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ORDER GRANTING DEFENDANTSâ MOTION FOR SUMMARY JUDGMENT OF NONINFRINGEMENT OF THE '989 AND '419 PATENTS, DENYING PLAINTIFFâS MOTION FOR SUMMARY JUDGMENT OF INFRINGEMENT, AND DENYING DEFENDANTSâ MOTION TO STRIKE ILLSTON, District Judge. Now before the Court are the partiesâ cross-motions for summary judgment, which were submitted without oral argument pursuant to Civil Local Rule 7-1 (b), and defendantsâ motion to strike what they claim is new evidence improperly submitted with plaintiffs reply. Having carefully considered the submitted papers, and for good cause shown, the Court hereby GRANTS defendantsâ motion for summary judgment and DENIES plaintiffs cross-motion. In addition, the Court DENIES defendantsâ motion to strike as being moot. BACKGROUND On November 7, 2003, plaintiff Transonic Systems, Inc. (âTransonicâ) sued defendants Fresenius USA, Inc. and Fresenius Medical Care Holdings, Inc. (âFreseniusâ) for infringement of two patents owned by Transonic, U.S. Patent Nos. 5,685,989 (âthe '989 patentâ) and 6,514,419 B2 (âthe '419 patentâ). Transonic and Fresenius both develop and market technology related to kidney dialysis. Patients are prepared for dialysis by having a shunt surgically implanted, connecting an artery and a vein; blood flows naturally from the arterial or âupstreamâ end of the shunt to the venous or âdownstreamâ end. See Krivit-ski Deck ¶ 12. Dialysis works by drawing blood from the upstream (arterial) end of the shunt into one chamber of a two-chamber dialyzer. See id. at ¶¶ 13-15. An electrolyte solution called âdialysateâ is pumped through the other dialyzer chamber. See id. A semipermeable membrane separates the two chambers, allowing certain particles to diffuse through it in either direction. See id. Urea and other impurities that are present in the blood but not in the dialysate are thus drawn into the dialy-sate, which flows out of the dialysate chamber and is discarded. See id. at ¶ 16. The cleaned blood then flows back into the shunt downstream of the location from which it was drawn into the dialyzer. See id. at ¶ 13. A problem called ârecirculationâ can occur if the downstream portion of the shunt becomes clogged, as this causes already-cleaned blood to be drawn back into the dialyzer. See id. at ¶20. *1084 The Transonic patents and the method used by Fresenius each seek to calculate the rate of blood flow through the shunt to determine whether recirculation is reducing dialysis efficiency to an undesirable extent. See id. at ¶ 21; Ward Decl. ¶ 36. 1 I. Transonicâs Patents The '989 and '419 patents teach a method of ascertaining the rate of shunt blood flow through principles of indicator dilution. See '989 patent col. 1,11. 50-65; '419 patent col. 1, 1. 60 â col 2, 1. 6. Specifically, Transonicâs method requires the temporary reversal of the blood lines such that blood is drawn into the dialyzer chamber from the downstream end of the shunt and returned to the shunt at the upstream location, maximizing recirculation for the purpose of flow rate calculation. See '989 patent col. 2,11. 1-34; '419 patent col. 2, ii. 6-40. An indicator, such as sodium, is then injected into the upstream line, from which it enters the shunt and mixes with the blood flowing through the shunt. See id. This mixed blood is then drawn up into the dialyzer chamber through the downstream line. See id. The sodium concentration of the mixed blood in the downstream line is ascertained by measuring the sound velocity of the blood, and this value is then used in an indicator dilution equation that solves for the shunt blood flow rate. See id. II. The Fresenius Method Freseniusâ method, for which it has obtained U.S. Patent No. 6,648,845 (âthe '845 patentâ), calculates shunt blood flow through measurements of dialysis efficiency called âdialysance.â Ward Decl. ¶¶ 45-47. This is done by increasing the concentration of a particle contained in the inflow dialysate, typically sodium, 2 which then enters the chamber and interacts with the blood through the membrane until the sodium level in the dialysate reaches a steady state. See id. at ¶¶ 33, 40 . Once steady state is reached, a single reading of inlet and outlet dialysate conductivity is taken. See id. at ¶ 40 . The dialysate sodium concentration is then reduced, and the same reading is taken when sodium concentration again reaches steady state. See id. These two values are used to calculate dialysance. See id. The Fresenius method requires one dialysance measurement with the blood lines in their standard configuration and a second dialysance measurement with the blood lines reversed. See id. at ¶¶ 46^7. These two dialysance measurements can then be used to calculate shunt blood flow. See id. at ¶ 50 . Now before the Court are Freseniusâ motion for summary judgment of nonin-fringement of the '989 and '419 patents and Transonicâs cross-motion for summary judgment of infringement of the same patents, as well as Freseniusâ motion to strike *1085 what it alleges is new evidence submitted with Transonicâs reply brief. LEGAL STANDARD âSummary judgment is appropriate in a patent case, as in other cases, when there is no genuine issue as to any material fact and the moving party is entitled to judgment as a matter of law.â Nike Inc. v. Wolverine World Wide, Inc., 43 F.3d 644, 646 (Fed.Cir.1994) (citations omitted). The moving party bears the initial burden of demonstrating the absence of a genuine issue of material fact. See Celotex Corp. v. Catrett, 477 U.S. 317, 323 , 106 S.Ct. 2548 , 91 L.Ed.2d 265 (1986). The burden then shifts to the non-moving party to âdesignate âspecific facts showing there is a genuine issue for trial.â â Id. at 324 , 106 S.Ct. 2548 (quoting Rule 56(e)). To carry this burden, the non-moving party must âdo more than simply show that there is some metaphysical doubt as to the material facts.â Matsushita Elec. Indus. Co., Ltd. v. Zenith Radio Corp., 475 U.S. 574, 586 , 106 S.Ct. 1348 , 89 L.Ed.2d 538 (1986). âThe mere existence of a scintilla of evidence ... will be insufficient; there must be evidence on which the jury could reasonably find for the [non-moving party].â Anderson v. Liberty Lobby, Inc., 477 U.S. 242, 252 , 106 S.Ct. 2505 , 91 L.Ed.2d 202 (1986). Summary judgment is proper âif the pleadings, depositions, answers to interrogatories, and admissions on file, together with the affidavits, if any, show that there is no genuine issue as to any material fact and that the moving party is entitled to a judgment as a matter of law.â Fed. R.Civ.P. 56(c). To establish infringement every limitation in a claim must be in the accused product, either exactly or by substantial equivalent. See Carroll Touch, Inc., v. Electro Mechanical Systems, 15 F.3d 1573, 1576 (Fed.Cir.1993). A claim is literally infringed if the accused product is exactly the same as each element of the asserted claim. See Hi-Life Products, Inc. v. American National Water-Mattress Corp., 842 F.2d 323, 325 (Fed.Cir.1988). Even if a product does not literally infringe it may infringe under the doctrine of equivalents. See Warner-Jenkinson Co. v. Hilton Davis Chemical Co., 520 U.S. 17, 21 , 117 S.Ct. 1040 , 137 L.Ed.2d 146 (1997). âA claim element is equivalently present in an accused device if only âinsubstantial differencesâ distinguish the missing claim element from the corresponding aspects of the accused device.â Sage Prods., Inc. v. Devon Indus. Inc., 126 F.3d 1420, 1423 (Fed.Cir.1997). DISCUSSION I. Literal Infringement Fresenius moves for summary judgment of non-infringement of the '989 and '419 patents on the grounds that its method does not practice any of three limitations contained in virtually identical form in Claim 1 of the '989 patent and Claims 1 and, 10 of the '419 patent. Transonic moves for summary judgment of infringement on grounds that Fresenius practices each of the same three limitations. 3 These three limitations shall be referred to as the âchangingâ limitation, the âmeasuringâ limitation, and the âcalculatingâ limitation. *1086 The three limitations shall be examined in turn. A. âChangingâ The âchangingâ limitation is expressed as follows: Claim 1 of the '989 patent: âchanging a selected blood parameter in blood flowing in said circulating system to produce a distinguishable blood characteristic in blood which is delivered to the arterio-venous shuntâ Claim 1 of the '419 patent: âchanging a selected blood parameter in blood flowing in the circulating system to produce a measurable physical characteristic of the blood which is delivered to the arter-io-venous shuntâ Claim 10 of the '419 patent: âchanging a selected blood parameter in blood flowing in the circulating system to produce a distinguishable blood characteristic in blood which is delivered to the arterio-venous shuntâ In other litigation dealing with the '989 patent, the Federal Circuit has upheld a construction of âchangingâ as meaning âto make different, modify, or alter.â Transonic Sys. v. Non-Invasive Med. Techs. Corp., 10 Fed.Appx. 928, 931, 933 (Fed.Cir. 2001). In doing so, the court upheld the lower courtâs determination that âchangingâ does not require the injection of an indicator into the blood. See id. The parties do not dispute that this construction governs, but Fresenius argues that the Fresenius method does not change a âselectedâ blood parameter because it changes dialysate, not blood. Fresenius seeks to apply a dictionary definition of âselectedâ in this context as meaning âsingled out in preferenceâ or âchoosing a selected parameter,â contending that its method only singles out a dialysate parameter for change. 4 American Heritage Dictionary Second College Edition 1111 (2d ed.1982); Ward Decl. ¶ 72-75. Fresenius further argues that the change in blood sodium concentration that does occur as a consequence of sodium diffusion across the membrane is merely incidental. Transonic agrees with this definition, but argues that blood sodium concentration is the selected blood parameter since introduction of more sodium in the dialy-sate inherently causes an increase in blood sodium through diffusion. Transonic also argues that the entire purpose of changing the dialysate is to produce a corresponding change in the blood since the Fresenius method would not otherwise work, and it is irrelevant that this change is accomplished indirectly. Transonicâs argument is persuasive. Dr. Frank Gotch, the named inventor on Freseniusâs '845 patent, acknowledges that the Fresenius method would not work if changing the sodium concentration of the dialysate did not change the sodium concentration of the blood, since the inlet and outlet dialysate sodium concentrations would otherwise be identical. See Gotch Dep. at 48:18-49:4. The Fresenius method depends on altering a blood characteristic, as that alteration is intertwined with the required change in dialysate. The Federal Circuitâs construction of âchangingâ as encompassing methods other than the direct addition of an indicator into the blood forecloses any argument that a method which changes the blood through changing the dialysate does not fall into the âchangingâ limitation. Fresenius also argues, based on the principle that a claim should be interpret *1087 ed in the context of the entire patent, that the âchangingâ limitation should be read to require that the measurable blood characteristic be measured, since measurement of the change is the ultimate purpose of the âchangingâ limitation. See Vitronics Corp. v. Conceptronic, Inc., 90 F.3d 1576, 1582 (Fed.Cir.1996) (courts must first look to the patent itself, including its claims and specification, when construing the meaning of a limitation). Under this reading, Fre-senius contends that its method does not infringe the âchangingâ limitation because it never measures blood. Ward Decl. ¶ 77. However, this argument presupposes that the Fresenius method does not measure blood, which is a separate question to be answered when examining the âmeasuringâ limitation. Freseniusâ argument goes well beyond examining the rest of the patent to seek guidance on construction of the âchangingâ limitation, and instead subsumes the âmeasuringâ limitation within the âchangingâ limitation. A reading of the âchangingâ limitation that includes a measurement element impermissibly risks rendering the âmeasuringâ limitation superfluous. See Merck & Co. v. Teva Pharms. USA, Inc., 395 F.3d 1364, 1372 (Fed.Cir.2005) (a claim construction that gives meaning to all terms of the claim is preferred to one that does not). The âchangingâ limitation in claim 1 of the '419 patent only requires that the change be âmeasurable,â not that it be measured. Here, the introduction of sodium changes a âselected blood parameter,â and there is no dispute that this characteristic could be measured. Furthermore, no argument is advanced that the change in blood is not âdistinguishableâ as per the '989 patent and claim 10 of the '419 patent. In sum, Transonic has met its burden of showing that there is no issue of material fact on whether the Fresenius method changes a selected blood parameter that is measurable as described in the patents-in-suit. Accordingly, the Court finds that Fresenius literally infringes the âchangingâ limitation of the three claims at issue. B. âMeasuringâ The âmeasuringâ limitation is expressed as follows: Claim 1 of the '989 patent: âmeasuring the amount of distinguishable blood characteristic in said removed portion of mixed bloodâ Claim 1 of the '419 patent: âmeasuring the measurable physical characteristic of the blood in the removed portion of combined bloodâ Claim 10 of the '419 patent: âmeasuring the amount of distinguishable blood characteristic in the removed portion of mixed bloodâ Relying on a dictionary, Fresenius asserts that the plain meaning of âmeasureâ is to âascertain the dimensions, quantity, or capacity.â American Heritage Dictionary Second College Edition 776 (2d ed.1982). Under this definition, it argues that its method does not measure blood, since no quantitative value for a blood parameter is ever derived under its method. It contends that its method only measures dialy-sate parameters. Ward Decl. ¶¶ 73-76. Based on an online dictionary, Transonic argues for a broader construction of âmeasuringâ as meaning to âjudge the quality, effect, importance, or value of something.â Briggs Decl. Ex. 5. Transonic contends that Fresenius is measuring a ratio of concentration differences, and that the ratio of sodium concentration changes in the dialysate is equal to the ratio of the sodium concentration changes in the blood at the steady state point when Fresenius makes its measurements. See Gucken-heimer Decl. ¶¶ 27-31; Guckenheimer Supp. Decl. ¶ 61. Transonic further argues that this constitutes an indirect measurement of the blood that falls within the limitations of its patents. See Gucken-heimer Decl. ¶¶ 27-3 1. *1088 Words within patent claims have the âmeaning and scope with which they are used in the specification and prosecution history.â Kinik Co. v. ITC, 362 F.3d 1359, 1365 (Fed.Cir.2004). The word âmeasuringâ in the '989 and '419 patents is used solely in the context of quantifying a parameter of mixed blood, since this measurement is then used as a factor in an equation that solves for shunt blood flow. See Krivitski Decl. ¶ 22 (final step of Transonicâs process is âcalculating the access flow from the changed blood characteristic so measuredâ). Nothing in the patents suggests that the term âmeasuringâ can mean anything other than ascertaining a quantitative value for a blood parameter. Transonicâs proposed definition of the word âmeasureâ as meaning to âjudgeâ is not consonant with its usage in the patents, as a âjudgmentâ cannot be used as a factor in an equation. The Court cannot adopt a dictionary definition of âmeasuringâ that is inconsistent with its usage in the patent. See Phillips v. AWH Corp., 415 F.3d 1303, 1321 (Fed.Cir.2005). The definition advanced by Fresenius, in which âmeasurementâ means the ascertainment of a numeric value for some intrinsic property of blood, is the definition under which the Transonic method functions. The Court adopts this definition to analyze whether the Fresenius method infringes. Freseniusâ method does not produce such a quantitative value. Even if the steady state ratios of concentration differences of dialysate sodium and blood sodium are equal, as Transonic argues, such a ratio is not a âmeasurementâ within the meaning of the patent since it does not produce a numeric value for a blood characteristic. Transonic argues that Freseni-usâ witness has conceded that the concept of âmeasuringâ includes measurements of relative changes in value, and that the language of dependent claims 14, 20, and 24 in the '419 patent adds the concept of âmeasuring a value proportionalâ to the change in concentration of the blood characteristic to the âmeasuringâ limitation. Transonic asserts that these two facts mean that a measurement of a ratio of concentration differences is included in the âmeasuringâ limitation. However, the proportional measurement described in the cited dependent claims is an absolute measurement of a blood parameter, and is performed so that the measurement can then be used in an indicator dilution equation to solve for flow rate. See Krivitski Deck ¶¶ 24-25 (describing how a sensor that measures the electrical conductivity of blood can be used when sodium is used as an indicator, and that the form of the indicator dilution equation under this embodiment is based on units of conductivity). The claim language on âmeasuring a value proportionalâ to the change in blood sodium concentration therefore does not encompass a âratio of concentration differences.â Any âratio of concentration differencesâ produced under the Fresenius method is not a quantitative assessment of a property of blood as is required to practice the method taught by the patents-in-suit. For these reasons, even if the facts are construed in Transonicâs favor, the Court concludes that Fresenius does not literally infringe the âmeasuringâ limitation of the '989 and '419 patents. C. âCalculatingâ or âDeterminingâ The âcalculatingâ/âdeterminingâ limitation is expressed as follows: Claim 1 of the '989 patent: âcalculating the rate of flow of said shunt blood flow in said arterio-venous shunt from said measured amount of distinguishable blood characteristicâ Claim 1 of the '419 patent: âdetermining the rate of flow of the shunt blood flow in the arterio-venous shunt corresponding to the measured measurable physical characteristic of the bloodâ *1089 Claim 10 of the '419 patent: âcalculating the rate of flow of the shunt blood flow in the arterio-venous shunt from the measured amount of distinguishable blood characteristicâ wherein such rate is calculated using one of the listed indicator dilution equations or a derivation thereof. The parties offer competing testimony on whether the equations used in the Freseni-us method embody the principles of indicator dilution as expressed in the equations taught by the '989 and '419 patents. However, since Fresenius does not infringe upon the âmeasuringâ limitation, the Court need not resolve the partiesâ dispute over the equivalence of their respective mathematical equations. 5 II. Doctrine of Equivalents Fresenius contends that it does not infringe the âmeasuringâ limitation under the doctrine of equivalents because (1) prosecution history estoppel applies, and (2) the âmeasuringâ limitations of the patents-in-suit perform a substantially different function in a substantially different way from the âmeasuringâ feature of the Fresenius method. The Court agrees with the latter argument. To infringe under the doctrine of equivalents, the âmeasuringâ feature of the Fre-senius method must perform substantially the same function in substantially the same way to achieve substantially the same result as the âmeasuringâ limitations of the Transonic patents. See Aquatex Indus, v. Techniche Solutions, 419 F.3d 1374, 1382 (Fed.Cir.2005). The role played by the âmeasuringâ limitation in the context of the patent claim informs this inquiry. See Warner-Jenkinson Co. v. Hilton Davis Chem. Co., 520 U.S. 17, 40 , 117 S.Ct. 1040 , 137 L.Ed.2d 146 (1997). If the limitation âmust play a role in the context of the specific claim language, then an accused device which cannot play that role, or which plays a substantially different role, cannot infringe under the doctrine of equivalents.â Vehicular Techs. Corp. v. Titan Wheel Intâl, Inc., 141 F.3d 1084 , 1090 (Fed.Cir.1998). Transonicâs âmeasuringâ limitation accomplishes its function through the use of a sensor that measures the electrical conductivity, or some other property, of blood. See Krivitski Decl. ¶¶ 24-25. In contrast, the Fresenius methodâs âmeasuringâ element accomplishes its function by measuring sodium concentration of the dialysate. See Guckenheimer Decl. ¶¶ 34-35; Ward Decl. ¶¶ 121-122. Measuring dialysate is substantially different from measuring blood. This is particularly true because it is not possible to derive one measurement from the other. The practice of Transonicâs âmeasuringâ limitation produces a numerical value for a blood characteristic, while the âmeasuringâ function of the Fre-senius method is unable to play this role. The two âmeasuringâ features therefore operate in substantially different ways. Accordingly, the Court finds that the Fre-senius method does not infringe the âmeasuringâ limitation of the patents-in-suit under the doctrine of equivalents. III. Defendantâs Motion to Strike Fresenius has filed for leave to file a motion to strike the supplemental declaration of Dr. John Guckenheimer submitted with Transonicâs reply brief, contending that it sets forth a different ratio equation than what was described in the initial declaration, and for leave to file a surreply to address this allegedly new equation. Fre-senius subsequently filed such a motion to *1090 strike and a surreply. The Court GRANTS defendantâs motion for leave to file the motion to strike and to file the surreply (Docket No. 251), and DENIES the motion to strike (Docket No. 252). Through the surreply, defendants have had the opportunity to address any ânewâ evidence or arguments submitted by plaintiff. Moreover, there is no prejudice to the defendants since the alleged new evidence goes towards showing that the Fre-senius method measures a ratio of sodium concentration differences. See Gucken-heimer Supp. Deck ¶ 60. As outlined above, the Court finds no infringement of the âmeasuringâ limitation even if the Fre-senius method does measure such a ratio. CONCLUSION For the foregoing reasons, and for good cause shown, the Court hereby GRANTS defendantsâ motion for summary judgment of noninfringement of the '989 and '419 patents and DENIES plaintiffs cross-motion for summary judgment of infringement (Docket Nos. 226, 246). IT IS SO ORDERED. 1 . Transonic argues that Dr. Ward is not competent to testify under Rule 56 of the Federal Rules of Civil Procedure, rendering his testimony inherently unreliable. This incompetence argument is based on Dr. Wardâs allegedly incorrect definition of "access flow rateâ given in a deposition. According to Transonic, Dr. Ward testified that "access flow rateâ means "the sum of blood entering the shunt from the peripheral circulation and blood entering the shunt from the outlet of the dialyzer.â Ward Dep. at 139:18-24. As an initial matter, the Court notes that Transonic has not submitted page 139 of Dr. Wardâs deposition. However, even assuming Transonic has correctly quoted Dr. Ward, the Court finds that Dr. Wardâs definition is correct in the context of the Transonic method in which the blood lines are reversed, as discussed infra. See Ward Suppl. Decl. ¶ 150 (definition is correct in context). 2 . Substances other than sodium may be used with both the Transonic method and the Fre-senius method. This order will make reference to sodium since both parties argue in terms of sodium and Transonic's patent specifications refer to sodium. 3 . Transonic asserts in its cross-motion that Fresenius has already admitted to infringing the first three limitations of Claim 1 of the '989 patent and Claims 1 and 10 of the '419 patent of 'âdelivering,â â'mixingâ/''combining," and ''removing." Fresenius responds that Transonicâs argument on this issue is inadequately developed to justify Transonic's motion for summary judgment. The Court need not address these arguments in light of its conclusion that the Fresenius method does not infringe the "measuringâ limitation of Transonic's patents. 4 . Both parties advance dictionary definitions for claim terms throughout their papers. In keeping with the claim construction principles outlined in Phillips v. AWH Corp., 415 F.3d 1303 (Fed.Cir.2005), the Court shall consider such extrinsic evidence solely in the context of the claims and specification. Id. at 1321-22 . 5 . This order also does not address the question of whether the term âdetermining'' in the '419 patent is equivalent to or broader than the term âcalculatingâ used in the other two claims.
Case Information
- Court
- N.D. Cal.
- Decision Date
- April 4, 2006
- Status
- Precedential