10945222 (P.T.A.B. Mar. 31, 2016)

Ex Parte Tavares et al

Patent Trial and Appeal BoardMar 31, 2016

10945222 (P.T.A.B. Mar. 31, 2016)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 10/945,222 0912012004 23280 7590 04/04/2016 Davidson, Davidson & Kappel, LLC 589 8th A venue 16th Floor New York, NY 10018 FIRST NAMED INVENTOR Lino Tavares 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 ATTORNEY DOCKET NO. CONFIRMATION NO. 208.1002CON 5325 EXAMINER COHEN, MICHAEL P ART UNIT PAPER NUMBER 1612 NOTIFICATION DATE DELIVERY MODE 04/04/2016 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): ddk@ddkpatent.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte LINO TAVARES, IHOR SHEVCHUK, MARK ALFONSO, GERALDINE MARCENY AC, and KIR TI V ALIA 1 Appeal2013-008610 Application 10/945,222 Technology Center 1600 Before ERIC B. GRIMES, FRANCISCO C. PRATS, and JACQUELINE T. HARLOW, Administrative Patent Judges. GRIMES, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. Â§ 134 involving claims to a method of treating benign prostatic hypertrophy, which have been rejected as obvious. We have jurisdiction under 35 U.S.C. Â§ 6(b). We affirm. 1 Appellants identify the Real Party in Interest as Purdue Pharma L.P. (Appeal Br. 2.) Appeal2013-008610 Application 10/945,222 STATEMENT OF THE CASE Terazosin is a commercially available drug "used in the management of mild to moderate hypertension, as well as for benign prostatic hypertrophy."2 (Spec. 1.) The Specification discloses "a method for the treatment of benign prostatic hypertrophy in patients by utilizing a transdermal delivery system which contains terazosin." (Id. at 4.) The Specification states that "[t]ransdermal delivery of active agents is measured in terms of 'relative release rate' or 'flux', i.e., the rate of penetration of the active agent through the skin." (Id. at 14.) The Specification also states that "first order" pharmacokinetics refers to "plasma concentrations which increase over a specified time period," while "zero order" pharmacokinetics refers to drug release that "substantially maintains plasma concentrations at a relatively constant level." (Id. at 13.) "[A] relatively constant plasma concentration is defined as a concentration which does not decrease more than about 30% over a 48 hour time period." (Id.) Claims 1, 5, 6, 8-10, 16, 18-20, 22, 24--26, 28, and 34--57 are on appeal. Claims 1 and 19 are illustrative and read as follows: Claim 1: A method of effectively treating benign prostatic hypertrophy in a human patient, comprising: applying a transdermal delivery system containing terazosin or a pharmaceutically acceptable salt thereof to the skin of the human patient, and maintaining an effective mean relative release rate of terazosin or a pharmaceutically acceptable salt thereof from the transdermal delivery system such that a first order plasma level increase of terazosin is provided from initiation of a dosing 2 The Specification also refers to benign prostatic hypertrophy as benign prostatic hyperplasia. (See Spec. 1-2.) 2 Appeal2013-008610 Application 10/945,222 Issue interval until about 48 to about 72 hours after initiation of the dosing interval and thereafter a relatively constant plasma concentration of terazosin is maintained until the end of the dosing interval, while providing a therapeutic plasma level of the terazosin within 3 6 hours from the initiation of the dosing interval, and a plasma level of terazosin at steady-state of from about 10 to 60 ng/ml is maintained, wherein the transdermal delivery system is maintained in contact with the skin of the patient for at least 3 days. Claim 19: A method for lessening the incidence of side-effects in a patient associated with the oral administration of terazosin, wherein the method comprises administering terazosin or a pharmaceutically acceptable salt thereof in a transdermal delivery system over at least twenty-four hours and thereby maintaining an effective mean relative release rate of terazosin or a pharmaceutically acceptable salt thereof from the transdermal delivery system such that a first order plasma level increase of terazosin is provided from initiation of a dosing interval until about 48 to about 72 hours after initiation of the dosing interval and thereafter maintaining a relatively constant plasma concentration of terazosin until the end of the dosing interval, wherein said transdermal delivery system has a mean relative release rate from about 1.0 Âµg/hour/cm2 to about 30 Âµg/hour/cm2 of said transdermal delivery system, and maintains a plasma level of terazosin at steady-state of from about 10 to 60 ng/ml. DISCUSSION The Examiner has rejected claims 1, 5, 6, 8-10, 16, 18-20, 22, 24--26, 28, 34--38, 42--45, and 48-57 under 35 U.S.C. Â§ 103(a) as obvious based on 3 Appeal2013-008610 Application 10/945,222 Santus,3 Audett,4 and Kyncl. 5 (Ans. 4.) The Examiner has rejected claims 39--41, 46, and 47 under 35 U.S.C. Â§ 103(a) as obvious based on Santus, Audett, Kyncl, and Hille. 6 (Ans. 10.) Because Appellants rely on the same arguments in response to both rejections (see Appeal Br. 22), we will consider them together.7 The Examiner finds that Santus discloses transdermal administration of, among other drugs, terazosin, which is used to treat benign prostatic hypertrophy (BPH). (Ans. 4.) The Examiner also finds that Santus states that transdermal administration reduces fluctuation in circulating drug levels, and that using permeation enhancers allows control of the rate of delivery (flux) through the skin. (Id. at 4--5.) The Examiner finds that Audett discloses solubilization enhancers for transdermal delivery of basic drugs, including terazosin. (Id. at 6.) The Examiner also finds that Audett discloses patches that are worn for four to seven days (id. at 7), and discloses that transdermal delivery allows control of skin flux and "a high degree of control over blood concentrations of any drug" (id. at 6). The Examiner finds that Kyncl discloses topical 3 US Patent No. 5,503,843 (Apr. 2, 1996). 4 US Patent No. 5,879,701 (Mar. 9, 1999). 5 US Patent No. 5,212,176 (May 18, 1993). 6 US Patent No. 5,240,711 (Aug. 31, 1993). 7 In the Reply Brief, Appellants for the first time present an argument directed to the rejection of claim 22. (Reply Br. 9-12.) This argument is not responsive to any points made in the Answer and is therefore untimely. See Ex parte Borden, 93 USPQ2d 1473 (BPAI 2010). Although Appellants cite a Board decision that was made after the Appeal Brief was filed (id. at 10), the Board's reasoning in that case relies on a court decision that predates the Appeal Brief. Thus, the argument presented for the first time in the Reply Brief could have and should have been made in the Appeal Brief. 4 Appeal2013-008610 Application 10/945,222 administration of terazosin for treating BPH, and teaches that "[d]oses of the compound can be started at dosage levels lower than required for it to achieve the desired therapeutic effect and gradually increased until the desired effect is achieved ... , i.e. first-order rate." (Id. at 7.) The Examiner concludes that it would have been obvious to modify Santus' transdermal administration method to include the enhancing compounds taught by Audett, which also teaches wearing a transdermal system for 4--7 days. (Id. at 8.) The Examiner also concludes that (Id.) gradually raising the amount of terazosin from an amount lower than the therapeutically effective amount up to an amount which is therapeutic, i.e. first-order absorption, is known in the art. Further, it would have been obvious to follow the first-order absorption by zero-order or constant absorption motivated by the desire[] to prevent fluctuating circulating terazosin levels with transdermal devices as taught by Santus. The Examiner finds that the secondary references teach adjusting vehicle composition and drug loading in order to modify skin flux, and concludes that "it would have been within the purview of one of ordinary skill in the art to combine the prior art references to determine the most effective release rate." (Id. at 9.) Finally, the Examiner finds that "[s]ince terazosin is known in the art to treat benign prostatic hyperplasia, effective plasma blood levels for treatment would be known in the art, and therefore it would be within the purview of the skilled artisan to modify the device suggested by [the references] to provide therapeutically effective levels." (Id.) Appellants contend that "[ t ]he cited references do not describe or suggest any plasma levels of terazosin .... Therefore, the combined 5 Appeal2013-008610 Application 10/945,222 teachings of the Examiner's cited references cannot possibly render obvious the claimed plasma level of terazosin at steady-state." (Appeal Br. 13-14.) Similarly, Appellants contend that the steady-state plasma concentration was not recognized as a parameter affecting the results, and therefore it would not have been obvious to optimize it. (Id. at 21.) Appellants also contend that the cited references do not teach or suggest providing a first-order plasma level increase over 48-72 hours, followed by a relatively constant plasma concentration, and that Kyncl's disclosure relates to providing a certain amount of terazosin for a period of time, followed by a second dosage form containing more of the drug, which is not what is recited in the claims. (Id. at 17-19.) Appellants also provide separate arguments for claims 19, 22, and 28 as a group. (Id. at 20.) The issue presented is whether the cited references would have made obvious a method meeting the limitations of claims 1 and 19. Findings of Fact 1. Santus discloses "transdermal administration of alpha-adrenoceptor blocking compounds." (Santus 1 :4--5.) 2. Santus states that the advantages of transdermal delivery "include reduction in dosing frequency, reduced fluctuation in circulating drug levels, increased patient compliance and convenience, and a more uniform effect." (Id. at 1:64--67.) 3. Santus states that "[w]hen a drug is administered intravenously or orally, the initial level of drug in the blood rapidly rises to a maximum, which is generally much higher than the therapeutically effective level of the drug .... This is known as 'overdosing."' (Id. at 3:35--41.) "Eventually, 6 Appeal2013-008610 Application 10/945,222 the blood concentration of the drug falls below the therapeutically effective level (i.e., there is 'underdosing ')." (Id. at 3 :44--46.) 4. Santus states that "[t]he term 'therapeutically effective level' as used herein refers to the minimal blood level of drug required to achieve a therapeutic effect." (Id. at 3: 16-18.) 5. Santus states: Transdermal delivery of drugs offers a means of circumventing the problems of overdosing and underdosing that are associated with conventional drug delivery methods. The transdermal delivery of drugs can be designed so that the rate of delivery of the drug closely follows the rate of the clearance of the drug from the environment, thus keeping constant levels of drug in the blood. (Id. at 3:55-61.) 6. Santus' Figure 1 is reproduced below: CONCENTRATION IN THE ENVtRONMENT -Â·Â·Â·Â·-CONVENTIONAL ORAL DRUG DELIVERY xx x X TRANSOERMAL ORUG DELIVERY ----TOO MUCH ACTIVE AGENT {OVERDOSING) -~ TOXfC ______ -1~ CONCENTRATION XXltXXltXXXJIXXX XXXXX~ll: . x .>t x _-. MINtMUM x _ J-C"'i EFFECTJVE -,r- ~ ~ ~ ~ - ~ ~ - ~ - Â· ~. CONCENTRATION :11 TOO U TTLE AGENT ,. x {UNDEROOS!NGl '- TIME Of DOSAGE 7 Appeal2013-008610 Application 10/945,222 Figure 1 "displays the blood levels from transdermal as well as conventional oral delivery of drugs over a period of time." (Id. at 3:62-64.) 7. Santus states that compounds that block alpha adrenoceptors (a.k.a. alpha-adrenergic receptors; id. at 1 :30) "have been suggested to have, or have a variety of therapeutic uses, including the treatment of prostate and genito-urinary disorders such as benign prostatic hyperplasia (BPH)," among other disorders. (Id. at 1 :33-36.) 8. Santus states that "[a]lpha blockers selective for the alpha1 receptor subtype include alfuzosin, tamsulosin, prazosin, and terazosin." (Id. at 4:37- 38.) 9. Santus states that "[t]he alpha blocker terasozin [sic] has also been suggested for the treatment of BPH .... Although oral doses of terasozin [sic] have been suggested to be effective in the treatment of BPH, concerns remain over potential high dose side effects." (Id. at 4:51---65.) 10. Santus states that "the development of a convenient, non-invasive drug administration system for compounds effective in the treatment of BPH is highly desirable. The preferred system for administration of these compounds according to the present invention is a transdermal patch." (Id. at 4:67 to 5:5.) 11. Santus states that "[ fJor adequate skin penetration of most drugs, a chemical permeation enhancer is necessary .... [T]he precise concentration of enhancer and the particular combination of enhancers must be tailored to each drug to achieve the maximum skin flux. There are numerous possible permeation enhancers that can be used." (Id. at 8:8-18.) 8 Appeal2013-008610 Application 10/945,222 12. Audett discloses "a drug delivery system for the transdermal administration of a basic drug," such as terazosin. (Audett 2: 17-18, 4:26- 28.) 13. Audett states that "[t]ransdermal drug delivery ... makes possible a high degree of control over blood concentrations of any particular drug." (Id. at 1 :23-25.) 14. Audett states that a "method for ... obtaining a steady-state flux profile, is to solubilize a higher percentage of the drug in the reservoir. Doing so reduces the initial flux rate, and consequently increases the flux at later times .... [T]he net result is improved steady state delivery." (Id. at 1 :67 to 2:6.) 15. Audett discloses a "solubilizing enhancing composition [which] is preferably a liquid which is an isomeric acid mixture." (Id. at 5:3--4.) 16. Audett states that "[t]he solubilizing enhancing composition is particularly advantageous when used in conjunction with skin permeation enhancer compositions." (Id. at 5:10-12.) 17. Audett states that "[t]he targeted skin flux for delivery of a particular drug can be achieved by adjusting vehicle composition and vehicle loading, as well as by adjusting the surface area through which the compositions are administered to skin." (Id. at 6:58---62.) 18. Audett states that "[t]he systems with which [its] invention is useful are typically transdermal 'patches' worn for at least four days; however, the invention is most useful in connection with transdermal systems designed to be worn for on the order of seven days." (Id. at 4:65 to 5:2.) 9 Appeal2013-008610 Application 10/945,222 19. Audett states that its compositions are applied to the skin "for a period of time sufficient to provide the desired blood level of drug for the desired period of time." (Id. at 6:45--49.) 20. Kyncl discloses the R(+) enantiomer ofterazosin and its use in treating BPH. (Kyncl 1: 1-15, 2:62----67.) 21. Kyncl states that "[a]ctual dosage levels of active ingredients in the pharmaceutical compositions of this invention may be varied so as to obtain an amount of the active compound(s) that is effective to achieve the desired therapeutic response for a particular patient, compositions, and mode of administration." (Id. at 8:46-51.) 22. Kyncl states that "it is within the skill of the art to start doses of the compound at levels lower than required [ ] to achieve the desired therapeutic effect and to gradually increase the dosage until the desired effect is achieved." (Id. at 8:55-59.) 23. Appellants' Specification states that the "pharmacokinetic information for terazosin is available in the literature. The adult oral dosage for terazosin is 1, 2, 5, 10 and 20 mg/day .... The plasma concentration at steady state for terazosin is 0.045 mcg/ml [Âµg/ml]." (Spec. 23.) 24. A microgram (mcg or Âµg) is equivalent to a 1000 nanograms (ng), so 0.045 mcg/ml is equivalent to 45 ng/ml. Principles of Law "The combination of familiar elements according to known methods is likely to be obvious when it does no more than yield predictable results." KSRint'l Co. v. Teleflex Inc., 550 U.S. 398, 416 (2007). "If a person of ordinary skill can implement a predictable variation [of a known work], Â§ 103 likely bars its patentability." Id. at 417. 10 Appeal2013-008610 Application 10/945,222 To show criticality of a claimed range, "'it is not inventive to discover the optimum or workable ranges by routine experimentation.' In re Aller, 220 F.2d 454, 456, 105 USPQ 233, 235 (CCPA 1955). Only ifthe 'results of optimizing a variable' are 'unexpectedly good' can a patent be obtained for the claimed critical range. In re Antonie, 559 F.2d 618, 620, 195 USPQ 6, 8 (CCPA 1977)." In re Geisler, 116 F.3d 1465, 1469 (Fed. Cir. 1997). Analysis We agree with the Examiner that the methods of claims 1 and 19 would have been obvious to a person of ordinary skill in the art based on the cited references. The prior art discloses that treating BPH with terazosin was known (FF7-9), as was transdermal administration of terazosin (FF12) and maintaining a transdermal delivery system on a patient's skin for at least three days (FF 18). Appellants' Specification itself states that the steady state plasma concentration for terazosin was known to be 45 ng/ml (FF23, FF24). Thus, the only limitations of claims 1 and 19 that are not expressly disclosed by the cited references are the specific parameters that are recited for delivery of terazosin. Both claim 1 and claim 19 recite a first order plasma level increase for 48 to 72 hours after initiation followed by a relatively constant plasma concentration. Claim 1 also recites providing a therapeutic plasma level within 36 hours. The Specification states that "[t]he term 'first order' pharmacokinetics is defined as plasma concentrations which increase over a specified time period." (Spec. 13.) The Specification also states that "a relatively constant plasma concentration is defined as a concentration which does not decrease more than about 30% over a 48 hour time period." (Id.) 11 Appeal2013-008610 Application 10/945,222 Thus, claims 1 and 19 require that applying a transdermal patch results in plasma levels of terazosin that increase, at any rate, for 48-72 hours and then are maintained at a relatively constant level (i.e., they do not decrease more than 30% over 48 hours). Santus discloses that blood levels of a drug that is administered transdermally increase after the time of dosage, then are maintained at a relatively constant level for a certain period before eventually dropping below the minimum effective dosage (FF5, FF6). Santus also states that the minimum effective dosage is also referred to as a "therapeutically effective level" (FF4). In addition, Santus and Audett disclose methods of optimizing the delivery rate (or flux) of a transdermally applied drug using permeation enhancers (FF 11 ), a solubilizing enhancer composition (FF 14 ), vehicle composition and loading (FF 17), or the surface area through which the drug composition is administered (FFl 7). These teachings support the Examiner's conclusion that it would have been in the purview of the skilled artisan to modify the composition and the transdermal delivery system to include the enhancers, solvents and other additives of the prior art that would enhance the transdermal delivery of terazosin and which would produce desired release rates, drug flux and subsequent absorption. (Ans. 8.) In other words, the prior art disclosed the general conditions of claim 1: applying a transdermal patch that provides a release rate of terazosin that causes an increase in plasma level of the drug over time, reaches a therapeutically effective level after a certain time period, and then maintains a relatively constant plasma level until the end of the dosage interval. While the 12 Appeal2013-008610 Application 10/945,222 prior art does not disclose the specific timing recited in claim 1, "where the general conditions of a claim are disclosed in the prior art, it is not inventive to discover the optimum or workable ranges by routine experimentation." In re Aller, 220 F.2d 454, 456 (CCPA 1955). See also Geisler, 116 F.3d at 1469 ("Only if the 'results of optimizing a variable' are 'unexpectedly good' can a patent be obtained for the claimed critical range."). Appellants have not provided evidence showing that the timing recited in claim 1 provides results that are unexpectedly good. Claim 19 also recites a mean relative release rate of 1.0-30 Âµg/hour/cm2. As discussed above, however, both Santus and Audett disclose that various methods of optimizing the delivery rate (flux) of a transdermally administered drug were known in the art. Flux is the same parameter as relative release rate. (Spec. 14.) For this parameter as well, therefore, the prior art taught the general conditions of the claim and, again, Appellants have not provided evidence of unexpected results from administration of terazosin at the recited relative release rate. Appellants argue that "[ t ]he cited references do not describe or suggest any plasma levels of terazosin." (Appeal Br. 13.) Appellants argue that "[t]herefore, the combined teachings of the Examiner's cited references cannot possibly render obvious the claimed plasma level of terazosin at steady-state of from about 10 to 60 ng/ml as required by claims 1, 9, 19, and 22 or the claimed plasma level of terazosin at steady-state of from about 20 to 60 ng/ml[] as required by claim 28." (Id. at 14.) This argument is unpersuasive, for two reasons. First, Appellants' Specification acknowledges that the plasma concentration at steady state for terazosin was known to those in the art (FF23). Thus, the plasma levels 13 Appeal2013-008610 Application 10/945,222 recited in the claims would have been obvious to a person of ordinary skill in the art whether or not they are specifically disclosed in the cited references. Second, Santus discloses transdermal administration of drugs (FF 1 ), including terazosin (FF8), and states that the therapeutically effective level is the minimum drug level required to achieve an effect (FF4). Both Santus and Audett disclose various methods of optimizing the rate of drug delivery in order to achieve a desired therapeutic level (FFl 1, FF14, FFl 7). Thus, optimizing the plasma level of transdermally applied terazosin would have been obvious to a skilled artisan even if the steady state plasma level was not already known. Appellants argue, however, that optimizing the steady state plasma level would not have been obvious because "it was not recognized in the art that measuring a plasma level of terazosin in a patient could optimize a treatment of a patient being administered a transdermal delivery system containing terazosin." (Appeal Br. 21.) This argument lacks merit. Even if it was not intuitively obvious that the level of a drug in a patient's body will affect the efficacy of the drug, both Santus and Audett repeatedly make it clear that plasma drug levels are a known result-affecting variable. See, e.g., FF2 (fluctuation in circulating drug levels are bad), FF3 ("overdosing" and "underdosing" based on blood concentration), FF4 (blood level of a drug determines its therapeutic effect), FF6 (blood levels range from below the minimum effective concentration to toxic concentrations), FF 13 ("control over blood concentrations"), FF 19 ("desired blood level of drug"). Appellants also argue that Kyncl does not teach a first order plasma level increase in terazosin levels. (Appeal Br. 17-20.) 14 Appeal2013-008610 Application 10/945,222 This argument is also unpersuasive. The Specification does not define the term "first order plasma level increase" but it uses that term interchangeably with "first order pharmacokinetics." Compare Spec. at 6-7 (bridging paragraph), with 13 (defining "first order" and "zero order"). The Specification defines "first order" pharmacokinetics as meaning simply "plasma concentrations which increase over a specified time period." (Id. at 13.) Santus discloses that plasma levels of a drug increase over time after the drug is administered transdermally (FF6). Thus, regardless of whether Kyncl discloses administration of terazosin, specifically, in a manner that causes a first order plasma level increase, Santus provides evidence that transdermal administration causes that effect. Finally, Appellants argue that "the cited references do not teach or suggest the specific mean relative release rates recited in claims 19, 22, and 28." (Appeal Br. 20.) As discussed above, however, Santus and Audett discloses methods of optimizing the flux, or relative release rate, of a transdermally administered drug. Appellants have not pointed to any evidence of unexpected results based on the recited release rates. See Geisler, 116 F.3d at 1469 ("Only if the 'results of optimizing a variable' are 'unexpectedly good' can a patent be obtained for the claimed critical range."). Conclusion of Law The cited references would have made obvious a method meeting the limitations of claims 1and19. Claims 5, 6, 8-10, 16, 18, 20, 24--26, 34--38, 42--45, and 48-57 fall with claim 1. Claims 22 and 28 fall with claim 19. 37 C.F.R. Â§ 41.37(c)(l)(vii). 15 Appeal2013-008610 Application 10/945,222 As noted previously, Appellants waived additional arguments directed to the rejection of claims 39--41, 46, and 47 based on Santus, Audett, Kyncl, and Hille. We therefore affirm that rejection as well. SUMMARY We affirm both of the rejections on appeal. TIME PERIOD FOR RESPONSE No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. Â§ 1.136(a). AFFIRMED 16