Ex Parte Cheng et alDownload PDFPatent Trial and Appeal BoardNov 19, 201210921735 (P.T.A.B. Nov. 19, 2012) Copy Citation UNITED STATES PATENT AND TRADEMARK OFFICE __________ BEFORE THE PATENT TRIAL AND APPEAL BOARD __________ Ex parte PEIWEN CHENG, PATRICE TREMBLE, WENDA CARLYLE, DIANE JUDD, and KISHORE UDIPI __________ Appeal 2011-012701 Application 10/921,735 Technology Center 3700 __________ Before LORA M. GREEN, JEFFREY N. FREDMAN, and ULRIKE W. JENKS, Administrative Patent Judges. JENKS, Administrative Patent Judge. DECISION ON APPEAL This is a decision on appeal under 35 U.S.C. § 134 involving claims directed to a stent delivery system comprising stents with continuously varying coatings. The Patent Examiner has rejected the claims as obvious. We have jurisdiction under 35 U.S.C. § 6(b). We reverse. Appeal 2011-012701 Application 10/921,735 2 STATEMENT OF THE CASE The invention is directed to an implantable stent. The “invention provides a stent with a gradient coating in which at least one coating component varies continuously with coating thickness.” (Spec. 3, ll. 23-25.) The stent gradient coating has a “high concentration of a therapeutic agent at the inner edge of the stent coating and a low concentration at the outer edge of the stent coating.” (Spec. 3, ll. 29-31.) Immediately after implantation, the coated stent delivers the anti-inflammatory drug to treat the tissue trauma from angioplasty and stent implantation. At a desired time, such as a few days to a few weeks, most of the anti-inflammatory drug will be gone and the coated stent delivers the anti-proliferative drug to prevent restenosis and tissue growth on the stent. The anti-proliferative drug delivery continues long term, such as a number of months or years. The continuously varying coating component concentration provides control over the timing and dosage of the two drugs. (Spec. 12, ll. 23-30.) Claims 1, 2, 5-11, 14-18, and 44-65 are on appeal, and can be found in the Claims Appendix of the Appeal Brief (App. Br. 27-34). Claims 1, 10, 54, 58, and 62 are independent claims. Claim 1 is representative of the claims on appeal, and reads as follows (emphasis added): 1. A stent delivery system comprising: a catheter; a balloon operably attached to the catheter; a stent disposed on the balloon; and a continuous coating disposed on the stent, the continuous coating having a thickness and comprising a first coating component and a second coating component, the first coating component being Appeal 2011-012701 Application 10/921,735 3 selected from the group consisting of drugs, therapeutic agents, polymers, co-polymers, bi-polymers, and combinations thereof; wherein, before implantation in a lumen, concentration of the first coating component varies continuously in a radial direction over at least part of the thickness of the continuous coating, and the concentration of the first coating component varies linearly over at least part of the thickness of the continuous coating. The following grounds of rejection are before us for review: 1. The Examiner has rejected claims 1, 2, 5-7, 9-11, 14-16, and 18 under 35 U.S.C. § 103(a) as unpatentable over Tuch1 in view of Chandrasekaran.2 2. The Examiner has rejected claims 8 and 17 under 35 U.S.C. § 103(a) as unpatentable over Tuch in view of Chandrasekaran and further in view of Harish.3 3. The Examiner has rejected claims 1, 2, 10, 11 and 44-65 under 35 U.S.C. § 103(a) as unpatentable over Schwarz4 in view of Chandrasekaran and further in view of Harish. ISSUES The Examiner takes the position that “Tuch discloses varying the concentration of the first coating component in a radial direction over at least part of the thickness of the coating, Tuch fails to disclose that [the] coating is varied linearly over said thickness.” (Ans. 4.) The Examiner 1 Tuch, US 5,824,048, issued Oct. 20, 1998. 2 Chandrasekaran et al., US 6,638,301 B1, issued Oct. 28, 2003. 3 Harish et al., US 2002/0122877 A1, published Sep. 5, 2002. 4 Schwarz et al., US 6,368,658 B1, issued Apr. 9, 2002. Appeal 2011-012701 Application 10/921,735 4 finds that “Schwarz discloses applying two coating components simultaneously and varying the concentrations of coating components across a thickness of the coating.” (Ans. 11.) The Examiner rejects the claims based on the combination of either Tuch and Chandrasekaran, or Schwarz and Chandrasekaran. The Examiner relies on Chandrasekaran for the “teaching of linearly varying concentrations of coating components and its explanation that such a concentration profile may be produced by simultaneously applying both coating components and controlling the rates at which each component is applied.” (Id. at 9.) The Examiner concludes that it would have been obvious to one of ordinary skill in the art to modify the apparatus of Tuch or to modify the procedure of applying coatings onto a stent as disclosed by Schwarz because “Chandrasekaran teaches that it was known to vary coating concentrations linearly and doing so would allow a manufacturer to accurately control the release profile(s) of the active agent(s).” (Id. 4, 7.) Appellants contend that the combination of Tuch or Schwarz with Chandrasekaran fails to disclose all the elements of the claimed inventions. (App. Br. 13, 19.) Additionally, the combination would not be obvious because the “methods of the Chandrasekaran patent require high temperatures and/or ionization, making them unsuitable for drugs, therapeutic agents, polymers, co-polymers, and bi-polymers as claimed” (App. Br. 15 and 22; Reply Br. 5, 7). The issues with these rejections are whether the Examiner has presented a prima facie case of obviousness with respect to the combination of Tuch and Chandrasekaran, or Schwarz and Chandrasekaran. Appeal 2011-012701 Application 10/921,735 5 FINDINGS OF FACT FF1. The Specification provides that: [T]he continuous coating [] can coat the whole stent [], both inside and outside, and around the cross section of individual stent elements. The continuous coating [] can be any coating that can elute a therapeutic agent and maintain coverage of the stent elements. The coating components, such as the therapeutic agent or the polymer, vary continuously over the thickness of the continuous coating []. (Spec. 6, ll. 9-14) FF2. The Specification provides that: The concentration of the therapeutic agent in the polymer varies continuously over the thickness of the continuous coating []. Different profiles of the therapeutic agent can accomplish different therapeutic results. For example, a high concentration of therapeutic agent in the continuous coating [] near the stent element [] with a low concentration in the continuous coating [] at the outer edge will suppress any burst release and provide a steady long-term dose. (Spec. 7, ll. 24-31) FF3. Figure 4A, of the Specification, reproduced below shows a linear concentration profile. App App Figu thick A sh conc conc conc FF4. profi Figu conc eal 2011-0 lication 10 re 4A show ness. The ows a line entration w entration f entration f Figure 4 les of a lin re 4B show entration f 12701 /921,735 s a graph graph dep ar gradien ith increa ormed in a ormed in a B, of the S ear coatin s three em rom the st plotting th icts 3 diff t coating h sing thick series of series of pecificatio g and two bodimen ent to the 6 e compon erent grad aving decr ness. Prof large steps small step n, reprodu continuou ts having a outer edge ent conce ient profile easing coa ile B show . . . Prof s.” (Spec. ced below sly varyin decreasin of the coa ntration vs s A, B, C ting comp s coating ile C show 10, l. 30 t shows gr g coatings g coating ting. . coating . “Profile onent s coating o 11, l. 10 adient . componen ) t Appeal 2011-012701 Application 10/921,735 7 [T]he coating component concentration is a maximum at the zero coating thickness at the stent element and declines to a minimum at the coating thickness TO at the exterior of the stent. Profile B is has a linear gradient, while profile A is concave down and profile C is concave up. The three profiles illustrate how a continuously varying coating component can be tailored for a desired result. (Spec. 11, l. 13 to 11, l. 18.) FF5. Tuch disclosed a stent with a “polymer and a therapeutic substance on the body of a stent, and in particular on its tissue-contacting surface, in which the coating has a greater concentration of therapeutic substance on the portion of the coating nearest the stent body than near the exterior surface of the coating.” (Tuch, col. 2, ll. 37-42; Ans. 3.) “By placing the greater concentration of the drug toward the stent body, control over the rate of administration of the drug is significantly improved.” (Tuch, col. 2, ll. 46- 48; Ans. 4.) FF6. Tuch disclosed “a higher drug-to-polymer ratio in the inner layers than in the outer layers would result in a lower initial dose and a total dose which would be delivered more evenly and over a much longer period of time.” (Tuch, col. 3, ll. 19-23; Ans. 4.) FF7. Tuch disclosed that when “both the drug and polymer are soluble in the solvent, the drug and polymer are dissolved slightly in the application of each of the coating overlayers which creates a concentration gradient of drug in the overlayers that is sharply reduced from that in the main coating nearest the stent body.” (Tuch, col. 3, ll. 29-34; Ans. 4.) App App FF8. conc pre-e FF9. mate conc first FF10 mate Figu stent seco shutt and a (Cha FF1 eal 2011-0 lication 10 Tuch dis entration o luting the Chandra rial increa entration g portion.” . Chandra rials onto re 6 shows . “[T]he c nd materia er [] is mo pure laye ndrasekar 1. Schwar 12701 /921,735 closed tha f drug on stent.” (T sekaran d ses as a fu radient va (Chandras sekaran di a stent. Fi an ion be oncentrati l is then sl ved to pre r of the se an, col. 8, z disclosed t “[t]he co the portion uch, col. 3 isclosed th nction of d ries substa ekaran, co sclosed de gure 6 of C am assiste on of the f owly intro vent the fi cond mate ll. 22-27; A applying 8 ating is pr of the co , ll. 39-40 at “[t]he c istance fr ntially lin l. 2, ll. 62- positing a handrase d depositio irst materi duced. In rst materia rial is dep ns. 4.) therapeuti ovided wit ating near ; Ans. 4.) oncentrati om the out early alon 65; Ans. 4 linear gra karan is re n profile al is relati embodim l from dep osited ove c drug age h a greate est the sten on of the r er surface g a thickne .) dient of tw produced of materia vely high, ents, at tim ositing on r the alloy nts onto a r t body by adiopaque . The ss of the o below: ls on a and the e t, [the] stent [], layer.” stent: Appeal 2011-012701 Application 10/921,735 9 The release profile of the drug may also be altered by concurrently applying several layers of gradient concentrations to yield a multi-phasic release profile. For example, the ratio of copolymers of polylactic acid ("PLA") and polyglycolic acid ("PGA") (Birmingham Polymers, Birmingham, Ala.) containing 0.1-10% of a peptide analog such as an analog of Somatostatin may be varied sequentially so that the drug has multiple peak release drug concentrations. . . . The release rate from each layer is optionally different such that the final result is several different peaks corresponding to the release from each individual layer. Layers are not limited to a single drug. (Schwarz, col. 14, ll. 41-55; Ans. 8.) FF12. Schwarz further disclosed: The invention includes parallel applications of drug(1)- polymer(1)-solvent(1) and drug(2)-polymer(2)-solvent(2) to eliminate compatibility or solubility issues- Examples include the simultaneous application of (i) cisplatinhydroxypropyl methyl cellulose-water and paclitaxel-PCL/PLA-chloroform from two different feeds; (ii) albumin or gelatin solution from one feed and gluraldehyde crosslinker from second feed; and (iii) acrylate monomer solution from one feed and methylene bis acrylamide as crosslinker for the second feed. (Schwarz col. 15, ll. 19-28; Ans. 6.) PRINCIPLES OF LAW “The Patent Office has the initial duty of supplying the factual basis for its rejection. It may not . . . resort to speculation, unfounded assumptions or hindsight reconstruction to supply deficiencies” in the cited references. In re Warner, 379 F.2d 1011, 1017 (CCPA 1967). “In rejecting claims under 35 U.S.C. § 103, the examiner bears the initial burden of presenting a prima facie case of obviousness. Only if that Appeal 2011-012701 Application 10/921,735 10 burden is met, does the burden of coming forward with evidence or argument shift to the applicant.” In re Rijckaert, 9 F.3d 1531, 1532 (Fed. Cir. 1993). “[R]ejections on obviousness grounds cannot be sustained by mere conclusory statements; instead, there must be some articulated reasoning with some rational underpinning to support the legal conclusion of obviousness.” KSR Int'l Co. v. Teleflex Inc., 550 U.S. 398, 418 (2007)(quoting In re Kahn, 441 F.3d 977, 988 (Fed. Cir. 2006). ANALYSIS Ground 1: Obviousness over Tuch in view of Chandrasekaran Based on the combination of Tuch and Chandrasekaran the Examiner concludes, that at the time of the Appellants’ claimed invention it would have been prima facie obvious to use the concept of linear deposition on a stent as disclosed in Chandrasekaran and apply that to the polymer drug stent depositions as disclosed in Tuch. (FFs 5-11; Ans. 3-4.) Appellants contend that the combination of Tuch and Chandrasekaran “fail to include each and every element of Appellants[’] invention as claimed.” (App. Br. 13.) Appellants assert “that the Chandrasekaran patent must be considered as a whole. The Chandrasekaran patent discloses a radiopaque layer and a drug-releasing layer over the radiopaque layer, but only discloses a compositional gradient of metallic materials in the radiopaque layer.” (Reply Br. 6.) Claim 1 requires in pertinent part the limitations of a “continuous coating” disposed on the stent and that the component “varies linearly” over Appeal 2011-012701 Application 10/921,735 11 at least part of the thickness of the coating. The Specification provides that in a continuous coating the “therapeutic agent in the polymer varies continuously over the thickness” of the coating. (FFs 1-4.) The Specification provides several variations of continuous coating profiles, noticeable in all the examples is that there are no abrupt changes in the component concentration over the coating thickness. (FF4.) Thus, the limitation of a “continuous coating” disposed on the stent is interpreted to be a smooth transition, without abrupt concentration changes or steps, in the component concentration over the thickness of the coating layer, where the concentration of the component can either increase or decrease from the stent sidewall to the outer edge of the coating. The limitation that the component “varies linearly” over at least part of the thickness of the coating is interpreted to be a change in the component concentration versus the thickness of the coating layer, thus, it is a continuous coating with the additional requirement that the slope of the line is straight (FFs 3-4). The concentration of the component can either increase or decrease from the stent sidewall to the outer bound of the coating. (FFs 3- 4, Spec. 12, ll. 15-32, see also Figure 4C.) We agree with the Appellants position that the Examiner has not set out a prima facie case of obviousness. We find that the Examiner has not adequately explained why the cited references would have prompted an ordinary artisan to apply a therapeutic layer or a polymer layer in a linear fashion onto a stent as claimed. The Examiner takes the position that Chandrasekaran teaches a stent having two coating components that vary linearly, and that the deposition of the materials is achieved by Appeal 2011-012701 Application 10/921,735 12 “simultaneously applying both coating components and controlling the rates at which each component is applied.” (Ans. 4, 9.) The disclosure in Chandrasekaran of a method of achieving linear coatings using ceramics and metals does not address the reason why the ordinary artisan would seek to make linear coatings of therapeutic drugs or polymers. Tuch already recognized that placing the concentration of therapeutic agent close to the stent surface is beneficial because it improves the administration of the drug (FFs 5, 6, 8). Tuch achieves this drug elution profile by pre-eluting the drug from the stent (FF8) or by applying an overlayer coat onto the stent (FF7). As recognized by the Examiner “Tuch fails to disclose that coating is varied linearly over said thickness.” (Ans. 4.) The Examiner has not, however, explained or pointed to any evidence in Chandrasekaran or Tuch to explain why an ordinary artisan would have looked to produce a linear gradient deposition of a therapeutic or polymer on a stent in the first place. The Examiner has not pointed to any evidence in Chandrasekaran or Tuch that would lead the ordinary artisan to apply a therapeutic agent or polymer in a linearly varying gradient across the thickness of the coating. The Examiner relies on Chandrasekaran “for its teaching of linearly varying concentrations of coating components and its explanation that such a concentration profile may be produced by simultaneously applying both coating components and controlling the rates at which each component is applied.” (Id. at 9.) We find that Chandrasekaran disclosed a method to make stents more visible on X-ray, so that they can be more easily monitored once they are placed into position in the body. The problem solved by Chandrasekaran was to take X-ray dense material that may not Appeal 2011-012701 Application 10/921,735 13 have the desired biocompatibility level and apply it in conjunction with a biocompatible material. (Chandrasekaran, col. 4, ll. 44-61.) As acknowledged by Appellants, Chandrasekaran disclosed adding therapeutic agents to the stent, but these therapeutic agents are applied as an additional layer on top of the radiopaque layer and not as a gradient. (Reply Br. 6.) The Examiner finds that the “teaching of varying concentrations linearly is applicable to the Tuch device since it would allow more continuous and accurate control of the release profile of the active agent(s).” (Ans. 9.) The Examiner has not provided any other rationale as to why an ordinary artisan would have considered it obvious to apply the drugs in a linear fashion and what benefits may be obtained in comparison to applying the drug coatings as very thin layered coatings as a series of small steps (FF3). What is missing from the Examiner's analysis is evidence that an artisan would have a reason to produce linear coatings of therapeutic agents on a stent. See KSR, 550 U.S at 418 (obviousness rejections require “some articulated reasoning with some rational underpinning”). We are not persuaded that the Examiner has made out a prima facie case of obviousness as to claims 1 and 10. We therefore reverse the Examiner's obviousness rejection of those claims over Tuch and Chandrasekaran. We thus reverse the rejection of claims 1 and 10 under 35 U.S.C. § 103(a) as being obvious. As claims 2, 5-7, 9, 11, 14-16, and 18 have not been argued separately, they stand with claims 1 and 10 as acknowledged by the Appellants (App. Br. 16). 37 C.F.R. § 41.37(c)(vii). Appeal 2011-012701 Application 10/921,735 14 Ground 2: Obviousness over Tuch, Chandrasekaran and Harish Based on the combination of Tuch, Chandrasekaran and Harish, the Examiner concludes, that at the time of the Appellants’ claimed invention it would have been prima facie obvious to use the concept of linear deposition on a stent as disclosed in Chandrasekaran and apply that to the polymer or therapeutic agent depositions on a stent as disclosed in Tuch and Harish. (FFs 5-11; Ans. 3-4.) Appellants contend the “Tuch patent and the Chandrasekaran patent and the Harish publication, alone or in combination, fail to disclose, teach, or suggest each and every element of the Appellant's invention as claimed.” (App. Br. 17.) “[T]he Harish publication only teaches a conventional uniform coating, so there would be no reason for one skilled in the art to combine the teachings of Harish publication with the teachings of the Tuch patent and the Chandrasekaran patent.” (Id. at 18.) “The Appellant respectfully points out that the Harish publication cautions that particular care should be taken to ensure that the active ingredient employed in the composition will not be adversely affected by the heat treatment applied to the sheath formed from the composition as described below.” (Reply Br. 7.) We agree with Appellants’ position. We are not persuaded that the Examiner has adequately explained why the cited references would have prompted an ordinary artisan to apply therapeutic agents or polymers in a linear fashion onto a stent. For the reasons set out above we are not persuaded that the combination of Tuch and Chandrasekaran would have lead the ordinary artisan to produce linear therapeutic or polymer coatings on a stent as claimed. The Examiner finds that “Tuch[’s] disclosure is Appeal 2011-012701 Application 10/921,735 15 compatible with a wide variety of coating components including therapeutic agents and pharmaceutically active compounds. Anti-inflammatory agents are considered to fall within these categories, and providing such an agent would allow benefits such as reduced inflammation at the target site.” (Ans. 10.) However, what is missing from the Examiner's analysis is evidence that an artisan would have a reason to produce a continuous or linear coating on a stent in the first place. See KSR, 550 U.S at 418 (obviousness rejections require “some articulated reasoning with some rational underpinning”). The preponderance of evidence on this record fails to support Examiner's finding that Tuch in view of Chandrasekaran teaches Appellants’ claimed invention. The rejection of claims 8 and 17 under 35 U.S.C. § 103(a) as being obvious over Tuch in view of Chandrasekaran and further in view of Harish is reversed. Ground 3: Obviousness over Schwarz, Chandrasekaran and of Harish Based on the combination of Schwarz and Chandrasekaran, the Examiner concludes that it would have been prima facie obvious at the time of Appellants’ claimed invention to use the linear coating profiles on a stent as taught by Chandrasekaran with the polymer-therapeutic agent combination coatings as taught by Schwarz. (Ans. 6-7, 11.) Appellants contend that “the Schwarz patent discloses a layered, discontinuous coating, in contrast to the continuous coating as claimed. The Schwarz patent also fails to disclose the concentration of the first coating component varying continuously in a radial direction as claimed.” (App. Br. 21.) “[T]he Schwarz patent and the Chandrasekaran patent, alone or in Appeal 2011-012701 Application 10/921,735 16 combination, fails to disclose, teach, or suggest each and every element of the Appellant's invention as claimed.” (App. Br. 19.) We agree with the Appellants’ position. We find that the Examiner has not adequately explained why the cited references would have prompted an ordinary artisan to change the sequential layer therapeutic agent profile of the Schwarz stents (FF11) and replace this with a continuous and/or linear deposition profile. The Examiner reasons that because “Schwarz discloses applying two coating components simultaneously and varying the concentrations of coating components across a thickness of the coating. Chandrasekaran is relied upon only for its teaching of linearly varying concentrations of coating components. Schwarz already discloses a method for applying two coatings simultaneously.” (Ans. 11; FF12.) The Examiner asserts that “[a] linear concentration gradient would allow [for a] more continuous and accurate control of the release profile of the active agents in the Schwarz stent.” (Ans. 12.) However, Schwarz already disclosed varying the concentration of components radially from the stent surface outward by applying multiple layers, each having a different component concentration (FF11). The sequential applications of multiple thin coatings would result in a near linear concentration profile as recognized in the Specification (FF4). The Examiner acknowledges that an ordinary artisan would “recognize that these deposition methods [of Chandrasekaran] are not necessary for achieving a linear concentration gradient in a stent. Although no specific coating method is claimed, Examiner notes that such a concentration profile could be achieved by any number of well known coating methods including, for example, vapor deposition.” (Ans. 9-10.) What is missing from the Appeal 2011-012701 Application 10/921,735 17 Examiner's analysis is a reason that would have prompted the artisan to seek ways of creating a linear gradient deposition on a stent in the first place. See KSR, 550 U.S at 418 (obviousness rejections require “some articulated reasoning with some rational underpinning”). The preponderance of evidence on this record fails to support Examiner's finding that Schwarz and Chandrasekaran teaches Appellants' claimed invention. The rejection of claim 1 under 35 U.S.C. § 103(a) as being obvious over Schwarz in view of Chandrasekaran is reversed. As claims 2, 10, 11 and 44-65 have not been argued separately, they stand claim 1. 37 C.F.R. § 41.37(c)(vii). SUMMARY We reverse the rejection of claims 1, 2, 5-7, 9-11, 14-16, and 18 under 35 U.S.C. § 103(a) as unpatentable over Tuch in view of Chandrasekaran. We reverse the rejection claims 8 and 17 under 35 U.S.C. § 103(a) as unpatentable over Tuch in view of Chandrasekaran and further in view of Harish. We reverse the rejection of claims 1, 2, 10, 11 and 44-65 under 35 U.S.C. § 103(a) as unpatentable over Schwarz in view of Chandrasekaran. REVERSED cdc Copy with citationCopy as parenthetical citation
