13132840 - (D) (P.T.A.B. Jul. 10, 2020)

Christopher Centeno

Patent Trials and Appeals BoardJul 10, 2020

13132840 - (D) (P.T.A.B. Jul. 10, 2020)

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. 13/132,840 06/03/2011 Christopher J. Centeno 0237.09/PCT-US 8193 7590 07/10/2020 K&L Gates LLP - Pittsburgh 210 Sixth Avenue Pittsburgh, PA 15222-2613 EXAMINER SCHUBERG, LAURA J ART UNIT PAPER NUMBER 1632 MAIL DATE DELIVERY MODE 07/10/2020 PAPER 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. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________ Ex parte CHRISTOPHER J. CENTENO ____________ Appeal 2020-000988 Application 13/132,840 Technology Center 1600 ____________ Before DONALD E. ADAMS, ULRIKE W. JENKS, and MICHAEL A. VALEK, Administrative Patent Judges. VALEK, Administrative Patent Judge. DECISION ON APPEAL Appellant1 submits this appeal2 under 35 U.S.C. § 134(a) involving claims to methods of treatment that involve culturing and selecting viable mesenchymal stem cells (MSC) for implantation. We have jurisdiction under 35 U.S.C. § 6(b). We affirm. 1 We use the word “Appellant” to refer to “applicant” as defined in 37 C.F.R. § 1.42(a). Appellant identifies Regenexx, LLC as the real party in interest. Appeal Br. 1. Herein, we refer to the Final Action mailed March 11, 2019 (“Final Act.”); Advisory Action mailed May 23, 2019 (“Advisory Act.”); Appellant’s Appeal Brief filed July 22, 2019 (“Appeal Br.”); and Examiner’s Answer mailed September 5, 2019 (“Ans.”). 2 This Appeal is related to Appeal 2019-006371 (Application 15/891,852), Decision affirming the rejections of record entered July 8, 2020. Appeal 2020-000988 Application 13/132,840 2 STATEMENT OF THE CASE The Specification describes “methods for facilitating repair in a damaged avascular site, for example an intervertebral disc; more particularly, the invention provides applying environmentally conditioned autologous stem cells . . . to avascular sites in patients in need thereof.” Spec. ¶1. The Specification explains that MSC may be “harvested and expand[ed] . . . under various atmospheric conditions that simulate a damaged disc’s environment.” Id. ¶ 57. In some cases the harvested stem cells are cultured under 3 to 10% oxygen and in other cases the harvested stem cells are cultured under 3 to 7% oxygen. These lower oxygen conditions replicate the hypoxic conditions present in typical damaged disc environments. . . . Selection occurs as cells are cultured, with viable cells that are able to survive and ultimately expand having an advantage when implanted into a disc having a hypoxic environment. Id. According to the Specification, MSC may also be “cultured in vitro under elevated carbon dioxide conditions, typically from 2-10% carbon dioxide” to select for “viable cells that are able to survive and ultimately expand having an advantage when implanted into a disc having an elevated carbon dioxide environment or an elevated carbon dioxide environment combined with a hypoxic environment.” Id. ¶ 58. Claims 70–75, 77, 78, and 80–853 are on appeal and can be found in the Claims Appendix of the Appeal Brief. Claim 70 is illustrative of the claims on appeal. It reads as follows: 3 Claim 87 was canceled after the Final Action and is not at issue in this appeal. See Appeal Br. 5, 9; Advisory Act. 1. Appeal 2020-000988 Application 13/132,840 3 70. A method for treating a degenerative intervertebral disc in a patient in need thereof, the method comprising: implanting selected, viable mesenchymal stem cells into the disc to be treated; where the implanted selected, viable mesenchymal stem cells were prepared for implantation by at least: culturing nucleated cells in a culture medium under one or more of the following conditions: (1) selective pressure of about 1% to about 10% oxygen; or (2) about 2% to about 10% carbon dioxide; and selecting viable, mesenchymal stem cells capable of growth under the conditions from said culture medium after culturing for a period of 1-28 days; and administering to said disc, either separately or in combination with said selected, viable, mesenchymal stem cells, autologous platelets or platelet lysate to facilitate stem cell viability and expansion within the damaged disc. Appeal Br. 21. The following rejections are before us for review: I. Claims 70, 73, 74, 77, 82, and 83 under 35 U.S.C. § 103 as unpatentable over Centeno4, Grayson,5 and DiGirolamo;6 II. Claims 71 and 80 under 35 U.S.C. § 103 as unpatentable over Centeno, Grayson, DiGirolamo, and Ma;7 4 WO 2007/087519 A2, published Aug. 8, 2007 (“Centeno”). 5 Warren L. Grayson et al., Effects of Hypoxia on Human Mesenchymal Stem Cell Expansion and Plasticity in 3D Constructs, 207 J. of Cellular Physiology 331–339 (2006) (“Grayson”). 6 Carla M. DiGirolamo et al., Propagation and Senescence of Human Marrow Stromal Cells in Culture: a Simple Colony-forming Assay Identifies Samples with the Greatest Potential to Propagate and Differentiate, 107 British J. of Haematology 275–281 (1999) (“DiGirolamo”). 7 US 6,875,605 B1, issued April 5, 2005 (“Ma”). Appeal 2020-000988 Application 13/132,840 4 III. Claims 72 and 81 under 35 U.S.C. § 103 as unpatentable over Centeno, Grayson, DiGirolamo, and Toner;8 IV. Claims 70, 73–75, 77, and 82–84 under 35 U.S.C. § 103 as unpatentable over Centeno, Grayson, DiGirolamo, and DiMauro;9 and V. Claims 78 and 85 under 35 U.S.C. § 103 as unpatentable over Centeno, Grayson, DiGirolamo, and Schallmoser;10 Appeal Br. 8. I. OBVIOUSNESS REJECTIONS I–V Issue All of Examiner’s rejections are premised on the same combination of Centeno, Grayson, and DiGirolamo. See Ans. 3–4. Appellant does not present separate arguments for Rejections II–V, but instead relies on the same arguments it presents for the first rejection. See Appeal Br. 17–18. Accordingly, we consider the obviousness rejections together in our analysis. We select claim 70 as representative of the other claims on appeal, which Appellant does not argue separately from claim 70. See 37 C.F.R. § 41.37(c)(1)(iv). The issue for these rejections is whether a preponderance of the evidence supports Examiner’s conclusion that cited prior art renders the method of claim 70 obvious. 8 US 2004/0248293 A1, published Dec. 9, 2004 (“Toner”). 9 US 2004/0229878 A1, published Nov. 18, 2004 (“DiMauro”). 10 Katharina Schallmoser et al., Human Platelet Lysate Can Replace Fetal Bovine Serum for Clinical-scale Expansion of Functional Mesenchymal Stromal Cells, 47 Transfusion 1436–46 (2007) (“Schallmoser”). Appeal 2020-000988 Application 13/132,840 5 Findings of Fact FF1. Centeno teaches methods for autologous transplantation of MSCs and progenitor helper cells (PHC) “from bone marrow to degenerated intervertebral discs or joints.” Centeno ¶ 17; Abstr. In particular, Centeno teaches “a[ ]procedure where target cells are harvested, then isolated, then reimplanted into a target site, all from and into the same patient.” Id. ¶ 17. FF2. Centeno also teaches experimental techniques to determine which bone marrow cells should be removed via negative selection to generate a MSC/PHC population most likely to regenerate certain tissue types in-vitro as well as which combination of fibrinogen and hyaluronic acid and which degree of gel maceration provides the best matrix for in-vitro and in-vivo regeneration of joints and intervertebral discs. Centeno ¶ 18. FF3. According to Centeno, physicians will be unlikely to utilize regenerative techniques unless the isolation can be easily performed by operating room staff and the isolation itself can be performed during the same surgical procedure as the actual transplantation. If expansion of the cells is required for success, then that expansion would preferably be carried out in a hospital or clinical lab and not a research laboratory. Centeno ¶ 5; see also id. ¶ 7 (distinguishing prior art methods as “not practical for surgeons and hospitals” or “a clinical or hospital lab without experienced research personnel”). Thus, Centeno teaches that its method is “designed to be used by operating room staff . . . during the same surgical procedure as transplantation.” Id. ¶ 17; Abstr. However, Centeno also teaches that “[t]he method can be used as a two step procedure where cells are harvested, then isolated, then reimplanted at a later time.” Id. at Abstr. Appeal 2020-000988 Application 13/132,840 6 FF4. For example, Centeno describes “an alternative embodiment” wherein “the cell sample may be separated using the same combination of cell surface antigens determined through experimental design discussed herein, with flouresence activated cell sorting being utilized.” Centeno ¶ 27. Centeno teaches “[t]his alternative selection method may be performed at an on or off-site clinical lab.” Id. FF5. Centeno also teaches that “[a]lternatively, the cells selected as most likely to regenerate the target tissue may be expanded in a hospital lab before re-injection.” Centeno ¶ 28. FF6. Grayson describes results from experiments in which human mesenchymal stem cell (hMSC) “were cultured under physiologically relevant oxygen environments (2% O2) in three-dimensional (3D) constructs for up to 1 month in order to investigate the combined effects of chronic hypoxia and 3D architecture on hMSC tissue development patterns.” Grayson, 331. Grayson teaches that hMSC cultured and expanded under these hypoxic conditions “exhibited an extended lag phase in order to acclimatize to culture conditions,” but subsequently proliferated continuously throughout the culture period, while maintaining significantly higher colony-forming unit capabilities and expressing higher levels of stem cell genes than hMSC cultured at 20% O2 (normoxic) conditions. Upon induction, hypoxic hMSC also expressed higher levels of osteoblastic and adipocytic differentiation markers than normoxic controls. . . . Importantly, hMSC maintained the ability to thrive in prolonged hypoxic conditions suggesting that hypoxia may be an essential element of the in vivo hMSC niche. Id; see also id. at 338 (reporting that “hMSC in vitro proliferation is actually enhanced by long-term chronic hypoxia” and “[o]ur results demonstrate that Appeal 2020-000988 Application 13/132,840 7 hMSC cultured at 2% O2 maintain much higher colony forming numbers than cells cultured at 20% O2”). FF7. Grayson teaches that colony-forming unit “numbers in hypoxic cultures were also higher than those of the original cell population seeded into the matrices indicating that the more primitive cells are being selected by oxygen deprivation.” Grayson, 338. FF8. DiGirolamo describes protocols for isolating and culturing MSC and assaying colony-forming unit fibroblasts (CFU-F) therein. See generally DiGirolamo 275–79. DiGirolamo teaches that “[s]amples with high colony- forming efficiency exhibited the greatest replicative potential” and that “CFU-U assays predict life-span in culture.” Id. at Abstr, 276; see also Grayson 338 (“High CFU-F potential has been correlated with high in vitro lifespan.”) (citing DiGirolamo). Analysis Examiner finds that Centeno “teaches a therapeutic method for selecting autologous MSCs for administration to a degenerated intervertebral disc” in which the cells may “be expanded in a hospital lab before re- implantation.” Final Act. 4 (citing Centeno ¶¶ 17, 23, 28). Examiner acknowledges that Centeno “is silent with regard to the culture conditions . . . for expansion of the selected MSCs,” but finds that Grayson teaches that MSCs cultured and expanded under hypoxic conditions, as recited in claim 70, “displayed significantly improved expansion characteristics while maintaining their multi-lineage potential.” Id. at 4. Thus, Examiner determines one of ordinary skill in the art would have been motivated to use 2-5% oxygen and 5% carbon dioxide for the culture of MSCs in the method of Centeno ’519 because Grayson et al Appeal 2020-000988 Application 13/132,840 8 teach that these percentages provide improved expansion[] characteristics for MSCs. One of ordinary skill in the art would have had a reasonable expectation of success because Grayson teach[es] that hypoxic conditions select for MSCs that are more primitive with a higher CFU-F number that correlates with high in vitro lifespan and extended proliferation. Id. at 5. We adopt the Examiner’s findings and reasoning regarding the scope and content of the prior art (Final Act. 3–5; FF1–FF8) and agree that claim 70 is obvious over the articulated combination of Centeno, Grayson, and DiGirolamo. We address Appellant’s arguments below. Appellant argues that Examiner’s combination of Centeno with a culturing step is “actively discouraged by Centeno.” See Appeal Br. 10–15. More specifically, Appellant contends that Examiner’s finding that Centeno “teaches a therapeutic method that selects and expands MSCs is based on a single sentence . . . that generally discusses expanding cells (paragraph [0028]) but which runs contrary to the entirety of the remaining teaching of the reference and its objectives.” Id. at 10. Appellant urges that “read as a whole” Centeno “provides no motivation for adding an in-vitro culturing step” and that “by relying on a single statement in Centeno ’519 that conflicts with the entirety of the remaining teachings of Centeno ’519, the Office has engaged in improper hindsight analysis.” Id. at 115 (citing Bausch & Lomb, Inc. v. Barnes-Hind/Hydrocurve, Inc., 796 F.2d 443, 448 (Fed. Cir. 1986) (“Bausch & Lomb”)). Appellant’s argument is unpersuasive. As an initial matter, Centeno does not actively discourage expanding MSCs prior to implanting them. To the contrary, Centeno describes a method that includes an expansion step in a lab (i.e., in vitro) as an “alternative[]” embodiment of Centeno’s invention. Appeal 2020-000988 Application 13/132,840 9 FF5. It is true that in some instances Centeno expresses a preference for a selection method that can be practiced by operating room staff as part of the same procedure. Centeno ¶¶ 5, 7, 17. However, there are also multiple instances in which Centeno makes clear that its methods also encompass “two step” procedures in which cells are harvested and reimplanted at a later time. See FF3–FF5. For example, Appellant quotes a portion of Centeno paragraph 5 as evidence that Centeno “clearly intends for its . . . methods to be performed as a single procedure . . . not over multiple days as would be required if a culturing step were included in the Centeno” process. Appeal Br. 11. But the ultimate sentence in paragraph 5, which Appellant does not quote in its brief, expressly contemplates instances in which “expansion of the cells is required for success” and thus would be carried out in a lab––not the operating room. FF3. In addition, Centeno describes other embodiments in which at least portions of the selection method are performed in a laboratory. FF4. Thus, we disagree with Appellant’s position that only a “single sentence” in Centeno paragraph 28 (see Appeal Br. 10) supports Examiner’s finding Centeno teaches a culturing and expanding step in its method. Rather, read as a whole, Centeno teaches a preferred embodiment in which the harvesting, selection, and implantation of MSCs occurs in a single procedure as well as alternative “two step” embodiments “where cells are harvested, then isolated, then reimplanted at a later time.” FF3. It is as part of these two step embodiments that Centeno teaches that MSCs may “alternatively” be cultured and expanded before implantation. FF5. As such, the facts here are very different from those in Bausch & Lomb. There, the district court relied on a “single line” out of the Appeal 2020-000988 Application 13/132,840 10 specification, stating that one way in which a particular objective could be achieved was by the use of a laser. 796 F.2d at 448. However, “the immediately following sentences” noted that the use of a laser “is limited by several disadvantages” and that instead the author “suggests the use of a special class of polymer” to achieve the same objective. Id. As such, the Federal Circuit determined “[a] complete reading demonstrates quite clearly that [the author] is setting up a strawman and point out its disadvantages to highlight the advantages of [the author’s] invention, that special class of polymers.” Id. But unlike Bausch & Lomb, Centeno paragraph 28 is not setting up a strawman to distinguish its invention; rather paragraph 28 describes an alternative embodiment of Centeno’s invention. We are not persuaded by the testimony in the Declaration of Joseph C. Maroon, dated August 27, 2018 (“Maroon Decl.”) and the Declaration of Christopher J. Centeno, dated August 27, 2018 (“Centeno Decl.”). Both declarations rely on the same teachings in Centeno paragraphs 5, 7, and 17 to conclude that the teaching in paragraph 28 is “wholly inconsistent” and therefore that they would “disregard the statement in paragraph [0028]” if they were reading Centeno for “instructive purposes.” Maroon Decl. ¶¶ 12, 15; Centeno Decl. ¶¶ 13, 16. The problem with the testimony in both of these declarations is that it cannot be reconciled with the statements in Centeno teaching “two step” embodiments. FF3–FF5; see also PharmaStem Therapeutics, Inc. v. ViaCell, Inc., 491 F.3d 1342, 1361 (Fed. Cir. 2007) (holding the jury’s determination of non-obviousness was not supported by the testimony of patentee’s expert because “[t]he problem with [the expert’s] testimony about the prior art references is that it cannot be reconciled with . . . the prior art references themselves”). Indeed, neither Appellant, nor its Appeal 2020-000988 Application 13/132,840 11 declarants, even attempt to reconcile paragraph 28 with their arguments as to what the rest of Centeno discloses. We, however, decline Appellant’s invitation to disregard paragraph 28 because doing so would conflict with Centeno’s various disclosures regarding “two step procedure[s]” (see FF3– FF5) and is contrary to precedent. See Merck & Co. Inc. v. Biocraft Laboratories Inc., 874 F.2d 804, 807, 10 USPQ2d 1843, 1846 (Fed. Cir. 1989) (quoting In re Lamberti, 545 F.2d 747, 750, 192 USPQ 278, 280 (CCPA 1976) (“[I]n section 103 inquiry . . . ‘all disclosures of the prior art, including unpreferred embodiments, must be considered.’”). For these reasons, we determine the preponderance of the evidence supports Examiner’s rejection of claim 70 and, therefore, affirm Rejection I. Having found no deficiency in the rejection of claim 70 over the combination of Centeno, Grayson, and DiGirolamo, we are not persuaded by Appellant’s contentions that Ma, Toner, DiMauro, and Schallmoser fail to make up for Appellant’s alleged deficiencies in the combination of Centeno, Grayson, and DiGirolamo (see Appeal Br. 17–18). Because Appellant failed to identify an error with respect to the combination of Centeno, Grayson, DiGirolamo, together with Ma, Toner, DiMauro, or Schallmoser, we affirm Rejections II–V as well. DECISION SUMMARY Claims Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 70, 73, 74, 77, 82, 83 103 Centeno, Grayson, DiGirolamo 70, 73, 74, 77, 82, 83 71, 80 103 Centeno, Grayson, DiGirolamo, Ma 71, 80 72, 81 103 Centeno, Grayson, DiGirolamo, Toner 72, 81 Appeal 2020-000988 Application 13/132,840 12 Claims Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 70, 73–75, 77, 82–84 103 Centeno, Grayson, DiGirolamo, DiMauro 70, 73–75, 77, 82–84 78, 85 103 Centeno, Grayson, DiGirolamo, Schallmoser 78, 85 Overall Outcome 70–75, 77, 78, 80–85 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. § 1.136(a). AFFIRMED