NOTE: This disposition is nonprecedential.
United States Court of Appeals
for the Federal Circuit
______________________
ROCHE DIAGNOSTICS OPERATIONS, INC.,
CORANGE INTERNATIONAL LIMITED,
Plaintiffs-Appellants
v.
LIFESCAN INCORPORATED, NOVA BIOMEDICAL
CORPORATION,
Defendants-Appellees
______________________
2015-1356
______________________
Appeal from the United States District Court for the
District of Delaware in No. 1:07-cv-00753-RGA, Judge
Richard G. Andrews.
______________________
Decided: September 22, 2016
______________________
GRANTLAND GILBERT DRUTCHAS, McDonnell, Boehnen,
Hulbert & Berghoff, LLP, Chicago, IL, argued for plain-
tiffs-appellants. Also represented by PAULA FRITSCH.
WILLIAM C. ROOKLIDGE, Gibson, Dunn & Crutcher
LLP, Irvine, CA, argued for defendant-appellee Lifescan
Incorporated. Also represented by JAYSEN CHUNG, San
Francisco, CA.
2 ROCHE DIAGNOSTICS OPERATIONS v. LIFESCAN INC.
BRADFORD J. BADKE, Sidley Austin LLP, New York,
NY, argued for defendant-appellee Nova Biomedical
Corporation. Also represented by SONA DE.
______________________
Before PROST, Chief Judge, MAYER, and REYNA, Cir-
cuit Judges.
REYNA, Circuit Judge.
Roche Diagnostics Operations, Inc. and Corange In-
ternational Limited (“Roche”) appeal from the United
States District Court for the District of Delaware’s grant
of summary judgment in favor of Lifescan Incorporated
and Nova Biomedical Corporation (“Defendants”). The
district court entered judgment of non-infringement after
construing the term “electrode” in a way that excluded
Defendants’ products. The district court’s claim construc-
tion was correct and we therefore affirm the court’s judg-
ment of non-infringement.
BACKGROUND
I. Patents
This case involves U.S. Patent Nos. 7,276,146 (“’146
patent”) and 7,276,147 (“’147 patent”). Both patents claim
priority to the same provisional application and have
similar specifications. 1
The patents claim methods for determining the con-
centration of glucose in a blood sample. Claim 1 of the
’146 patent is representative of the asserted claims:
1. A method of determining the concentration of
glucose in a blood sample, comprising;
1 This opinion refers to the specification portions
shared by both patents as the “shared specification.”
ROCHE DIAGNOSTICS OPERATIONS v. LIFESCAN INC. 3
providing a disposable biosensor test strip
including a capillary chamber having a
depth suitable for capillary flow of blood
and holding a volume of between about
0.1 μl and about 1.0 μl of the blood sam-
ple, a working electrode and a counter or
reference electrode disposed within the
capillary chamber, and a reagent proximal
to or in contact with at least the working
electrode, the reagent including an en-
zyme and a mediator, the reagent reacting
with glucose to produce an electroactive
reaction product;
applying a blood sample containing glu-
cose into the capillary chamber, the capil-
lary chamber directing capillary flow of
the blood sample into contact with the re-
agent to cause the blood sample to at least
partially solubilize or hydrate the reagent;
detecting the blood sample in the capillary
chamber;
following said detecting, applying or con-
trolling the voltage or current across the
working and counter or reference elec-
trodes;
electrooxidizing or electroreducing the
electroactive reaction product at the work-
ing electrode; and
within 10 seconds after said detecting, de-
termining and providing a readout of the
glucose concentration in the blood sample,
said determining comprising correlating
the electrooxidized or electroreduced elec-
troactive reaction product to the concen-
tration of glucose in the blood sample.
4 ROCHE DIAGNOSTICS OPERATIONS v. LIFESCAN INC.
’146 patent col. 29 ll. 38–67.
II. Procedural History
Roche sued Defendants for infringement of the ’146
and ’147 patents. The parties disagreed about the proper
construction of certain claim limitations that included the
term “electrode.” Roche initially proposed constructions
describing the function of particular electrodes. For
example, it argued that “working electrode” should be
construed as “[a]n electrode in an electrochemical cell at
which the reaction of interest occurs.” J.A. 12. Roche
argued that the claimed electrodes “may be of any dimen-
sion that provides useful or advantageous results with
relatively small samples.” J.A. 14487. Defendants ar-
gued that the term “electrode” should be construed as
“microelectrode having a width of 15 to 100 μm.” 2 J.A. 12.
For example, Defendants proposed that “working elec-
trode” should be construed as “[a] working microelectrode
having a width of 15 to 100 μm.” Id.
At a Markman hearing, Roche opposed Defendants’
“electrode” constructions, alleging that “electrode” includ-
ed not only microelectrodes but also macroelectrodes.
Roche argued that the term “electrode” included certain
electrodes with widths from 300 to 1,000 μm, which Roche
asserted were macroelectrodes, not microelectrodes.
Roche did not dispute that microelectrodes only included
electrodes up to 100 μm in width.
The district court found that the claimed electrodes
were limited to microelectrodes by assertions in the
shared specification about “the invention” and arguments
during prosecution distinguishing prior art. Roche Diag-
nostics Operations, Inc. v. Abbott Diabetes Care, 667 F.
2 The unit of measurement is μm, the abbreviation
for micrometer, which is a millionth of a meter and is also
referred to as a micron.
ROCHE DIAGNOSTICS OPERATIONS v. LIFESCAN INC. 5
Supp. 2d 429, 435 (D. Del. 2009). It construed “electrode”
to mean “microelectrode having a width of 15 μm up to
approximately 100 μm.” Id. at 442–43.
Roche moved for reconsideration. While Roche con-
ceded that the claim term “electrode” did not include
macroelectrodes, Roche argued that microelectrodes
included electrodes up to 1,000 μm in width.
The district court denied Roche’s motion for reconsid-
eration, but said “[i]t’s a great point for the Federal Cir-
cuit, and I actually think you might have a point. But it
will be interesting to see what they say.” J.A. 35. The
court entered summary judgment of non-infringement on
the basis that Defendants’ products contain electrodes
larger than 100 μm.
Roche appealed to this court and repeated the argu-
ment it had first raised in its motion for reconsideration:
it asserted that microelectrodes included electrodes up to
1,000 μm in width. Roche Diagnostics Operations, Inc. v.
Lifescan Inc., 452 F. App’x 989, 994–95 (Fed. Cir. 2012)
(Roche I). Defendants opposed Roche’s arguments, but
did not challenge whether these arguments were properly
before the court. Id. at 994–97.
As the district court had not previously addressed the
parties’ arguments regarding 1,000 μm microelectrodes,
we declined to address them and remanded so that the
district court could consider them in the first instance.
Id.
On remand, the district court considered the parties’
arguments and affirmed its earlier decision that “elec-
trode” meant “microelectrode having a width of 15 μm up
to approximately 100 μm.” Roche Diagnostics Operations,
Inc. v. Abbott Diabetes Care, Inc., No. CV 07-753-RGA,
6 ROCHE DIAGNOSTICS OPERATIONS v. LIFESCAN INC.
2014 WL 6871579, at *4–6 (D. Del. Dec. 5, 2014) (“Re-
mand Op.”). 3
This appeal followed. We have jurisdiction under 28
U.S.C. § 1295(a)(1).
DISCUSSION
Roche challenges the district court’s claim construc-
tion. We review a district court’s claim construction de
novo. Teva Pharm. USA, Inc. v. Sandoz, Inc., 135 S. Ct.
831, 841 (2015). If a district court makes factual findings
3 On appeal previously, this court noted uncertainty
as to whether Roche’s motion for reconsideration was
procedurally appropriate. Roche I, 452 F. App’x at 994.
On remand, the case was assigned to a different district
court judge. The district court judge stated that it ap-
peared that Roche’s motion for reconsideration had origi-
nally been denied on procedural grounds, but that it was
uncertain whether Defendants waived procedural chal-
lenges to arguments first asserted in Roche’s reconsidera-
tion motion by not raising them before this court on
appeal. Remand Op., 2014 WL 6871579, at *3–4.
On appeal now, Defendants contend that Roche’s cur-
rent claim construction arguments, which are premised
on microelectrodes including electrodes up to 1000 μm in
width, are procedurally barred because they were first
raised in Roche’s reconsideration motion, and Roche did
not appeal the district court’s denial of that motion in the
prior appeal. Roche asserts that Defendants have waived
procedural challenges to these arguments by not raising
them when this case was previously on appeal. Roche
also argues that the district court erred in applying the
Third Circuit’s standards for motions for reconsideration.
We need not address these procedural issues, because
we affirm the district court’s claim construction even
when we consider Roche’s arguments.
ROCHE DIAGNOSTICS OPERATIONS v. LIFESCAN INC. 7
about extrinsic evidence that underlie its construction, we
review the factual findings for clear error. Id. at 842.
Claim terms are “generally given their ordinary and
customary meaning.” Phillips v. AWH Corp., 415 F.3d
1303, 1312–13 (Fed. Cir. 2005) (quoting Vitronics Corp. v.
Conceptronic, Inc., 90 F.3d 1576, 1582 (Fed. Cir. 1996)). A
term’s ordinary meaning is “its meaning to the ordinary
artisan after reading the entire patent.” Id. at 1321. A
specification may define claim terms expressly or by
implication. Id. at 1320–21.
The district court construed “electrode” to mean a
“microelectrode having a width of 15 μm up to approxi-
mately 100 μm.” Remand Op., 2014 WL 6871579, at *6.
It interpreted part of the shared specification as indicat-
ing “that an electrode might be characterized as a microe-
lectrode in one of two situations: (1) where there is
greater than 50% non-planar diffusion, or (2) where the
electrode has a width less than 100 μm.” Id. at *4–5
(referencing ’146 patent col. 4 ll. 29–48 and ’147 patent
col. 4 ll. 10–29). The district court explained that convert-
ing the diffusion characteristic into a size was difficult,
and its construction of which electrodes are microelec-
trodes relied on the 100 μm width description. Id. at *5.
The only aspect of the district court’s construction of
“electrode” that Roche challenges on appeal is the upper
width limit of “up to approximately 100 μm.” 4 Roche
4 Roche does not appeal the district court’s deter-
mination that Roche disclaimed macroelectrodes during
the patents’ prosecution. Roche also does not dispute that
the claimed microelectrodes should be distinguished from
macroelectrodes on the basis of their width or that the
lower limit for width should be 15 μm. See Roche Br. 62
(arguing that “electrode” should be construed as “microe-
8 ROCHE DIAGNOSTICS OPERATIONS v. LIFESCAN INC.
argues that the claimed electrodes include electrodes up
to 1,000 μm. Defendants disagree.
Roche presents several arguments why the district
court improperly construed “electrode.” First, Roche
argues that the district court based the construction on a
width the shared specification describes as a preferred
embodiment. Second, Roche asserts that the district court
erred in its analysis of diffusion, examples 3–5 of the ’146
patent, and claim 48 of the ’146 patent. Finally, Roche
claims that “microelectrode” has an ordinary meaning of
any electrode measured in micrometers or µm, up to
1,000 µm. We address these arguments in turn.
I
According to Roche, the district court improperly lim-
ited “electrode” based on a width the shared specification
describes as a preferred embodiment. The district court’s
construction was based on a portion of the shared specifi-
cation which stated, in part, that “[i]t is also understood
that some electrode configurations can cause diffusion to
take place by a mix of planar and non-planar paths, in
which case the electrodes can be considered a micro-
electrode array, especially if the diffusion occurs predomi-
nantly (e.g., greater than 50%) according to a non-planar
path, or if the size of the electrodes is less than 100 μm,
e.g., less than 50 μm.” See, e.g., ’146 patent col. 4 ll. 42–48
(emphasis added).
Roche argues that the word “especially” in the para-
graph’s final sentence means that this paragraph merely
describes a preferred embodiment. We disagree.
Roche is correct that a claim term expressed in gen-
eral descriptive words typically will not be limited to a
lectrode[] having a width of 15 μm up to approximately
1,000 μm.”).
ROCHE DIAGNOSTICS OPERATIONS v. LIFESCAN INC. 9
numerical range described in the written description as
referring to a preferred embodiment. RF Del., Inc. v. Pac.
Keystone Techs., Inc., 326 F.3d 1255, 1263 (Fed. Cir.
2003). But the paragraph the district court’s construction
relies on includes the only mention of macroelectrodes in
either patent’s specification. The paragraph distinguishes
microelectrodes from macroelectrodes based on the type of
diffusion they cause. An electrode that causes “a mix of
planar and non-planar” diffusion will be considered a
microelectrode especially when the diffusion is predomi-
nantly nonplanar or the electrode’s size is less than 100
μm. ’146 patent col. 4 ll. 42–48; ’147 patent col. 4 ll. 23–
29.
Considering the specifications as a whole, we agree
with the district court that the language it cited defines
how a microelectrode can be distinguished from a macroe-
lectrode. See, e.g., Phillips, 415 F.3d at 1315 (The specifi-
cation is “the single best guide to the meaning of a
disputed term.”). While other parts of the shared specifi-
cation refer to various widths including 100 μm as being
“preferred,” see, e.g., ’146 patent col. 3 ll. 9–12, this does
not prevent the portion of the shared specification that
the district court’s interpretation relied on from providing
a definition of microelectrodes.
II
Roche also argues that the shared specification’s dis-
cussion of diffusion precludes a 100 μm limit for microe-
lectrode width. However, Roche states that “diffusion
alone does not provide a clear demarcation of where a
microelectrode ends and where a macroelectrode begins.”
Roche Br. 41. Roche also admits that “diffusion simply
depends on far too many variables to be limited to any
particular size electrode.” Remand Op., 2014 WL
6871579, at *5.
Roche fails to provide a persuasive rationale for why
its proposed 1,000 μm width limit is more consistent with
10 ROCHE DIAGNOSTICS OPERATIONS v. LIFESCAN INC.
the shared specification’s discussion of diffusion than any
other width limit. We disagree that the shared specifica-
tion’s discussion of diffusion precludes a 100 μm limit.
III
Roche further argues that certain examples in the
’146 patent show that microelectrodes can have a width
greater than 100 μm. Examples 3, 4, and 5 of the ’146
patent disclose electrodes that are wider than 100 μm.
While the ’146 specification does not identify the elec-
trodes in these examples as microelectrodes, Roche as-
serts that an inventor declaration filed during the
prosecution of the patents identified electrodes that either
are the same electrodes or are “similar to” these elec-
trodes as being microelectrodes. Roche Br. 11, 42–43.
On remand, the district court noted that, while the
parties agreed that the term “electrode” was to be con-
strued the same way for both patents, the examples from
the ’146 patent were not included in the ’147 patent.
Remand Op., 2014 WL 6871579, at *5. The district court
decided that these examples “must be read in light of the
microelectrode definition” in the shared specification. Id.
For this principle, the district court cited Sinorgchem Co.,
Shandong v. International Trade Commission, 511 F.3d
1132, 1138 (Fed. Cir. 2007), and quoted Sinorgchem’s
statement that “[w]here . . . multiple embodiments are
disclosed, we have previously interpreted claims to ex-
clude embodiments where those embodiments are incon-
sistent with unambiguous language in the patent’s
specification or prosecution history.” Id.
We agree with the district court’s decision not to
adopt a construction that is inconsistent with the defini-
tional paragraph discussed above. Finding these elec-
trodes to be microelectrodes would be inconsistent with
the shared specification’s explanation that the microelec-
trodes cause diffusion “in a non-planar fashion,” and that,
where electrodes “cause diffusion to take place by a mix of
ROCHE DIAGNOSTICS OPERATIONS v. LIFESCAN INC. 11
planar and non-planar paths,” electrodes will be consid-
ered microelectrodes when the diffusion is predominantly
“according to a non-planar path” or “if the size of the
electrodes is less than 100 μm.” ’146 patent col. 4 ll. 42–
48; ’147 patent col. 4 ll. 23–29. As a result, we find that
these examples are unclaimed embodiments because they
include electrodes larger than 100 μm.
This determination is consistent with other indica-
tions that examples 3–5 of the ’146 patent are unclaimed
embodiments. For example, the patents’ claims are
limited to methods testing blood samples, while the
examples disclose embodiments that were evaluated
testing saline, which is not blood. ’146 patent at col. 26 ll.
10–col. 28 ll. 51; Figs. 10–12. Although Roche claims that
the embodiments disclosed in the examples could be used
with blood, the shared specification includes language
suggesting that these embodiments could only be used for
body fluids other than blood, such as serum or plasma.
Specifically, all of the independent claims recite “a capil-
lary chamber having a depth suitable for capillary flow of
blood.” See, e.g., ’146 patent col. 29 ll. 42–43. Examples
3–5 in the ’146 patent disclose embodiments having
capillary depths of 62 μm, but the shared specification
suggests that a capillary depth of at least 100 μm is
needed for blood:
Capillaries with depths of greater than or equal to
100 μm have been found to allow fast fill of blood
with hematocrits from 20 to 70% to reliably flow
into the chamber. Capillary depths of less than
100 microns to 25 microns can be used for other
biological fluids such as serum, plasma, inter-
sti[t]ial fluid, and the like.
’146 patent col. 19 ll. 45–50; ’147 patent col. 18 ll. 27–32
(emphasis added).
Because we agree with the district court that inter-
preting these ’146 examples as microelectrodes would be
12 ROCHE DIAGNOSTICS OPERATIONS v. LIFESCAN INC.
inconsistent with the shared specification’s disclosure
distinguishing macroelectrodes from microelectrodes, we
need not decide whether the patents’ claimed “depth
suitable for capillary flow of blood” includes depths less
than 100 μm. Therefore, we also need not address the
district court’s related determination that dependent
claim 48 of the ’146 patent—which claims depths below
100 μm—was not enabled, and whether it was invalid for
lack of written description.
IV
Finally, Roche argues that extrinsic evidence demon-
strates that the ordinary meaning of microelectrode is any
electrode measured in micrometers, up to 1,000 µm. The
district court found this extrinsic evidence was unpersua-
sive, and that it did not “trump the intrinsic evidence.”
Remand Op., 2014 WL 6871579, at *6. To the extent that
this is a factual finding, we review it for clear error.
We find that the court did not clearly err in finding
Roche’s extrinsic evidence unpersuasive. In fact, Roche’s
extrinsic sources do not demonstrate that microelectrode
has an ordinary meaning of any electrode measured in
micrometers, up to 1,000 µm. For example, one of the
sources Roche cites is the Kirk-Othmer Encyclopedia of
Chemical Technology. This encyclopedia states that
“[s]mall, referring to the diameter of the electrode, is
about a millimeter for microelectrodes.” 9 Raymond E.
Kirk et al., Kirk-Othmer Encyclopedia of Chemical Tech-
nology, 97, 4th ed. (1994). This statement arguably
supports Roche’s proposed construction, as it mentions
1,000 µm microelectrodes. (1 millimeter is equal to 1,000
µm.) However, it appears to declare that a 1,000 µm
electrode is a small microelectrode. As Defendants note,
the encyclopedia cites 15 R. Mark Wightman and David
O. Wipf, Voltammetry at Ultramicroelectrodes (1989) as
support for this statement. That article, provided by
Defendants, states that “[t]he term ‘microelectrode’ is
ROCHE DIAGNOSTICS OPERATIONS v. LIFESCAN INC. 13
already in routine use for electrodes with dimensions
approaching a centimeter or greater,” which is ten times
larger than the 1,000 μm limit Roche proposes. J.A.
28261. The article further states that “[t]his area is still
sufficiently new that a uniform nomenclature for these
electrodes has not yet been developed.” Id. Even the
extrinsic evidence Roche cited is inconsistent with its
assertion that 1,000 µm is an established width limit for
microelectrodes.
CONCLUSION
We affirm the district court’s construction of electrode
as a “microelectrode having a width of 15 μm up to ap-
proximately 100 μm.”
AFFIRMED
COSTS
Costs to Defendants.