14118571 (P.T.A.B. Nov. 24, 2017)

Ex Parte Platscher et al

Patent Trial and Appeal BoardNov 24, 2017

14118571 (P.T.A.B. Nov. 24, 2017)

United States Patent and Trademark Office UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O.Box 1450 Alexandria, Virginia 22313-1450 www.uspto.gov APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 14/118,571 11/19/2013 Michael Wilhelm Platscher MERCK-4139 3378 23599 7590 11/28/2017 MILLEN, WHITE, ZELANO & BRANIGAN, P.C. 2200 CLARENDON BLVD. SUITE 1400 ARLINGTON, VA 22201 EXAMINER MURESAN, ANA Z ART UNIT PAPER NUMBER 1671 NOTIFICATION DATE DELIVERY MODE 11/28/2017 ELECTRONIC Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address(es): docketing@mwzb.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte MICHAEL WILHELM PLATSCHER and ALFRED HEDINGER1 Appeal 2017-000331 Application 14/118,571 Technology Center 1600 Before JOHN G. NEW, TAWEN CHANG, and TIMOTHY G. MAJORS, Administrative Patent Judges. NEW, Administrative Patent Judge. DECISION ON APPEAL appellants state that the real party-in-interest is Merck Patent GmbH. App. Br. 1. Appeal 2017-000331 Application 14/118,571 SUMMARY Appellants file this appeal under 35 U.S.C. § 134(a) from the Examiner’s final rejection of claims 1—9 and 12—16.2 Specifically, claims 1— 6, 14, and 15 stand rejected as unpatentable under 35 U.S.C. § 102(b) as being anticipated by Platscher et al. (US 8,853,283 B2, issued October 7, 2014 (“Platscher”))3 as evidenced by Feigner et al. (US 5,264,618, issued November 23, 1993 (“Feigner”)), DeFerra et al. (WO 2005/049549 Al, published June 2, 2005 (“DeFerra”)) and B. Rodriguez-Spong et al., General principles of pharmaceutical solid polymorphism: a supramolecular perspective, 56 Adv. DrugDeliv. Rev. 241—274 (2004) (“Rodriguez- Spong”). Claims 1—9 and 12—16 also stand rejected as unpatentable under 35 U.S.C. § 103(a) as being obvious over the combination of Platscher, Feigner, DeFerra, and Rodriguez-Spong. We have jurisdiction under 35 U.S.C. § 6(b). We REVERSE. NATURE OF THE CFAIMED INVENTION Appellants’ invention is directed to crystal modifications of racemic (2R,S)- and enantiomerically pure (2R)-resp, (2S)-DOTAP chloride, to processes for the preparation thereof, and to the use thereof for the preparation of pharmaceutical compositions. Spec., Abstract. 2 The Examiner’s rejection of claim 17 is withdrawn. Ans. 26. 3 The Platscher reference issued from an application that published as US 2008/0014254 Al, January 17, 2008 (the “’254 application”). Platscher is also the co-inventor of the application presently on appeal. App. Br. 4, 5. 2 Appeal 2017-000331 Application 14/118,571 REPRESENTATIVE CLAIM Claim 1 is representative of the claims on appeal and recites: 1. Crystalline (2R,S)-, (2S)- or (2R)-DOTAP chloride, which crystalline (2R,S)-DOTAP chloride has one of the following characteristics: 2 theta values comprising at least values of about 12.6, about 19.5, about 20.2, about 21. 5 and about 25.2; or 2 theta values comprising at least values of about 6.5, about 12.6, about 13.4, about 19.5, about 20.2, about 21.5, about 25.2 and about 29.8; or which crystalline (2S)-DOTAP chloride has one of the following characteristics: 2 theta values comprising at least values of about 12.8, about 19.5, about 19.8, about 20.2, and about 21.6; or 2 theta values comprising at least values of about 6.5, about 12.8, about 19.5, about 19.8, about 20.2, about 20.7, about 21.6 and about 25.3; or which crystalline (2R)-DOTAP chloride has one of the following characteristics: 2 theta values comprising at least values of about 12.8, about 19.5, about 19.8, about 20.3, and about 21.6; or 2 theta values comprising at least values of about 6.6, about 12.8, about 19.5, about 19.8, about 20.3, about 20.8, about 21.6 and about 25.3. App. Br. 22. 3 Appeal 2017-000331 Application 14/118,571 ISSUES AND ANALYSES We decline to adopt the Examiner’s findings of fact and conclusions that the appealed claims are anticipated and/or obvious over the cited prior art. We address the arguments raised by Appellants below. A. Rejection of claims 1—6, 14, and 15 under 35 U.S.C. $ 102(b) Issue Appellants argue the Examiner erred in finding that Platscher enables one of ordinary skill in the art to make the particularly claimed crystalline form of the compound. App. Br. 5. Analysis The application on appeal before us was filed by Appellants in response to a prior rejection by the Office, during the prosecution of the application that issued as Platscher, concluding that the Specification of the Platscher application was not enabling, under 35 U.S.C. § 112, first paragraph, for those claims in the application that were essentially the same as the claims presently on appeal.4 App. Br. 5—6; see Platscher et al. (US 4 Canceled claim 2 of the ’254 application, by way of comparative example, recites: 2. A crystalline form of (2R,S)—DOTAP chloride, which exhibits a characteristic X-ray powder diffraction pattern for type I: with 2 theta values at 12.6, 19.5, 20.2, 21.5 and 25.2; or 4 Appeal 2017-000331 Application 14/118,571 2008/0014254 Al, January 17, 2008) (the “’254 application” or “Platscher application”) Final Act. 3—4, November 3, 2010. Appellants canceled those claims of the Platscher application and subsequently filed this application to add further descriptive matter to the Specification regarding the methods for making the crystalline forms recited in the present claims. Id. at 6; see ’254 application, Non-Final Act. 3, March 29, 2011 (Rejection of claims 1—11, 27—29, 35, and 36 under 35 U.S.C. § 112, first paragraph withdrawn after cancellation of the claims by Applicants). Specifically, Appellants contend that their present application describes a process with very specific conditions for crystallizing (2R,S)-, (2S)-, or (2R)-1 N,N,N-trimethyl-2,3- bis[[ (9Z)-l-oxo-9-octadecenyl]oxy ]-l-propanaminium (“DOTAP”) chloride. Id. (see Platscher col. 1,11. 9-10). Appellants argue that the with 2 theta values at 16.5, 12.6, 13.4, 19.5, 20.2, 21.5, 25.2 and 29.8; or as shown in Fig. 1; or for type II: with 2 theta values at 3.3, 4.9, 19.3, 20.0 and 23.5; or with 2 theta values at 3.3,4.9,15.1,16.2,19.3, 20.0, 23.5 and 24.3; or as shown in Fig. 2 or for type III: with 2 theta values at 2.8, 5.8, 20.0, 21.2 and 25.1; or with 2 theta values at 2.8, 5.8. 12.9, 15.9, 20.0,21.2,25.1 and 29.4; or as shown in Fig. 3. ’254 application, Amended Claims, August 30, 2010 at 1. 5 Appeal 2017-000331 Application 14/118,571 current application discloses particular aprotic solvents selected from ether, ketone or ester aprotic solvents and that the crystallizing takes place by slow cooling at a rate of 0.001°C to 0.05°C per minute for 10 to 50 hours to a temperature of -12°C or less. Id. (citing, e.g., claim 7). The Examiner finds Platscher expressly teaches stable crystalline (2R,S)-, (2S)-, and (2R)-DOTAP chloride compounds with similar x-ray powder diffraction data, characterization data (e.g., stability, purity), and a pharmaceutical composition thereof. Final Act. 2—3. The Examiner also finds, based on the disclosures of Platscher, combined with teachings of Feigner and DeFerra concerning synthesis of DOTAP chloride and crystallization from aprotic solvent at lower temperature or crystallization of amorphous DOTAP chloride from acetonitrile, and the high-throughput methods of crystal growth taught by Rodriguez-Spong, that a person of ordinary skill in the art would have been able to reproduce the results of preparation of the claimed crystalline forms of enantiomerically pure (2R,S)-, (2S)- and (2R)-DOTAP chloride compounds without undue experimentation. Id. at 3. Appellants argue that the evidence which supported the original enablement rejection under 35U.S.C. § 112, first paragraph, during the prosecution of the ’254 application, and the further evidence of record cited by the Examiner, supports their contention that Platscher does not provide an enabling disclosure to support the 35 U.S.C. §102 rejection. App. Br. 6. Specifically, Appellants argue that Platscher discloses that the specific crystalline forms of (2R,S)-DOTAP chloride or enantiomerically pure (2S)- or (2R)-DOTAP chloride can be obtained by the recrystallization using a large variety of aprotic solvents or aprotic solvent mixtures or aprotic/protic 6 Appeal 2017-000331 Application 14/118,571 solvent mixtures. Id. Appellants assert Feigner discloses the synthesis of non-crystalline DOTAP chloride. Id. (citing Feigner Ex. 5). According to Appellants, Feigner discloses that, after quatemizing of the pure compound, the yellow wax product was crystallized from acetonitrile at a temperature of -20°C, with additional purification of the crystals formed on a silica gel column. Id. Appellants assert that the conditions described in Feigner therefore fall within the general teachings of Platscher. Id. Furthermore, Appellants argue, Feigner discloses that the cationic lipids (DOTAP chloride) of the invention can be used in pharmaceutical formulations, and that the effect of the cationic lipids in these formulations is to enhance the potency and efficiency of the therapeutic agent by facilitating its intracellular delivery. Id. (citing, e.g., Feigner col., 20 11. 28—30; 38-41). Appellants next point to the Declaration of Dr. Marco S. Passafaro (the “Passafaro Declaration”), in which Dr. Passafaro describes his attempt to reproduce Example 5 of Feigner. App. Br. 7 (see Passafaro Decl. 1—2). Appellants contend that, despite following all of steps of Feigner’s Example 5, Dr. Passafaro attests that he was unsuccessful in producing crystalline DOTAP chloride by this method. Id. (see Passafaro Decl. 2—3). Appellants argue that, during prosecution, the Examiner of the ’254 application found that the art of crystallization of DOTAP chloride was unpredictable, based in part on the above finding that methods disclosed by Feigner supra, which were described in the ’254 Specification, failed to result in crystalline forms of DOTAP chloride. App. Br. 7. Appellants also state that the Examiner of the ’254 application also found that a person of ordinary skill in the art could not readily anticipate or predict which of the 7 Appeal 2017-000331 Application 14/118,571 stated variety of aprotic solvents or aprotic solvent mixtures or aprotic/protic solvent mixtures and conditions would produce the desired crystalline DOTAP chloride, with the claimed X-ray powder diffraction pattern. Id. at 7-8. Appellants argue that the Examiner of the ’254 application found that the Specification provided no guidance for crystallization of DOTAP chloride in a variety of aprotic solvents or aprotic solvent mixtures or aprotic/protic solvent mixtures. App. Br. 8. Further, Appellants contend, the Examiner found that the ’254 Specification did not provide any disclosure as to which aprotic solvents or aprotic solvent mixtures or aprotic/protic solvent mixtures produce crystalline DOTAP chloride with the X-ray powder properties, i.e., 2 theta values, recited in the claims of the (subsequently canceled) ’254 application, as well as in the instant claims. Id. Appellants also assert that the Examiner of the ’254 application also found that the Specification provided no examples of a method for making crystalline (2RS)-, (2S)- or (2R)-DOTAP chloride, and ultimately concluded that, considering the state of the art, the expert Declaration provided by the ’254 Applicants, the high unpredictability in the art and the lack of guidance provided in the ’254 Specification, one of ordinary skill in the art would be unable to practice the experiment without undue experimentation.5 Id. at 8. Appellants also assert that the Specification of their application on appeal provides enabling disclosures not present in Platscher. App. Br. 8. 5 Appellants point out that the surviving claims of the ’254 application (i.e., claims 1—3 of Platscher) are not directed to crystalline forms of DOTAP chloride. App. Br. 8. 8 Appeal 2017-000331 Application 14/118,571 Specifically, Appellants contend, their instant Specification explains and demonstrates that a method more specified in its nature, i.e., with respect to the solvents used and the rate of the cooling conducted for crystallization, is necessary to prepare crystalline DOTAP chloride as recited in Appellants’ claims. Id. (citing, e.g., Spec. 9, 10, 11, 13). Appellants further point out that the Examples provided in the Specification demonstrate that the use of certain solvents and crystallizing at a particular cooling rate to a particular temperature is necessary to produce the crystalline DOTAP chloride. Id. at 8—9 (citing Spec. 16—29). Furthermore, Appellants argue, the Examiner has improperly shifted the burden of proof upon Appellants by requiring Appellants to prove a negative. App. Br. 9. Appellants point to the Examiner’s finding that: “Appellants have not provided any evidence to show that a process for making crystalline forms of DOTAP chloride was not known.” Id. (quoting Non-Final Act. 7, March 19, 2015). Appellants assert that it is not clear how Appellants could make such a showing other than that they have already made, i.e., that none of the processes taught in the prior art result in the crystalline forms of DOTAP chloride as claimed. Id. at 9—10. Additionally, Appellants contend, and to add to their dilemma, the Final Office action relies on Feigner to support enablement of the allegedly anticipated claims, despite that the Examiner in the ’254 application relied on this same reference to support lack of enablement of the same claims in that application. App. Br 11. This, Appellants argue, despite the fact that Platscher expressly discloses that it reproduced the Feigner method but that it did not produce a crystalline product, the Examiner nevertheless now 9 Appeal 2017-000331 Application 14/118,571 relies upon Feigner as evidence of enablement of synthesizing a crystalline product. Id. (citing Platscher col. 3,11. 43—54). With respect to the additional references cited by the Examiner in the instant rejections, Appellants argue the disclosure of Platscher with respect Feigner, and the Comparative Examples disclosed in Appellants’ Specification confirm that DeFerra’s disclosure that a “residue was crystallized from acetonitrile at 20°C” is not reliable. App. Br. 12 (quoting DeFerra 16). According to Appellants, DOTAP chloride is not soluble in acetonitrile at this temperature, i.e., about room temperature, as disclosed by Platscher. Id. Appellants argue that the description of the DeFerra method regarding obtaining an oily substance and solidifying it is consistent with the method described in Feigner, which Appellants have shown (and Platscher discloses) does not provide a crystalline product. Id. With respect to Rodriguez-Spong, Appellants argue the reference provides no disclosure regarding obtaining crystals, particularly of DOTAP chloride or, particularly, such crystals having the properties as recited in the instant claims. App. Br. 13. Rather, Appellants contend, Rodriguez-Spong discloses a very general statement regarding the potential for high throughput crystallization methods. Id. (citing Rodriguez-Spong 264). According to Appellants, Rodriguez-Spong suggests that such methods allow testing of a large number of variables for providing different forms of compounds, but discloses no connection between its disclosures and any motivation for a person of ordinary skill in the art to look for a specific crystalline form of DOTAP chloride. Id. The Examiner responds that, because claims 1—6 and 14 are directed to crystalline (2R,S), (2S)- and (2R)-DOTAP chloride compounds which are 10 Appeal 2017-000331 Application 14/118,571 disclosed by the prior art, the method of producing said compounds is irrelevant. Ans. 27. The Examiner finds Platscher discloses anticipatory stable crystalline (2R,S)-, (2S)- and (2R)-DOTAP chloride compounds with similar x-ray powder diffraction data to the recited claims. Ans. 27. The Examiner finds that the disclosed crystalline compounds were synthesized, purified, and characterized more than one year prior to the filing date of Appellants’ instant application. Id. The Examiner points to Figure 1 of Platscher, which the Examiner finds depicts x-ray spectra of a racemic DOTAP chloride, which the Examiner finds matches the x-ray spectra of crystalline racemic DOPTA chloride in Figure 1 of Appellants’ Specification. Id. The Examiner finds the x-ray spectra of crystalline (2S)- or (2R)- DOTAP chloride depicted in Figure 4 of Platscher matches the X-ray spectra of enantiomerically pure crystalline DOTAP chloride depicted in Figures 2 and 3 of Appellants’ Specification. Id. Similarly, the Examiner finds Figure 6 of Platscher exhibits DSC spectra of racemic crystalline (2R,S)-DOTAP chloride, enantiomeric crystalline (2R)- and (2S)-DOTAP chloride, which demonstrates that crystalline compounds were made and enabled by Platscher. Id. at 27—28. Finally, the Examiner finds the ’254 application (which issued as Platscher) discloses anticipatory crystalline (2R,S), (2S)- and (2R)-DOTAP chloride compounds, wherein enantiomerically pure DOTAP chloride and stable crystal modifications of racemic and enantiomerically pure DOTAP chloride are reported and the X-ray characterization data of racemic DOTAP chloride, and enantiomerically pure forms of DOTAP chloride (which is 11 Appeal 2017-000331 Application 14/118,571 similar to the X-ray characterization data of instant compounds) are listed in Table 2. Ans. 28 (also citing ’254 application || 33, 39-40). We find Appellants’ arguments persuasive. A reference is anticipatory under § 102(b) when it satisfies two particular requirements: First, the reference must disclose each and every element of the claimed invention, whether it does so explicitly or inherently. Eli Lilly & Co. v. Zenith Goldline Pharms., Inc., 471 F.3d 1369, 1375 (Fed. Cir. 2006). While those elements must be “arranged or combined in the same way as in the claim,” Net MoneyIN, Inc. v. VeriSign, Inc., 545 F.3d 1359, 1370 (Fed. Cir. 2008), the reference need not satisfy an ipsissimis verbis test, In re Bond, 910 F.2d 831, 832—33 (Fed. Cir. 1990). Second, the reference must “enable one of ordinary skill in the art to make the invention without undue experimentation.” Impax Labs., Inc. v. Aventis Pharms. Inc., 545 F.3d 1312, 1314 (Fed. Cir. 2008). In re Gleave, 560 F.3d 1331, 1334 (Fed. Cir. 2009). Neither Appellants nor the Examiner dispute that Platscher discloses the claimed crystalline DOTAP compounds. It is the second requirement that is at issue here. Essentially, we are being asked to solve a virtual disagreement between different Examiners, in successive prosecutions, as to whether essentially identical claims to crystalline (2R)-, (2S)-, or (2R,S)- DOTAP chloride are enabled by the Specification of the ’254 application. The Examiner in the earlier prosecution concluded that they were not enabled, and the Appellants canceled those claims and, subsequently, submitted essentially the same claims in a new application with (they hoped) an enabling Specification. The Examiner in the present appeal rejected the claims as being anticipated by Platscher (which issued from the ’254 application). Appellants do not dispute that Platscher discloses each and every element of the claimed invention, either explicitly or inherently. 12 Appeal 2017-000331 Application 14/118,571 Consequently, we are faced with the question of whether the ’254 application/Platscher enables the claims in the present appeal. Furthermore, we must consider the difference between the enablement requirements of 35 U.S.C. § 112, first paragraph (the basis of the rejection in the ’254 application), and those of 35 U.S.C. § 102(b) (the present rejection). Our reviewing court, in summarizing the difference, has held that, unlike rejections under the first paragraph of Section 112, a rejection under Section 102 need disclose no independent use or utility to anticipate a claim. Gleave, 560 F.3d at 1335 (citing, e.g., Novo Nordisk Pharms., Inc. v. Bio— Tech. Gen. Corp., 424 F.3d 1347, 1355 (Fed. Cir. 2005) (“The standard for enablement of a prior art reference for purposes of anticipation under [§] 102 differs from the enablement standard under 35 U.S.C. § 112”); Rasmusson v. SmithKline Beecham Corp., 413 F.3d 1318, 1326 (Fed. Cir. 2005) (“[A] prior art reference need not demonstrate utility in order to serve as an anticipating reference under [§] 102”); In re Hafner, 410 F.2d 1403, 1405 (1969) (“[Section] 112 provides that the specification must enable one skilled in the art to ‘use’ the invention whereas § 102 makes no such requirement as to an anticipatory disclosure”). In the prosecution of the ’254 application, the Examiner rejected the claims at issue under § 112, first paragraph, as “containing] subject matter which was not described in the specification in such a way as to enable one skilled in the art to which it pertains, or with which it is most nearly connected, to make and/or use the invention. ’254 Appl. Final Act. 3—4, November 3, 2010. Specifically, the Examiner concluded: The art of recrystallization of DOTAP chloride is deemed unpredictable, based upon the fact that the prior art of Feigner et 13 Appeal 2017-000331 Application 14/118,571 al. used an aprotic solvent of acetonitrile for crystallization, Applicant teaches that the aprotic solvent of acetonitrile is useful in recrystallization; and Applicant’s Declaration discloses that DOTAP chloride cannot be recrystallized from the aprotic solvent acetonitrile. Because on the above facts it is clear that one skilled in the art, at the time of Applicant’s claimed invention, could not readily anticipate or predict which of the stated variety of aprotic solvents or aprotic solvent mixtures or aprotic/protic solvent mixtures would produce the desired crystalline DOTAP chloride, with the claimed X-ray powder diffraction pattern. Id. at 8. It is therefore evident that the Examiner in the ’254 application concluded that the claims are not enabled because the Specification failed to provide sufficient guidance, in an unpredictable art, to direct a person of ordinary skill to synthesize (i.e., to make) the crystalline DOTAP chloride without undue experimentation. Therefore, under the Examiner’s analysis in the ’254 application, the Specification would fail to enable the claims under either a § 112, first paragraph, or a § 102 analysis, both of which require enabling a person of ordinary skill in the art to be able to make the claimed compound without undue experimentation. Gleave, 560 F.3d at 1335. We next turn to whether Platscher anticipates the claims currently on appeal and, specifically, whether it provides an enabling disclosure under § 102. Under the prior Examiner’s reasoning it does not, for it fails to enable the skilled artisan to synthesize crystalline (2R)-, (2S)-, or (2R,S)- DOTAP chloride without undue experimentation in an unpredictable art. ’254 Appl. Final Act. 8. The Examiner in this appeal finds (and Appellants do not dispute) that Platscher discloses the claimed compounds, as evidenced not least by the identical x-ray spectra and DSC curves in both Platscher and Appellants’ 14 Appeal 2017-000331 Application 14/118,571 Specification. See Ans. 27—28. However, the Examiner does not adduce any persuasive findings or evidence to indicate that Platscher would teach a person of ordinary skill how to make the claimed compounds without undue experimentation, nor does the Examiner provide any evidence that directly contradicts the findings of the Examiner in the prior ’254 application. Feigner, which is cited by the present Examiner as evidence of enablement, was cited by the Examiner in the prosecution of the ’254 application as providing evidence of lack of enablement. ’254 Appl. Final Act. 8. Feigner is also cited in both Platscher and in the ’254 application: Feigner et al., U.S. Pat. No. 5,264,618, carry out the methylation of the corresponding dimethylamino compound directly to DOTAP chloride by means of methyl chloride. They apparently obtain a yellow wax by crystallisation from acetonitrile at -20° C. However, DOTAP chloride is virtually insoluble in acetonitrile at room temperature. Attempts to reproduce this so- called crystallisation gave only amorphous material through solidification of the oily substance obtained from hot solution on cooling. The fact that this is not a crystallization is also evident from the fact that the authors apparently do not achieve a purification effect and have to purify the substance by chromatography. Platscher col. 3,11. 43—54 (emphasis added); see also ’254 application 130. Although prior art patents and publications are generally presumed enabling, based on the unique facts and the evidentiary record here, we agree with the prior Examiner and Appellants that this teaching of Platscher is not an enabling disclosure of the synthesis of crystalline DOTAP chloride as required by the claims. DeFerra, also relied upon as evidence of enablement by the Examiner, recites: 15 Appeal 2017-000331 Application 14/118,571 50 g of crude DOTAP-OTs (obtained in Example 4 - titre 66%, 39.6 mmol) was dissolved in 150 ml of methanol; this solution was loaded into a chromatography column packed with 230 ml of strong basic IRA 404 ion-exchange resin, chloride form (produced by Rohm & Haas), previously washed with 1.2 1 of distilled water and placed in a methanol environment (1.2 1). The methanolic solution containing the DOTAP-OTs was then eluted by gravity with a flow of 2.5 m./minute, a dead volume of about 50 ml being discarded. Finally, the elution of the product with methanol was completed, and a single fraction of about 600 ml was collected. This solution was concentrated in a Rotavapor apparatus to a volume of 100 ml and then 100 ml of acetonitrile was added to this solution and brought to an oily residue (44.0 g) in the Rotavapor apparatus. This residue was crystallized from acetonitrile at 20°C. 20.7 g (29.7 mmol) of DOTAP-Cl, yield 75% was obtained after drying overnight under high vacuum at ambient T. DeFerra 16 (emphasis added). Appellants contend this teaching is not reliable because the method taught by DeFerra is consistent with the method taught by Feigner, the Passafaro Declaration, and the comparative examples of Appellants’ Specification, which demonstrate that DOTAP is not soluble in acetonitrile at 20°C and does not produce a crystalline product. See App. Br. 12. Appellants argue that DeFerra does not prove that the obtained product is crystalline, suggesting that: “It is not uncommon in the art for such unproven assumptions to be made about solid products being crystalline.” Ans. 27—28. We find that, given the potentially contradictory results between DeFerra, on the one hand, and Feigner, the Passafaro Declaration, and Appellants’ Specification, on the other, we agree with the prior Examiner’s finding that the art, at least with respect to the methods 16 Appeal 2017-000331 Application 14/118,571 described in these references, is unpredictable and could not have been achieved by a person of ordinary skill without undue experimentation. Finally, we find that Rodriguez-Spong is silent with respect to the synthesis of crystalline DOTAP chloride and does not otherwise enable the synthesis of the claimed compounds. We therefore agree with the prior Examiner in the prosecution of the ’254 application that Platscher, as evidenced by Feigner, DeFerra, and Rodriguez-Spong does not enable Appellants’ claims. We therefore reverse the Examiner’s rejection of claims 1, 3, 5—6, and 14—15. Appellants argue claims 2 and 4 separately, incorporating their arguments and providing additional arguments for each claim, respectively. However, because, as we have explained, we are persuaded by Appellants’ arguments related supra, we need not reach Appellants’ additional arguments and we reverse the rejection of claims 2 and 4 on that ground. B. Rejection of claims 1—9 and 12—16 under 35 U.S.C. $ 103(a) Appellants repeat their arguments supra with respect to the failure of the cited references to provide an enabling disclosure, as well as providing additional arguments. See App. Br. 16—20. “Under § 103, a reference need not be enabled; it qualifies as prior art, for whatever is disclosed therein.” Amgen, Inc. v. Hoechst Marion Roussel, Inc., 314 F.3d 1313, 1357 (Fed. Cir. 2003); see also Symbol Techs. Inc. v. Opticon Inc., 935 F.2d 1569, 1578 (Fed. Cir. 1991) (“[A] non-enabling reference may qualify as prior art for the purpose of determining obviousness under § 103.”). The question, therefore, of whether Platscher is enabling of Appellants’ claims is not 17 Appeal 2017-000331 Application 14/118,571 directly relevant to whether Platscher is prior art for purposes of obviousness under 35 U.S.C. §103. Nevertheless, and as we have explained supra, the Examiner adduces no evidence or finding in the cited prior art references that teach or suggest a means of synthesizing crystalline (2R)-, (2S)-, or (2R,S) DOTAP chloride. In other words, although Platscher or the other references need not themselves individually be enabling, one of the references must be. And we have determined, supra, that none of them are on this key issue. The Examiner relies upon essentially the same findings for supporting the conclusion of obviousness as for the conclusion of anticipation. See Ans. 29—24. The Examiner further points to paragraphs [0042]—[0054] of the ’254 application, which teaches, inter alia, that: The invention furthermore relates to a process for the preparation of DOTAP chloride crystal modifications which is characterised in that DOTAP chloride is crystallised from an aprotic medium. The aprotic medium used for this purpose can be aprotic solvents [including acetonitrile] or mixtures thereof. The crystallisation of the DOTAP chloride modifications is generally achieved specifically by slow cooling of the prepared solution to temperatures below 30°C. The formation of the crystals is carried out either spontaneously or by inoculation with the corresponding DOTAP chloride crystal modification. However, the prior Examiner, citing the contradictory disclosures of Feigner and the examples of the ’254 application, determined that this generic method was not enabling under 35 U.S.C. § 112, first paragraph, and we can discern no teaching or suggestion in any of the references that is otherwise enabling of the claims on appeal. Consequently, we disagree with 18 Appeal 2017-000331 Application 14/118,571 the Examiner that the combined cited prior art teaches an enabling method of synthesizing the claimed compounds and we reverse the Examiner’s rejection of the claims. DECISION The Examiner’s rejection of claims 1—6, 14, and 15 as unpatentable under 35 U.S.C. § 102(b) is reversed. The Examiner’s rejection of claims 1—9 and 12—16 as unpatentable under 35 U.S.C. § 103(a) is reversed. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1). See 37 C.F.R. § 1.136(a)(l)(iv). REVERSED 19