12860867 (P.T.A.B. Mar. 27, 2017)

Ex Parte Marquez et al

Patent Trial and Appeal BoardMar 27, 2017

12860867 (P.T.A.B. Mar. 27, 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. 12/860,867 08/21/2010 Manuel Marquez marquez867 1911 24221 7590 03/29/2017 LOUIS VENTRE, JR 2483 OAKTON HILLS DRIVE OAKTON, VA 22124-1530 EXAMINER WILSON, MICHAEL C ART UNIT PAPER NUMBER 1632 NOTIFICATION DATE DELIVERY MODE 03/29/2017 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): lventre @ lventre. com ventre, louis @ verizon. net PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte MANUEL MARQUEZ and SAMANTHA M. MARQUEZ1 Appeal 2015-005900 Application 12/860,867 Technology Center 1600 Before JEFFREY N. FREDMAN, TAWEN CHANG, and RYAN H. FLAX, Administrative Patent Judges. CHANG, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. § 134(a) involving claims to a method of making an artificial gland by taxis, which have been rejected as non-enabled. We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM. STATEMENT OF THE CASE According to the Specification, “[t]he fabrication of artificial micro glands needs to be made simpler, easier, faster, and readily reproducible to accommodate their wide-spread use in the healing arts in the biomedical or 1 Appellants identify the Real Party in Interest as the inventors Manuel Marquez and Samantha Marquez. (Appeal Br. 3.) Appeal 2015-005900 Application 12/860,867 biotechnological fields,” and “[improvements are needed in enabling full control of the shell/reservoir structure of the artificial micro-gland.” (Spec. 110.) Further according to the Specification, “[a]rtificial micro-glands can be made simply and more easily by using a monodisperse multiple emulsion as templates having distinct fluids with one or more interfaces between the fluids in the emulsion,” where “[t]he cells placed in one fluid migrate on their own to the interface to assemble and surround an inner fluid and form the artificial micro-gland.” {Id. at Tf 11.) In particular, the Specification purports to describe “methods of making an artificial micro-gland ... by taxis.” {Id. at 122.) Claims 1—10 are on appeal. Claim 1 is illustrative and reproduced below: Claim 1. A method of making an artificial micro-gland by taxis, the artificial micro-gland comprising a continuous membrane of living cells, the continuous membrane defining an enclosed volume, the enclosed volume comprising a reservoir serving as a bioreactor, the method comprising the steps of: producing a monodisperse multiple emulsion, the monodisperse multiple emulsion comprising: a first fluid serving as a host environment; a second fluid confined within the host environment, the second fluid being immiscible in the first fluid; a third fluid within the second fluid, the third fluid being immiscible in the second fluid such that there is an interface between the second fluid and the third fluid, the third fluid comprising a plurality of living cells dispersed therein, said living cells capable of metabolic activity; and, an agent capable of affecting the metabolic activity of the living cells, the agent present within the second fluid at a higher concentration than in the third fluid; 2 Appeal 2015-005900 Application 12/860,867 waiting until the living cells migrate to the interface between the second fluid and the third fluid to form the continuous membrane around the third fluid; and, removing the first fluid and the second fluid from the monodisperse multiple emulsion to produce the artificial micro gland. (Appeal Br. 5—6 (citations omitted).) The Examiner rejects claims 1—10 under 35 U.S.C. § 112(a) or 35 U.S.C. § 112 (pre-AlA), first paragraph, as failing to comply with the enablement requirement. (Ans. 2.) DISCUSSION Issue The Examiner finds that “it is clear the specification discloses the methods claimed to be for the production of an artificial gland by taxis, and the gland is to be used as an in vivo or in situ drug delivery system or as a treatment for tissue or organ repair.” (Ans. 3—4.) The Examiner further finds that “[a] gland is an organ or a tissue that produces and secretes proteins, enzymes or hormones in order to establish and maintain homeostasis,” where “[t]he gland secretes the proteins either constitutively or regulated by a signal from outside of the gland.” {Id. at 8.) Based on the above, the Examiner finds that the Specification “lacks sufficient guidance to make an artificial gland that exhibits a patentable use” at the time of the invention, because “the structure [recited in the claims] is not a gland in the meaning of the art” and “lacks an enabled use as a drug delivery vehicle” or “for organ or tissue regeneration.” {Id. at 3, 9—10.) 3 Appeal 2015-005900 Application 12/860,867 More specifically, the Examiner finds that “[t]he claims state ‘methods of making an artificial micro-gland by taxis[,]’ but. . . neither the claims nor the specification teach the methodology required for taxis to make the gland.” (Id. at 5—6.) The Examiner also finds that the Specification discloses producing the artificial gland using pathogens such as bacterial or yeast cells, which the Examiner finds to lack patentable use in light of the disease-causing nature of the pathogens. (Id. at 8—9.) The Examiner further finds that the Specification fails to enable use of the artificial gland made by the claimed method, because the Specification “does not offer any guidance for overcoming an immune system response to an implanted artificial micro[-]gland.” (Id. at 8.) Likewise, the Examiner finds that the structure made according to the claimed methods are not enabled for use as an artificial gland or a pharmaceutical delivery device, because the structure “lacks the mechanism for either constitutive release or regulated release” of proteins, enzymes, or hormones. (Id. at 8—9.) Finally, the Examiner finds that the Specification does not enable an artificial gland where the claimed “reservoir” is a gas, because the Specification “provides no guidance as to the type of gas that would solubilize proteins, enzymes or hormones.” (Id. at 9.) Appellants argue that the claims are to a method of making an artificial gland and not to the structure, and take issue with the Examiner’s interpretation of “gland.” (Appeal Br. 38-41.) Appellants also contend that the Examiner’s arguments are based on the erroneous premise that the artificial micro-gland recited in the claims must be enabled for in vivo use. (Id. at 41—42; Reply Br. 19—25.) Appellants further cite to the Cheng 4 Appeal 2015-005900 Application 12/860,867 Declaration2 and various news articles in support of the “operability, functionality and usefulness of the claimed artificial gland.” (Appeal Br. 23 (internal quotation marks and citation omitted).) With respect to the Examiner’s finding that the Specification and the claims do not teach the methodology required for taxis to make the gland, Appellants argue that the claims recite both a taxis agent and how to form a gradient of attractant through the use of multiple emulsions. {Id. at 25—26, 28—32; see also Reply Br. 25—26.) Appellants further argue that the Specification provides sufficient guidance for enablement by teaching various types of taxis such as the taxis of bacteria towards a higher concentration of oxygen and how to form a gradient of attractant so as to induce taxis. (Appeal Br. 27—28, 32—35.) Appellants do not separately argue the claims {id. at 19), and we limit our analysis to claim 1. The issue with respect to this rejection is whether the evidence of record supports the Examiner’s conclusion that claim 1 is invalid for failure to comply with the enablement requirement. Findings of Fact 1. The Specification states: The artificial micro-gland has a shell of living cells surrounding a core or reservoir. The term “living cells” is intended to broadly encompass biological units and cells .... The more significant applications of the invention are currently expected to employ living cells comprising fungi, algae, fibroblasts, yeast and bacteria. The reservoir is a micro-volume bio-reactor that 2 Declaration of Zhengdong Cheng under 37 C.F.R. § 1.132 (Oct. 25, 2012) (“Cheng Decl.”). The Cheng Declaration is not paginated. Therefore, all reference to page numbers in the Cheng Declaration refer to page numbers as if the Cheng Declaration was numbered consecutively beginning with the first page. 5 Appeal 2015-005900 Application 12/860,867 supports a biologically active environment. For example, it may host a medicinal component or biological activity creating helpful substances for promoting healing, vaccination, or food active ingredients. (Spec. 13.) 2. The Specification states that “the reservoir of the artificial micro-gland . . . may comprise oil, water, oil and water emulsion, or any other combination of liquids, gases and cells serving the bioreactor function of the reservoir.” (Id. at | 52; see also, e.g., id. at || 17 (water reservoir), 18 (oil reservoir), 19 (oil-within-water reservoir), 70 (defining fluid to include liquid or gas, and explaining that “exemplary fluids of water or oil, may also include or contain nutrients or other additives compatible with the living cells”).) 3. According to the Specification, “[t]he method disclosed herein for making the micro-glands stimulates micro-gland shell growth through taxis, that is, a form of tropism, involving the stimulating the motility or migration of a cell or organism towards or away from a location to form a shell usually at a liquid/liquid interface.” (Id. at If 4.) The Specification states that chemicals used for chemotaxis affect metabolic activity of the living cells and so their presence in higher concentrations in an adjoining or surrounding emulsion selectively draws the cells to the interface of the emulsions. Thus, upon creation of at least one emulsion containing the living cells, wherein that emulsion is confined within at least one other emulsion having a higher concentration of a chemoattractant useful to the living cells metabolism, taxis enables movement of the living cells to the interface where they form a continuous membrane surrounding the emulsion previously containing the living cells. (Id. at 17.) 6 Appeal 2015-005900 Application 12/860,867 4. The Specification provides bacteria and oxygen and algae and carbon dioxide as example combinations of cells and chemo-attractants that may be used in the claimed method of making an artificial micro-gland by taxis. (Id. at H 6, 26, 32, 38, 39, 46, 58, 60, 65.) 5. The Specification states that, “[w]hile the . . . examples . . . utilize bacteria and algae for the living cells . . ., there are many other such living cells . . . , which may be used and which are drawn from the panoply of eukaryotic cells and prokaryotic cells. (Id. at H 33, 40, 48; see also id. at 11 56, 64.) 6. The Specification further states that other agents that may be used to cause chemotaxis include nitrogen oxide; sugar; phosphates, nitrates, sulphates, and potassium salts; cyclic adenosine monophosphate (cAMP); inositon phospholipid (mPIP3); actin; histamine; serotonin (5HT); plaletet [sic] acting factors (PAF); arachidonic acid metabolites; diacykglyseril (IP3); leukotine B4; lipoxins; prostaglandins; cytotaxin; f-met-leu-phe tripeptide; cytokines; kinins, cytotaxins; anaphylatoxin peptide (C5a); aspartic acid (ASP); serine (SER); and, chemo-attractants. (Id. at 1134, 41, 48.) 7. The Specification does not provide any working examples.3 8. The Specification states that “the artificial gland is useful for biological tissue and organ repair and replacement and stem cell engineering and biotechnology application.” (Id. at 12; see also id. at H 12 (stating that 3 In Example 1, the Specification states that “[e]xamples of bacteria actually used are pseudomonas aeruginosa, b. subtilis and p. aeruginos.” (Spec. 129 (emphasis added).) Because the remainder of Example 1 are described in present tense; we nevertheless understand Example 1 to be a prophetic, rather than working, example. 7 Appeal 2015-005900 Application 12/860,867 claimed method “will promote greater use of artificial micro-glands to improve tissue and organ repair, and the delivery of treatments incident to healing and recovery from cellular injuries” and “enables greater control of the shell/reservoir structure of the artificial micro-gland”), 72 (stating that “[t]he invention has application to the biomedical and biotechnological industries”).) The Specification also states that “[t]he micro-gland has potential application as a means for drug and/or cell delivery within human or other animal.” (Id. at 13.) Principles of Law Section 112 requires that the patent specification enable those skilled in the art to make and use the full scope of the claimed invention without undue experimentation .... [S]ee also In re Goodman, 11 F.3d 1046, 1050 (Fed. Cir. 1993) (“[T]he specification must teach those of skill in the art how to make and how to use the invention as broadly as it is claimed.”) Invitrogen Corp. v. Clontech Labs. Inc., 429 F.3d 1052, 1070—71 (Fed. Cir. 2005) (citation and internal quotation marks omitted). Factors to be considered in determining whether a disclosure would require undue experimentation . . . include (1) the quantity of experimentation necessary, (2) the amount of direction or guidance presented, (3) the presence or absence of working examples, (4) the nature of the invention, (5) the state of the prior art, (6) the relative skill of those in the art, (7) the predictability or unpredictability of the art, and (8) the breadth of the claims. In re Wands, 858 F.2d 731, 737 (Fed. Cir. 1988). “[T]he enablement requirement of § 112 incorporates the utility requirement of § 101.” In re Fisher, 421 F.3d 1365, 1378 (Fed. Cir. 2005). 8 Appeal 2015-005900 Application 12/860,867 Courts “have required a claimed invention to have a specific and substantial utility to satisfy § 101.” Id. at 1371. [A]n application must show that an invention is useful to the public as disclosed in its current form, not that it may prove useful at some future date after further research. Simply put, to satisfy the “substantial” utility requirement, an asserted use must show that th[e] claimed invention has a significant and presently available benefit to the public. Id. To satisfy “the ‘specific’ utility requirement, an application must disclose a use which is not so vague as to be meaningless. . . . Thus, in addition to providing a ‘substantial’ utility, an asserted use must also show that th[e] claimed invention can be used to provide a well-defined and particular benefit to the public.” Id. “Nebulous” expressions such as “biological activity” or “biological properties,” and “obscure” expressions such as “useful for technical and pharmaceutical purposes” do not suffice to provide specific utility. Id. “Enablement, or utility, is determined as of the application filing date.” In re Brana, 51 F.3d 1560, 1567 n.19 (Fed. Cir. 1995). “ft is an applicant’s obligation to supply enabling disclosure without reliance on what others may publish after he has filed an application on what is supposed to be a completed invention. If he cannot supply enabling information, he is not yet in a position to file.” In re Glass, 492 F.2d 1228, 1232 (CCPA 1974). Analysis We agree with the Examiner that claim 1 fails to satisfy the enablement requirement because the Specification does not enable the full 9 Appeal 2015-005900 Application 12/860,867 scope of the claim with respect to the method of making an artificial micro gland by taxis. In considering the Wands factors, we first note that claim 1 is extremely broad. For instance, it encompasses methods of making an artificial micro-gland comprising a continuous membrane of any of the “panoply of eukaryotic cells and prokaryotic cells” as well as “biological units.” (FF1 (“The term ‘living cells’ is intended to broadly encompass biological units and cells.”).) Likewise, it encompasses broad categories of taxis, including for instance chemotaxis with agents ranging from the gas nitrogen oxide to the amino acid serine. (FF6.) The Specification, however, contains no working examples (FF7), and includes minimal guidance on the combination of taxis agents and cells or biological units that would result in the claimed artificial micro-gland. (FF4 (providing only bacteria and oxygen and algae and carbon dioxide as example combinations of cells and chemo-attractants that may be used in the claimed methods).) While the Specification points to prior art teaching methods of creating multiple emulsions (Spec. | 5), neither the Examiner nor Appellants have pointed to prior art relating to creation of a continuous membrane through taxis. Finally, given the shortage of guidance in the Specification and the unpredictability of biological processes, we find that enabling the full scope of claim 1 would likely involve a significant amount experimentation. Cf In re Angstadt, 537 F.2d 498, 508 (CCPA 1976) (“In cases involving unpredictable factors, such as most chemical reactions and physiological activity, the scope of enablement obviously varies inversely with the degree of unpredictability of the factors involved.”). We also agree with the Examiner that the Specification has not enabled a use for the method of claim 1. In particular, Appellants’ broad 10 Appeal 2015-005900 Application 12/860,867 statements regarding potential use of the artificial micro-gland made by the claimed method (FF1, FF8) do not describe the “specific and substantial” utility needed to satisfy the enablement requirement. Generic statements that the artificial gland is useful for “biological tissue and organ repair and replacement,” “stem cell engineering,” “biotechnology application,” and “drug and/or cell delivery” are too vague to provide specific utility. In re Fisher, 421 F.3d at 1371. Similarly, these statements do not provide substantial utility because they suggest that the artificial gland “may prove useful at some future date after further research,” but do not show that it is “useful to the public as disclosed in its current form.” Id. The Specification states, for example, that “[t]he more significant applications of the invention are currently expected to employ living cells comprising fungi, algae, fibroblasts, yeast and bacteria” (FF1 (emphasis added), and that “[t]he micro-gland has potential application as a means for drug and/or cell delivery within human or other animal” (FF8 (emphasis added)). In this respect, we also note that, while working examples are not necessary to satisfy enablement, they are desirable in complex technologies, and the Specification provides no such examples of using the artificial gland manufactured by the claimed method. In re Strahilevitz, 668 F.2d 1229, 1232 (CCPA 1982) (working examples desirable but not necessary); In re Fisher, 421 F.3d at 1377 (finding lack of specific and substantial utility because “[applicant’s] laundry list of uses, like the terms ‘biological activity’ or ‘biological properties’ alleged in Kirk, are nebulous, especially in the absence of any data demonstrating that the claimed [inventions] were actually put to the alleged uses”). 11 Appeal 2015-005900 Application 12/860,867 Appellants argue that the Specification enables the claimed method of making the gland by taxis because the claims recite both a taxis agent and multiple emulsions where an emulsion contains an attractant at a higher concentration forming an interface with another emulsion, i.e., “an agent capable of affecting the metabolic activity of. . . living cells” where “the agent [is] present within [a] second fluid at a higher concentration than in [a] third fluid.” {Id. at 25—26, 28—32; see also Reply Br. 25—26.) Appellants further argue that the Specification teaches various types of taxis that may be used in the claimed artificial gland, including, e.g., the taxis of bacteria towards a higher concentration of oxygen, as well as guidance on how to form a gradient of attractant so as to induce taxis. (Appeal Br. 27—28, 32— 35.) We are not persuaded. As discussed above, while the Specification provides two exemplary combinations of cells and chemo-attractants that may be used in the claimed method (bacteria/oxygen and algae/carbon dioxide), the disclosure is not commensurate with the broad scope of the claim. The Specification neither suggests that all of the many agents alleged to affect metabolic activity would lead to the taxis of all of the claimed types of “living cells” so as to create the structure recited in the claims, nor provides sufficient guidance for determining, for instance, which combinations of the many cell types and taxis agents encompassed by the claims would result in the “artificial micro-gland.” With respect to the Examiner’s argument that the Specification does not enable a use of the artificial micro-gland recited in the claims, Appellants first argue that the claims are to a method of making an artificial gland and not to the structure. (Appeal Br. 38.) This argument is not 12 Appeal 2015-005900 Application 12/860,867 convincing. While we agree that the claims are to a method of making an artificial micro-gland and not to the micro-gland themselves, Appellants do not articulate how this distinction renders the Examiner’s analysis erroneous. Cf. Brenner v. Manson, 383 U.S. 519, 534—535 (1966) (holding that a process lacks utility if the produced product lacks utility). Appellants next argue that the enablement rejection is based on an incorrect construction of the limitation “artificial micro-gland.” (App. Br. 38-41.) In particular, Appellants contend that, in the context of the claims, an artificial micro-gland simply refers to “a cellular structure surrounding a reservoir that is a bio-reactor holding for example a medicinal component.” Appellants further argue that, while the “common definition of the term gland encompasses the artificial micro-gland made by the method of the invention,” the claim terms “artificial” and “micro” also “possibly distinguish [the claimed artificial micro-gland] from the natural gland” on which the Examiner bases her construction of the claim. Id. We are likewise unpersuaded by these arguments. Even assuming Appellants’ construction of “artificial micro-gland” to be correct, the Specification has not disclosed a specific and substantial utility for such a structure for the reasons discussed earlier and reiterated below. Appellants argue that the Examiner’s enablement rejection is based on the erroneous premise that the artificial micro-gland recited in the claims must be enabled for in vivo use. (Appeal Br. 41—42; Reply Br. 19—25.) Appellants contend that, although “z7? vivo applications in limited circumstances might be conceivable,” “nothing in the claims or in the specification . . . requires in vivo or in situ drug delivery.” (Appeal Br. 21, 23; see also id. at 36—37.) Appellants cite to a portion of the Specification 13 Appeal 2015-005900 Application 12/860,867 stating that “the artificial gland is useful for biological tissue and organ repair and replacement and stem cell engineering and biotechnology applications” and contend that “[a]ny person of skill in the art would know that stem cell engineering and biotechnology applications are not necessarily in vivo research fields.” (Reply Br. 23.) Citing a 2014 news article as well as a Wikipedia article regarding experimentation with organs-on-chips, Appellants argue that “it is well known that organs and tissue can be made and repaired outside the body.” (Appeal Br. 22; Reply Br. 20-21.) We are not convinced. As discussed above, regardless of whether stem cell engineering, biotechnology applications, and biological tissue and organ repair and replacement encompass in vitro as well as in vivo applications, a generic statement that the artificial gland recited in the claims is useful for these purposes does not disclose a specific and substantial use necessary for enablement: Such generalized description of the fields in which invention may be useful is too vague to constitute specific use, and the lack of information regarding how the artificial gland may be used in these fields indicates that the Specification has at most suggested that the artificial micro-gland “may prove useful at some future date after further research,” which does not suffice to show substantial use. In re Fisher, 421 F.3d at 1371. Indeed, Smith,4 the CNN news article Appellants cite as suggesting that organs and tissues may be repaired in vitro, supports a finding of lack of enablement: Although Smith is dated April 2014, over three and half years after the filing date of the instant application, the article 4 Stephanie Smith, Creating body parts in a lab: ‘Things are happening now’, CNN (April 10, 2014), available at http://www.cnn.com/2014/04/10/health/tissue-engineering-success/ (last visited Mar. 6, 2017) (“Smith”). 14 Appeal 2015-005900 Application 12/860,867 described growing reproductive organs and nasal cartilage in labs and successfully implanting them as a “scientific leap,” and further states that ‘“[t]issue engineering is finally demonstrating that it can deliver on expectations.’” Finally, Appellants’ citation to the Cheng Declaration and news articles showing “[o]ne of the inventors . . . receiving] acclaim in the field for her invention” is unavailing. (Appeal Br. 22—23.) The news articles allege a broad range of potential uses for “celloidosomes,” which Appellants contend to be the artificial micro-gland recited in the claims. None of them, however, suggests that the Specification enables such uses because none of them suggests that the celloidosome is useful for such applications in its current form, without further research. With respect to the Cheng Declaration, we note first that expert opinions on ultimate legal issues, such as statements in the Cheng Declaration that “the methods of making the artificial gland [is] fully descriptive and readily followed without the necessity for experimentation,” that “peer[] reviewed scientific reports on the manufacture and use of the artificial gland [support] the operability, functionality and usefulness of the claimed artificial gland,” and that “the claimed artificial gland [is] a unique innovation that is described in sufficient detail to be operable and to enable it to be made and used without undue experimentation” (Cheng Decl. 2, 4), are not entitled to weight absent supporting evidence. In re Reuter, 670 F.2d 1015, 1023 (CCPA 1981). Furthermore, while Dr. Cheng states that there is “experimental evidence that Fungi, Algae, Bacteria and also a diverse group of mammalian Cells (NIH-3T3, Cortical Cells, HEP-G2, etc.) can be ‘self- assembled’ in liquid-liquid interfaces from multiple emulsions” and that 15 Appeal 2015-005900 Application 12/860,867 “those cells can be self-assembled on gas- liquid interfaces of microbubbles, to form stable micro-core/shell tissues as described by Marquez, et al in their patent application,” Dr. Cheng provides no analysis showing that the cited references in fact manufactured such “micro-core/shell tissues” by the claimed method of taxis, much less that they provided enablement commensurate with the broad scope of the claims. (Cheng Decl. 2.) Indeed, it is unclear whether the statements in the Cheng Declaration refer to the instant patent application at all, as Dr. Cheng refers to paragraphs 77 and 277 of the patent application, which do not exist in the instant Specification. {Id.) Finally, all but one of the references cited by Dr. Cheng as supporting the “operability, functionality and usefulness of the claimed artificial gland” are dated after the date of the patent application, and there is no evidence that they represent the state of the art at the time the patent application was filed.5 (Cheng Decl. 2-3.) 5 The only cited reference that predates the date of the application, Aug. 21, 2010, is a presentation at NANOSPAIN 2010. Manuel Marquez et al., A New Paradigm for Cell Architecture: Celloidosomes®, NANOSPAIN 2010 (March 23, 2010), available at http://www.nanospainconf.org/2010/Posters/NanoSpain2010_Marquez.pdf. Dr. Cheng, however, fails to explain how the methods described in the presentation to “drive & organize living cells (yeast, fibroblasts, etc.) to the surface of a Gel, Liquid or Gas (Bubble),” e.g., “LbL polyelectrolyte decoration,. . . selective gelation using CaC03 nanoparticles-Cells composites, [and] Hydrophobic deposition,” meet the limitations of the claimed methods. {Id.) If anything, the presentation supports the conclusion that the claimed artificial gland does not have a specific and substantial use at the time of the application, as the presentation “focus [es] on showing the potential of [the] emerging and enabling technology.” {Id. (emphasis added).) 16 Appeal 2015-005900 Application 12/860,867 Accordingly, we affirm the Examiner’s rejection of claim 1 under 35 U.S.C. § 112(a) or 35 U.S.C. § 112 (pre-AIA), first paragraph, as failing to comply with the enablement requirement. Claims 2—10, which are not separately argued, fall with claim 1. 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 17