COCHLEAR LTD. v. OTICON MEDICAL AB et al
Filing
106
OPINION filed. Signed by Judge Brian R. Martinotti on 08/21/2019. (jmh)
NOT FOR PUBLICATION
UNITED STATES DISTRICT COURT
FOR THE DISTRICT OF NEW JERSEY
____________________________________
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:
:
Plaintiff and Counterclaim- :
Defendant,
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:
v.
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OTICON MEDICAL AB and OTICON
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MEDICAL LLC,
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Defendants and
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Counterclaim-Plaintiffs.
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____________________________________:
COCHLEAR LTD.,
Civil Action No. 3:18-cv-6684-BRM-DEA
OPINION
MARTINOTTI, DISTRICT JUDGE
Before this Court are the applications by Plaintiff/Counterclaim-Defendant Cochlear Ltd.
(“Cochlear” or “Plaintiff”) and Defendants/Counterclaim-Plaintiffs Oticon Medical AB and
Oticon Medical LLC (“Oticon” or “Defendants”) for claim construction to resolve disputes over
the construction of six claim terms in U.S. Patent No. 9,838,807 (“the ‘807 Patent”):
“circumferential groove”; “screw thread”; “threaded tapered portion”; “wherein a maximum
width of the bone fixture is about the same as a height of the bone fixture”; “a flange configured
to function as a stop . . . adapted to the rest on top of the bone”; and “means for exerting a
compression onto the skull bone in a radial direction to stabilize the fixture in the skull bone.”
This Court has examined the disputes over the construction of these claim terms and, on
June 19, 2019, held a hearing pursuant to Markman v. Westview Instruments, Inc., 517 U.S. 370
(1996). For the reasons set forth in this Opinion, this Court defines the six disputed claim terms
as follows: (1) “circumferential groove” means “a narrow channel extending around the
cylindrical periphery of the main body of the implant”; (2) “screw thread” means “a helical ridge
on a cylindrical or conical surface”; (3) “threaded tapered portion” means “a portion of the
implant that narrows on one end and comprises a screw thread”; (4) “wherein a maximum width
of the bone fixture is about the same as a height of the bone fixture” means “wherein a maximum
width of the bone fixture differs from its height by no more than 30%”; (5) “a flange configured
to function as a stop . . . adapted to the rest of the bone” means “a protruding rim extending
outwardly that has a planar bottom surface and that is designed to rest on top of the bone”; and
(6) “means for exerting a compression onto the skull bone in a radial direction to stabilize the
fixture in the skull bone” means “a wider portion adjacent to the flange than at the distal end and
equivalents [structure]” and “exerting a compression onto the skull bone in a radial direction
[function].”
I.
BACKGROUND
This case arises out of an action for patent infringement instituted by Cochlear against
Oticon. Cochlear is an Australian corporation that develops and manufactures bone anchored
hearing systems. (Complaint (ECF No. 1) ¶¶ 1-2.) Cochlear sells its product in the United States
through its subsidiary Cochlear Americas, a Colorado corporation. (Mendel Decl. (ECF No. 3-4)
¶ 2.) Oticon Medical AB, a Swedish corporation, and Oticon Medical, LLC, a New Jersey
corporation are both subsidiaries of the William Demant Group, a hearing healthcare company
with a presence in over 130 countries. (Olsen Decl. (ECF No. 37-1) ¶¶ 1, 16.)
On December 5, 2017, the United States Patent and Trademark Office (“USPTO”) issued
the ‘807 Patent to Cochlear for its “Bone Anchor Fixture for a Medical Prosthesis.” (ECF No. 1-
2
1.)1 To improve stability and promote osseointegration,2 the ‘807 Patent discloses novel features
for a bone conduction implant, including a tapered portion (labeled as 108 in figures one and two
to the ‘807 Patent), a flange for providing a stop (labeled as 103), and a circumferential groove
between the flange and the threads (labeled as 117). (ECF No. 1-1 at 1:19-67; ECF No. 72;
Courtney Decl. (ECF No. 73-3).) The ‘807 Patent asserts there was a need for an implant
featuring a higher “initial stability.” (ECF No. 1-1 at 2:13-15.) The bone anchor fixture seeks to
attain this by disclosing a fixture comprised of a main body and a second body with a tapered
portion. (Id. at 2:1-9.)
Independent claims 1 and 8 feature five of the six disputed terms. Claim 1 reads:
1. An anchoring fixture for anchoring a prosthesis to a skull bone
comprising:
a screw thread apparatus including a screw thread having a
varying outer diameter;
a flange configured to function as a stop for the anchoring
fixture adapted to rest on top of the bone when the anchoring
fixture is implanted into the bone;
and a circumferential groove located, with respect to a side of the
flange, on the anchoring fixture on a threaded side of the anchoring
fixture,
wherein the anchoring fixture is configured for anchoring a hearing
prosthesis component to the skull bone at a location behind an
external ear so that sound is transmitted from the hearing
prosthesis via the skull bone to the cochlea.
(ECF No. 1-1, cl. 1) (emphasis added).
The prosecution history of the ‘807 Patent is unremarkable. On October 26, 2015, Cochlear
filed for a patent, and on October 25, 2017, the Examiner made amendments to the claims to put
them in their current form so as to distinguish them over the closest prior art. (Rentschler Decl.
(ECF No. 72), Ex. C.) Nothing in the prosecution history provides significant guidance to the
interpretation of the claims at issue in this litigation. (Id. ¶ 18.)
1
2
Osseointegration is the process by which new bone binds with the implant surface and the
implant exhibits mechanical stability allowing the load-carrying implant to conduct hearing.
(ECF No. 3-4 ¶ 9.) Improved osseointegration promotes implant stability and allows the implant
to be loaded to the living bone sooner. (ECF No. 3-4 ¶ 9; ECF No. 37-1 ¶¶ 9-10.)
3
Claim 8 reads:
8. A bone fixture configured to anchor to bone, comprising:
a threaded tapered portion, wherein a maximum width of the
bone fixture is about the same as a height of the bone fixture;
a flange configured to function as a stop for the bone fixture
adapted to rest on top of the bone when the bone fixture is
implanted into the bone; and
a circumferential groove located, with respect to a side of the
flange, on the bone fixture on a threaded side of the bone fixture,
wherein the bone fixture is configured to anchor a hearing aid
prosthesis to a skull bone at a location behind an external ear of a
recipient so that sound is transmitted from the hearing prosthesis
via the skull bone to the cochlea.
(Id., cl. 8) (emphasis added).
The sixth disputed terms is included only in a dependent claim limitation, claim 35,
which states:
35. The anchoring fixture of claim 1, wherein:
the anchoring fixture includes a means for exerting a
compression onto the skull bone in a radial direction to
stabilize the fixture in the skull bone.
(Id., cl. 35) (emphasis added).
II.
PROCEDURAL HISTORY
On April 13, 2018, Cochlear filed a Complaint (the “Complaint”) against Defendants
asserting an infringement of the ‘807 Patent. (ECF No. 1.) On the same date, Cochlear filed a
Motion for a Preliminary Injunction by Order to Show Cause, pursuant to Federal Rule of Civil
Procedure 65, seeking to enjoin and restrain Oticon from “making, using, offering to sell, and
selling within the United States, and importing into the United States, the Ponto BHX Implant or
any colorable imitations thereof.” (ECF No. 3-2.) On October 16, 2018, this Court held oral
argument on Cochlear’s Motion for a Preliminary Injunction pursuant to Federal Rule of Civil
Procedure 78(a). On October 26, 2018, this Court issued an Opinion and Order denying
4
Cochlear’s Motion for a Preliminary Injunction. (ECF Nos. 54 & 55.)
On November 28, 2018, the parties filed a joint claim construction and prehearing
statement, pursuant to Local Patent Rule 4.3. (ECF No. 56.) On January 18, 2019, both Cochlear
and Oticon filed their opening Markman briefs. (ECF Nos. 71 & 73.) On March 1, 2019, both
Cochlear and Oticon filed their Markman reply briefs. (ECF Nos. 78 & 77.) On March 15, 2019,
the parties filed a joint proposed schedule for the Markman hearing, which this Court approved
on March 18, 2019. (ECF Nos. 80 & 81.)
On June 19, 2019, this Court held a Markman hearing, at the conclusion of which this
Court ordered supplemental briefing on the claim terms “circumferential groove” and “a flange
configured to function as a stop . . . adapted to the rest on top of the bone.” (ECF No. 95.) On
July 10, 2019, the parties simultaneously submitted supplemental claim construction briefs. (ECF
Nos. 98 & 99.)
III.
LEGAL STANDARD
Claims define the scope of the inventor’s right to exclude. Phillips v. AWH Corp., 415
F.3d 1303, 1312 (Fed. Cir. 2005). Claim construction determines the correct claim scope and is a
determination reserved exclusively for the court as a matter of law. Markman v. Westview
Instruments, Inc., 52 F.3d 967, 978-79 (Fed. Cir. 1995) (en banc). Indeed, the court can only
interpret claims and “can neither broaden nor narrow claims to give the patentee something
different than what it has set forth” in the specification. E.I. Du Pont de Nemours v. Phillips
Petroleum Co., 849 F.2d 1430, 1433 (Fed. Cir. 1998). A court’s determination “of patent
infringement requires a two-step process: first, the court determines the meaning of the disputed
claim terms, then the accused device is compared to the claims as construed to determine
infringement.” Acumed LLC v. Stryker Corp., 483 F.3d 800, 804 (Fed. Cir. 2007).
5
This interpretive analysis begins with the language of the claims, which is to be read and
understood as it would be by a person of ordinary skill in the art. Dow Chem. Co. v. Sumitomo
Chem Co., 257 F.3d 1364, 1372 (Fed. Cir. 2001); see also Markman v. Westview Instruments, 52
F.3d 967, 986 (Fed. Cir. 1995) (en banc), aff’d, Markman, 517 U.S. 370 (holding that “[t]he
focus [in construing disputed terms in claim language] is on the objective test of what one of
ordinary skill in the art at the time of invention would have understood the terms to mean”);
Phillips, 415 F.3d at 1312-13. In construing the claims, the court may examine both intrinsic
evidence (e.g., the patent, its claims, the specification, and the prosecution history) and extrinsic
evidence (e.g., expert reports and testimony). Pitney Bowes, Inc. v. Hewlett-Packard Co., 182
F.3d 1298, 1309 (Fed. Cir. 1999).
The analysis of claim language begins with determining the “ordinary and customary
meaning of a claim term[, which] is the meaning that the term would have to a person of
ordinary skill in the art in question at the time of the invention, i.e., as of the effective filing date
of the patent application.” Phillips, 415 F.3d at 1313. Further, the language should not be read
solely in the context of the claim under review; instead, it should be analyzed “in the context of
the entire patent” and with an understanding of how that language is used in the field from which
the patent comes. Id. In conducting this review, a different interpretation is placed on a term
located in an independent claim than on those located in dependent claims, and it is understood
that each claim covers different subject matter. Saunders Grp., Inc. v. Comfortrac, Inc., 492 F.3d
1326, 1331 (Fed. Cir. 2007) (quoting Phillips, 415 F.3d at 1315 (holding that the “presence of a
dependent claim that adds a particular limitation gives rise to a presumption that the limitation in
question is not present in the independent claim”)).
6
In reviewing the language of a patent, “the court starts the decision-making process by
reviewing the same resources as would [a person or ordinary skill in the art in question], viz., the
patent specifications and the prosecution history.” Phillips, 415 F.3d at 1313 (quoting Multiform
Desiccants, Inc. v. Medzam, Ltd., 133 F.3d 1473, 1477 (Fed. Cir. 1998)). When “the ordinary
meaning of claim language as understood by a person of skill in the art [is] readily apparent,”
understanding claim construction “involves little more than the application of the widely
accepted meaning of commonly understood words.” Phillips, 415 F.3d at 1314. “In such
circumstances, general purpose dictionaries may be helpful” to explain the terms used. Id.
Often times, however, the ordinary meaning of the claim language is not readily apparent,
and in such circumstances, courts look to “those sources available to the public that show what a
person of skill in the art would have understood disputed claim language to mean.” Id. Those
sources may include “the words of the claims themselves, the remainder of the specification, the
prosecution history, and extrinsic evidence concerning relevant scientific principles, the meaning
of technical terms, and the state of the art.” Id. Furthermore, claims must be read in view of the
claim specification, which is of seminal importance in providing framework for understanding
the claim language. As the Federal Circuit in Markman explained:
The specification contains a written description of the invention
that must enable one of ordinary skill in the art to make and use the
invention. For claim construction purposes, the description may act
as a sort of dictionary, which explains the invention and may
define terms used in the claims. As we have often stated, a patentee
is free to use his [or her] own lexicographer. The caveat is that any
special definition given to a word must be clearly defined in the
specification. The written description part of the specification itself
does not delimit the right to exclude. That is the function and the
purpose of the claims.
Markman, 52 F.3d at 979-80.
7
This Court’s reliance on the specification is appropriate given the Patent and Trademark
Office’s rules requiring “that application claims must ‘conform to the invention as set forth in the
remainder of the specification and the terms and phrases used in the claims must find clear
support or antecedent bases in the description so that the meaning of the terms in the claims may
be ascertainable by reference to the description.’” Phillips, 415 F.3d at 1316-17 (quoting 37
C.F.R. § 1.75(d)(1)). During this analysis, however, courts should not “import limitations from
the specifications into the claims.” Innogenetics, N.V. v. Abbott Labs., 512 F.3d 1363, 1370 (Fed.
Cir. 2008) (quoting CollegeNet, Inc. v. ApplyYourself, Inc., 418 F.3d 1225, 1231 (Fed. Cir.
2005)).
The patent’s prosecution history is also of “primary significance in understanding the
claims.” Markman, 52 F.3d at 980. “The prosecution history can often inform the meaning of the
claim language by demonstrating how the inventor understood the invention and whether the
inventor limited the invention in the course of prosecution, making the claim scope narrower
than it would otherwise be.” Phillips, 415 F.3d at 1317. Further, the prosecution history is also
relevant to determining whether the patentee disclaimed or disavowed the subject matter, thereby
narrowing the scope of the claim terms. Seachange Int’l, Inc. v. C-Cor Inc., 413 F.3d 1361,
1372-73 (Fed. Cir. 2005).3
“[I]n certain cases, the specification may reveal an intentional disclaimer, or disavowal, of
claim scope by the inventor.” Ventana Med. Sys., Inc. v. Biogenex Labs., Inc., 473 F.3d 1173,
1181 (Fed. Cir. 2006) (quoting Phillips, 415 F.3d at 1316) (internal citations omitted). In such
cases, the Federal Circuit interprets the claim more narrowly than it otherwise would in order to
give effect to the patentee’s intent to disavow a broader claim scope. Ventana, 473 F.3d at 1181
(citing Honeywell Int’l, Inc. v. ITT Indus., Inc., 452 F.3d 1312, 1319-20 (Fed. Cir. 2006); SciMed
Life Sys., Inc. v. Advanced Cardiovascular Sys., Inc., 242 F.3d 1337, 1342-44 (Fed. Cir. 2001)).
However, pointing solely to “general statements by the [patentee] indicating that the invention is
intended to improve upon prior art” will not demonstrate that the patentee intended to “disclaim
every feature of every prior art device discussed in the ‘BACKGROUND ART’ section of the
patent.” Ventana, 473 F.3d at 1181; see also Thorner v. Sony Computer Ent. Am. LLC, 669 F.3d
3
8
In addition to intrinsic evidence, a court may also rely on extrinsic evidence in
interpreting a claim. Phillips, 415 F.3d at 1317. Extrinsic evidence consists of “all evidence
external to the patent and prosecution history, including expert and inventor testimony,
dictionaries, and learned treatises.” Id. (citations omitted). However, while extrinsic evidence
“can shed useful light on the relevant art,” it is “less significant that the intrinsic record in
determining the legally operative meaning of claim language.” Id. Extrinsic evidence should be
“considered in the context of intrinsic evidence,” as there are flaws inherent in the exclusive
reliance on extrinsic evidence, including, inter alia, biases, inadvertent alterations of meanings,
and erroneous contextual translations. Id. at 1318-19. Furthermore, extrinsic evidence should not
be relied upon where “an analysis of the intrinsic evidence alone will resolve any ambiguity in a
disputed claim term.” Vitronics Corp. v. Conceptronic, Inc., 90 F.3d 1576, 1583 (Fed. Cir.
1996).
IV.
DECISION
This Court addresses the interpretation of the six disputed terms in the ‘807 Patent –
“circumferential groove,” “screw thread,” “threaded tapered portion,” “wherein a maximum
width of the bone fixture is about the same as a height of the bone fixture,” “a flange configured
to function as a stop adapted to the rest of the bone,” and “means for exerting a compression onto
1362, 1366 (Fed. Cir. 2012) (“Mere criticism of a particular embodiment encompassed in the
plain meaning of a claim term is not sufficient to rise to the level of clear disavowal.”)
Moreover, the Federal Circuit has found it “particularly important not to limit claim scope based
on statements made during prosecution ‘[a]bsent a clear disavowal or contrary definition.’”
Digital Vending Servs. Int’l, LLC v. Univ. of Phoenix, Inc., 672 F.3d 1270, 1273 (Fed. Cir. 2012)
(citing August Tech. Corp. v. Camtek, Ltd., 655 F.3d 1278, 1286 (Fed. Cir. 2011) (quoting Home
Diagnostics, Inc. v. LifeScan, Inc., 381 F.3d 1352, 1358 (Fed. Cir. 2004))). The reason for such a
stringent rule is “because the prosecution history represents an ongoing negotiation between the
PTO and the application,” and “it often lacks the clarity of the specification and thus is less
useful for claim construction purposes.” Digital Vending, 672 F.3d at 1273 (quoting Phillips, 415
F.3d at 1317).
9
the skull bone in a radial direction to stabilize the fixture in the skull bone” – in turn.
A. The Meaning of “circumferential groove”
The parties each propose a different claim construction for the term “circumferential
groove.” Cochlear proposes that “circumferential groove” be construed to mean “a long narrow
channel around part or all of a circular periphery of the implant.” (ECF No. 71 at 10.)
Meanwhile, Oticon proposes that “circumferential groove” be construed to mean “a channel,
distinct from the screw thread and distinct from the flange, extending around the cylindrical
portion of the main body of the anchor, having an inner diameter and an outer diameter, that
exerts a compressive radial force on the skull bone to improve stability of the anchoring fixture.”
(ECF No. 73 at 8.)
At the outset, the parties agree on the definition of “groove.” The term does not have any
particular meaning in the art that differs from its general plain and ordinary meaning. (ECF No.
72 ¶ 19.) 4 Accordingly, the Court accepts the parties’ definition of a “groove” as a “narrow
channel.”
Cochlear contends Oticon’s proposal to include the descriptors “distinct from the screw
thread and distinct from the flange,” “extending around the cylindrical portion of the main body
of the anchor,” and “exerts a compressive radial force on the skull bone to improve stability of
the anchoring fixture” is improper as this construction “seeks to add various requirements that it
perceives are present in the preferred embodiments” of the ‘807 Patent. (ECF No. 71 at 11.)
Oticon argues that its proposed construction is consistent with the explicit terms of the ‘807
Dictionary definitions for “groove” are entirely consistent with the construction the parties
intend to provide to it in the ‘807 Patent. Webster’s New College Dictionary defines “groove” as
“[a] long, narrow furrow or channel” (ECF No. 72, Ex. E), the Webster Encyclopedic Dictionary
defines “groove” as “a channel, usually an elongated narrow channel” (ECF No. 72, Ex. F), and
Random House Webster’s Unabridged Dictionary defines “groove” as “a low, narrow cut or
indentation in the surface” (ECF No. 72, Ex. G).
4
10
Patent, is consistent with figures 1 and 2 depicting the bone anchor fixture, and is necessary to
distinguish distinct portions of the bone anchor fixture – such as the circumferential groove from
the thread and the flange – which are labeled as separate component parts of the bone anchor
fixture. (ECF No. 73 at 9-15.)
i.
“distinct from the screw thread and from the flange”
Oticon argues the “claim language makes clear that the circumferential groove is separate
from both the flange and the screw thread” as, inter alia, claim 1 separately requires each
element. (ECF No. 73 at 10.) Cochlear contends the claim language is consistent with the
circumferential groove “merging” with the flange and screw thread – rather than being distinct
from such elements – and that Oticon’s construction must fail as it excludes preferred
embodiments of the ‘807 Patent. (ECF No. 71 at 10-14.)
In interpreting a patent, courts interpret separate claim terms to be distinct claim
components. See Merck & Co. v. Teva Pharms. USA, Inc., 395 F.3d 1364, 1372 (Fed. Cir. 2005)
(holding that a “claim construction that gives meaning to all of the terms of the claim is preferred
over one that does not”); see also Pause Tech., LLC v. TiVo, Inc., 419 F.3d 1326, 1334 (Fed. Cir.
2005) (“In construing claims . . . we must give each claim term the respect it is due . . .”).
However, “the use of two terms in a claim requires that they connote different meanings, not that
they necessarily refer to two different structures.” Applied Med. Res. Corp. v. United States
Surgical Corp., 448 F.3d 1324, 1333 n.3 (Fed. Cir. 2006) (citing Phillips, 415 F.3d at 1312-19.)
As the terms of the patent are controlling, this Court first turns to the definition provided
in the ‘807 Patent. The ‘807 Patent defines the circumferential groove separately from the flange
and screw thread, stating in pertinent part:
Circumferentially oriented grooves 117 [the circumferential
grooves] may extend completely or partly around the periphery of
11
the main body. In the embodiment shown in FIGS. 1 and 2 there
are three separate grooves as an example. As an alternative, the
grooves may be formed as a screw thread, which may have the
same pitch as main screw thread 108, but having a inner diameter
128 that is greater than the inner diameter 124 of main screw
thread 108, so that the height of the grooves 117 would only be
approximately 1/3 or less of the height 134 of main screw thread
108 (126-124 = 134). In one embodiment, the extension of the
second wide diameter portion 102C in the longitudinal direction of
the fixture is about 15-25% of the total height of the fixture.
(ECF No. 1-1 at 5:15-27.)
While the ‘807 Patent defines the screw thread and flange as having a separate function
from the circumferential grooves, nothing in the claims, specification, or prosecution history of
the ‘807 Patent indicates that the circumferential grooves must be physically distinct, rather than
merely functionally distinct, from the flange or the screw thread. Indeed, figure 2 of the ‘807
Patent displays the circumferential grooves, labeled as 117, as extending from the main screw
thread, labeled as 108, and merging into the flange, labeled as 112. (ECF No. 1-1, fig. 2.) The
‘807 Patent only requires that the circumferential grooves be “located, with respect to a side of
the flange, on the anchoring fixture on a threaded side of the anchoring fixture.” (Id. at 5:63-64;
id. at 6:22-37.)
Oticon’s reliance on Becton, Dickinson & Co. v. Tyco Healthcare Grp, LP, 616 F.3d
1249 (Fed Cir. 2010) for the proposition that “the use of different terms to address different
claim elements indicates that the elements are distinct from one another” is misplaced. (ECF No.
73 at 10.) In Becton, the Federal Circuit held that where “a claim lists elements separately, ‘the
clear implication of the claim language’ is that those elements are ‘distinct component[s] of the
patented invention.’” Id. at 1254 (quoting Gaus v. Conair Corp., 363 F.3d 1284, 1288 (Fed. Cir.
2004)). However, the Becton court noted that this did not constitute a per se rule and that
different terms constituted distinct elements only so long as “nothing in the asserted claims []
12
suggest[ed]” otherwise. Becton, 616 F.3d at 1254 (citing CAE Screenplates, Inc. v. Heinrich
Fiedler GmbH & Co., 224 F.3d 1308, 1317 (Fed. Cir. 2000)).5 Here, Cochlear has pointed to
intrinsic evidence – including explicit claim language in the ‘807 Patent and the figures
contained therein – clearly indicating that the circumferential groove extends from the screw
thread and the flange rather than being physically distinct components from one another.
Moreover, it is “axiomatic that ‘claims, not the specification embodiments, define the
scope of protection.’” Dow Chem., 257 F.3d at 1378 (quoting Am. Permahedge, Inc. v. Barcana,
Inc., 105 F.3d 1441, 1444 (Fed. Cir. 1997)). However, “it is also well established that a claim
construction that excludes a preferred embodiment is ‘rarely, if ever, correct.’” Dow Chem., 257
F.3d at 1378 (quoting Vitronics, 90 F.3d at 1583)). “This is because ‘it is unlikely that an
inventor would define the invention in a way that excluded the preferred embodiment, or that
persons of skill in this field would read the specification in such a way.’” Dow Chem., 257 F.3d
at 1378 (quoting Hoechst Celanese Corp. v. BP Chem. Ltd., 78 F.3d 1575, 1581 (Fed. Cir.
1996)).
Here, Oticon’s expert, Dr. Wilson Hayes, testified that figure 2 of the ‘807 Patent
discloses the circumferential grooves merging into the screw thread. (ECF No. 78-1, Ex. A at
67:24-68:17.) 6 As figure 2 does indeed display such a merge, Oticon’s proposal to add the
limiting language “distinct from the screw thread and distinct from the flange” is unnecessarily
narrow, not supported by the figures included in the ‘807 Patent or the text of the ‘807 Patent
Unlike here, the court in Becton concluded that the structure would be rendered “nonsensical”
and essentially “inoperable” if the claim terms were not interpreted as distinct. Becton, 616 F.3d
at 1255.
5
Dr. Hayes further testified that there appeared to be “an extension . . . of the sloped wall of the
circumferential [groove]” and a “run-out area” at its meeting point with the screw thread. (ECF
No. 78-1, Ex. A at 68:19-71:12.)
6
13
itself, and excludes a preferred embodiment whereby the circumferential groove merges with the
screw thread.
Furthermore, certain dependent claims in the ‘807 Patent also confirm that the
circumferential grooves need not be structurally distinct from the flange and the screw thread but
may “extend” therefrom. Dependent claims may broaden the court’s interpretation of the scope
of an independent claim to ensure that the dependent claim fits within its scope. See Alcon Res.,
Ltd. v. Apotex, Inc., 687 F.3d 1362, 1367-68 (Fed. Cir. 2012). Courts should look to the “larger
context of this patent” in supporting the claim meaning. Ortho-McNeil Pharm, Inc. v. Mylan
Labs, Inc., 520 F.3d 1358, 1362 (Fed. Cir. 2008). As such, courts will “strive[] to reach a claim
construction that does not render claim language in dependent claims meaningless.” Id. (citing
Rambus Inc. v. Infineon Tech. AG, 318 F.3d 1081, 1093 (Fed. Cir. 2003)).
For instance, dependent claim 46 reads, “The bone fixture of claim 8, wherein: the
threaded portion extends from the circumferential groove to a distal end of the fixture.” (ECF
No. 1-1 at 10:38-41.) To define the circumferential grooves as physically distinct from the thread
screws would essentially render the language of claim 46 meaningless and violate an important
axiom of claim construction. After all, claim 46 explicitly describes the threaded portions – the
screw threads – as extending from the circumferential groove.
Furthermore, this Court is not persuaded by Oticon’s argument that dependent claims 14
and 38 compel the conclusion that the circumferential groove should be defined as distinct from
the screw thread and the flange. Dependent claim 14 reads, “The bone fixture of claim 8,
wherein: the circumferential groove is located between the flange and all threads of the fixture”
(ECF No. 1-1, cl. 14), whereas dependent claim 38 is identical but relates to claim 1 rather than
claim 8 (id., cl. 38). Independent claims 1 and 8 are broader than dependent claims 14 and 38,
14
and therefore, it is improper for this Court to justify limitations on independent claims based on
the language of dependent claims. See Bradford Co. v. Conteyor N. Am., Inc., 603 F.3d 1262,
1271 (Fed. Cir. 2010) (holding “[i]n light of a dependent claim that clearly states an indirect
attachment of the . . . structure, the scope of independent claim 1 is presumed to be broader to
allow for other types of indirect attachments”); see also Comark Commc’ns v. Harris Corp., 156
F.3d 1182, 1186 (Fed. Cir. 1998) (holding the “doctrine of claim differentiation create[s] a
presumption that each claim in a patent has a different scope”). Accordingly, this Court declines
to include the term “distinct from the screw thread and from the flange” in its definition of
circumferential groove.
ii.
“extending around the cylindrical portion of the main body of
the anchor”
Oticon argues no figure of the ‘807 Patent depicts the circumferential groove anywhere
other than around the cylindrical portion of the “main body,” and as such, this Court should
import such language into its definition of circumferential groove. (ECF No. 73 at 12-14.)
Cochlear contends including such limiting language in the definition of circumferential groove
would improperly confine its definition to one mere embodiment of the claim term, an approach
the Federal Circuit has repeatedly disavowed. (ECF No. 78 at 12-17.)
The ‘807 Patent’s written description states that the circumferential groove “may extend
completely or partly around the periphery of the main body.” (ECF No. 1-1 at 5:15-16.) The
circumferential groove is further defined as being part of the “second portion” of the “generally
cylindrical body” of the device’s main body. (Id. at 3:55-66; 4:46-57; 4:63-65; 5:15-16.) The
‘807 Patent further discloses a distinction between the inner and outer diameters of the
circumferential groove, labeled in figure 2 at 128 and 130, respectively. (Id., fig 2.; Hayes Decl.
(ECF No. 73-2 ¶¶ 18, 22.) There is no evidence, intrinsic or extrinsic, suggesting that the
15
circumferential groove is located anywhere other than around the cylindrical portion of the main
body of the anchor. Indeed, given its function in the anchor device, there appears to be no
justification for concluding that the circumferential groove be located anywhere other than
around the cylindrical portion of the anchor’s main body.
While the case law makes clear that it is improper to interpret one preferred embodiment
to constitute a limitation on a claim term,7 this is not the case here. While the ‘807 Patent uses
the terms “preferably” and “in one embodiment” as qualifiers, these qualifying terms do not
indicate that the circumferential groove could be located somewhere other than around the
cylindrical portion of the device’s main body, as Cochlear contends. For instance, the ‘807
Patent states “[p]referably, the second portion [of the main body] has at least one
[circumferential] groove extending around the periphery of the cylindrical portion.” (ECF No. 11 at 3:9-11.) It is evident that the term “preferably” applies to the second portion of the main
body containing “at least one [circumferential] groove” and not to the location of the groove
“extending around the periphery of the cylindrical portion.” This conclusion follows naturally
from the grammatical structure of the subject sentence. Should the word “preferably” have been
intended to apply to the phrase “extending around the periphery of the cylindrical portion,” it
would have been placed between the words “groove” and “extending.” 8 Accordingly, it is
7
See Info-Hold v. Applied Media Techs. Corp., 783 F.3d 1262, 1268 (Fed. Cir. 2012) (holding
that the patent’s inclusion of the word “preferably” indicates the description in the patent is one
mere iteration of the invention); see also Cordis Corp. v. Boston Sci. Corp., 561 F.3d 1319, 1329
(Fed. Cir. 2009) (holding that “a patent is not confined to its disclosed embodiments”).
Similarly, Cochlear’s argument that the inclusion of the phrase “in one embodiment” at the
beginning of column three compels the conclusion that the location of the circumferential groove
around the cylindrical portion is but one embodiment of the invention in the ‘807 Patent is also
unpersuasive. Indeed, this sentence does not relate to the location of the circumferential groove
whatsoever. (ECF No. 1-1 at 3:1-4.)
8
16
appropriate to define the circumferential groove as “extending around the cylindrical portion of
the main body.”
iii.
“exerts a compressive radial force on the skull bone to improve
stability of the anchoring fixture”
Oticon argues that because circumferential grooves are defined throughout the ‘807
Patent as “providing [] radial compressive force” and are not described as serving any other
function, it is appropriate to include this function in the definition of “circumferential groove.”
(ECF No. 73 at 14-15.) Cochlear contends that while exerting a compressive radial force on the
skull bone to improve the anchoring fixture’s stability is one function of the circumferential
grooves, the ‘807 Patent lists several other functions this component serves, and as such, it is
improper for this Court to limit the function of the circumferential grooves in its definition of
such. (ECF No. 78 at 21.)
On several occasions, the ‘807 Patent describes the circumferential grooves as consisting
of two separate diameters for the purpose of exerting compressive radial force on the skull bone
to improve stability.9 However, the ‘807 Patent also makes clear that providing a stabilizing,
compressing radial force is not the only function of the circumferential grooves. Specifically, the
‘807 Patent states “In addition to the noted compressive action, such [circumferential] grooves
may provide an increased retention between the fixture and the surrounding bone tissue, and
spread the forces directed to the abutment more evenly in the bone,” (ECF No. 1-1 at 5:2-6.)
Specifically, the ‘807 Patent states: “The [circumferential] groove may have a bottom diameter
exceeding the first inner diameter of the screw thread. Preferably, the groove forms a second
screw thread having an inner diameter exceeding the inner diameter of the first, inner screw
thread.” (ECF No. 1-1 at 3:11-15); “[The] configuration [of the circumferential grooves]
provides a radial compression to the surrounding bones. Preferably the second portion 102C is
provided with circumferential grooves 117 having an inner diameter 128 and an outer diameter
130 . . . When fixture 100 is inserted into the drilled hole, the second portion 102C compresses
the bone to some extent to impart partial stability.” (Id. at 4:50-59).
9
17
Additionally, Oticon’s expert, Dr. Hayes, testified that independent claims 1 and 8 do not limit
the function of the circumferential grooves to exerting compressive, radial force, and that such a
function is limited only to certain embodiments. (ECF No. 78-1, Ex. A at 81:21-82:25.)
Additionally, the Federal Circuit has held that the “court’s task is not to limit claim
language to exclude particular devices because they do not serve a perceived purpose,” but rather
to “interpret claims according to their plain language unless the patentee has chosen to be his [or
her] own lexicographer” or coverage has been clearly disclaimed. E-Pass Techs., Inc. v. 3COM
Corp., 343 F.3d 1364, 1370 (Fed. Cir. 2003). Here, Cochlear has not acted as its own
lexicographer and nothing in the plain meaning of the term “circumferential groove” nor in the
‘807 Patent’s prosecution history suggests that its function be limited to exerting compressive,
radial force for increased stability. Accordingly, it is not proper to add “that exerts a compressive
radial force on the skull bone to improve stability of the anchoring fixture” to the definition of
circumferential groove.
For the reasons stated above, the Court defines “circumferential groove” as “a narrow
channel extending around the cylindrical periphery of the main body of the implant.”
B. The Meaning of “screw thread”
The parties propose different, albeit substantially similar, claim constructions for the term
“screw thread.” Cochlear proposes that “screw thread” be construed to mean “a projecting helical
ridge on a cylindrical or conical surface.” (ECF No. 71 at 15.) Meanwhile, Oticon proposes that
“screw thread” be construed to mean “a helical ridge having an outer diameter, its troughs
forming an inner diameter.” (ECF No. 73 at 15.)
Claim 1 of the ‘807 Patent indicates that the anchoring device is comprised of “a screw
thread apparatus including a screw thread having a varying outer diameter.” (ECF No. 1-1, cl. 1.)
18
While neither the ‘807 Patent itself nor its prosecution history provide an explicit definition for
the term “screw thread,” nothing in the ‘807 Patent or its prosecution history suggest that screw
thread should be defined as anything other than its ordinary meaning as understood by a person
skilled in the art. (ECF No. 72 ¶ 25.) Therefore, this Court looks to extrinsic evidence in defining
screw thread.
Secondary source materials are largely consistent in defining “screw thread.” As provided
in the Declaration of Cochlear’s expert, Dr. Mark Rentschler, PhD, Threaded Fasteners,
Materials and Designs, an engineering handbook, defines screw thread as “a ridge of uniform
section in the form of a helix on the external or internal surface of a cylinder.” (ECF No. 72-1,
Ex. I.) Dictionary definitions are largely consistent with the definition provided in Threaded
Fasteners. For instance, Webster’s New International Dictionary Unabridged (2d ed.) defines
screw thread as “the projecting helical rib of a screw, the successive turns of which are
sometimes called teeth.” (ECF No. 73-1 ¶ 30) (citing Webster’s New International Dictionary
Unabridged (2d ed)). Webster’s New World Dictionary Third College Edition defines screw
thread as “the helical ridge of or for a screw,” whereby “screw” is defined as “a mechanical
device for fastening things together, consisting essentially of a cylindrical or conical piece of
metal threaded evenly around its outside surface with and advancing spiral ridge and commonly
having a slotted head,” and whereby thread is defined as “the helical ridge of a screw.” (Id.)
(citing Webster’s New World Dictionary (3d ed)).
Cochlear contends Oticon’s proposed construction is unnecessary and confusing as it
“goes beyond the plain meaning” of the term in seeking to add the “outer” and “inner diameters”
qualifiers. (ECF No. 71 at 16.) Oticon argues its proposed construction is necessitated by
Cochlear’s “shifting and unclear” theories as to whether the “rising thread near the top of the
19
implant” is part of the screw thread, the circumferential groove, or both. (ECF No. 73 at 17.)
Cochlear is correct in asserting that Oticon’s proposed construction would render the
definition of screw thread confusing and somewhat redundant. Claim 1 already describes the
screw thread as “having a varying outer diameter.” (ECF No. 1-1, cl. 1.) Therefore, when
substituting Oticon’s definition for “screw thread” in claim 1, claim 1 would read “an anchoring
fixture for anchoring a prosthesis to a skull bone comprising: a helical ridge having an outer
diameter, its troughs forming an inner diameter, having a varying outer diameter.” Independent
claim 1 provides the necessary description of the screw thread as having a “varying outer
diameter” to capture its function in the anchoring device – fastening – such that including such
language in the definition of screw thread itself is superfluous.
Oticon argues dependent claim 16 supports its construction of screw thread, as it
explicitly identifies the screw thread as having an “inner diameter,” stating “The anchoring
fixture of claim 1, wherein: the screw thread includes an inner diameter that remains about
constant over about at least two turns of the screw thread.” (ECF No. 73 at 16-17.) However, to
import this limitation from a dependent claim to the definition of screw thread in independent
claim 1 would be an improper. A dependent claim may broaden the interpretation of an
independent claim so that the dependent claim fits within its scope, however, “the doctrine of
claim differentiation disfavors reading a limitation from a dependent claim into an independent
one.” Summit 6, LLC v. Samsung Elecs. Co., Ltd., 802 F.3d 1283, 1290 (Fed Cir. 2015) (citing
InterDigital Commc’ns, LLC v. Int’l Trade Comm’n, 690 F.3d 1318, 1324 (Fed. Cir. 2012)); see
also AK Steel Corp. v. Sollac & Ugine, 344 F.3d 1234, 1242 (Fed. Cir. 2003) (holding that
“dependent claims are presumed to be of narrower scope than the independent claims from
which they depend”). Dependent claim 16 already includes the limitation that “the screw thread
20
includes an inner diameter that remains about constant over about at least two turns of the screw
thread.” (ECF No. 1-1, cl. 16.) Therefore, this Court declines to include the “varying diameter”
limiting language into its definition of screw thread.10
For the reasons stated above, the Court defines “screw thread” as “a helical ridge on a
cylindrical or conical surface.”
C. The Meaning of “threaded tapered portion”
Cochlear proposes that “threaded tapered portion” be construed to mean “a threaded part
of the implant that decreases in width” (ECF No. 71 at 17) whereas Oticon proposes that
“threaded tapered portion” be construed to mean “a helical ridge having an outer diameter, its
troughs forming an inner diameter which narrows on one end” (ECF No. 73 at 18). However, in
a footnote in its opening brief, Oticon proposes alternatively that “threaded tapered portion” be
defined as “a portion of the implant that narrows on one end and comprises a screw thread.” (Id.
at n.11.) Cochlear agrees to Oticon’s alternative definition. (ECF No. 78 at 24-25.) Therefore, the
Court defines “threaded tapered portion” as “a portion of the implant that narrows on one end
and comprises a screw thread.”
D. The Meaning of “wherein a maximum width of the bone fixture is about
the same as a height of the bone fixture”
Cochlear proposes that “wherein a maximum width of the bone fixture is about the same
as a height of the bone fixture” be construed to mean “where the height and width are different
by no more than 30%.” (ECF No. 71 at 18-19.) Meanwhile, Oticon proposes that “wherein a
Similarly, this Court is not persuaded that Oticon’s argument that figure 2 of the ‘807 Patent
suggests that the “of varying diameter” limiting language should be included in the definition of
screw thread. Figure 2 is a preferred embodiment of the implant device, and the Federal Circuit
has made clear that the “patentee is entitled to the full scope of his [or her] claims, and we will
not limit him [or her] to his [or her] preferred embodiment or import a limitation from the
specification into the claims.” Kara Tech. Inc. v. Stamps.com Inc., 582 F.3d 1341, 1348 (Fed.
Cir. 2009).
10
21
maximum width of the bone fixture is about the same as a height of the bone fixture” be
construed to mean “wherein a maximum width of the bone fixture is approximately equal to a
height of the bone fixture.” (ECF No. 73 at 18-21.)
The phrase “wherein a maximum width of the bone fixture is about the same as a height
of the bone fixture” – and particularly the phrase “about the same” – does not have a plain
meaning to a person of ordinary skill in the art. (ECF No. 72 ¶ 31.) As such, this Court must turn
to descriptions in the ‘807 Patent to define the phrase. The disputed term appears in claim 8 of
the ‘807 Patent, which states “A bone fixture configured to anchor to bone, comprising: a
threaded tapered portion, wherein a maximum width of the bone fixture is about the same as a
height of the bone fixture.” (ECF No. 1-1, cl. 8.) The specifications in the ‘807 Patent provide
some clarification as to the meaning of “about the same,” reading, in pertinent part:
The main body 102 has a length sufficient to securely anchor
fixture 100 into, without penetrating entirely through, the skull
bone. The length of main body 102 may therefore depend on the
thickness of the skull bone at the implantation site. In one
embodiment, main body 102 has a length (L) 122 of no greater
than approximately 5 mm. Main body 102 further comprises a
distal tapered apical portion 102A and a straight, generally
cylindrical body comprising two portions, a first portion 102B and
a second portion 102C. First portion 102B comprises external
threads that form the main screw thread 108 adjacent to the distal
tapered apical portion. The second portion 102C is adjacent to the
flange. As illustrated in FIG. 2, main screw thread 108 has an inner
diameter 124 and an outer diameter 126. In one embodiment, the
outer diameter 126 is approximately 3.5-5.0mm.
(Id. at 3:55-4:2.)
Cochlear contends that, because independent claim 8 states the “maximum width of the
bone fixture is about the same as [the] height of the bone fixture” and the specification teaches
that the outer diameter 126 of the bone fixture can be 3.5mm while the height of the bone fixture
is 5mm, thus creating a difference of 30%, then “about the same” should be defined as not more
22
than a 30% differential. (ECF No. 71 at 18-19.) Oticon argues that Cochlear’s construction
improperly attempts to limit a claim term with a preferred embodiment and confuses the length
of the fixture with the length of the fixture’s main body. (ECF No. 73 at 18-21.)
Where a term lacks a plain and ordinary meaning, it is appropriate to look to the
descriptions in a patent’s specifications. In light of the language in independent claim 8 of the
‘807 Patent, coupled with the specification indicating that the height of the bone fixture is 5 mm
whereas the width can be as little as 3.5 mm, a person of ordinary skill in the art would define
“about the same” to mean “up to 30%.” Contrary to Oticon’s contentions, relying on the
minimum and maximum measurements provided in the specifications is not akin to limiting a
claim term to one preferred embodiment, but rather, uses the ‘807 Patent’s specifications to
properly construe a claim term that lacks a plain and ordinary meaning. Indeed, adopting
Oticon’s construction and refusing to interpret the term “about the same” to extend to a
difference of 30% would be improper as it would necessarily exclude an embodiment explicitly
listed in the ‘807 Patent. (ECF No. 1-1 at 3:55-4:2.)
Moreover, Oticon’s reliance on Abbott Labs. v. Baxter Pharm. Prods., Inc., 471 F.3d
1363, 1368 (Fed. Cir. 2006) for the proposition that a court “need not construe” a disputed
phrase “with numerical exactitude” is misplaced. In Abbott, the court determined that it need not
attach a specific quantitative capability to the subject patent’s claim of sevoflurane water
preventing Lewis acid degradation as such measurement was “irrelevant to the question” of
whether the alleged infringing patent had disclosed a new claim over the plaintiff’s patent. Id. By
contrast, the decision in Abbott did not deal with a measurement that was explicitly listed in an
embodiment of the claim in the patent. Unlike here, the Abbott court’s failure to provide a
specific measurement in defining the claim term would not have created the risk of excluding an
23
embodiment listed in the patent itself.11
Additionally, Oticon’s proposed construction is so lacking in specificity that it fails to
give any guidance whatsoever as to the meaning of the term “about the same.” Rather, Oticon’s
proposal merely replaces the term “about the same” with the term “approximately equal to.” This
failure to provide any clearer guidance leaves one skilled in the art – or a potential jury – to turn
to the terms of the ‘807 Patent and its specifications to define the term “approximately equal to”
on its own. Finally, Oticon’s argument that Cochlear’s construction confuses the length of the
fixture with the fixture’s main body is also unsupported by the ‘807 Patent’s specifications.
Cochlear’s construction is consistent with the element labels provided in figure 2: the width of
the bone fixture being labeled as 126 and the height being labeled as 102A, 102B, and 102C,
collectively, L122. (ECF No. 1-1 at 5.)12
For the reasons stated above, the Court defines “wherein a maximum width of the bone
fixture is about the same as a height of the bone fixture” as “wherein a maximum width of the
bone fixture differs from its height by no more than 30%.”
Oticon’s reliance on Acumed, 483 F.3d at 806, is also misplaced. In Acumed, the Federal
Circuit held that the “resolution of some line-drawing – especially easy ones like this – is
properly left to the trier of fact.” Id. (citing PPG Indus. v. Guardian Indus. Corp., 156 F.3d 1351,
1355 (Fed. Cir. 1998) (holding that “after the court has defined the claim with whatever
specificity and precision is warranted by the language of the claim and the evidence bearing on
the proper construction, the task of determining whether the construed claim reads on the
accused product is for the finder of fact”). Here, unlike in Acumed and PPG, the task at hand
does not involve “easy” line-drawing following a court’s definition of a claim, but rather, the
construction of an ambiguous claim itself for which the court is tasked with providing clear
guidance.
11
12
Additionally, at the claim construction hearing, Oticon cited a case not raised in its brief,
AllVoice Computing PLC v. Nuance Commc’ns, Inc., 504 F.3d 1236, 1248 (Fed. Cir. 2007). The
decision in AllVoice also fails to provide persuasive support to Oticon’s position, as it holds
merely that the District Court shall enforce a presumption that each claim in a patent has a
different scope. Id.
24
E. The Meaning of “a flange configured to function as a stop . . . adapted to
rest on top of the bone”
Cochlear proposes that “a flange configured to function as a stop . . . adapted to rest on
top of the bone” be construed to mean “a protruding rim extending outwardly beyond the screw
thread and designed to rest on top of the bone.” (ECF No. 71 at 19.) Meanwhile, Oticon proposes
that “a flange configured to function as a stop . . . adapted to rest on top of the bone” be
construed to mean “a rim that spreads out and that has a planar bottom surface to rest against the
outer bone surface.” (ECF No. 73 at 21.) This court addresses each clause in the disputed term in
term.
i.
“a flange configured to function as a stop”
Oticon argues the term “a flange configured to function as a stop” should be defined as
having a “planar bottom surface” as it is the only sole embodiment of the flange in the ‘807
Patent. (ECF No. 77 at 10-11.) Oticon further argues that Cochlear’s position in the prosecution
history of a related European patent that a “flaring flat shoulder” in a prior art was “not
configured to [function as a stop]” provides persuasive evidence that the flange should be
defined as having a planar bottom surface. (ECF No. 73 at 22.) Cochlear contends Oticon
improperly seeks to import a constraint from a preferred embodiment to the definition of a claim
term. (ECF No. 78 at 29-34.)
It is undisputed that a patentee is “entitled to the full scope” of his or her claims and that
it is improper for a court to limit the claims to one preferred embodiment or import a limitation
from the specification into the claims. Kara Techs., 582 F.3d at 1348 (citing Phillips, 451 F.3d at
1323). However, the Federal Circuit has expanded this principle in holding that “even if ‘all of
the embodiments discussed in the patent’ included a specific limitation, it would not be ‘proper
to import from the patent’s written description limitations that are not found in the claims
25
themselves.’” Cadence Pharms. Inc. v. Exela PharmSci Inc., 780 F.3d 1364, 1369 (Fed. Cir.
2015) (quoting Flo Healthcare Solutions, LLC v. Kappos, 697 F.3d 1367, 1375 (Fed. Cir. 2012)).
Relying on these cases, Cochlear contends it is immaterial that the planar bottom surface of the
flange is the only embodiment in the ‘807 Patent, and that such is an invalid reason for importing
the planar bottom description to the definition of “a flange configured to function as a stop.”
(ECF No. 78 at 29-31.)
Citing Arista Networks, Inc. v. Cisco Sys., Inc., 908 F.3d 792, 796-97 (Fed. Cir. 2018),
Oticon argues that the ‘807 Patent has defined “a flange configured to function as a stop” by
“implication.” The Federal Circuit has held that “even when guidance is not provided in explicit
definitional format, the specification may define claim terms by implication such that the
meaning may be found in or ascertained by a reading of the patent documents.” Id. at 797
(quoting In re Abbott Diabetes Care Inc., 696 F.3d 1142, 1150 (Fed. Cir. 2012)). The ‘807
Patent teaches only one interpretation of the flange, in which it has a planar bottom surface to act
as a stop from protruding past its proper location,13 and to construe the flange as having any
other sort of stop would be to contradict the terms of the specification. (ECF No. 73-1 ¶¶ 45, 48.)
This conclusion is supported by the fact that Cochlear’s own expert, Dr. Rentschler,
testified that there is no disclosure of a nonplanar lower surface of the flange anywhere in the
‘807 Patent. (ECF No. 77-2, Ex. A at 81:24-82:12.) “When a patentee uses a claim term
throughout the entire patent specification, in a manner consistent with only a single meaning, he
[or she] has defined that term ‘by implication.’” Homeland Housewares, LLC v. Whirlpool
Indeed, the ‘807 Patent exclusively discloses embodiments of the flange whereby it has a
planar bottom surface functioning as a stop such the specification has defined the flange’s stop
by implication. The ‘807 Patent reads, in pertinent part, “As more clearly illustrated in FIG. 2,
flange 103 has a planar bottom surface 111 for resting against the outer bone surface, indicated
by 112, when the fixture 100 has been screwed into the skull bone. Again, flange 103 prevents
the fixture 100 from completely penetrating through the skull bone.” (ECF No. 1-1 at 4:16-21.)
13
26
Corp., 865 F.3d 1372, 1377 (Fed. Cir. 2017). Here, Cochlear has done just that. As such, the
Court defines “a flange configured to function as a stop” as “a protruding rim extending
outwardly that has a planar bottom surface.”
ii.
“adapted to rest on top of the bone”
Oticon argues the term “adapted to rest on top of the bone” should be defined as “to rest
against the outer bone surface” as the skull bone has several layers and a person of ordinary skill
in the art would understand “on top of the bone” to mean “the outer surface of the bone.” (ECF
No. 73 at 22.) Cochlear contends “adapted to rest on top of the bone” should be defined as
“designed to rest on top of the bone” as nothing in the claims, specifications, or prosecution
history of the ‘807 Patent requires that such a restrictive constraint be imported into the
definition of “adapted to rest on top of the bone.” (ECF No. 78 at 34-36.)
Relying on the testimony of its expert, Dr. Hayes, Oticon contends “adapted to rest on top
of the bone” should be defined as “to rest against the outer bone surface.” (ECF No. 73 at 22.)
Specifically, Dr. Hayes noted that, to a person of ordinary skill in the art, “on top of the skull
bone” and “resting against the outer bone surface” would mean “contacting, but not intruding
beneath the outermost (or, in anatomic terms, the most superficial surface) of the outer, cortical
table.” (ECF No. 73-1 ¶ 47.) Dr. Hayes further opined that “a bone anchor that contacted at
multiple layers (as, for example, after countersinking) would not be interpreted as either ‘resting
on top of the skull bone’ or as ‘resting against the outer bone surface.’” (Id.) Rather, in such a
scenario, the anchor would be “resting on an interior bone surface.” (Id.)
However, Dr. Hayes’s construction fails to account for a situation in which a flange is
countersunk into the bone, which occurs when a small amount of the bone is removed via
damage from the flange. (ECF No. 78-2 ¶ 42.) In this scenario, the “top” of the bone has been
27
removed and there is now a new “top” on which the flange rests. (Id.) In his deposition, Dr.
Hayes testified that he would not consider the flange to be resting on top of the bone even in the
event of “microscopic damage” to the bone caused by the flange. (ECF No. 78-1, Ex. A at 93:312.) Thus, a flange with any sort of stop would necessarily not rest on top of the bone, because
almost any amount of torque applied to the bone fixture would cause the flange to damage the
bone at least microscopically. (ECF No. 78-2 ¶ 73.) As such, applying the limiting language, “to
rest against the outer bone surface,” as Oticon proposes, would lead to an absurd result and is not
warranted by the ‘807 Patent, its claims or specifications, or any extrinsic evidence thereto.
In its supplemental brief, Oticon argues that “top of the bone” must mean the bone’s
“outer surface” in order to give meaning to the word “top.” (ECF No. 98 at 7.) Oticon contends
that Cochlear’s approach improperly “eliminates ‘top’ from the claims.” However, at the claim
construction hearing, Oticon argued “there is absolutely a dispute about what top of bone means
in this term,” as the parties “disagree that top of bone means any of the bone tissue that is not on
the surface of the bone.” (ECF No. 95 at 49:18-22.) Oticon’s position is further complicated by
Dr. Hayes’s position that resting “on top of the skull bone” and “against the outer bone surface . .
. mean the same thing.” (ECF No. 73-1 ¶ 46.) Accordingly, this Court finds that resting “on top
of the bone” is the more appropriate claim construction.
For the reasons stated above, the Court defines “a flange configured to function as a stop .
. . adapted to rest on top of the bone” as “a protruding rim extending outwardly that has a planar
bottom surface and that is designed to rest on top of the bone.”
F. The Meaning of “means for exerting a compression onto the skull bone in
a radial direction to stabilize the fixture in the skull bone”
The parties agree that the claim term “means for exerting a compression onto the skull
bone in a radial direction to stabilize the fixture in the skull bone” is a means-plus-function term
28
governed by 35 U.S.C. § 112, ¶ 6.14 (ECF No. 71 at 21; ECF No. 77 at 13.) The parties agree on
the function of the claim term to be “exerting a compression onto the skull bone in a radial
direction,” as it is explicitly stated in the means-plus-function term. (Id.) Cochlear contends the
corresponding structure to the function in the claim term should be defined as “a wider portion
adjacent to the flange than at the distal end and equivalents.” (ECF No. 71 at 21-23.) Meanwhile,
Oticon argues the corresponding structure to the function in the claim term should be defined as
“second portion 102C adjacent to flange 103 having an inner diameter 128 which exceeds the
inner diameter 124 of the main threads 108 of the first portion 102B and equivalents thereof.”
(ECF No. 73 at 23-27.)
“A claim limitation written in means-plus-function form, reciting a function to be
performed rather than definite structure . . . must be construed to ‘cover the corresponding
structure, material, or acts described in the specification and equivalents thereof.’” Odetics, Inc.
v. Storage Tech. Corp., 185 F.3d 1259, 1266-67 (Fed. Cir. 1999) (citing B. Braun Med., Inc. v.
Abbott Labs., 124 F.3d 1419, 1424 (Fed. Cir. 1997)). “If a patentee chooses to disclose a single
embodiment, then any means-plus-function claim limitation will be limited to the single
disclosed structure and equivalents thereof.” Mettler-Toledo, Inc. v. B-Tk Scales, LLC, 671 F.3d
1291, 1296 (Fed. Cir. 2012). “Structural equivalence under § 112, ¶ 6 is, as noted by the
Supreme Court, ‘an application of the doctrine of equivalents . . . in a restrictive role.’” Odetics,
185 F.3d at 1267 (quoting Warner-Jenkinson Co., Inc. v. Hilton Davis Chem. Co., 520 U.S. 17,
28 (1997)). “As such, their tests for equivalence are closely related” and involve “similar
Title 35, Section 112(f) of the U.S. Code, pre-AIA 35 U.S.C. § 112, ¶ 6, states, “An element in
a claim for a combination may be expressed as a means or step for performing a specified
function without the recital of structure, material, or acts in support thereof, and such claim shall
be construed to cover the corresponding structure, material, or acts described in the specification
and equivalents thereof.”
14
29
analyses of insubstantiality of differences.” Odetics, 185 F.3d at 1267 (citations omitted).
The means-plus-function term at issue is included in dependent claim 35, which relates to
independent claim 1.15 Cochlear argues that a person skilled in the art would understand that “a
wider portion adjacent to the flange than at the distal end” is the structure in the bone anchoring
element that is disclosed in the specification for exerting a compression onto the skull bone in a
radial direction. (ECF No. 71 at 21-22.) Oticon argues figure 2 and its accompanying description
describe the structure to be used to perform the function of applying radial compression to the
skull bone. (ECF No. 73 at 25.)
Cochlear’s proposed structural definition of the claim term is derived from a specification
of the ‘807 Patent, which reads:
[A] drill may be used to drill a hole in the skull bone before
installing the anchoring fixture. The drill creates a hole in the skull
bone having a diameter which is larger than the inner diameter of
the screw thread of the first cylindrical portion, but less than the
outer diameter of the second cylindrical portion. When the fixture
is inserted into the drilled hole, the wider second portion of the
fixture, i.e. the portion next to the flange, provides a certain
compression to the bone, specifically the cortical bone, in the
radial direction of the hole.
(ECF No. 1-1 at 3:21-29.)
Meanwhile, Oticon proposed structural definition of the claim term is derived from the
specification’s description of figure 2, which provides “this configuration provides a radial
compression to the surrounding bone.” (ECF No. 1-1 at 4:46-62.)
Here, Oticon’s proposed construction impermissibly imports elements that go beyond a
definition sufficient to perform the claimed function. Pursuant to 35 U.S.C. § 112, ¶ 6, “a court
Dependent claim 35 states, in its entirety, “The anchoring fixture of claim 1, wherein: the
anchoring fixture includes a means for exerting a compression onto the skull bone in a radial
direction to stabilize the fixture in the skull bone.” (ECF No. 1-1, cl. 35.)
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may not import into the claim structural limitations from the written description that are
unnecessary to perform the claimed function.” Acromed Corp. v. Sofamor Danke Grp., Inc., 253
F.3d 1371, 1382 (Fed. Cir. 2001) (citing MicroChem, Inc. v. Great Plains Chem. Co., 194 F.3d
1250, 1258 (Fed. Cir. 1999)). Furthermore, although “specifications may well indicate that
certain embodiments are preferred, particular embodiments appearing in a specification will not
be read into the claims when the claim language is broader than such embodiments.” Electro
Med. Sys., S.A. v. Cooper Life Sciences, Inc., 34 F.3d 1048, 1054 (Fed. Cir. 1994). Oticon’s
proposed structural definition improperly uses one preferred embodiment of the implant device
to limit the definition of “means for exerting a compression onto the skull” to that displayed in
figure 2. Id. This is evident from the repeated language in the specification indicating that figure
2 is “preferabl[e]” and “one embodiment,” rather than exclusive. (ECF No. 1-1 at 4:20-22, 4:3839, 4:50-52, 4:63-67.)
Indeed, nothing in the ‘807 Patent, its claims and specifications, or its prosecution history
suggests that the structural definition of the elements of the device – as it relates to its function of
“exerting a compression onto the skull bone in a radial direction” – was intended to be confined
to the illustration in figure 2. On the contrary, the specifications suggest a broader interpretation.
The ‘807 Patent discloses that a drill may be used to drill a hole in the skull before installing the
anchoring fixture, and that the hole has a diameter sufficient to accommodate the screw thread of
the anchoring fixture yet smaller than the width of the portion adjacent to the flange. (ECF No.
1-1 at 4:20-25.) Thus, when the fixture is inserted into the hole, the wider section provides
compression to the cortical bone in the radial direction, thus stabilizing the fixture on the skull
bone via compression. (Id. at 4:26-29.) Although Oticon’s proposed structural definition fits this
description, it improperly narrows the description by adding the specific elements featured in
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figure 2.
Oticon argues Cochlear’s proposed construction is “untethered to the structure disclosed
in the patent” and runs afoul of the Federal Circuit’s holding in Mettler-Toledo, 671 F.3d at
1296, because there is “only one disclosed structural embodiment that performs the function of
exerting a compression onto the skull bone in a radial direction.” (ECF No. 73 at 26; ECF No. 77
at 14.) Oticon’s arguments are unpersuasive. Cochlear’s construction closely mirrors the
specification’s language – as included in column 4, lines 20 through 29 – which provides a broad
and expansive definition of the structure functioning to exert a compression onto the skull in a
radial direction. Furthermore, Oticon’s reliance on Mettler-Toledo is misplaced. In MettlerToledo, “every instance where the specification refer[red] to [the subject function], it [was]
referring to the preferred embodiment, which only include[d] the [subject structure].” MettlerToledo, 671 F.3d at 1296. The Mettler-Toledo holding further noted that “although generic
[structures] were known in the art, the patentee chose to use means-plus-function language which
limit[ed] it to the disclosed embodiment and equivalents.” Id. Such is clearly not the case here.
Nothing in the ‘807 Patent or its specifications indicates that the definition of the structure
“exerting a compression onto the skull bone in a radial direction” was intended to be confined to
the illustration in figure 2. On the contrary, the specification language itself teaches a far broader
construction of the structure whose function is to compress onto the skull bone in a radial
direction for stability. (ECF No. 1-1 at 4:20-29.)
Finally, Oticon’s argument that Cochlear’s construction is inconsistent with claim 1,
because claim 35 depends on claim 1 and a “circumferential groove is already required by this
claim,” is baseless. (ECF No. 73 at 26-27.) The fact that claim 1 recites a circumferential groove
does not compel the conclusion that a means-plus-function limitation in a claim depending on it
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must also include a circumferential groove in its definition. There is no case law supporting such
a proposition.
For the reasons stated above, this Court defines “means for exerting a compression onto
the skull bone in a radial direction to stabilize the fixture in the skull bone” as “a wider portion
adjacent to the flange than at the distal end and equivalents [structure]” and “exerting a
compression onto the skull bone in a radial direction [function].”
V.
CONCLUSION
For the reasons set forth above, this Court defines the six disputed claim terms as follows:
(1) “circumferential groove” means “a narrow channel extending around the cylindrical
periphery of the main body of the implant”; (2) “screw thread” means “a helical ridge on a
cylindrical or conical surface”; (3) “threaded tapered portion” means “a portion of the implant
that narrows on one end and comprises a screw thread”; (4) “wherein a maximum width of the
bone fixture is about the same as a height of the bone fixture” means “wherein a maximum width
of the bone fixture differs from its height by no more than 30%”; (5) “a flange configured to
function as a stop adapted to the rest of the bone” means “a protruding rim extending outwardly
that has a planar bottom surface and that is designed to rest on top of the bone”; and (6) “means
for exerting a compression onto the skull bone in a radial direction to stabilize the fixture in the
skull bone” means “a wider portion adjacent to the flange than at the distal end and equivalents
[structure]” and “exerting a compression onto the skull bone in a radial direction [function].”
Date: August 21, 2019
/s/ Brian R. Martinotti___________
HON. BRIAN R. MARTINOTTI
UNITED STATES DISTRICT JUDGE
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