Ex Parte Lopez Quintela et al

Patent Trial and Appeal BoardFeb 29, 2016

11997859 (P.T.A.B. Feb. 29, 2016)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. 111997,859 76808 7590 Leason Ellis LLP One Barker A venue Fifth Floor FILING DATE 09/26/2008 03/02/2016 White Plains, NY 10601-1526 FIRST NAMED INVENTOR Manuel Arturo Lopez Quintela 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. 035041001362-USO 1388 EXAMINER ARNOLD, ERNST V ART UNIT PAPER NUMBER 1613 NOTIFICATION DATE DELIVERY MODE 03/02/2016 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): uspto@leasonellis.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte MANUEL ARTURO LOPEZ QUINTELA and JOSE RIV AS REY1 Appeal2013-002042 Application 11/997 ,859 Technology Center 1600 Before MELANIE L. McCOLLUM, JEFFREY N. FREDMAN, and ULRIKE W. JENKS, Administrative Patent Judges. JENKS, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. Â§ 134 involving claims to atomic quantum clusters having more than 2 and less than 27 metal atoms. The Examiner rejects the claims as anticipated. We have jurisdiction under 35 U.S.C. Â§ 6(b). We reverse. 1 According to Appellants, the Real Party in Interest is Universidade de Santiago de Compostela. (Br. 3.) Appeal2013-002042 Application 11/997 ,859 STATEMENT OF THE CASE Claims 33-36 are on appeal, and can be found in the Claims Appendix of the Appeal Brief. Claim 33 is representative of the claims on appeal, and reads as follows: 33. Isolated stable atomic quantum clusters, AQCs, characterized in that they consist of more than 2 and less than 27 metal atoms and are not in gas phase. Appellants seek review of the Examiner's rejection of claims 33-36 under 35 U.S.C. Â§ 102(b) as being anticipated by Deutsch.2 The Examiner takes the position that "the metal clusters of Deutsch do not require ligands and therefore meet the [claim] limitation of 'consist of." (Ans. 2.) The Examiner's position is that "Deutsch clearly directs the artisan to various metal atom clusters that may include coordinating ions, thus allowing for the condition where coordinating ions are not present, each of which must be synthesized and isolated. If the cluster can by synthesized and isolated then it is stable for use." (Ans. 5.) Appellants contend that "the clusters of Deutsch are not made of atoms but ions which are only stable when surrounded by ligands." (Br. 12.) The issue is: "[W]hether or not Deutsch fairly discloses metal clusters without coordinating ligands." (Ans. 6.) Findings of Fact FF 1. Deutsch discloses "heavy metal clusters which may be complexed with appropriate ligand groups, for use as X-ray contrast media." (Deutsch 1: 12-14 (emphasis added).) 2 Deutsch et al., US 5,417,958, issued May 23, 1995. 2 Appeal2013-002042 Application 11/997 ,859 FF2. Deutsch discloses that "[t]he cluster may be composed of 2 to 8 metal atoms of the same or different heavy metal elements, which are held together at least in part by bonding between the metal atoms." (Deutsch 2: 29-33.) Particularly useful metals include Au and Ag. (See Deutsch 2: 38--40.) FF3. Deutsch discloses: The metal clusters may be in any formation which will facilitate bonding to appropriate ligands and impart imaging characteristics upon complexation. Examples of cluster configurations include the following. M=M=M.. M:' /M~ f ...... ttÂ· M M:-M wherein M represents the heavy metal element. Other ions may be included in the cluster formulation, including such ions as: 0 2-, s2-, c1-, p-, Br-, I-, acetate, or carboxylate[.] These ions may or may not be directly coordinated to the metal ions in the cluster. (Deutsch 2: 46----63, see also claim 1; see also Ans. 5.) FF4. Deutsch discloses: The agents according to the present invention may be made using ordinary process techniques and methods. In particular, the agents according to the present invention may be produced by synthesis of an appropriate metal cluster precursor and by substitution of appropriate ligands in the final step of synthesis. In an alternative, the agents according to the present invention may be formed by direct synthesis from standard starting materials, wherein the final cluster compound is formed without benefit of an isolated intermediate. The 3 Appeal2013-002042 Application 11/997 ,859 agents according to the present invention may be used in the customary manner as X-ray contrast imaging agents, by practicing established techniques and procedures. (Deutsch 5: 50-62 (emphasis added); see also Ans. 5.) FF5. The Burst Declaration3 explains that one of ordinary skill in the art would understand "[ s ]ubstitution, as used both in the chemical literature and in general, indicates unequivocally that there is a replacement of one by another." (Burst Dec. i-f 11.) Principle of Law A prima facie case can be rebutted by evidence showing that the prior art products do not necessarily possess the characteristics of the claimed product. In re Best, 562 F.2d 1252, 1255 (CCPA 1977). See also Titanium Metals Corp. v. Banner, 778 F.2d 775 (Fed. Cir. 1985) It is well settled that inherency "may not be established by probabilities or possibilities. The mere fact that a certain thing may result from a given set of circumstances is not sufficient." In re Robertson, 169 F.3d 743, 745 (Fed. Cir. 1999) (internal quotation marks omitted). Analysis The Examiner finds that the claims under examination are directed to a composition consisting of atomic quantum clusters and not a method of making them. (See Ans. 3; see also Br. 5 ("the AQCs contain metal atoms and nothing else, including stabilizing ligands").) We agree with the Examiner's position that the claims are directed to a product. 3 Declaration by Dr. Mathias Burst signed Dec. 2, 2011. 4 Appeal2013-002042 Application 11/997 ,859 Claim 33 uses the term "consist of" which is analogous to the transitional phrase "consisting of' that excludes any element, step, or ingredient not specified in the claim. In re Gray, 53 F.2d 520, (CCPA 1931); Ex parte Davis, 80 USPQ 448, 450 (Bd. App. 1948) ("consisting of' defined as "closing the claim to the inclusion of materials other than those recited except for impurities ordinarily associated therewith"). Because you cannot have half of a metal atom the limitation of "more than 2" is interpreted to be at least 3 metal atoms while the limitation of "less than 27" is interpreted to be 26 metal atoms or fewer. Accordingly, claim 33 is directed to a product consisting of stable atomic clusters having 3 to 26 metal atoms. "[T]he Examiner's position [is] that Deutsch discloses metal clusters that are not only bound to ligands but also [includes] metal clusters that are free of ligands." (Ans. 2.) The Examiner finds "that Deutsch purposefully draws the metal clusters devoid of coordinating ligands. Also note that Deutsch states that the metal cluster may include other ions thus clearly contemplating metal clusters without other ions and situations where even if present the other ions may not even coordinate to the cluster!" (Ans. 5; see also FF3.) Based on the drawings, the Examiner reasons that Deutsch is in possession of "'isolated stable" atomic quantum clusters because before the ligands are added to the metal cluster Deutsch ... [is] in possession of the 'metal cluster precursor' which is the instantly claimed isolated stable atomic quantum cluster." (Final Act. 4.) "[T]he permissive language 'may' includes conditions where such ions are not present and thus the cluster is not always bonded to or complexed to a ligand as shown diagrammatically." (Ans. 6.) 5 Appeal2013-002042 Application 11/997 ,859 Appellants contend that "Deutsch does not consist of between 2 and 8 heavy metal atoms, because it is always bonded to or complexed to ... [at least one] ligand." (Br. 13.) Appellants contend that the Examiner's reliance on Deutsch's precursor clusters as anticipating the claimed AQCs in is in error because these precursor clusters are not isolated, stable, and between 2 and 8 heavy metal atoms (see Br. 11 ). We find that on this record Appellants have the better position. As noted by the Examiner the term "may" is a permissive term that is used to express a possibility or probability. In order to anticipate, the claimed limitations must unavoidably be present in the art. In the present case, the Examiner relies on the drawings to establish that Deutsch was in possession of the claimed AQCs (see FF3). We find that the reliance on the drawing alone is not sufficient to establish that these clusters were known in Deutsch to be present without a ligand. Drawings in chemistry do not always convey all the molecules that are attached to a core, as in this case where the core is a metal. Furthermore, we note that Deutsch uses these same cluster drawings in the claims. The language associated with the claim, however, conveys that "one or more coordinating ligands" are present on these clusters even though the ligand is not shown in the drawing (see Deutsch, claim 1 ). Because only one ligand needs to be attached to the cluster it would be burdensome to indicate all the possible clusters with all possible positions for the associated ligand. The Burst Declaration supports this understanding in the chemical arts. The Burst Declaration explains that, "as common in the chemical literature, [the at least one ligand is] not included in all drawings of the various possible arrangements of metal atoms." (Burst Dec. i-f 8.) Thus, the 6 Appeal2013-002042 Application 11/997 ,859 use of shorthand drawings that do not show the associated ligand does not establish that the clusters necessarily lack ligands. The Examiner contends "that the metal cluster may include other ions thus clearly contemplating metal clusters without other ions and situations where even if present the other ions may not even coordinate to the cluster!" (See Ans. 5.) We are not persuaded by the Examiner's interpretation that the possibility of an ion not coordinating into a cluster is evidence that the metal clusters are necessarily isolated and stable. (See Id.) The portion of Deutsch relied on by the Examiner recites that "[t]hese ions [such as 0 2-, s2-, c1-, p-, Br-, r-, acetate, or carboxylate] may or may not be directly coordinated to the metal ions in the cluster." (FF3 (emphasis added).) In this context, the recited ion ligands can be directly coordinated with a metal cluster. However, the recited ions 0 2-, s2-, c1-, p-, Br-, r-, acetate, or carboxylate in Deutsch (FF3) are not the only ligands contemplated in the reference. Here, Deutsch teaches other ligands that incorporate for example 0 and S, and these ions are part of a larger ligand structure (see Deutsch 3 and 4). Deutsch discloses that a ligand that can comprise "from 1 to 8 atoms which bond to the cluster, with a number of supporting atoms making up the framework of the ligand" (Deutsch 2: 16- 23). These larger ligands also bind metal clusters. Binding of a larger ligand to a metal cluster would mean that the 0 and S ions contained in the larger ligand would not be directly attached to the metal ion but instead would be indirectly attached due to intervening atoms. Thus, the Examiner's reliance on this section of Deutsch is not sufficiently persuasive to establish that Deutsch necessarily discloses metal clusters that are not associated with a ligand. 7 Appeal2013-002042 Application 11/997 ,859 Appellants contend that Deutsch's agents "'may be produced by synthesis of an appropriate metal cluster precursor and by substitution of appropriate ligands' ... [T]he proper reading of the term 'substitution' in this passage can only be understood as to show that the metal cluster precursor is always coordinated with a ligand, and that this ligand can be substituted by a different ligand." (Br. 13.) "[T]he Examiner's position is that the permissive term 'may' does not require the presence of an ion to be substituted with a ligand. Certainly in situations where an ion may be coordinated to the metal ions, it can be substituted with a ligand. However, Deutsch also contemplates a situation where ions are present but not coordinated to the metal cluster." (Ans. 6.) As explained above, we are not persuaded by the Examiner's position that Deutsch's recitation that "[t]hese ions may or may not be directly coordinated to the metal ions in the cluster" (see FF3) establishes that the metal clusters are necessarily present without ligands. The Examiner's interpretation that the use of the permissive term may in the context of the Deutsch reference indicates that clusters without ligands (ions) are contemplated (see Ans. 5Error! Reference source not found.) is not persuasive especially when viewed in the context of the entire Deutsch document. We agree with Appellants' position that with respect to the production of the clusters as disclosed in Deutsch the "substitution of appropriate ligands in the final step of synthesis" (see FF4) reasonably conveys that one ligand is substituted for another. Appellants contend that "[t]he term 'substitution' would mean unequivocally that there is a replacement of one thing by another." (Br. 13.) This position is also supported by the Burst Declaration that explains that one of ordinary skill in 8 Appeal2013-002042 Application 11/997 ,859 the art would understand "[s]ubstitution, as used both in the chemical literature and in general, indicates unequivocally that there is a replacement of one by another." (FF5.) In sum, as we are not persuaded, for the reasons discussed, that the Examiner has adequately explained how Deutsch describes, within the meaning of 35 U.S.C. Â§ 102(b ), atomic quantum clusters having the features required by claim 33, we reverse the Examiner's anticipation rejection of that claim, and their dependents, over Deutsch. SUMMARY We reverse the rejection of claims 33-36 under 35 U.S.C. Â§ 102(b) by Deutsch. REVERSED 9