95002090 (P.T.A.B. Feb. 17, 2017)

Ex Parte 7947022 et al

Patent Trial and Appeal BoardFeb 17, 2017

95002090 (P.T.A.B. Feb. 17, 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. 95/002,090 08/20/2012 7947022 99821.009US2 4355 109545 7590 02/17/2017 C.R. Bard, Inc. c/o Greenblum & Bernstein, P.L.C. 1950 Roland Clarke Place Reston, VA 20191 EXAMINER WILLIAMS, CATHERINE SERKE ART UNIT PAPER NUMBER 3993 MAIL DATE DELIVERY MODE 02/17/2017 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 ________________ ANGIODYNAMICS, INC. Respondent, Requester v. Patent of C.R. BARD, INC. Appellant, Patent Owner ________________ Appeal 2015-004554 Inter Partes Reexamination Control 95/002,090 Patent No. US 7,947,022 B2 Technology Center 3900 ________________ Before STEVEN D.A. McCARTHY, DANIEL S. SONG and BRETT C. MARTIN, Administrative Patent Judges. McCARTHY, Administrative Patent Judge. DECISION ON REQUESTS FOR REHEARING In a “Decision on Appeal,” mailed March 29, 2016 (“Decision”), the 1 Board affirmed the Examiner’s decision rejecting claims 1–20 of Patent US 2 7,947,022 B2 (“ʼ022 patent”). The Patent Owner requests rehearing of our 3 decision affirming Grounds of Rejection A and C as applied to claims 1, 2, 4 6, 8 and 9; and affirming Grounds of Rejection E as applied to claims 3–5, 7 5 and 10–20. (See generally “Request for Rehearing,” dated April 29, 2016 6 Appeal 2015-004554 Reexamination Control 95/002,090 Patent US 7,947,022 B2 2 (“Reh’g Req.”)). The Requester opposes the Patent Owner’s request. (See 1 “Third Party Requester’s Comments in Opposition to Patentee’s Request for 2 Rehearing under 37 C.F.R. § 41.79(c),” dated May 31, 2016 (“Comm.”), at 3 1). We have continuing jurisdiction under pre-AIA 35 U.S.C. § 134(b) and 4 35 U.S.C. § 315(a). 5 We grant the request to the extent that we have reviewed and 6 considered the arguments presented by the Patent Owner and the Requester. 7 In addition, we modify our discussion of the Second Issue on pages 20–22 of 8 the Decision, taking into account the technical arguments presented by the 9 Patent Owner and the Requester. Apart from this, we deny the request. 10 11 ERRATA 12 The Patent Owner challenges our characterization of the pump 13 described in Medtronic, Inc., IsoMed Constant-Flow Infusion System 14 (bearing a 2000 copyright notice and the legend “Revised Sept. 2000”) 15 (“IsoMed”), as a “reciprocating pump.” (Reh’g Req. 1 & 2). As the Patent 16 Owner correctly points out, the characterization was “not argued by the 17 Examiner or either party.” (Reh’g Req. 1). Because the Patent Owner had 18 no previous knowledge that we understood the pump described in IsoMed to 19 be a “reciprocating pump,” it is appropriate for us to exercise our discretion 20 to take Official Notice that, in a reciprocating pump, “a cylindrical piston, 21 plunger, or bucket, or round diaphragm [is] caused to pass or flex back and 22 forth in a chamber.” (Req. Reh’g PO 2, n.1). The fact is capable of instant 23 and unquestionable demonstration by appeal to the reference cited by the 24 Patent Owner, J. Perry, CHEMICAL ENG’RS’ HANDBOOK 6–9 (McGraw-Hill 25 Book Company, 4th edition 1963). Although the Requester disputes the 26 Appeal 2015-004554 Reexamination Control 95/002,090 Patent US 7,947,022 B2 3 Patent Owner’s procedural entitlement to submit the dictionary definition at 1 this stage of the proceeding (see Comm. 1–3), the accuracy of the fact defies 2 dispute. See In re Ahlert, 424 F.2d 1088, 1091 (CCPA 1970). 3 As we found on pages 7 and 8 of the Decision, IsoMed describes an 4 IsoMed Constant-Flow Infusion System including an IsoMed Constant-Flow 5 pump and a Medtronic vascular catheter. (See IsoMed 2-2). The system is 6 implantable. (See IsoMed 1-3). The pump, as depicted in drawing figures 7 and photographs on pages 2-2 – 2-5 and A-6 of IsoMed, includes a generally 8 puck-shaped, titanium shell having an outlet or discharge port labeled in the 9 drawing figures as a catheter port. (See IsoMed 2-3 & 2-5). The shell 10 encloses a reservoir. A cap secured to one face of the shell retains a 11 polymeric, needle-penetrable septum in place over a center reservoir fill port 12 providing access to the reservoir from the exterior of the shell. (See IsoMed 13 2-3 & 2-4). 14 In addition, we find by a preponderance of the evidence that the 15 reservoir of the pump described by IsoMed necessarily expands or contracts 16 as the drug is drawn into, or expelled from, the reservoir. In the schematic 17 cross-sectional views of the pump reproduced at pages 2-3 and A-6 of 18 IsoMed, the space within the titanium shell includes the drug reservoir and a 19 propellant chamber. IsoMed teaches that a “pressurized gas is located 20 behind the reservoir, in the propellant chamber. The gas places a constant 21 pressure on the reservoir forcing the drug through the filter, capillary tubing 22 and catheter.” (IsoMed 2-3; see also id. at 4-7). In the schematic cross-23 sectional views reproduced at pages 2-3 and A-6, a divider appears to 24 separate the drug reservoir from the propellant chamber. One familiar with 25 the teachings of IsoMed could draw the reasonable inference that a gas-26 Appeal 2015-004554 Reexamination Control 95/002,090 Patent US 7,947,022 B2 4 impermeable membrane should separate the reservoir from the propellant 1 chamber to prevent the pressurized gas in the propellant chamber from 2 dissolving or dispersing into the drug stored in the drug reservoir. 3 The divider separating the drug reservoir from the propellant chamber 4 cannot be rigid and fixed in position relative to the titanium shell. 5 Otherwise, the reaction forces generated by the gas pressure in the propellant 6 chamber would be borne by the divider rather than imposed on the drug 7 stored in the drug reservoir, contrary to the quoted teachings of IsoMed. 8 This fact implies that the divider must be either flexible or moveable within 9 the titanium shell. IsoMed does not clearly indicate whether the divider is 10 flexible or moveable, or both. Either way, the lower bound of the drug 11 reservoir, corresponding to the facing surface of the divider, is not fixed. 12 The drug reservoir necessarily expands or contracts as the drug is drawn 13 into, or expelled from, the reservoir. 14 IsoMed does not disclose a mechanism for “caus[ing the divider] to 15 pass or flex back and forth in a chamber.” (See, e.g., 2-2, 2-3, 4-7 & A-6). 16 Neither does IsoMed teach connecting the pump to any such mechanism 17 during implantation. (See generally IsoMed 5-1 – 5-27). Although the 18 pump includes a “[b]ellows” as labeled in the drawing figure reproduced on 19 page A-6 of IsoMed, IsoMed does not explain the function of the bellows. 20 In this sense, the disclosure of IsoMed does not prove by a preponderance of 21 the evidence that the disclosed pump is properly characterized as a 22 “reciprocating pump.” 23 For this reason, we vacate the second sentence of FF 4, appearing at 24 lines 3–6 on page 8 of the Decision. FF 4 should read: 25 26 Appeal 2015-004554 Reexamination Control 95/002,090 Patent US 7,947,022 B2 5 --4. A propellant chamber and pump drive located within the shell 1 behind the reservoir uses pressurized gas to pump fluid from the reservoir 2 toward the catheter port. (IsoMed 2-3 and 2-4).-- 3 4 In addition, we vacate the paragraph bridging pages 20 and 21 of the 5 opinion (that is, the paragraph extending from page 20, line 16, to page 21, 6 line 4, of the Decision) and substitute the following: 7 8 --We assume for purposes of this appeal, because the Examiner does 9 not find otherwise, that the term “fluid cavity” reads only on the reservoir of 10 IsoMed’s access port and not on the entire interior of the titanium shell. The 11 reservoir necessarily expands or contracts within the titanium shell as the 12 drug is drawn into, or expelled from, the reservoir. The limits within which 13 the reservoir may expand within the shell are fixed or marked by the lower 14 wall of the shell. In other words, the outline of the reservoir in its most 15 expanded state (that is, when the propellant chamber is in its most contracted 16 state) is delineated by the lower wall of the shell. Therefore, IsoMed 17 describes an access port assembly including “a body defining a fluid cavity 18 accessible by inserting a needle through a septum,” even when that 19 limitation is interpreted as proposed by the Patent Owner.-- 20 21 GROUNDS A & C 22 In its request for rehearing, the Patent Owner challenges our 23 affirmance of the Examiner’s decision rejecting claims 1, 2, 6, 8 and 9 under 24 pre-AIA 35 U.S.C. § 102(b) as being anticipated by IsoMed. Independent 25 claim 1 recites an access port including “a body defining a fluid cavity 26 Appeal 2015-004554 Reexamination Control 95/002,090 Patent US 7,947,022 B2 6 accessible by inserting a needle through a septum.” We agree with the 1 Patent Owner that the term “fluid cavity” reads only on the drug reservoir of 2 IsoMed’s access port and not on the entire interior of the titanium shell. (See 3 Decision 20, as corrected). The Patent Owner asserts that the drug 4 “reservoir is only one of many elements located inside the titanium shell 5 (housing) of IsoMed.” (Reh’g Req. 4). The Patent Owner argues that the 6 titanium shell of IsoMed’s access port corresponds to the “body” recited in 7 claim 1; and that the shell fails to define the drug reservoir. (See id.) 8 During an appeal from a reexamination, claims are given their 9 broadest reasonable interpretation consistent with the Specification. See In 10 re American Acad. of Sci. Tech. Ctr., 367 F.3d 1359, 1364–65 (Fed. Cir. 11 2004). The Patent Owner’s arguments require us to interpret the words 12 “body” and “defining” as used in claim 1. 13 The ʼ022 patent uses the names “body” and “housing” 14 interchangeably. (see, e.g., ʼ022, patent, col. 4, ll. 5–7). The Patent Owner 15 does not formally define the word “body,” either in the ʼ022 patent or in the 16 briefs. The ʼ022 patent does identify several functions performed by the 17 housings of disclosed embodiments, however. The body 20 captures the 18 septum 18. (See ʼ022 patent, col. 4, ll. 7 & 8; id., Fig. 1B). The body 20, 19 together with the septum 18, defines a cavity that acts as a reservoir to 20 supply fluid to an outlet. (See ʼ022 patent, col. 4, ll. 14–16 & Fig. 1B). 21 Although the word “body” cannot be construed as limited to one or more 22 particular housings described in the ʼ022 patent, defining the word “body” as 23 at least broadly enough to encompass structure configured to support the 24 septum, and to define the reservoir together with the septum, is consistent 25 with the ordinary meaning of the word. 26 Appeal 2015-004554 Reexamination Control 95/002,090 Patent US 7,947,022 B2 7 Nothing in the written description of the ʼ022 patent suggests that the 1 “housing” or “body” is limited to a monolithic structure rather than an 2 assembly of parts.1 The assembly combining the titanium shell described in 3 IsoMed with the divider separating the drug reservoir from the propellant 4 chamber corresponds to the “body” recited in independent claim 1. As 5 depicted in drawing figures on pages 2-3 and A-6 of IsoMed, the shell 6 captures and supports the septum in a center reservoir fill port. The divider, 7 together with the septum, defines the drug reservoir in the sense that facing 8 surfaces of the divider and the septum coincide with outer bounds of the 9 reservoir. As such, the combination of the titanium shell and the divider 10 constitutes the body of the access port; and the body defines the fluid cavity 11 or reservoir. (See Comm. 4–6). 12 Even if one of ordinary skill in the art understood the word “body” to 13 correspond only to the titanium shell, the needle-penetrable septum and the 14 housing together still would define the drug reservoir. The Patent Owner 15 defines the word “defining” as used in claim 1 as “to fix or mark the limits 16 of” (citing “Merriam Webster online dictionary”), “to delineate the outline 17 or form of” (citing the “Free Dictionary online”) or “to determine or fix the 18 boundaries or extent of” (citing “Dictionary.com”). (App. Br. PO 10). As 19 these definitions suggest, the scope of the word “defining” is relatively 20 broad. 21 1 The prosecution history of Application 12/420,028, which issued as the ʼ022 patent, indicates that the language “a body defining a fluid cavity accessible by inserting a needle through a septum” was part of claim 1 as originally filed. The Patent Owner has not identified any amendment or argument that might shed light on the meaning of the language. Appeal 2015-004554 Reexamination Control 95/002,090 Patent US 7,947,022 B2 8 The usage of the word in the ʼ022 patent is consistent with this 1 breadth. For example, one housing 20 described in the ʼ022 patent includes 2 a cap 14 and a base 16. The cap 14 and the base 16 cooperate to capture and 3 support the septum 18. (See ʼ022 patent, col. 4, ll. 7 & 8; id., Fig. 1B). The 4 ʼ022 patent teaches that the “cap 14, base 16, and septum 18 may 5 collectively define a cavity 36 in fluid communication with a lumen 29 of 6 outlet stem 31.” (ʼ022 patent, col. 4, ll. 14–16). Figure 1B of the ʼ022 7 patent depicts the cap 14, the base 16, the septum 18 and the cavity 36. As 8 depicted in Figure 1B, the cap 14 as depicted in Figure 1B does not share 9 any surface with the cavity 36. This reference indicates that the Patent 10 Owner used the term “defining” sufficiently broadly to encompass structure 11 that lacks a surface coinciding with one of the surfaces of the reservoir. 12 The limits within which the reservoir of IsoMed may expand within 13 the shell are delimited by the lower wall of the shell. This is true even 14 though the Examiner has not proven that the reservoir of IsoMed could 15 expand sufficiently for the divider to contact the lower wall of the shell. The 16 usage of the term “defining” in the ʼ022 patent is sufficiently broad to 17 encompass structures that do not contact the reservoir directly; and the 18 reservoir of IsoMed cannot expand so as to exceed the confines of the 19 interior of the shell. Therefore, we adhere to our finding that the body of the 20 access port described by IsoMed defines the fluid cavity, as recited in claim 21 1, even were the term “body” read narrowly to correspond to the shell of the 22 access port alone. (See Comm. 7 & 8). 23 Appeal 2015-004554 Reexamination Control 95/002,090 Patent US 7,947,022 B2 9 GROUND E 1 In its request for rehearing, the Patent Owner challenges our 2 affirmance of the Examiner’s decision rejecting claims 3–5, 7 and 10–20 3 under § 103(a) as being unpatentable over IsoMed, Jones and “the well-4 known techniques disclosed in the analogous prior art to convey to a 5 practitioner various information, characteristics and/or intended uses of other 6 implanted medical devices.” (RAN 13; see also RAN 11). Claim 3 recites 7 the “access port according to claim 1, wherein the radiopaque identification 8 feature is defined on a bottom surface of the access port.” Independent 9 claim 10 similarly recites an access port having a “radiopaque identification 10 feature included on a bottom surface of the access port.” The pump 11 described in IsoMed includes a small, radiographic tag within the titanium 12 shell. The tag is marked with a “Medtronic identifier,” the model number, 13 the reservoir volume and the flow rate. (See IsoMed 2-4; see also Decision 14 8 (FF 5)). IsoMed does not include an alphanumeric message applied to the 15 bottom surface of the pump. 16 IsoMed describes a refill procedure for the pump. One step of this 17 procedure is to “[p]alpate the pump area to confirm the general pump 18 location and location of the raised center reservoir fill port and side catheter 19 access port.” (IsoMed 6-7). IsoMed also teaches that, in the event that the 20 center reservoir fill port cannot be located by palpation, one should “x-ray 21 the pump to verify pump orientation. If the pump has inverted in the pocket 22 (‘flipped’), the model number will appear backwards on the x-ray.” 23 (IsoMed 7-6; see also Decision 8 (FF 5)). 24 In the Decision, we found that: 25 Appeal 2015-004554 Reexamination Control 95/002,090 Patent US 7,947,022 B2 10 Jones teaches addressing the problem of detecting whether an 1 implanted access port assembly is inverted within a patient by 2 providing the assembly with radiopaque locators positioned 3 along parallel planes spaced along the height of the injection 4 port. (See FF 15 and 16; see RAN 15). Jones describes 5 positioning one of the locators on the bottom of the port. (See 6 FF 17; see also Resp. Br. Req’r 30). Although Jones does not 7 provide an explicit reason for positioning one of the locators on 8 the exterior surface of the bottom wall, Jones does teach that the 9 locators must be spaced to provide a clear indication of 10 orientation. (See FF 16). The Examiner correctly finds that “it 11 would have been obvious to provide additional characters onto 12 the housing base of IsoMed as taught by the Jones patent . . . 13 [because such] multiple identifiers on the port [could] assist in 14 preventing backside injections.” (RAN 15). 15 (Decision 29). 16 The Patent Owner argues that it would not have been obvious to either 17 supplement the small, radiographic tag described in IsoMed with an 18 additional radiographic locator positioned on the bottom surface of the 19 pump; or to substitute spaced radiographic locators, one of which was 20 positioned on the exterior of the pump, for the described radiographic tag. 21 More specifically, the Patent Owner pointed out that, “[t]o determine 22 whether the IsoMed pump was inverted or ‘flipped’ when implanted an x-23 ray would be taken from the top view to see if the model number appears 24 backwards.” (Reh’g Req. 5). The Patent Owner also points out that, 25 “[w]hen Jones is viewed by x-ray from above, i.e., the top, the image shown 26 in Fig. 5a [of Jones] would be the same if the port were right-side up or 27 upside down. . . . In sum, viewing Jones from a top view would not reveal 28 whether the port is inverted.” (Reh’g Req. 6, citing Jones, col. 4, ll. 34–41). 29 Based on these facts, the Patent Owner argues that “there would have been 30 Appeal 2015-004554 Reexamination Control 95/002,090 Patent US 7,947,022 B2 11 no motivation for a [person of ordinary skill in the art] to incorporate the 1 radiopaque locators from Jones on the IsoMed pump as it would provide no 2 benefit.” (Reh’g Req. 6 & 7) 3 The Requester correctly points out that Jones teaches locating an 4 access port incorporating Jones’s locators by means of a radiographic image 5 taken perpendicularly to the anticipated orientation of the port (that is, from 6 the top). Jones then teaches determining whether the access port has been 7 inverted by means of a second radiographic image taken at an oblique angle 8 to the anticipated orientation of the port (that is, from the side). (See Comm. 9 Req’r 9 & 10, quoting Jones, col. 4, ll. 41–59). 10 One of ordinary skill in the art would have had reason to merely 11 substitute one known means for detecting whether an implanted pump was 12 inverted, namely, the use of radiopaque locators positioned along parallel 13 planes spaced along the height of the injection port as taught by Jones, for 14 another known means, namely, the small, radiographic tag described by 15 IsoMed. See KSR Int’l Co. v. Teleflex Inc., 550 U.S. 398, 416 (2007)(“The 16 Court recognized that when a patent claims a structure already known in the 17 prior art that is altered by the mere substitution of one element for another 18 known in the field, the combination must do more than yield a predictable 19 result.”). Alternatively, one of ordinary skill in the art had reason to 20 combine radiopaque locators positioned along parallel planes spaced along 21 the height of the injection port, as taught by Jones, with a small, 22 radiographic tag, as taught by IsoMed, to provide redundant indicators that 23 the pump was inverted. The Patent Owner has not identified any results that 24 such a substitution or combination might yield other than predictable results 25 suggested by the teachings of IsoMed and Jones. 26 Appeal 2015-004554 Reexamination Control 95/002,090 Patent US 7,947,022 B2 12 In order to implement the proposed substitution or combination, one 1 would have had to modify IsoMed’s instructions for locating the pump and 2 for determining whether the pump was inverted during a refill procedure. 3 Instead of locating the pump solely by palpation and then radiographically 4 imaging the pump from the top in the event that the caregiver was unable to 5 feel the center reservoir fill port, as instructed by IsoMed, one would have 6 had to locate the pump by radiographically imaging the pump from the top 7 and then, in the event that the caregiver was unable to feel the center 8 reservoir fill port, use another radiographic image taken from the side to 9 determine or confirm whether the pump was inverted, as taught by Jones. 10 This modification to the refill procedure would have been within the level of 11 ordinary skill as indicated by the teachings of IsoMed and Jones; and would 12 not have been so onerous as to have discouraged one familiar with the 13 teachings of Jones from making the proposed substitution. We are 14 persuaded that one of ordinary skill in the art would have had reason to 15 make the proposed substitution or combination despite the objective 16 evidence presented by the Patent Owner and discussed on pages 35 and 36 17 of the Decision. 18 Although the Patent Owner did not address the objective evidence in 19 its Rehearing Request, we have reconsidered that evidence in view of the 20 Patent Owner’s arguments regarding the patentability of claims 3–5, 7 and 21 10–20. We adhere to FF 19–28 on pages 12–17 of the Decision; and to our 22 conclusion that the probative weight of the evidence supporting Ground E as 23 to claims 3–5, 7 and 10–20 outweighs the probative value of the objective 24 evidence. We are persuaded that one of ordinary skill in the art would have 25 had reason to make the proposed substitution or combination despite the 26 Appeal 2015-004554 Reexamination Control 95/002,090 Patent US 7,947,022 B2 13 objective evidence presented by the Patent Owner and discussed on pages 31 1 and 32 of the Decision. The Patent Owner has not shown that we 2 misapprehended or overlooked any point in affirming the Examiner’s 3 decision rejecting claims 3–5, 7 and 10–20 based on Ground E. 4 5 DECISION 6 Except as otherwise stated in this opinion, we DENY the request for 7 rehearing. 8 Requests for extensions of time in this inter partes reexamination 9 proceeding are governed by 37 C.F.R. § 1.956 (2011). A party seeking 10 judicial review must timely serve notice on the Director of the United States 11 Patent and Trademark Office. See 37 C.F.R. §§ 90.1 and 1.983. 12 13 DENIED 14 Appeal 2015-004554 Reexamination Control 95/002,090 Patent US 7,947,022 B2 14 Patent Owner: C.R. BARD, INC. C/O GREENBAUM & BERNSTEIN, P.L.C. 1950 ROLAND CLARKE PLACE RESTON, VA 20191 Third Party Requester: CADWALADER, WICKERSHAM & TAFT LLP ONE WORLD FINANCE CENTER NEW YORK, NY 10281