in a compressed form for minimally invasive implantation, the Examiner contends, and we agree, that “the Quijano ring is inherently in a compressed form when placed on a holder (since the expanded states occur after implantation)” and that “Appellant has not shown the Garrison holder to be incapable of use with the Quijano ring.” Ans. 6-7. Appellant also has not explained why the compressed form of Quijano’s expandable annuloplasty ring does not define an outer diameter sized for minimally-invasive delivery of the annuloplasty ring through an access cannula. We sustain the rejection of claims 37-39. Claim 48 Dependent claim 48 depends from claim 42. Appellant argues that claim 48 is patentable for the same reasons as claim 42. App. Br. 9. For the reasons discussed supra in respect to the rejection of claim 42, we sustain the rejection of claim 48. Appeal 2010-009199 Application 10/985,491 10 Claims 50 and 52 Appellant argues claims 50 and 52 as a group. App. Br. 9-10. We select claim 50 as representative. Claim 52 stands or falls with claim 50. Independent claim 50 recites a method of using an annuloplasty ring including a shape memory member comprising, inter alia, “positioning the annuloplasty ring in a compressed form on a holder, the compressed form defining an outer diameter sized for minimally-invasive delivery of the annuloplasty ring through an access cannula.” Appellant argues that claim 50 is patentable for the same reasons as claims 1 and 37. App. Br. 9. For the reasons discussed supra in respect to the rejection of claims 1 and 37, we sustain the rejection of claims 50 and 52. DECISION We affirm the rejection of claims 1-10, 15, 28, 37-39, 42, 44, 45, 47, 48, 50, and 52. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a). See 37 C.F.R. § 1.136(a)(1)(iv). AFFIRMED mls