Oshlack et al.v.Devane et al. V. Oshlack et al.

Patent Trial and Appeal BoardApr 29, 2016

14094968 (P.T.A.B. Apr. 29, 2016)

BoxInterferences@uspto.gov Filed: ________, 2015 Tel: 571-272-9797 UNITED STATES PATENT AND TRADEMARK OFFICE _______________ BEFORE THE PATENT TRIAL AND APPEAL BOARD _______________ RECRO TECHNOLOGY, LLC Application 11/372,857, Junior Party v. PURDUE PHARMA L.P., Applications 13/833,263 and 14/094,968, Senior Party _______________ Patent Interference No. 106,022 (DK) _______________ JUDGMENT 37 C.F.R. § 41.127 Before RICHARD E. SCHAFER, SALLY GARDNER LANE, and DEBORAH KATZ, Administrative Patent Judges. KATZ, Administrative Patent Judge. 1 Interference 106,022 2 As explained in the Decision on Motions (Paper 243), both parties claims 1 have been found to lack written description support under 35 U.S.C. § 112, first 2 paragraph. 3 It is ORDERED that claims 1 and 88-94 of Recro involved 4 application 11/372,857 be FINALLY REFUSED. 5 It is also ORDERD that claims 63-67 and 70-71 of Purdue’s involved 6 application 13/833,263 and claims 1, 6, 9, 10, 12-15, 23-26, 32, 39, 41-46, and 53-7 55 of Purdue’s involved application 14/094,968, be FINALLY REFUSED. 8 It is further ORDERED that a party seeking judicial review timely serve 9 notice on the Director of the United States Patent and Trademark Office. 10 37 C.F.R. §§ 90.1 and 104.2. See also 37 C.F.R. 41.8(b). Attention is directed to 11 Biogen Idec MA, Inc., v. Japanese Foundation for Cancer Research, 785 F.3d 648, 12 654–57 (Fed. Cir. 2015) (cert. denied 2016 WL 1078942, Mar 21, 2016) 13 (determining that pre-AIA § 146 review was eliminated for interference 14 proceedings declared after September 15, 2012). 15 It is further ORDERED that a copy of this judgment be entered into the 16 administrative records of Recro application 11/372,857 and Purdue applications 17 13/833,263 and 14/094,968. 18 . Interference 106,022 3 cc (via e-mail): 1 2 Attorneys for junior party Recro Technology, LLC 3 4 FOX ROTHSCHILD, LLP 5 Shahnam Sharareh 6 Jeff E. Schwarz 7 ssharareh@foxrothschild.com 8 jeschwartz@foxrothschild.com 9 10 Paul K. Legaard 11 Daniel M. Scolnick 12 legaardp@pepperlaw.com 13 scolnickd@pepperlaw.com 14 15 Richard Kelly 16 Marina Miller 17 rkelly@oblon.com 18 mmiller@oblon.com 19 20 Attorneys for senior party Purdue Pharma, LP 21 22 DAVIDSON, DAVIDSON & KAPPEL, LLC 23 Clifford M. Davidson 24 Cary S. Kappel 25 Leslye B. Davidson 26 Oleg Ioselevich 27 cdavidson@ddkpatent.com 28 ckappel@ddkpatent.com 29 ldavidson@ddkpatent.com 30 oioselevich@ddkpatent.com 31 ddk@ddkpatent.com 32 33 Brian P. O’Shaughnessy 34 boshaughnessy@ratnerprestia.com 35 36 BoxInterferences@uspto.gov Filed: April 29, 2016 Tel: 571-272-9797 UNITED STATES PATENT AND TRADEMARK OFFICE _______________ BEFORE THE PATENT TRIAL AND APPEAL BOARD _______________ RECRO TECHNOLOGY, LLC Application 11/372,857, Junior Party v. PURDUE PHARMA L.P., Applications 13/833,263 and 14/094,968, Senior Party _______________ Patent Interference No. 106,022 (DK) _______________ DECISION ON MOTIONS 37 C.F.R. § 41.125(a) Before RICHARD E. SCHAFER, SALLY GARDNER LANE, and DEBORAH KATZ, Administrative Patent Judges. KATZ, Administrative Patent Judge. Interference 106,022 2 I. Introduction 1 The interference is before a panel for consideration of the parties’ pending 2 non-priority motions. 3 Parties 4 Junior Party Recro Technology LLC1 (“Recro”) is involved based on its 5 application 11/372,857 (“the ’857 application”), which was filed 10 March 2006. 6 (Declaration Paper 1, at 3.) 7 Senior Party Purdue Pharma L.P.2 (“Purdue”) is involved based on two 8 applications: 13/833,263 (“the ’263 application”), filed 15 March 2013, and 9 14/094,968 (“the ’968 application”), filed 3 December 2013. (Declaration Paper 1, 10 at 4.) The ’968 application is a continuation of the ’263 application. 11 Claims 12 Both parties claim “dosage forms” of hydrocodone, a known drug used for 13 the treatment of pain. (Purdue ’968 appl., Exh. 1026, ¶ 2; Recro ’857 appl., 14 Exh. 1014, ¶ 59.) Both parties’ claimed dosage forms comprise two components: 15 (1) a formulation for immediate release including, among other ingredients, 16 hydrocodone and hydroxypropylmethylcellulose and 17 (2) a formulation for extended or modified release including, among other 18 ingredients, hydrocodone and ammonio methacrylate. 19 (John G. Devane (“Recro”) Clean Copy of Claims, Paper 11; Oshlack (“Purdue”) 20 Clean Copy of Claims, Paper 7.) In contrast to “immediate release,” wherein the 21 drug is released immediately after administration (see Declaration of David Taft3 22 1 Junior Party represents that Recro Technology LLC is the real party-in-interest to the involved application. (Paper 10.) 2 Senior Party represents that Purdue Pharma LP is the real party-in-interest to the involved applications. (Paper 5.) 3 Purdue relies on the testimony of David Taft, Ph.D. Dr. Taft testifies that he has been a Professor in the Division of Pharmaceutical Sciences in the Arnold & Marie Interference 106,022 3 (“Taft Decl.”), Exh. 1012, at ¶ 28), the parties define “extended release,” 1 “modified release,” “controlled release,” and other similar terms to mean that the 2 release of the drug is not immediate, but slower to some degree. (See Recro 3 ’857 appl., Exh. 1014, at ¶ 27; Purdue ’968 appl., Exh. 1026, at ¶ 37; Taft Decl., 4 Exh. 1012, at ¶ 30.) Unless specifically indicated, we use the terms “controlled 5 release” and “modified release” to refer to all of these types of non-immediate 6 release formulations. 7 Each parties’ claims also recite two different functional elements defining 8 the release of hydrocodone, including: 9 (1) in vitro release or dissolution of the drug as determined by an 10 experimental system (the “USP Basket Method” in Purdue’s claims or 11 the “USP Type 1 apparatus” in Recro’s claims); and 12 (2) in vivo release characterized by the concentration of the drug in the blood 13 plasma (expressed as “Tmax” or “C12/Cmax” measurements of blood plasma 14 concentration). 15 (See Recro Clean Copy of Claims, Paper 11; Purdue Clean Copy of Claims, 16 Paper 7.) 17 Motions 18 Purdue filed Motion 2 (Paper 144), arguing that there is no interference-in-19 fact between the parties’ claims. We deny this motion. 20 Schwartz college of Pharmacy and Health Sciences of the Long Island University since 2013 and previously served as Dean of that college. (Taft Decl., Exh. 1012, at ¶¶ 3 and 4.) Dr. Taft testifies further that he has received numerous honors and awards, serves on the editorial board of four scientific journals, has been awarded 19 grants and contracts, and has published 34 articles in the field of pharmacokinetics of drugs and drug formulations. (Id., at ¶¶ 9-11.) Dr. Taft is qualified to provide opinion testimony as an expert witness based on his scientific, and technical knowledge about the subject matter of the interference. Interference 106,022 4 Purdue also filed Motion 1 (Paper 143), arguing that Recro’s involved 1 claims are unpatentable under 35 U.S.C. § 112, first paragraph. We grant this 2 motion. 3 Recro filed a motion to add a new claim to its involved application, 4 contingent on the grant of Purdue Motion 2, arguing that there is no interference-5 in-fact, and Purdue Motion 2, arguing that Recro’s currently involved claims are 6 unpatentable under 35 U.S.C. § 112, first paragraph. We deny this motion. 7 Recro file Motion 5, arguing that Purdue’s involved claims are unpatentable 8 under 35 U.S.C. § 112, first paragraph. We grant this motion. 9 Because we hold that both Recro’s and Purdue’s involved claims are 10 unpatentable, there is no reason to make a determination of patentability of either 11 party’s claims under 35 U.S.C. § 102(g). Accordingly, we terminate the 12 interference without deciding the parties’ remaining motions, which would impact 13 only a priority decision. Specifically, we decline to consider Recro Motion 1 14 (Paper 123) to substitute the count, Recro Motion 3 (Paper 148), to argue that 15 Purdue should not have been accorded the benefit of earlier applications as to the 16 count, and Purdue Motions 4 and 5 (Papers 145 and 154), to argue that Purdue 17 should be accorded the benefit of earlier applications as to the count. 18 19 II. Purdue Motion 2 –For Judgment of No Interference-in-Fact 20 Purdue argues that the interference was improperly declared because none of 21 its involved claims interfere with any of Recro’s involved claims. (Purdue 22 Motion 2, Paper 144.) Recro opposed this argument (Paper 188) and Purdue 23 replied (Paper 223). 24 “Whenever an application is made for a patent which, in the opinion of the 25 Director, would interfere with any pending application, or with any unexpired 26 Interference 106,022 5 patent, an interference may be declared . . . .” 35 U.S.C. § 135(a)4. Because the 1 interference was declared by an APJ acting on behalf of the Director, 37 CFR 2 § 41.203(b), there is presumption that at least one claim of each party interferes. 3 Claims interfere when they claim the same subject matter. Therefore, it is 4 Purdue’s burden to persuade us that the parties do not claim the same subject 5 matter. 37 C.F.R. §§ 41.121(b) and 41.208(b). 6 Findings of Fact 7 We make the following findings of fact regarding whether the parties’ 8 claims interfere. These facts, as well as those presented elsewhere in this opinion, 9 are supported by a preponderance of the evidence. 10 1. Recro claim 1 recites: 11 A multiparticulate modified release solid oral dosage form of 12 hydrocodone or a pharmaceutically acceptable salt thereof comprising 13 two populations of hydrocodone containing particles, granules, 14 beads or pellets, the dosage form comprising from about 1 to about 15 100 mg of hydrocodone or a pharmaceutically acceptable salt thereof, 16 said two populations consisting of 17 [1] a first population of particles, granules, beads or pellets, 18 consisting of non-pareil seeds, hydrocodone or a pharmaceutically 19 acceptable salt thereof, a hydrophilic polymer selected from the group 20 consisting of polyvinyl pyrrolidone, hydroxypropylmethylcellulose 21 and a mixture thereof, and at least one suitable excipient; and 22 providing an immediate release of hydrocodone, and 23 [2] a second population of particles, granules, beads or pellets, 24 comprising non-pareil seeds, hydrocodone or a pharmaceutically 25 acceptable salt thereof, an ammonio methacrylate copolymer and at 26 least one suitable excipient and providing a modified release of 27 hydrocodone such that release of hydrocodone is delayed for a period 28 of at least about 2 hours after administration, 29 [3] said dosage form providing an in-vitro dissolution profile of 30 the hydrocodone in an aqueous medium when measured in a USP 31 4 Patent interferences continue under the relevant statutes in effect on 15 March 2013. See Pub. L. 112-29, § 3(n), 125 Stat. 284, 293 (2011). Interference 106,022 6 Type 1 apparatus (100 rpm) such that at least 25-50% by weight of the 1 hydrocodone is released within four hours, and at least 40-100% by 2 weight of the hydrocodone is released within four to eight hours, 3 [4] wherein said dosage form after a first administration to a 4 patient, provides a plasma profile substantially similar to the plasma 5 profile produced by administration of two or more IR [immediate 6 release] dosage forms of hydrocodone given sequentially, and 7 further wherein said dosage form provides a Tmax 1 of 8 hydrocodone from about 2 to about 8 hours. 9 10 (Paper 11, (bracketed numbers and emphasis added).) 11 2. Purdue Claim 63, of the ’263 application recites: 12 A twice-a-day solid oral controlled-release dosage form 13 comprising: 14 [1] (a) immediate release multiparticulates consisting of 15 pharmaceutically acceptable inert beads coated with hydrocodone 16 bitartrate, hydroxypropylmethylcellulose, glidant(s) and optional 17 plasticizer(s), 18 [2] (b) extended release multiparticulates comprising a plurality 19 of pharmaceutically acceptable inert beads coated with hydrocodone 20 bitartrate, an ammonio methacrylate copolymer, and glidant(s), 21 wherein the immediate release multiparticulates and the 22 extended release multiparticulates are contained in a pharmaceutically 23 acceptable hard capsule and the total amount of hydrocodone 24 bitartrate in the capsule is equivalent to from about 5 mg to about 25 60 mg hydrocodone; and 26 [3] wherein the dosage form provides an in-vitro release of 27 from 18% to about 42.5% by weight of hydrocodone from the dosage 28 form at one hour when measured by the USP Basket Method at 100 29 rpm in 700 ml of Simulated Gastric Fluid (SGF) for 55 minutes at 30 37° C and thereafter switching to 900 ml of Simulated Intestinal Fluid 31 (SIF) at 37° C, and 32 [4] after a first administration to a human patient population, 33 provides a mean C12/Cmax hydrocodone ratio of 0.55 to 0.85 and a 34 therapeutic effect for about 12 hours. 35 36 (Paper 7 (emphasis added).) 37 38 Interference 106,022 7 3. Both Recro and Purdue claim hydrocodone dosage forms that 1 comprise two types of particles (or “multiparticulates”): [1] particles providing for 2 immediate release that include a hydrocodone salt and a hydrophilic polymer such 3 as hydroxypropylmethylcellulose (Recro’s claims recite other hydrophilic 4 polymers in addition) and [2] particles providing for extended or delayed release 5 that include a hydrocodone salt and an ammonio methacrylate copolymer. (See 6 Recro Clean Copy of Claims, Paper 11; Purdue Clean Copy of Claims, Paper 7.) 7 4. Both Recro and Purdue recite elements (labeled [3] in the claims 8 above) that relate to the dissolution or release rate as measured by in vitro methods. 9 (See Recro Clean Copy of Claims, Paper 11; Purdue Clean Copy of Claims, 10 Paper 7.) 11 5. Both Recro and Purdue recite elements (labeled [4] in the claims 12 above) that relate to the concentration of hydrocodone in the blood plasma. (See 13 Recro Clean Copy of Claims, Paper 11; Purdue Clean Copy of Claims, Paper 7.) 14 6. Recro claim 1 includes an element that limits the concentration of 15 hydrocodone in the plasma: 16 wherein said dosage form after a first administration to a patient, 17 provides a plasma profile substantially similar to the plasma profile 18 produced by administration of two or more IR [immediate release] 19 dosage forms of hydrocodone given sequentially 20 (See Recro Clean Copy of Claims, Paper 11.) 21 7. Purdue claim 68 includes an element that limits the concentration of 22 hydrocodone in the plasma: 23 after a first administration to a human patient population, provides a 24 mean C12/Cmax hydrocodone ratio of 0.55 to 0.85 and a therapeutic 25 effect for about 12 hours 26 27 (Purdue Clean Copy of Claims, Paper 7.) 28 Interference 106,022 8 8. The term “C12” is not defined in the specification of the Purdue 1 applications or by either party’s witness, but is presumed to mean the plasma 2 concentration at 12 hours after administration. (See Purdue Motion 2, Paper 144, 3 at 9:6-9.) 4 9. The Purdue ’968 application states that “[t]he term ‘Cmax’ denotes the 5 maximum plasma concentration obtained during the dosing interval.” (’968 appl., 6 Exh. 1026, ¶ 38.) 7 10. Purdue’s witness, Dr. Taft, testifies: 8 A person having ordinary skill in the art understands the term "C12/Cmax 9 ratio" to mean the ratio of the plasma concentration at the 12 hour time 10 point after oral administration to the maximum plasma concentration 11 during the (12 hour) dosing interval. The C12/Cmax ratio provides 12 information concerning the shape of the plasma concentration curve. It is 13 calculated by dividing the plasma level determined to be the Cmax by the 14 plasma level measured at 12 hours after oral administration of the dosage 15 form.[5] Therefore, for example, a C12/Cmax ratio of 0.55 means that the 16 plasma concentration 12 hours after oral administration is 55% of the 17 maximum plasma concentration from the time of oral administration until 18 the 12 hour time point after oral administration. A C12/Cmax ratio of 0.85 19 means that the plasma concentration 12 hours after oral administration is 20 85% of the maximum plasma concentration from the time of oral 21 administration until the 12 hour time point after oral administration. 22 23 (Taft Decl., Exh. 1012, at ¶ 50.) 24 25 11. The Purdue ’968 application states: 26 It is a further object of the invention to provide orally 27 administrable controlled release opioid formulations suitable for 28 twice-a-day administration which provide an early onset of 29 therapeutic effect and which, after rising to a maximum concentration 30 5 Because the ratio is expressed as “C12/Cmax”, it appears to be calculated by dividing the plasma level measured at 12 hours after oral administration by the plasma level determined to be the Cmax, not the reverse, as explained by Dr. Taft. We mention this difference for clarity – it has no impact on our decision. Interference 106,022 9 during the dosage interval, provide a relatively flat serum plasma 1 profile, meaning that the plasma level of the opioid provides a 2 C12/Cmax ratio of 0.55 to 0.85, and which provides effective pain relief 3 to the patient. 4 5 (Purdue ’968 application, Exh. 1026, ¶ 16 (emphasis added).) 6 12. Paragraph 70 of the Recro ’857 application states: 7 In embodiments which include drug compounds used for pain 8 management, such as for example hydrocodone, the compositions and 9 dosage forms of the present invention may provide continuous 10 analgesia for up to 24 hours by providing minimum peak to trough 11 fluctuations in plasma levels and reduce or eliminate side effects 12 associated with such drug compounds. 13 14 (Recro ’857 appl. Exh. 1014, ¶ 70 (emphasis added).) 15 13. Paragraph 7 of the Recro ’857 application explains: 16 Many controlled release drug formulations are aimed at producing a 17 zero-order release of the drug compound. Indeed, it is often a specific 18 object of these formulations to minimize the peak-to-trough variation 19 in plasma concentration levels associated with conventional frequent 20 dosage regimes. 21 22 (Recro ’857 appl., Exh. 1014, at ¶ 7.) 23 24 14. Paragraph 68 of the Recro ’857 application explains that 25 [d]epending on the release profile of each component, the plasma 26 profile resulting therefrom may be bimodal or multimodal, and may 27 define well separated and clearly defined peaks associated with each 28 with each component (e.g. when the lag time between immediate 29 release and delayed release components is long) or superimposed 30 peaks associated with each component (e.g. in when the lag time is 31 short). . . . Alternatively, administration of a multiparticulate modified 32 release composition having an immediate release component and one 33 or more modified release components can result in a bimodal or 34 multimodal release profile but a plasma profile having a single peak 35 or peaks fewer in number than the number of components contained 36 in the composition. 37 Interference 106,022 10 (’857 appl., Exh. 1014, ¶ 68 (emphasis added).) 1 15. Paragraph 69 of the Recro ’857 application explains 2 in the case of some disorders it is particularly useful to have such a 3 bimodal plasma profile. For example, a typical methylphenidate 4 treatment regime consists of administration of two doses of an 5 immediate release dosage formulation given four hours apart. . . . It is 6 believed that the trough in the plasma profile between the two peak 7 plasma concentrations is advantageous in reducing the development of 8 patient tolerance by providing a period of wash out of the active 9 ingredient. 10 11 (Recro ’857 appl., Exh. 1014, at ¶ 69 (emphasis added).) 12 16. Methylphenidate is characterized as a psychostimulant and cerebral 13 stimulant for the treatment of attention deficit hyperactivity disorder in Recro’s 14 ’857 application. (Recro ’857 appl., Exh. 1014, ¶ 8.) 15 17. Dr. Taft testifies: 16 In my opinion, a person having ordinary skill in the art would 17 understand that the immediate release component of the twice-a-day 18 solid oral controlled-release dosage form claimed in the Purdue 19 Claims would act to provide an earlier time to maximum plasma 20 concentration of hydrocodone during the dosage interval (Tmax), but 21 would not consider it obvious that there would be two peak 22 concentrations separated by a lower blood plasma concentration (or 23 "trough"), as would be obtained from a formulation that provides a 24 plasma profile substantially similar to the plasma profile produced by 25 administration of two or more IR dosage forms of said active 26 ingredient given sequentially. 27 28 (Taft Decl., Exh. 1012, ¶ 99.) 29 18. Paragraph 10 of the Purdue specifications states the following: 30 31 Various techniques have been used to prepare controlled release 32 dosage forms. Specially coated pellets, tablets and capsules wherein 33 the slow release of the active medicament is brought about through 34 selective breakdown of the coating of the preparation or through 35 Interference 106,022 11 compounding with a special matrix to affect the release of a drug are 1 known in the art. Certain controlled release formulations provide for 2 related sequential release of a single dose of an active compound at 3 predetermined periods after administration. 4 5 (Purdue ’968 appl., Exh. 1026, paragraph [0010]). 6 19. Figure 2 of the Recro ’857 application is reproduced below. 7 8 Figure 2 depicts a graph of single dose simulations of 10 mg hydrocodone 9 formulations of the invention of the Recro ’857 application in which 20% of the 10 hydrocodone is contained in the immediate release (“IR”) component.6 11 (’857 appl., Exh. 1014, ¶ 36.) A line labeled “20%IR:80%SRka=0.3(10mgBID-2 12 pulses)” is indicated with a solid line and triangles and a line labeled 13 “SQ(5mgqid)” is indicated with a dashed line. 14 6 The x-axis in Figure 2 is “Concentration (ng/ml)” and the y-axis is not labeled. Because all of other figures of the Recro ’857 application, which present similar plots, have the x-axis labeled as time and the y-axis labeled as concentration, we consider the labeling of the axes in Figure 2 to be reversed. Interference 106,022 12 20. In regard to Figure 2 of the Recro ’857 application, Dr. Taft testifies 1 that most of the lines depicting plasma profiles do not depict a C12/Cmax 2 hydrocodone ratio of 0.55-0.85, as recited in Purdue’s claims, but that 3 the line defined as 20%IR80%SRka=0.3(10mgBID-2pulses) provides 4 two peaks within the dosage interval of 12 hours. That formulation 5 appears to depict a C12 of approximately 9.33 and a Cmax of 6 approximately 11.6 ng/ml at about 9 hours for a C12Cmax of about 0.80, 7 which appears to be within the upper limit of the C12/Cmax 8 hydrocodone ratio of 0.55 to 0.85 as required by the Purdue claims. 9 10 (Taft Decl., Exh. 1012, ¶ 119 (emphasis added).) 11 21. Dr. Taft testifies: 12 Based on my analysis above, it is my opinion that, although it is 13 possible for a formulation falling within the Recro Claims to provide a 14 C12/Cmax hydrocodone ratio of 0.55 to 0.85 as required by the Purdue 15 Claims, this is certainly not an obvious conclusion to draw. It appears 16 that of the formulations depicted in the Recro '857 application, the 17 vast majority would either not fall within the Recro Claims or not fall 18 within the Purdue claims. 19 20 (Taft Decl., Exh. 1012, ¶ 128.) 21 22 Analysis 23 Referring to the “two-way test,”7 Purdue argues that the parties’ claims do 24 not interfere because none of Recro’s claims is anticipated or rendered obvious by 25 any of Purdue’s claims. (Purdue Motion 2, Paper 144, at 6:21-13:6.) Purdue also 26 argues that none of its own claims are anticipated or rendered obvious by any of 27 Recro’s claims. (Id. at 13:7-16:8.) 28 7 See Eli Lilly & Co. v. Bd. of Regents of Univ. of Wash., 334 F.3d 1264, 1270 (Fed. Cir. 2003) (holding that the determination of whether two parties are claiming the “same patentable invention” is properly made using a two-way test); see also 37 C.F.R. § 41.203(a) Interference 106,022 13 Both parties claim dosage forms of hydrocodone with hydrocodone particles 1 for immediate release (with compounds including hydroxypropylmethylcellulose) 2 and hydrocodone particles for modified release (with ammonio methacrylate 3 copolymer). (FFs 1-3.) Both parties also recite elements (labeled [3]) that refer to 4 the in vitro release or dissolution profile of hydrocodone. (FF 4.) Purdue does not 5 contest that these elements indicate an interference-in-fact. 6 Purdue focuses, instead, on the elements in the parties’ claims (labeled [4]) 7 that refer to the concentration of hydrocodone in the blood plasma after 8 administration. (See FF 5.) Recro’s claims require a plasma profile that is 9 “substantially similar to the plasma profile produced by administration of two or 10 more IR dosage forms of hydrocodone given sequentially.” (FF 6.) Purdue’s 11 claims require a hydrocodone C12/Cmax ratio, which compares the concentration of 12 drug in the blood plasma at 12 hours (“C12”) and at the maximum concentration 13 (“Cmax”), of 0.55 to 0.85. (FFs 7-9.) 14 Because there is a presumption that the parties’ claims interfere, there is a 15 presumption that the recited hydrocodone plasma concentration elements in each 16 parties’ claims is not a patentable difference. That is, there is a presumption that 17 the parties’ claims interfere, despite their different expressions of hydrocodone 18 concentration in the blood plasma. Purdue must present persuasive argument and 19 evidence to overcome this presumption. 20 We first take up Purdue’s argument that none of Recro’s claims would 21 anticipate or render obvious any of Purdue’s claims. Purdue argues that its claims 22 are not rendered obvious by Recro’s claims because there is no suggestion to 23 choose the recited C12/Cmax range given Recro’s claims. Purdue argues further that, 24 even if the Recro claims suggest this functional element, there is not a reasonable 25 expectation of success in doing so. (Purdue Motion 2, Paper 144, at 14:3-8.) The 26 C12/Cmax ratio is a ratio of the plasma concentration measured at 12 hours to the 27 Interference 106,022 14 maximum concentration measured. (FFs 8-10; Taft Decl., Exh. 1012, at ¶ 50.) 1 According to Dr. Taft, Purdue’s witness, the C12/Cmax ratio provides information 2 concerning the “shape of the plasma concentration curve.” (Id.) We note that the 3 “shape” referred to by Dr. Taft would be determined by only two points: the C12 4 and the Cmax. Thus, the C12/Cmax ratio cannot provide a very detailed description of 5 a “shape.” Purdue’s specifications describe the C12/Cmax ratio recited in Purdue’s 6 claims (0.55-0.85) to provide a “relatively flat profile.” (FF11, Purdue ’968 appl., 7 Exh. 1026, ¶ 16; Purdue Motion 2, Paper 144, at 9:12-14.) 8 According to Purdue, its claimed C12/Cmax range “is substantially higher than 9 that of sequential IR doses.” (Purdue Motion 2, Paper 144, at 14:17-15:2, citing 10 Taft Decl., Exh. 1012, at ¶ 127.) Purdue argues that the claimed range “would be 11 antithetical to the Recro Claims, which seek to mimic the plasma profile of 12 sequential IR doses . . . and would impermissibly change the theory of operation of 13 the Recro Claims.” (Id.) 14 This argument is unpersuasive because the evidence does not support it. 15 Paragraph 70 of Recro’s specification explains that a goal of embodiments 16 involving pain management with a dosage of hydrocodone is to “provid[e] 17 minimum peak to trough fluctuations in plasma levels and reduce or eliminate side 18 effects associated with such drug compounds” when formulating dosages. (FF 12; 19 Recro ’857 appl. Exh. 1014, ¶ 70; see Recro Opp. 2, Paper 188, at 2:16-3:78.) 20 Similarly, paragraphs seven and 68 of the Recro specification discuss the 21 usefulness of plasma profiles that minimize peak to trough fluctuations. (FFs 13 22 8 We note that while Recro provided line numbers on the pages of its briefs, the line numbers do not necessarily correspond to the actual number of the line. For example, the line closest to the line labeled “16 on page 2 of Recro’s Opposition 2 is actually the 14th line of the page. We refer to the line number provided by Recro that is closest to the line cited. Interference 106,022 15 and 14.) Thus, Recro’s specification indicates that providing a flat profile, such as 1 Purdue argues would result from a C12/Cmax ratio of 0.55-0.85, would be beneficial 2 in some circumstances, such as with hydrocodone. 3 Purdue argues that paragraph 70 of Recro’s specification was not part of 4 Recro’s provisional application and should not be considered because Recro relied 5 on the date of its provisional application when it provoked this interference. (See 6 Purdue Reply 2, Paper 223, at 5:3-11.) The determination of interference-in-fact is 7 a determination of what the parties’ involved claims encompass, when those claims 8 are construed in light of their currently involved specifications. It is not a 9 determination of whether benefit of an earlier application should be accorded to a 10 party. Once declared with the presumption that the parties’ claims interfere, the 11 burden lies with Purdue to show they do not interfere; the burden does not lie with 12 Recro. 13 Purdue also argues that paragraph 69 of Recro’s specification shows that 14 Recro’s dosage forms require distinct peaks in plasma concentration rather than 15 minimal fluctuations. (See Purdue Reply 2, Paper 223, at 5:12-20, citing Recro 16 ’857 appl., Exh. 1014, ¶ 69, FF 15; see also Purdue Motion 2, Paper 144, at 8:15-17 9:4.) Paragraph 69 of Recro’s specification discusses examples of dosage forms 18 with two distinct peaks are beneficial, such as for the drug methylphenidate. 19 Methylphenidate is not hydrocodone nor an opioid, but is used to treat attention 20 deficit disorder by acting as a stimulant. (FF 16; Recro ’857 spec., Exh. 1014, at 21 ¶ 18.) Because paragraph 70 specifically refers to hydrocodone and the desirability 22 of minimizing fluctuations in plasma levels, we are not persuaded by Purdue’s 23 argument that paragraph 69 is more relevant. 24 Purdue asserts that other references that reportedly teach avoiding minimum 25 fluctuations for opioids in order to avoid the development of tolerance. (See 26 Purdue Reply 2, Paper 223, at 5:18-20, citing Exh. 1054 at p. 81, left col., ¶ 2.) 27 Interference 106,022 16 This evidence was presented for the first time in Purdue’s Reply Brief, without 1 supporting testimony. Purdue has not persuaded us that oxycodone treatment 2 regimens discussed in these references are more relevant to hydrocodone than 3 those of paragraph 70 of Recro’s specification, which expressly refers to 4 hydrocodone. 5 Purdue also fails to present sufficient evidence that those of skill in the art 6 would not have a reasonable expectation of success in modifying Recro’s claimed 7 subject matter to render Purdue’s claimed subject matter obvious. (See Purdue 8 Motion 2, Paper 144, at 14:6-8.) Though Purdue cites to his testimony, Dr. Taft 9 merely provides the conclusory statement that “a person having ordinary skill in 10 the art would not have had a reasonable expectation of success in obtaining a 11 dosage form capable of providing a C12/Cmax hydrocodone ratio range of 0.55 to 12 0.85 using the teachings of the Recro Claims in view of the prior art.” (See Taft 13 Decl., Exh. 1012, ¶ 129.) Dr. Taft fails to explain why there would be any 14 uncertainty in modifying the components of Recro’s claimed formulations, which 15 are the same as those of Purdue’s claimed formulations, to achieve the plasma 16 concentrations recited by Purdue. 17 Purdue’s other arguments regarding other prior art are also not persuasive. 18 (See Purdue Motion 2, Paper 144, at 15:3-16:3.) The appropriate inquiry to 19 determine interference-in-fact is to compare the parties’ claims by posing each as 20 hypothetical prior art against the other. See 37 C.F.R. § 41.203(a) (“An 21 interference exists if the subject matter of a claim of one party would, if prior art, 22 have anticipated or rendered obvious the subject matter of a claim of the opposing 23 party and vice versa.” (emphasis added).) That some prior art references would not 24 provide a motivation to modify is not persuasive of whether the subject matter of 25 its claims would not have been obvious over the subject matter of Recro’s claims. 26 Interference 106,022 17 In regard to the second prong of the “two-way test” for interference-in-fact 1 between the parties’ claims, Purdue argues that none of its claims anticipate or 2 render obvious any of Recro’s claims. (Purdue Motion 2, Paper 144, at 6:21-13:6.) 3 Again, we are not persuaded. Purdue relies on Dr. Taft’s testimony to argue that a 4 person of ordinary skill would not consider it obvious to modify the dosage form 5 claimed by Purdue to have two peak concentrations separated by a lower blood 6 plasma concentration, as reportedly claimed by Recro. (See FF 17Taft Decl., 7 Exh. 1012, at ¶ 99; Purdue Motion 2, Paper 144, at 11:3-5.) In contrast, the Purdue 8 specification explains that “[c]ertain controlled release formulations provide for 9 related sequential release of a single dose of active compound at predetermined 10 periods of time after administration.” (FF 18, Purdue ’968 appl., Exh. 1026, at 11 ¶ 10.) Thus, reading the Purdue claims in view of the specification, we understand 12 them to include formulations having plasma profiles that resemble the profile 13 resulting from sequential release claimed by Recro. 14 In addition to not being persuaded that either prong of the “two-way test” 15 fails when the parties’ claims are compared, we also note that according to 16 Purdue’s witness, Dr. Taft, an embodiment disclosed in Recro’s specification falls 17 within the scope of Purdue’s claimed plasma profile. Specifically, Dr. Taft 18 testifies that the line labeled 20%IR80%SRka=0.3(10mgBID-2pulses) in Figure 2 19 in Recro’s specification (see FF 19) provides two peaks within the dosage interval 20 and that the calculated C12/Cmax of that line appears to be within the scope of 21 Purdue’s claims. (FF 20; Taft Decl., Exh. 1012, ¶ 119.) Thus, according to 22 Dr. Taft, the line labeled 20%IR80%SRka=0.3(10mgBID-2pulses) falls within the 23 scope of Purdue’s claims. 24 Dr. Taft testifies that this line does not provide the plasma profile claimed by 25 Recro, because the line is not “substantially similar” to another line (labeled 26 “SD(5mgqid)” on the graph). (See Taft Decl., Exh. 1012, at ¶ 88; see Purdue 27 Interference 106,022 18 Reply 2, Paper 223, at 9:16-10:2.) We are not persuaded that one line on a graft 1 represents the entire scope of Recro’s claimed plasma profile. Relying on 2 paragraph 69 of Recro’s specification, Purdue argues that Recro’s claimed plasma 3 profile is a “bimodal plasma profile” with a trough between two peak 4 concentrations. (Purdue Motion 2, Paper 144, at 7:14-8:2.) As we explained 5 above, though, paragraph 69 is not necessarily relevant to hydrocodone. Instead, 6 we noted that Recro’s specification contemplates minimizing the fluctuation 7 between peaks and troughs for dosage forms of hydrocodone in paragraph 70. (See 8 FF 12, Recro ’857 appl., Exh. 1014, at ¶ 70; see Recro Opp. 2, Paper 188, at 2:16-9 3:9.) Because Purdue agrees that the line labeled 20%IR80%SRka=0.3(10mgBID-10 2pulses) line of Figure 2 in Recro’s specification results from two doses of 11 immediate release hydrocodone, providing two peaks in the plasma concentration 12 (see FF 20; Taft Decl., Exh. 1012, at ¶ 119), we are not persuaded that it fails to 13 meets the requirements of Recro’s claims. 14 Purdue does not direct us to evidence that this line is an anomaly or is the 15 only line that meets both parties’ claimed limitations. Instead Dr. Taft testifies that 16 “it is possible for a formulation falling within the Recro Claims to provide a 17 C12/Cmax hydrocodone ratio of 0.55 to 0.85 as required by the Purdue Claims . . . .” 18 (FF21, Taft Decl., Exh. 1012, ¶ 128.) Therefore, we consider the line 19 20%IR80%SRka=0.3(10mgBID-2pulses) and others like it to fall within the scope 20 of both parties’ claims. 21 When two parties claim the same formulation, along with limitations that 22 have not been shown to be distinct, an interference-in-fact can exist. See Aelony v. 23 Arni, 547 F.2d 566, 570-71 (C.C.P.A. 1977) (where both parties claim the same 24 process but recite different common Diels-alder dienes holding interference-in-fact 25 because only one patent should issue for one inventive concept). Purdue has not 26 persuaded us that the parties’ claims encompass patentably different inventions. 27 Interference 106,022 19 Nor has Purdue directed us to sufficient evidence to prove that the plasma 1 concentrations recited by both parties are not obvious over each other. We are not 2 persuaded that because the parties express plasma concentrations in different ways 3 an interference-in-fact does not exist. 4 Accordingly, we DENY Purdue Motion 2. 5 6 III. Purdue Motion 1 – For Judgment that Recro’s Claims Lack 7 Written Description Support 8 Purdue argues that all of Recro’s claims are unpatentable under 35 U.S.C. 9 § 112, first paragraph, because they lack a sufficient written description of the in 10 vitro dissolution profiles and rates recited. (Paper 143.) Recro opposed this 11 argument (Paper 187) and Purdue replied (Paper 222). 12 The test for written description under 35 U.S.C. § 112, first paragraph, “is 13 whether the disclosure of the application relied upon reasonably conveys to those 14 skilled in the art that the inventor had possession of the claimed subject matter as 15 of the filing date.” Ariad Pharm., Inc., v. Eli Lilly & Co., 598 F3d 1336, 1351 16 (Fed. Cir. 2010). It is not enough that a disclosure render a claim obvious. “[T]he 17 subject matter must be disclosed to establish possession.” PowerOasis, Inc. v. T-18 Mobile USA, Inc., 522 F.3d 1299, 1310 (Fed. Cir. 2008). Though the claimed 19 subject matter need not be presented in haec verba in the specification, see Purdue 20 Pharma L.P. v. Fauling Inc., 230 F.3d 1320, 1323 (Fed. Cir. 2000), “the missing 21 descriptive matter must necessarily be present in the [original] application's 22 specification such that one skilled in the art would recognize such a disclosure.” 23 Tronzo v. Biomet, Inc., 156 F.3d 1154, 1159 (Fed.Cir.1998). Thus, the written 24 description must actually or inherently disclose the claim element. Id. 25 Interference 106,022 20 Compliance with the written description requirement of the first paragraph 1 of 35 U.S.C. § 112 is a question of fact. Centocor Ortho Biotech, Inc. v. Abbott 2 Labs., 636 F.3d 1341, 1347 (Fed. Cir. 2011). 3 We cite to the specification of the Recro ’857 application as published on 4 26 October 2006 (Exh. 1014) in the findings of fact and analysis below. 5 6 Findings of Fact 7 22. Recro claim 1 recites a dosage form of hydrocodone, or a salt thereof, 8 that provides an in vitro dissolution profile of the active ingredient in an aqueous 9 medium when measured in a USP Type 1 apparatus (100rpm) such that: 10 at least 25-50% by weight of the hydrocodone is released 11 within four hours, and 12 at least 40-100% by weight of the hydrocodone is released 13 within four to eight hours . . . . 14 15 (Recro Clean Copy of Claims, Paper 11, at 2 (indentations added).) 16 17 23. Recro claim 88 recites a dosage form of hydrocodone that provides an 18 in vitro dissolution profile of the active ingredient in an aqueous medium when 19 measured in a USP Type 1 apparatus (100rpm) such that: 20 at least about 50% by weight of the active ingredient is released 21 after 2 hours, 22 at least about 54% by weight of the active ingredient is released 23 after 4 hours, and 24 greater than about 70% by weight of the active ingredient is 25 released after 8 hours. . . . 26 27 (Recro Clean Copy of Claims, Paper 11, at 3 (indentations added).) 28 29 24. Recro claim 89 recites a dosage form of hydrocodone that provides an 30 in vitro dissolution profile of the active ingredient in an aqueous medium when 31 measured in a USP Type 1 apparatus (100rpm) such that: 32 Interference 106,022 21 at least about 30% to about 50% by weight of the active 1 ingredient is released after 2 hours, 2 at least about 54% to about 56% by weight of the active 3 ingredient is released after 4 hours, and 4 greater than about 64% by weight of the active ingredient is 5 released after 8 hours . . . . 6 7 (Recro Clean Copy of Claims, Paper 11, at 4 (indentations added).) 8 9 25. Recro claim 90 recites a dosage form of hydrocodone that provides a 10 dissolution profile of the active ingredient in an aqueous medium when measured 11 in a USP Type 1 apparatus (100rpm) such that: 12 from 22% to about 51% by weight of hydrocodone [is released] 13 at one hour . . . , 14 at least about 54% to about 56% by weight of the hydrocodone 15 is released after 4 hours, and 16 greater than about 64% by weight of the hydrocodone is 17 released after 8 hours . . . . 18 19 (Recro Clean Copy of Claims, Paper 11, at 5 (indentations added).) 20 21 26. Table 8 provides a dissolution profile for two multiparticulate 22 modified release formulations prepared as provided in Example 3. (Recro 23 ’857 appl., Exh. 1014, ¶ 102.) 24 27. Table 8 of the involved Recro ’857 application is reproduced below: 25 Interference 106,022 22 1 2 28. Example 3 of the Recro ’857 application explains the results in 3 Table 8 as “indicat[ing] that about 20 % of the hydrocodone was released in the 4 first hour and about 80% of the hydrocodone was released over a period of about 5 11 hours.” (Recro ’857 appl., Exh. 1014, ¶ 102.) 6 29. Examples 1 and 2 of the Recro ’857 application describe formulations 7 of methylphenidate. (Recro ’857 appl. Exh. 1014, at ¶¶ 79-98.) 8 9 Interference 106,022 23 Analysis 1 Purdue argues that the Recro ’857 application does not describe the range of 2 in vitro dissolution release times recited in Recro’s claims. (Purdue Motion 1, 3 Paper 143, at 7:18-8:2.) According to Purdue, in vitro dissolution is found only in 4 the examples of Recro’s specification and Table 8 provides the only data relevant 5 to hydrocodone and Recro’s claims. (Purdue Motion 1, Paper 143, at 6:17-7:7 and 6 8:3-9:17.) 7 Recro’s claims recite ranges of in vitro dissolution. (FFs 22-25.) As Purdue 8 notes, Table 8 provides dissolution data for only two hydrocodone formulations 9 (with and without fumaric acid) as single percentage points for the times given. 10 (See FFs 26-27; Purdue Motion 1, Paper 143, at 9:13-17.) Purdue argues that, for 11 example, Recro claim 1 recites “at least 25-50% by weight of hydrocodone is 12 released within four hours,” but Table 8 discloses only 54% released at four hours 13 for either hydrocodone formulation. (Purdue Motion 1, Paper 143, 9:20-10:4.) 14 According to Purdue, one data point would not support a range of 25-50%, even if 15 54% fell within that range. (Purdue Motion 1, Paper 143, at 9:24-104.) 16 Similarly, Purdue argues that Recro’s specification does not support the 17 range of 40-100% by weight of hydrocodone released within four to eight hours 18 recited in Recro’s claim 1 because Table 8 provides a highest dissolution rate of 19 77% at eight hours. (Purdue Motion 1, Paper 143, at 10:5-15.) Purdue argues that 20 Recro claims encompass release of at least 40-100% hydrocodone within 4 to 21 8 hours, but that the highest release of any drug described by Recro in the 22 ’857 application is 94.8%. (Purdue Motion 1, Paper 143, at 7:21-8:2, citing Recro 23 ’857 appl., Exh. 1014, ¶¶ 86-88, 90, and 102, including Tables 3(a)-(c), which 24 provide information regarding dosage forms of methylphenidate.) Purdue also 25 argues that the lower limit of Recro’s claimed range, 40%, is not described at four 26 hours. (Purdue Motion 1, Paper 143, at 10:5-15.) 27 Interference 106,022 24 Purdue presents similar arguments against the dissolution profile ranges 1 recited in Recro’s other independent claims 88, 89, and 90. (Purdue Motion 1, 2 Paper 143, at 11:5-15:3.) 3 Recro opposes Purdue’s argument by asserting that Purdue has improperly 4 construed Recro’s claims. (Recro Opp. 1, Paper 187, at 2:11-21.) According to 5 Recro, description of the release of hydrocodone that is “at least” 25% by the four 6 hour time point, such as release of 31% or 33% at two hours, as reported in 7 Table 8, supports the term “at least 25-50% by weight hydrocodone is released 8 within four hours.” Recro argues further that the report of 54% hydrocodone at 9 four hours in its specification also supports the limitation to “at least 25-50% . . . 10 within four hours.” (Recro Opp. 1, Paper 187, at 2:11-21.) In a similar argument, 11 Recro asserts that the data points of 64% and 68% release at six hours and of 77%, 12 and 73% released at eight hours describes “at least 40-100% by weight of the 13 hydrocodone is released within four to eight hours.” (Recro Opp. 1, Paper 187, at 14 2:22-27.) 15 We are persuaded by Purdue’s argument that the Recro specification does 16 not provide sufficient support for Recro’s claims because it does not describe the 17 full ranges of in vitro release claimed. Disclosure of isolated points within a 18 claimed range is not sufficient description of the entire range under 35 U.S.C. 19 § 112. See In re Lukach, 442 F.2d 967, 969 (C.C.P.A. 1971) (holding that a single 20 copolymer having a Mw/Mn ratio of 2.6 does not describe the claimed range of 21 from 2.0 to 3.0); see also Atofina v. Great Lakes Chemical Corp., 441 F.3d 991, 22 1000 (Fed. Cir. 2006) (holding that the disclosure of a range is no more a 23 disclosure of the end points of the range than it is of each of the intermediate 24 points). 25 Even if we accepted Recro’s interpretation of its claims and a single point 26 could demonstrate release of “at least” the lower limit of the claimed range within 27 Interference 106,022 25 the time provided, we find nothing to support the recitation of the actual endpoints 1 claimed by Recro. Under Recro’s argument, by including the words “at least,” 2 Recro can claim any range that begins with a point greater than the few data points 3 actually described. This reasoning conflicts with the concept that the written 4 description must show the inventor possessed what is claimed. For example, 5 under Recro’s reasoning (see Recro Opp. 1, paper 187, at 8:1-9), a claimed range 6 of “at least 40-100%” is valid even though Recro’s specification fails to 7 demonstrate that 100% release is obtainable. 8 We are similarly unpersuaded by Recro’s arguments regarding the 9 interpretation of the term “after 2 hours,” “after 4 hours,” and “after 8 hours” in its 10 claims 88, 89, and 90. (See Recro Opp. 1, Paper 187, at 9:21-13:5.) Recro argues 11 that the term “after” is properly interpreted to mean that the dissolution recited is 12 achieved not “at” the time, but “after” it. Thus, according to Recro, data points in 13 Table 8 that provide for less dissolution at the time recited satisfy the written 14 description requirement because further dissolution will occur “after” that time. 15 Again, Recro’s argument is unpersuasive because it would allow for claims to 16 release rates that are merely hypothetical given the data actually presented in the 17 specification. 18 We are also unpersuaded by Recro’s argument that its specification provides 19 sufficient written description for its claim elements because “[t]he Specification 20 . . . not only conveys to one of ordinary skill in the art the structural variations of 21 the claimed formulations, but also the manner that release characteristics of 22 preferred formulations may be adjusted.” (Recro Opp. 1, Paper 187, at 6:15-19; 23 see also, id. 5:10-6:14.) According to Recro, the ’857 specification provides for 24 multiple formulations in Tables 6 and 7 and that additional guidance on levels of 25 coating to delay release of an active ingredient is provided in Tables 3(a) – (c). 26 (Recro Opp. 1, Paper 187, at 5:10-6:14.) 27 Interference 106,022 26 Recro fails to support this argument with sufficient evidence to persuade us 1 that the missing release data would necessarily be present in the specification or 2 that those of skill in the art would recognize this disclosure from the other tables, 3 some of which provide data from a different drug. See Tronzo v. Biomet, Inc., 156 4 F.3d 1154, 1159 (Fed.Cir.1998). Recro’s argument that a person of ordinary skill 5 in the art “would easily see the blazemarks directing him/her to sufficient structural 6 requirement of the claimed dosage form” (Recro Opp. 1, Paper 187, at 6:4-9) is 7 unsupported attorney argument9 and not persuasive. 8 We are persuaded by Purdue’s argument and citations to the Recro ’857 9 specification that Recro’s claims are not supported by a sufficient written 10 description under 35 U.S.C. § 112, first paragraph. 11 Accordingly, we GRANT Purdue Motion 1. 12 13 IV. Recro Motion 6 – To add a claim to Recro’s application 14 In response to Purdue’s challenges to the support in Recro’s specification for 15 its claims, Recro moved to add a new claim to its application and the interference. 16 (Paper 163.) Purdue opposed this addition (Paper 193) and Recro replied 17 (Paper 227.) 18 Recro states that it requests the addition of new claim 95 to its involved 19 ’857 application, in response to Purdue’s Motion 1 for lack of written description 20 and Purdue’s Motion 2 for no interference-in-fact. (Recro Motion 6, Paper 163, at 21 1:2-8.) Recro was authorized to file a motion responsive to Purdue Motion 2 22 9 Recro relies on the testimony of Dr. Rekhi only for the generic characteristics of a person of ordinary skill in the art, not what that person would have actually known in regard to the structural requirements of the claimed dosage form. (See Recro Material Fact 68, citing Rekhi Decl., Exh. 2075, at ¶ 27.) Thus, we do not consider Dr. Rekhi’s testimony to be persuasive evidence of written description support. Interference 106,022 27 (Order, Paper 152), but the record does not show that Recro requested 1 authorization or that authorization was granted regarding a motion responsive to 2 Purdue Motion 1. Because we deny Purdue Motion 2 for a judgment of no 3 interference-in-fact, we need not consider Recro Responsive Motion 6. 4 Even if we were to consider it, though, we would deny Recro Responsive 5 Motion 6. 6 Recro’s proposed claim 95 recites: 7 A multiparticulate modified release solid oral dosage form of 8 hydrocodone or a pharmaceutically acceptable salt thereof comprising 9 two populations of hydrocodone containing particles, granules, 10 beads or pellets, said two populations comprising 10 mg, 20 mg, 11 30 mg, or 40 mg of hydrocodone or a pharmaceutically acceptable salt 12 thereof, said two populations consisting of 13 a first population of particles, granules, beads or pellets 14 prepared by a method comprising coating sugar spheres of 30/35 mesh 15 as an inert core with a composition comprising about 6.0 % (w/w) of 16 hydrocodone or a pharmaceutically acceptable salt thereof, about 17 1.5 % (w/w) of hydroxypropylmethylcellulose, about 2.0 % (w/w) of 18 silicon dioxide, and about 90.5 % (w/w) of water, and drying the 19 coated sugar spheres, wherein the weight-by-weight percentages, 20 % (w/w), are based on the total of the composition for coating the 21 sugar spheres, wherein the first population of particles, granules, 22 beads or pellets provides an immediate release of hydrocodone, and 23 wherein a size of the first population of particles, granules, beads or 24 pellets is from 0.5 to 0.6 mm, and 25 a second population of particles, granules, beads or pellets 26 prepared by a method comprising coating a portion of the first 27 population of particles, granules, beads or pellets with a composition 28 comprising about 5.5 % (w/w) of an ammonio methacrylate 29 copolymer exhibiting pH independent release properties, about 1.0 % 30 (w/w) of silicon dioxide, about 1.0 % (w/w/) of talc, about 15.0 % 31 (w/w/) of acetone, about 72.5 % (w/w) of isopropyl alcohol, and about 32 5.0 % (w/w) of water, and drying the coated first population of 33 particles, granules, beads or pellets to remove residual solvents, 34 thereby obtaining the second population of particles, granules, beads 35 or pellets having a moisture content of about 3-6%, wherein the 36 Interference 106,022 28 second population of particles, granules, beads or pellets provides a 1 modified release of hydrocodone, 2 wherein said dosage form providing an in vitro dissolution 3 profile of said hydrocodone such that about 54% by weight of the 4 hydrocodone is released within four hours in vitro measured in a USP 5 Type 1 apparatus at 100 rpm, pH of 2.0 and 37º C, 6 wherein said solid oral dosage form comprising 10 mg, 20 mg, 7 30 mg, or 40 mg of said hydrocodone providing a Tmax of the 8 hydrocodone of 6.3, 6.0, 6.3, and 6.1 hours respectively, 9 a Cmax of the hydrocodone of 8.9, 17.9, 31.7, and 37.5 ng/ml, 10 respectively. 11 12 (Recro Motion 6, Paper 163, at 1:15-3:5.) 13 Recro argues, by presenting a claim chart, that proposed claim 95 14 corresponds to Count 1 and to Counts 2 and 3, which it proposes in its pending 15 Motion 1 (Paper 123). (Recro Motion 6, Paper 163, at 3:11-6:26.) Recro asserts 16 that proposed claim 95 is a species of Example 3 falling within the scope of 17 Count 1 and proposed Counts 2 and 3. (Recro Motion 6, Paper 163, at 6:25-26.) 18 “A claim corresponds to a count if the subject matter of the count, treated as 19 prior art to the claim, would have anticipated or rendered obvious the subject 20 matter of the claim.” 37 C.F.R. § 41.207(b)(2). 21 Even if Recro provided more explanation to show that proposed claim 95 is 22 a species of its Example 3 and therefore, must fall within the scope of Count 1 or 23 proposed Counts 2 or 3, which is lacking in Recro’s argument, Recro fails to 24 persuade us that proposed claim 95 would correspond to any of the counts. Recro 25 fails to provide an explanation or to direct us to evidence showing that the subject 26 matter of Count 1 or proposed Counts 2 or 3 would render obvious the subject 27 matter of proposed claim 95. Even if proposed claim 95 is a species of Count 1 or 28 of the proposed counts, which Recro does not state, it is not necessarily anticipated 29 by or rendered obvious by a genus that encompasses it. We note that proposed 30 Interference 106,022 29 claim 95 includes limitations not found in Count 1, for example, “a first population 1 of particles, granules, beads or pellets prepared by a method that includes coating 2 sugar spheres of 30/35 mesh with a composition comprising” hydrocodone, 3 hydroxypropylmethylcellulose, and silicon dioxide. Recro fails to explain why 4 Count 1 anticipates a dosage form with this limitation or renders it obvious. 5 Furthermore, Recro fails to present argument supported with citation to 6 evidence that proposed claim 95 interferes with any of Purdue’s claims. Though 7 Recro argues that the C12/Cmax limitation recited in proposed claim 95 is inherent to 8 the C12/Cmax range of 0.55-0.85 recited in Count 1 and also in Purdue’s claims 9 (Recro Motion 6, Paper 163, at 11:3-12:16), Recro does not present any other 10 comparison between the elements of Purdue’s claims and proposed claim 95. 11 Recro asserts that its proposed claim 95 is “the same patentable invention” as 12 recited in Purdue application ’968 claim 41 (Recro Motion 6, Paper 163, at 17:4-13 but Recro fails to explain why proposed claim 95 would anticipate or render 14 obvious Purdue’s claims and vice versa. See Standing Order ¶ 208.5.1. 15 We are also unpersuaded by Recro’s assertion that claim 95 is narrower in 16 scope than the allowed Recro application claims and therefore is patentable 17 because Recro’s claims were held to be patentable. For example, proposed 18 claim 95 includes the limitation: “in vitro dissolution profile of said hydrocodone 19 such that about 54% by weight of the hydrocodone is released within four hours in 20 vitro dissolution profile of said hydrocodone such that about 54% by weight of the 21 hydrocodone is released within four hours in vitro . . . .” (Recro Motion 6, 22 Paper 163, at 2:23-25.) Recro’s currently involved claims include related, but 23 different limitations on dissolution profiles of within four hours and within four to 24 eight hours (claim 1), after two, four, and eight hours (claims 88 and 89), or after 25 one, four, and eight hours (claim 90). (See Recro Clean Copy of Claims, 26 Paper 11.) Recro does not explain why a limitation to a dissolution profile at only 27 Interference 106,022 30 one time point (four hours) is not broader than a limitation to a dissolution profile 1 at two or three time points. We are not persuaded that Recro’s proposed claim 95 2 is necessarily narrower than Recro’s or Purdue’s allowed, involved claims. 3 Furthermore, Recro has failed to provide certification that it is not aware of any 4 reason why proposed claim 95 is not patentable. 5 Accordingly, we DENY Recro Motion 6. 6 7 V. Recro Motion 5 – For Judgment that Purdue’s Claims Lack 8 Written Description and Enabling Support 9 Recro argues that Purdue’s claims are not supported as required under 10 35 U.S.C. § 112, first paragraph, by Purdue’s specifications. (Paper 140.) Purdue 11 opposed Recro’s arguments (Paper 192) and Recro replied (Paper 218.) 12 Recro argues that the Purdue specifications do not contain a written 13 description of a single dosage form comprising two types of coated 14 pharmaceutically acceptable inert beads, which provides the functional limitations 15 recited. (Recro Motion 5, Paper 140, at 2:19-3:8.) 16 Recro also argues that the specification does not contain an enabling 17 description of these limitations or of the functional limitations regarding in vitro 18 release of hydrocodone or the C12/Cmax hydrocodone ratio recited. (Recro 19 Motion 5, Paper 140, at 3:9-11.) 20 The parties agree that the specifications of the involved ’263 and 21 ’968 applications are identical. (Recro Motion 5, Paper 140, at 2:1; Purdue Opp. 5, 22 Paper 192, at 1, n. 1.) We cite to the specification of the ’968 application as 23 published on 24 April 2014 (Exh. 1026) in the findings of fact and analysis below. 24 25 Findings of Fact 26 30. Purdue’s claimed dosage forms require two types of multiparticulates: 27 Interference 106,022 31 [1] “pharmaceutically acceptable inert beads” coated with 1 hydrocodone (or hydrocodone bitartrate), 2 hydroxyproylmethylcellulose, and other ingredients, for immediate 3 release, and 4 5 [2] “pharmaceutically acceptable inert beads” coated with 6 hydrocodone (or hydrocodone bitartrate), ammonio methacrylate 7 copolymer, and other ingredients, for extended or controlled release. 8 9 (Purdue Clean Copy of Claims, Paper 7.) 10 31. Purdue’s claimed dosage forms require specific rates of in vitro 11 release and specific in vivo plasma profiles, for example: 12 wherein the dosage form provides an in-vitro release of from 18% to about 13 42.5% by weight of hydrocodone from the dosage form at one hour when 14 measured by the USP Basket Method at 100 rpm in 700 ml of Simulated 15 Gastric Fluid (SGF) for 55 minutes at 37° C and thereafter switching to 16 900 ml of Simulated Intestinal Fluid (SIF) at 37° C 17 18 and 19 after a first administration to a human patient population, provides a mean 20 C12/Cmax hydrocodone ratio of 0.55 to 0.85 and a therapeutic effect for about 21 12 hours 22 23 (See e.g. id. at 2 (Purdue ’263 appl., claim 1.) 24 25 32. The specifications of the involved Purdue applications provide for 26 formulations of hydrocodone for both immediate and modified release. (See 27 ’968 appl., Exh. 1026, ¶¶ 60, 67, 99, and 139-41.) 28 33. The specifications of the involved Purdue applications describe 29 immediate and controlled release hydrocodone as coatings on the surface of 30 substrates of a matrix with hydrocodone incorporated into it. (’968 appl., 31 Exh. 1026, ¶¶ 60 and 67.) 32 34. The specifications of the involved Purdue applications provide for 33 immediate release hydrocodone incorporated into or sprayed onto a gelatin capsule 34 Interference 106,022 32 that contains multiparticulate systems such as pellets, spheres, or beads of 1 sustained release hydrocodone. (’968 appl., Exh. 1026, ¶¶ 60, 67, and 99.) 2 35. The specifications of the involved Purdue applications provide for 3 dosage forms including immediate release of therapeutically active agent as 4 separate pellets within a gelatin capsule. (’968 appl., Exh. 1026, ¶ 99.) 5 36. The specifications of the involved Purdue applications describe 6 dosage forms that are a combination of controlled release beads and “matrix 7 multiparticulates.” (’968 appl., Exh. 1026, ¶ 99.) 8 37. The specifications of the involved Purdue applications provide inert 9 pharmaceutical beads, such as nu pariel10 18/20 beads, as substrates for coatings. 10 (’968 appl., Exh. 1026, ¶ 137.) 11 38. The specifications of the involved Purdue applications provide for 12 inert nu pariel 18/20 beads coated with therapeutically active agents and additional 13 ingredients, including hydroxyproylmethylcellulose. (’968 appl., Exh. 1026, 14 ¶¶ 139-41.) 15 39. The specification of the involved Purdue applications provide for 16 “other alternative manners of incorporating the immediate release opioid portion 17 into the unit dose.” (’968 appl., Exh. 1026, ¶¶ 60 and 67.) 18 40. Purdue’s specifications provide: 19 Another method of producing controlled release bead 20 formulations suitable for about 24-hour administration is via powder 21 layering. U.S. Patent No. 5,411,745, assigned to the Assignee of the 22 present invention and hereby incorporated by reference in its entirety, 23 teaches preparation of 24-hour morphine formulations prepared via 24 10 The published ’968 Purdue specification provides for “nu pariel 18/20 beads” in paragraph 137 and “no pariel 18/20 beads in paragraph 139. After comparison to the ’263 application as filed, we find that the correct term is “nu pariel.” (See ’263 appl., Exh. 2015, at p. 28.) Interference 106,022 33 powder layering techniques utilizing a processing aid consisting 1 essentially of hydrous lactose impalpable. 2 3 (’968 appl., Exh. 1026, ¶ 150.) 4 41. Examples 1-3 of U.S. patent 5,411,745 (“the ’745 patent”) are 5 directed to immediate release beads of morphine sulfate and Examples 4-6, 9, and 6 10 are directed to controlled release beads of morphine sulfate. (’745 patent, 7 Exh. 1013, at 11:45-19:19.) 8 42. Purdue’s specifications provide: 9 Other examples of controlled-release formulations and coatings which 10 may be used in accordance with the present invention include 11 Assignee's U.S. Pat. Nos. 5,324,351; 5,356,467, and 5,472,712, 12 hereby incorporated by reference in their entirety. 13 14 (’968 appl., Exh. 1026, at ¶121.) 15 43. Examples 16 and 17 of U.S. Patent 5,472, (“the ’712 patent”) describe 16 dosage forms of hydromorphone, not hydrocodone. (’712 patent, Exh. 1047, at 17 32:20-34:35.) 18 19 Analysis 20 Recro argues that the Purdue specifications fail to support Purdue’s claims 21 under 35 U.S.C. § 112, first paragraph, because there is no description of a dosage 22 form with the two types of particles recited in Purdue’s claims and no description 23 of a dosage form having the functional limitations recited. (Recro Motion 5, 24 Paper 140, at 3:5-7.) 25 We agree with Recro that the examples of the Purdue specifications do not 26 describe hydrocodone dosages as Purdue claims. (See Recro Motion 5, Paper 140, 27 at 5:13-6:27.) Nevertheless, written description support may be found in portions 28 of the specification other than the working examples. See Centocor Ortho Biotech, 29 Inc. v. Abbott Labs., 636 F.3d 1341, 1352 (Fed. Cir. 2011) (“we have repeatedly 30 Interference 106,022 34 indicated that the written description requirement does not demand either examples 1 or an actual reduction to practice.”). 2 In general, Recro argues that a sufficient written description must provide 3 more than isolated elements; it must describe the combination of these elements as 4 claimed or provide “blazemarks” for obtaining it. (Recro Motion 5, Paper 140, at 5 7:3-15.) 6 Recro acknowledges that the Purdue specifications describe inert “nu pariel” 7 beads coated with modified release material (see FF 37, ’968 appl., Exh. 1026, 8 ¶ 137), but argues that there is no description of inert beads coated with immediate 9 release formulations of hydrocodone, hydroxypropylmethylcellulose, and glidant, 10 as claimed by Purdue. (Recro Motion 5, Paper 140, at 9:1-9, citing Declaration of 11 Professor Anthony Palmieri,11 Exh. 2028, ¶ 18.) Purdue also argues that the 12 description of controlled release hydrocodone on inert beads does not specifically 13 include hydrocodone formulated with ammonio methylacrylate copolymer and 14 glidant, as Purdue claims. (Recro Motion 5, Paper 140, at 9:10-12.) 15 We agree with Recro that the Purdue specifications do not expressly 16 describe a formulation of hydrocodone having two types of inert pharmaceutically 17 acceptable beads coated with hydrocodone formulations. For example, although 18 11 Recro relies on the testimony of Anthony Palmieri. Dr. Palmieri testifies that he has a Ph.D. in Pharmaceutics and is currently an Adjunct Professor in the College of Pharmacy at the University of Florida, Department of Pharmaceutics. (Palmieri Decl., Exh. 2028, at ¶¶ 1 and 2.) He testifies further that he has worked and taught in the field of pharmacy for over 35 years and has authored over 80 publications in that field. (Id. at ¶¶ 1 and 5.) He testifies that he is on the editorial board of research journals in the pharmaceutical field and has received honors in the field. (Id. at ¶ 3.) Dr. Palmieri is qualified to provide opinion testimony as an expert witness based on his scientific, and technical knowledge about the subject matter of the interference. Interference 106,022 35 Purdue cites to paragraphs 60 and 66-68 of the ’968 application as explaining that 1 a dosage form may comprise both immediate release and controlled release 2 multiparticulates in a capsule, these paragraphs describe overcoating the different 3 release formulations on top of each other not combining two populations of beads. 4 These paragraphs describe layers of different hydrocodone formulations, such as 5 an immediate release formulation formulated as a “powder or granulate,” or as a 6 coating on a gelatin capsule that contains the controlled release formulations. (See 7 FFs 32-37, ’968 appl., Exh. 1026, at ¶¶ 60, 66-68, 99, and 137; see Purdue Opp. 5, 8 Paper 192, at 4:10-23.) The paragraphs do not, though, describe separate particles 9 of inert beads coated with the each different formulation together in one dosage 10 form. 11 Purdue argues that its specifications explain that “other alternative manners 12 of incorporating the immediate release opioid portion into the unit dose” are 13 contemplated in the invention (See FF 39, ’968 appl., Exh. 1026, at ¶¶ 60 and 67; 14 see Purdue Opp. 5, Paper 192, at 4:20-23 and 6:20-23.) Purdue also argues that the 15 description of overcoating controlled release material on an immediate release 16 bead is described as only an optional embodiment, thus allowing for a separate 17 immediate release formulation on a coated bead instead. (Purdue Opp. 5, 18 Paper 192, at 5:8-6:2, citing ’969 appl., Exh. 1026, at ¶¶ 139-41; FF 38.) We are 19 not persuaded that portions of these Purdue specifications are sufficient to fulfill 20 the requirements of 35 U.S.C. § 112, first paragraph. Neither portion demonstrates 21 possession of the specific invention claimed. 22 Purdue argues further that the patents incorporated by reference into the 23 specifications of its involved applications provide written description support for 24 the claimed dosage forms. Purdue cites to the incorporation by reference of 25 U.S. Patent 5,411,745 (“the ’745 patent”). According to Purdue, the ’745 patent 26 expressly describes inert beads coated with agents such as 27 Interference 106,022 36 hydroxypropylmethylcellulose and that the examples are directed to immediate 1 release beads and controlled release beads. (Purdue Opp. 5, Paper 192, at 8:17-9:4; 2 ’968 appl., Exh. 1026, at ¶ 121 and ’745 patent, Exh. 1013; see FFs 40-41.) The 3 examples of the ’745 patent describe dosage forms of inert beads coated with either 4 an immediate formulation of hydrocodone and or a modified release formulation, 5 but not both. Furthermore, the examples of the ’745 patent describe dosage forms 6 of morphine sulphate, not hydrocodone. (See ’745 patent, Exh. 1013, at 11:44-7 20:22; FF 41.) 8 Purdue argues further for written description support in its specifications by 9 relying on the incorporation by reference of U.S. Patent 5,472,712 (“the 10 ’712 patent”). (Purdue Opp. 5, Paper 192, at 7:16-8:13, citing ’968 appl., 11 Exh. 1026, at ¶ 121; FF 42.) According to Purdue, the ’712 patent expressly 12 describes a combination of immediate release and controlled release beads in one 13 dosage form in Examples 16-17. As Recro notes, though, the dosage forms of 14 these examples include hydromorphone, not hydrocodone. (Recro Reply 5, 15 Paper 218, at 4:2-3; FF 43.) 16 Like the descriptions of the ’745 patent, we are not persuaded that the 17 ’712 patent sufficiently describes the specific dosage forms Purdue claims. The 18 descriptions do not recite the actual elements of Purdue’s claims, most notably 19 inert beads coated with hydrocodone. Instead, the examples of both the ’745 and 20 ’712 patent describe formulations of different drugs: morphine sulfate in the 21 ’745 patent and hydromorphone in the ’712 patent. 22 Purdue argues: 23 One of skill in the art would understand that although the in vivo 24 parameters achieved by a formulation in the body would vary greatly 25 from, for example hydromorphone or morphine to hydrocodone, 26 formulation techniques control the time of release of the drug from the 27 dosage form and such technology is readily transferable between 28 Interference 106,022 37 different drugs, particularly drugs within the same class such as 1 opioids. 2 3 (Purdue Opp. 5, Paper 192, at 10:9-13.) Similarly, in regard to formulations of 4 hydrocodone not expressly described in Purdue’s specifications, Purdue argues that 5 those of skill in the art would have known how to provide different embodiments 6 of the invention by a “wide variety” of known controlled release formulations. 7 (Purdue Opp. 5, paper 192, at 11:7-9, citing ’968 appl, Exh. 1026, at ¶ 59.) Purdue 8 also argues that its involved specifications recite the claimed in vitro and in vivo 9 dissolutions rates. (Purdue Opp. 5, Paper 192, at 11:3-7 and 11:19-12:14, citing 10 Purdue ’968 appl., Exh. 1026, at ¶¶ 17-19.) According to Purdue, the 11 specifications demonstrate that those of skill in the art would have known how to 12 vary elements of the disclosed dosage forms, including the thickness of a coating, 13 the amount of overcoating, and the manner in which a coating is made, to arrive at 14 dosage formulations with the claimed in vitro and in vivo functional limitations. 15 (See Purdue Opp. 5, Paper 192, at 11:9-18, citing ’968 appl., Exh. 1026 ¶ 138.) 16 We are not persuaded because Purdue’s argument is that the specific dosage 17 forms claimed would have been obvious in view of what was described in the 18 Purdue specifications. That is, Purdue argues that one of skill in the art would 19 have known how to formulate the claimed hydrocodone dosage forms, even if the 20 specifications of the involved applications, the ’745 patent, and the ’712 patent do 21 not provide a specific description. 22 The written description requirement of 35 U.S.C. § 112 is not fulfilled by a 23 demonstration that the claimed subject matter would have been obvious over the 24 disclosure, but is fulfilled only when the disclosure demonstrates the specific 25 subject matter was in the possession of the inventors. See Lockwood v. Am. 26 Airlines, Inc., 107 F.3d 1565, 1572 (Fed. Cir. 1997) (“The question is not whether 27 a claimed invention is an obvious variant of that which is disclosed in the 28 Interference 106,022 38 specification. Rather, a prior application itself must describe an invention, and do 1 so in sufficient detail that one skilled in the art can clearly conclude that the 2 inventor invented the claimed invention as of the filing date sought.”) Arguments 3 that skilled artisans could have invented the claimed subject matter themselves 4 does not show that the named inventors did so. 5 Because we agree that the Purdue specifications do not describe the specific 6 hydrocodone dosage forms claimed by Purdue, we agree with Recro that Purdue’s 7 claims are unpatentable under 35 U.S.C. § 112, first paragraph. 8 Accordingly, we GRANT Recro Motion 5. 9 10 VI. Conclusion 11 We deny Purdue filed Motion 2 (Paper 144) that there is no interference-in-12 fact between the parties’ claims. 13 We grant Purdue Motion 1, arguing that Recro’s involved claims are 14 unpatentable under 35 U.S.C. § 112, first paragraph. 15 We deny Recro Motion 6, arguing that, contingent on the grant of Purdue 16 Motion 2 and Purdue Motion 2, Recro be allowed to add a new claim to its 17 application and to the interference. 18 We grant Recro Motion 5, arguing that Purdue’s involved claims are 19 unpatentable under 35 U.S.C. § 112, first paragraph. 20 Because we hold that both Recro’s and Purdue’s involved claims are 21 unpatentable, there is no reason to make a determination of patentability of either 22 party’s claims under 35 U.S.C. § 102(g). Accordingly, we terminate the 23 interference. Judgment will be entered separately. 24 Interference 106,022 39 cc (via e-mail): 1 2 Attorneys for junior party Recro Technology, LLC 3 4 FOX ROTHSCHILD, LLP 5 Shahnam Sharareh 6 Jeff E. Schwarz 7 ssharareh@foxrothschild.com 8 jeschwartz@foxrothschild.com 9 10 Paul K. Legaard 11 Daniel M. Scolnick 12 legaardp@pepperlaw.com 13 scolnickd@pepperlaw.com 14 15 Richard Kelly 16 Marina Miller 17 rkelly@oblon.com 18 mmiller@oblon.com 19 20 Attorneys for senior party Purdue Pharma, LP 21 22 DAVIDSON, DAVIDSON & KAPPEL, LLC 23 Clifford M. Davidson 24 Cary S. Kappel 25 Leslye B. Davidson 26 Oleg Ioselevich 27 cdavidson@ddkpatent.com 28 ckappel@ddkpatent.com 29 ldavidson@ddkpatent.com 30 oioselevich@ddkpatent.com 31 ddk@ddkpatent.com 32 33 Brian P. O’Shaughnessy 34 boshaughnessy@ratnerprestia.com 35 36

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