10792937 (P.T.A.B. May. 7, 2013)

Ex Parte Pillar et al

Patent Trial and Appeal BoardMay 7, 2013

10792937 (P.T.A.B. May. 7, 2013)

UNITED STATES PATENT AND TRADEMARK OFFICE __________ BEFORE THE PATENT TRIAL AND APPEAL BOARD __________ Ex parte LONNIE L. PILLAR, MICHAEL J. BOURDEAU, MICHAEL A. CONTOS, and ROBERT A. SAILER __________ Appeal 2012-000450 Application 10/792,937 Technology Center 1600 __________ Before DEMETRA J. MILLS, ERIC GRIMES, and LORA M. GREEN, Administrative Patent Judges. GRIMES, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. § 134 involving claims to a method of identifying a source of microbial contamination in an electrocoating operation, which have been rejected for obviousness. We have jurisdiction under 35 U.S.C. § 6(b). We reverse. STATEMENT OF THE CASE The Specification describes a method of detecting microbial contamination in samples from an electrocoating operation using a detection Appeal 2012-000450 Application 10/792,937 2 device that causes light to be generated that is proportional to the amount of ATP, and therefore the amount of microbial cell activity, in the sample (Spec. 3:18-20, 4:8-18). The method can also be useful for finding areas of an electrocoat process that have higher contamination levels relative to other process areas. In an exemplary procedure, output readings from adjacently situated process areas can be compared and evaluated. This can be useful when practitioners wish to find the source of the micro-organism growth. (Id. at 9:4-8.) “Exemplary process areas and associated equipment within an electrocoating operation that may be analyzed for microorganism content include a paint tank, electrocoat bath, permeate, post rinse, . . . water supply,” etc. (id. at 5:5-8). Claims 33-40 are on appeal. Claim 33 is the only independent claim and reads as follows: Claim 33: A method, comprising: providing a continuous electrocoating operation, wherein the electrocoating operation comprises a plurality of process areas comprising an electrocoat material, wherein the process areas comprise a first process area and at least one other process area, and wherein the at least one process areas is adjacently situated to the first process area; taking a first sample of electrocoat material from the first process area and determining with a luminometer a level of microorganisms in the first process area, wherein the luminometer measures illumination emitted from ATP in a population of microorganisms in the first sample, and wherein the level of microorganisms in the first sample is determined in less than 1 hour; taking at least one second sample of electrocoat material from the at least one other process area and determining with a luminometer a level of microorganisms in the at least one other process area, wherein the luminometer measures illumination emitted from ATP in a population of microorganisms in the second sample, and wherein the level of microorganisms in the second sample is determined in less than 1 hour; Appeal 2012-000450 Application 10/792,937 3 comparing the level of microorganisms in the first sample to the level of microorganisms in the second sample(s) until a source of microorganism growth in the electrocoating operation is identified; and treating the source of microorganism growth. The Examiner has rejected claims 33-40 under 35 U.S.C. § 103(a) as obvious based on Winkowski,1 Chu,2 and Boyd3 (Answer 4). The Examiner finds that Winkowski discloses a method that meets or suggests most of the limitations of claim 33 (id. at 5), but “is silent regarding the use of a luminometer to measure ATP” (id. at 6) and “is also silent regarding monitoring an electrocoating process surface for microbial contamination” (id.). The Examiner finds that Chu discloses measuring ATP in activated sludge using a luminometer, and that Boyd discloses a method of determining the presence of bacteria or fungi in an electrocoating process (id.). The Examiner concludes that the combined references would have made obvious the detecting and treating steps of claim 33 (id. at 7-8), and that “the comparison step is a mental step, which in and by itself does not carry any patentable weight” (id. at 11). Appellants argue that Winkowski “advises that ‘routine micro- biological testing’ can be used to show that the ‘control measures and the control points are indeed effective’” (Appeal Br. 6), whereas the “claimed method compares contamination levels in different adjacent process areas in 1 Winkowski, Controlling Microbial Contamination, PAINT & COATINGS INDUSTRY 60-66 (July 2002). 2 Chu et al., Using ATP Bioluminescence Technique for Monitoring Microbial Activity in Sludge, 75 BIOTECHNOL. BIOENG. 469-474 (2001). 3 Boyd et al., US 6,872,291 B2, issued Mar. 29, 2005. Appeal 2012-000450 Application 10/792,937 4 the system and utilizes the relative contamination levels to identify the source of the contamination” (id. at 7). Appellants argue that Winkowski relies on a baseline monitoring strategy within each process area to identify whether or not that process area is contaminated. Once a skilled artisan established a contamination baseline in a particular process area, there would [be] no rational reason to compare the contamination level in that process area with the contamination level in a different process area. (Id. at 9.) We agree with Appellants that the Examiner has not persuasively shown that the cited references support a prima facie case of obviousness. We begin with claim interpretation. Claim 33 includes a step of “comparing the level of microorganisms in the first sample to the level of micro- organisms in the second sample(s) until a source of microorganism growth in the electrocoating operation is identified” (claim 33). The Examiner concluded that this step is merely “a mental step, which in and by itself does not carry any patentable weight” (Answer 11). We disagree. The final step of the claimed process is “treating the source of microorganism growth” (claim 33). The source of microorganism growth that is treated is the source that is identified by comparing the level of microorganisms in samples taken from adjacent process areas. Thus, although “comparing” the results of two assays can be a purely mental exercise, in this case, the claim requires taking further action as a result of the comparison. The “comparing” step therefore cannot be denied patentable weight on the basis that it is merely a mental step. Moreover, in determining whether a claim is obvious, an Examiner must make “a searching comparison of the claimed invention – including all its limitations Appeal 2012-000450 Application 10/792,937 5 – with the teachings of the prior art.” In re Ochiai, 71 F.3d 1565, 1572 (Fed. Cir. 1995). “[O]bviousness requires a suggestion of all limitations in a claim.” CFMT, Inc. v. Yieldup Intern. Corp., 349 F.3d 1333, 1342 (Fed. Cir. 2003) (citing In re Royka, 490 F.2d 981, 985 (CCPA 1974)). Winkowski discloses general guidelines for controlling microbial contamination in a paint manufacturing process (Winkowski 60). Winkowski discloses that “Potential Sources of Contamination (Control Points)” include water supplied to tanks, recycled water, and “process equipment/plant hygiene” (id. at 62, Table 3). Winkowski suggests “Control Measures and Monitoring Procedures for Each Control Point” (Table 4). The control measures include various antimicrobial treatments of water, frequent cleaning and sanitizing of equipment, and plant sanitation (id.). The monitoring procedures include checking antimicrobial measures such as chlorine levels and filters, as well as “Monitor[ing] cleanliness by regular inspections” (id.). Winkowski states that “[v]erification procedures, such as routine microbiological testing, provide the means to show that the control measures and the control points are indeed effective. Examples of microbial testing may include . . . rapid automated microbial methods (ATP determination, impedance changes).” (Id. at 66.) Winkowski states that the “results obtained through the verification procedures will allow the control measures to be adjusted if problems are encountered” (id.). Thus, Winkowski discloses that the various sources of potential contamination in a paint manufacturing process should be treated to minimize the chances of microbial contamination of the product, and that Appeal 2012-000450 Application 10/792,937 6 each of the control points should be monitored to ensure that the antimicrobial procedures are effective. Winkowski does not disclose comparing the level of microorganisms found in a sample from one control point with the level found in a sample from a second control point, and directing the antimicrobial treatment to the control point that is determined, based on the comparison, to be the source of the microbial growth. Rather, Winkowski discloses treating all control points with antimicrobial treatment, whether or not they are a source of microbial growth for other control points. The Examiner cites Chu only for its disclosure of a luminometer- based ATP assay (Answer 6) and cites Boyd only for its disclosure of monitoring and treating a surface (id.). The Examiner does not point to any disclosure in Chu or Boyd that would suggest comparing the level of microorganisms found in a sample from one process area with the level found in a sample from a second process area, and directing the antimicrobial treatment to the process area that is determined to be the source of the microbial growth. Thus, the Examiner has not presented evidence or sound reasoning to support a conclusion that identifying a source of microbial contamination based on a comparison of microorganisms in samples from two different process areas, and directing a treatment accordingly, would have been obvious based on the disclosures of Winkowski, Chu, and Boyd. Appeal 2012-000450 Application 10/792,937 7 SUMMARY We reverse the rejection of claims 33-40 as obvious based on Winkowski, Chu, and Boyd. REVERSED cdc