United States Court of Appeals for the Federal Circuit
2006-1530, -1555
AVENTIS PHARMA DEUTSCHLAND GMBH,
Plaintiff-Cross Appellant,
and
KING PHARMACEUTICALS, INC.,
Plaintiff-Cross Appellant,
v.
LUPIN, LTD.
and LUPIN PHARMACEUTICALS, INC.,
Defendants-Appellants.
Joel Katcoff, Kaye Scholer LLP, of New York, New York, argued for plaintiff-cross
appellant Aventis Pharma Deutschland GmbH. With him on the brief were Benjamin C.
Hsing, Sapna Walter Palla, and Tatiana N. Alyonycheva.
F. Dominic Cerrito, Jones Day, of New York, New York, argued for plaintiff-cross
appellant King Pharmaceuticals, Inc. With him on the brief were Daniel L. Malone, Eric
Stops, and Jonathan A. Muenkel.
Deanne M. Mazzochi, Rakoczy Molino Mazzochi Siwik LLP, of Chicago, Illinois,
argued for defendants-appellants. With her on the brief were William A. Rakoczy, Paul J.
Molino, and Alice L. Riechers.
Appealed from: United States District Court for the Eastern District of Virginia
Judge Robert G. Doumar
United States Court of Appeals for the Federal Circuit
2006-1530, -1555
AVENTIS PHARMA DEUTSCHLAND GMBH,
Plaintiff-Cross Appellant,
and
KING PHARMACEUTICALS, INC.,
Plaintiff-Cross Appellant,
v.
LUPIN, LTD. and LUPIN PHARMACEUTICALS, INC.,
Defendants-Appellants.
__________________________
DECIDED: September 11, 2007
__________________________
Before MAYER and LINN, Circuit Judges, and ROBERTSON, District Judge. *
LINN, Circuit Judge.
This is a patent infringement action concerning the pharmaceutical compound
ramipril, which is marketed by King Pharmaceuticals, Inc. (“King”) as a blood pressure
medication under the name Altace®. Lupin Ltd. and Lupin Pharmaceuticals, Inc.
(collectively, “Lupin”) appeal from a final judgment of infringement entered by the United
States District Court for the Eastern District of Virginia in favor of King and Aventis
Pharma Deutschland GmbH (“Aventis”). Aventis Pharma Deutschland GmbH v. Lupin
Ltd., No. 2:05-CV-421 (E.D. Va. July 18, 2006). The district court concluded at
*
Hon. James Robertson, District Judge, United States District Court for the
District of Columbia, sitting by designation.
summary judgment that Lupin’s filing of an Abbreviated New Drug Application (ANDA)
for a generic version of ramipril infringed Aventis’s U.S. Patent. No. 5,061,722 (“the ’722
patent”) under the doctrine of equivalents, and concluded after a bench trial that the
asserted claims of the ’722 patent were not invalid. 1 Lupin appeals from these
decisions. Aventis cross-appeals from the district court’s decision to dismiss its claim of
willful infringement. For the reasons that follow, we conclude that the subject matter of
the asserted claims of the ’722 patent would have been obvious. Accordingly, we
reverse. The cross-appeal and the remaining issues raised by the parties are deemed
moot and are not addressed.
I. BACKGROUND
A. The Claimed Technology
The patent at issue in this appeal is directed to the pharmaceutical compound
ramipril in a formulation “substantially free of other isomers.” Ramipril, like many
complex organic molecules, is one of a family of stereoisomers. As the district court
explained in greater detail in its opinion regarding validity, Aventis Pharma Deutschland
GmbH v. King Pharms., Inc., No. 2:05-CV-421 (E.D. Va. July 17, 2006) (“Invalidity
Opinion”), an isomer of a compound is a separate compound in which each molecule
contains the same constituent atoms as the first compound, but with those atoms
arranged differently. A stereoisomer is an isomer in which the same atoms are bonded
to the same other atoms, but where the configuration of those atoms in three
dimensions differs. The following structural formula represents ramipril:
1
Aventis is the owner of the ’722 patent, and King is its exclusive licensee.
Both parties are plaintiff-cross appellants. For convenience, and because Aventis and
King have adopted each other’s arguments on appeal pursuant to Fed. R. App. P. 28(i),
we refer to them collectively as “Aventis.”
2006-1530, -1555 2
Each of the five carbon atoms marked with an asterisk can be spatially oriented in two
different ways. 2 For example, the dashed triangle leading from the leftmost marked
carbon to a hydrogen (“H”) atom indicates that the hydrogen atom lies below the planes
of the two five-sided rings of which the carbon atom is a part. The hydrogen atom may
also lie above the planes of the rings, resulting in a structure that is a stereoisomer of
ramipril. Because there are five carbon atoms that may take either of two orientations—
or five “stereocenters,” as such atoms are known—ramipril is one of 25, or 32,
stereoisomers. There are a number of different ways of naming these stereoisomers;
one comparatively simple system, used by both parties and by the district court,
involves labeling each stereocenter with an “R” or an “S” depending on its configuration.
Using this system, all five stereocenters in ramipril are in the “S” configuration, so it is
known as an “SSSSS” or “5(S)” stereoisomer. Other stereoisomers would include
RRRRR, SSSSR, RRSSS, etc.
Some of the prior art references also use the terms “enantiomer” and
“diastereomer.” Enantiomers are stereoisomers that are mirror images of each other,
like left and right hands. Diastereomers are stereoisomers that are not enantiomers.
2
As is customary in chemical diagrams, carbon atoms may be indicated by
an intersection of two line segments; in such cases, hydrogen atoms that are bonded to
the carbons may be omitted from the diagram for simplicity and should be inferred.
2006-1530, -1555 3
The asserted claims of the ’722 patent read as follows:
1. A compound of the formula
or a physiologically acceptable salt thereof, wherein R2 is hydrogen,
methyl, ethyl, or benzyl, and wherein hydrogen atoms on the ring carbon
atoms in the 1- and 5-positions are in the cis-configuration relative to one
another, the carboxyl group on the ring carbon atom in the 3-position is in
the endo position relative to the bicyclic ring system, and the chirality
centers in the chain and on the ring carbon atom in the 3-position all have
the S-configuration, said compound or salt being substantially free of other
isomers.
2. A compound or salt as in claim 1 which is N-(1-S-carboethoxy-3-phenyl-
propyl)-S-alanyl-cis,endo-2-azabicyclo-[3.3.0]-octane-3-S-carboxylic acid
or a salt thereof.
4. A hypotensive composition for reducing blood pressure comprising a
hypotensively effective amount of a compound or salt as in claim 1 and a
pharmaceutically acceptable excipient therefor.
5. A method for reducing blood pressure in a patient which comprises
administering to said patient a hypotensively effective amount of a
compound or salt as in claim 1.
Claim 1, the only independent claim, covers a small genus of compounds, each of
which has a different functional group at location R2. The language of the claim,
“wherein hydrogen atoms on the ring carbon atoms in the 1- and 5-positions are in the
cis-configuration relative to one another, the carboxyl group on the ring carbon atom in
the 3-position is in the endo position relative to the bicyclic ring system, and the chirality
centers in the chain and on the ring carbon atom in the 3-position all have the S-
configuration,” limits claim 1 (and thus all the other claims) to the 5(S) stereoisomer.
2006-1530, -1555 4
When the R2 functional group is ethyl, the compound of claim 1 is ramipril. This is the
compound claimed specifically by claim 2.
B. The Development of Ramipril
Ramipril is one of a family of drugs known as “Angiotensin-Converting Enzyme
inhibitors,” or “ACE inhibitors.” ACE inhibitors inhibit a biochemical pathway that
constricts blood vessels and therefore are useful for treating high blood pressure. The
earliest ACE inhibitors, dating back to the late 1960s, were based on the venom of the
Brazilian Viper, which was known to reduce blood pressure. The active compound
isolated from viper venom, known as BPP5a, has six stereocenters, all of which are in
the S configuration. Synthetic ACE inhibitors have been developed by making structural
modifications to this venom and to successive generations of ACE inhibitors. For
example, captopril, the first synthetic ACE inhibitor, consists of part of the BPP5a
molecule with a sulfur atom at the end. Captopril retains two stereocenters from BPP5a,
both of which remain in the S configuration.
Ramipril’s immediate predecessor is an ACE inhibitor known as enalapril that
was introduced by Merck in 1980. Enalapril has three stereocenters. In a published
article, Merck scientists explained that the all-S (SSS) stereoisomer of enalapril was
found to have 700 times the potency of the SSR stereoisomer. A.A. Patchett et al., A
New Class of Angiotensin-Converting Enzyme Inhibitors, 288 Nature 280 (Nov. 20,
1980), available at J.A. 15475. The Merck article taught how to separate the all-S
isomer using standard chromatography techniques.
Both Aventis and its competitor Schering sought to create new ACE inhibitors
based on enalapril. Soon after enalapril’s introduction, Dr. Elizabeth Smith, a chemist at
2006-1530, -1555 5
Schering, conceived of the structure of ramipril and recorded it in her laboratory
notebooks. Ramipril has the same overall structure as enalapril, with one distinction:
where ramipril has two linked five-sided carbon rings (a “5,5 fused ring system”),
depicted, in the chemical diagrams above, on the left side of the molecule, enalapril has
only a single ring. The addition of the second ring gives rise to two more stereocenters
than are present in enalapril; thus, ramipril has the same three stereocenters as
enalapril, plus two new ones that span the fused ring system and are therefore known
as “bridgehead” carbons, for a total of five as discussed above.
Based on the work of Dr. Smith, Schering filed U.S. Patent Application No.
06/199,886 (“the ’886 application”) on October 23, 1980. Thereafter, the U.S. Patent
and Trademark Office (“PTO”) granted Schering Patent No. 4,587,258 (“the ’258
patent,” issued May 6, 1986) and No. 5,348,944 (“the ’944 patent,” issued Sept. 20,
1994), both claiming priority from the ’886 application via a series of continuations and
continuations-in-part. The ’886 application, the ’258 patent, and the ’944 patent
disclose the structure of ramipril but do not describe how its stereocenters should be
configured.
Example 20 of the ’886 application discloses a method for making ramipril and is
contained in the published specification of the ’944 patent. ’944 patent, col. 15, ll. 1–15.
The title of Example 20 encompasses only eight of the 32 stereoisomers of ramipril, but
there is some suggestion in the record that, in fact, Example 20 would have produced
only four stereoisomers in practice. Invalidity Opinion at 22–23. The district court
described one of the experts testifying on the topic as “somewhat credible” and did not
make any explicit findings as to which stereoisomers Example 20 would create. Id. at
2006-1530, -1555 6
23. For purposes of this appeal, it is sufficient to observe that it is uncontested that
Example 20 yields a mixture of several, but not all, stereoisomers of ramipril, one of
which is the 5(S) form. It appears likely that in some of these stereoisomers, the
“bridgehead” carbons are in the R configuration.
In February 1981, Dr. Smith synthesized a mixture of 5(S)-configuration ramipril
and its SSSSR stereoisomer, which mixture came to be known as SCH 31925. To
make SCH 31925, Smith followed the process disclosed in Example 20, with one
“tweak”: she used a catalytic hydrogenation step instead of the mercuric acetate
oxidation step taught by Example 20. The record is unclear as to why Smith used that
step, but there has been no showing that Smith was attempting to select particular
stereoisomers. However, the district court found, and Aventis does not dispute on
appeal, that SCH 31925—the product of the process as modified by Smith—contains
exactly two isomers, the 5(S) and SSSSR forms, and was successfully produced by Dr.
Smith. In both the 5(S) and SSSSR forms, the two “bridgehead” carbons are in the S
configuration. In light of the teachings of Example 20, Dr. Smith’s written laboratory
notebooks, and the test results that Dr. Smith obtained within weeks of SCH 31925’s
synthesis, we see no clear error in the district court’s findings that Dr. Smith had
conceived of the various stereoisomers and appreciated which of them SCH 31925
contained. See id. at 22–23, 68–69. Moreover, in vivo testing completed by the end of
March 1981 confirmed the mixture’s therapeutic activity as well as its stereochemistry.
We agree with the district court that Dr. Smith did not separate the 5(S) and SSSSR
isomers, and there is no evidence that she conceived of a purified formulation
containing only 5(S) ramipril. Id. at 69.
2006-1530, -1555 7
In October 1981, Dr. Volker Teetz, an Aventis chemist, also synthesized ramipril.
Id. at 23. On November 5, 1981, Aventis filed a German precursor to the application
that would become the ’722 patent-in-suit. On November 3, 1982, Aventis filed the first
in a chain of U.S. patent applications that led to the ’722 patent. In all these
applications, Aventis claimed the benefit of the German application. There is no dispute
that Aventis is entitled to the November 5, 1981 priority date.
On May 6, 1986, Schering’s ’258 patent issued. Shortly thereafter, Schering
granted Aventis a royalty-bearing license under the ’258 patent. Around the same time,
the PTO declared Interference No. 101,833 between the ’258 patent and a pending
continuation application belonging to Aventis. The interference settled. Schering
agreed to reduce Aventis’s royalty payment and to disclaim some of its patent claims.
In exchange, Aventis conceded priority as to the primary subject matter of the ’258
patent—the structure, production, and therapeutic use of ramipril, without specification
of particular stereoisomers. Aventis retained the right to prosecute its application as to
the 5(S) stereoisomer of ramipril in formulations “substantially free of other isomers,”
which it contended (and still contends) represents a separately patentable invention.
The dispute about patent rights having been resolved between Schering and
Aventis, Aventis proceeded to seek FDA approval of ramipril (apparently in a
substantially pure 5(S) form). On January 28, 1991, the FDA granted approval, and
Aventis began to sell ramipril under the name Altace®. Acting as Schering’s agent,
Aventis sought and obtained an extension of the ’258 patent’s term on the basis of the
period of regulatory review by the FDA.
On October 29, 1991, the ’722 patent issued.
2006-1530, -1555 8
C. Procedural History
The ’258 patent expired on January 27, 2005. On March 18, 2005, Lupin filed an
ANDA seeking approval for a generic version of ramipril. In response, pursuant to 35
U.S.C. § 271(e)(2)(A), Aventis sued Lupin for infringement, including willful
infringement, of the ’722 patent in the United States District Court for the Eastern
District of Virginia.
The district court granted Lupin’s Rule 12(c) motion for judgment on the
pleadings as to Aventis’s claim for willful infringement and dismissed that claim, leaving
only counts alleging non-willful infringement. Aventis Pharma Deutschland GmbH v.
King Pharms., Inc., No. 2:05-CV-421 (E.D. Va. Jan. 18, 2006). After construing the
claims, see Aventis Pharma Deutschland GmbH v. King Pharms., Inc., No. 2:05-CV-421
(E.D. Va. May 11, 2006), the district court considered the issue of infringement pursuant
to motions filed by both sides for summary judgment. The district court declined to
grant summary judgment to either party as to literal infringement, finding disputed
issues of material fact as to whether Lupin’s formulation of ramipril was “substantially
free of other isomers.” Aventis Pharma Deutschland GmbH v. King Pharms., Inc., No.
2:05-CV-421, slip op. at 11–16 (E.D. Va. June 5, 2006). However, the district court
granted summary judgment of infringement under the doctrine of equivalents, subject to
a subsequent ruling as to the ’722 patent’s validity. Id.
The district court then held a bench trial on validity. During the trial, the district
court orally granted Aventis’s motion for judgment as a matter of law that the ’722 patent
was not unenforceable for inequitable conduct. On July 17, 2006, the district court
issued its opinion on validity, concluding that the ’722 patent was neither anticipated nor
2006-1530, -1555 9
obvious. Invalidity Opinion at 87. Although the district court “reache[d] this decision
reluctantly” and observed that “[i]f the standard . . . had been by a preponderance of the
evidence rather than by clear and convincing evidence, the Court might have
determined this case in Lupin’s favor,” id. at 1–2, the court concluded that the prior art
did not teach ramipril “substantially free of other isomers,” nor would a person of
ordinary skill in the art “have necessarily been motivated to isolate Ramipril in the 5(S)
configuration substantially free of other isomers,” id. at 75.
Lupin appeals. Aventis cross-appeals, asserting error in the district court’s
finding that the filing of an ANDA cannot give rise to willful infringement. We have
jurisdiction pursuant to 28 U.S.C. § 1295(a)(1).
II. DISCUSSION
A. The Relevant Prior Art
The record contains a litany of potential prior art references, only some of which
are summarized in Part I.B above, and the prosecution histories of both the ’722 patent
and Schering’s ramipril patents are complex. Accordingly, and because Aventis
challenges the prior art status of a number of the references that Lupin cites, we begin
by identifying and describing the references on which our decision depends and
explaining why we consider them to be prior art.
Least controversial are the various references regarding BPP5a, captopril, and
enalapril. It is uncontested that these references were publicly disclosed or published
well before the development of ramipril and that both Schering’s and Aventis’s efforts
towards developing ramipril were based on this body of earlier knowledge. Notably, all
of the stereocenters in the most therapeutically active stereoisomers of these prior art
2006-1530, -1555 10
compounds are in the S configuration, and this fact was taught by, among other
references, Merck’s enalapril article in Nature.
Unlike these earlier references, however, Aventis challenges the prior art status
of the ’944 patent. 3 The ’944 patent, it observes, is a continuation-in-part of Schering’s
U.S. Patent Application No. 06/258,484 (“the ’484 application”), itself a continuation-in-
part of the ’886 application. Because Schering had abandoned the ’484 application
before the ’944 patent’s filing date, Aventis argues, 35 U.S.C. § 120 bars the ’944 patent
from benefiting from the earlier ’886 filing date. Lupin responds that the PTO cured this
defect by reviving the ’484 application nunc pro tunc. We need not and do not decide
Aventis’s challenge on this ground, however, because Aventis presents it for the first
time on appeal. In the district court, the ’944 patent was relied upon as prior art and its
status went unchallenged. Accordingly, the issue is waived. See Sage Prods., Inc. v.
Devon Indus., Inc., 126 F.3d 1420, 1426 (Fed. Cir. 1997). We thus consider the ’944
patent entitled to the ’886 filing date and treat it as prior art to the ’722 patent. The ’944
patent discloses Example 20 and also contains the following teaching: “When
diastereomeric products result from the synthetic procedures, the diastereomeric
products can be separated by conventional chromatographic or fractional crystallization
methods.” ’944 patent, col. 10, ll. 28–31.
Finally, we rely, as did the district court, on Dr. Smith’s synthesis of SCH 31925,
which qualifies as prior art under 35 U.S.C. § 102(g) as of a date no later than the end
of March 1981, several months before Aventis’s own synthesis of ramipril. See E.I. du
3
Aventis also challenges the prior art status of the ’258 patent on the
ground that it is a continuation-in-part containing previously undisclosed new matter.
We need not resolve this issue because we do not rely on the ’258 patent.
2006-1530, -1555 11
Pont de Nemours & Co. v. Phillips Petroleum Co., 849 F.2d 1430, 1436–37 (Fed. Cir.
1988) (discussing use of § 102(g) prior art in § 103 obviousness determinations).
Section 102(g) affords prior art status to an “invention [that] was made in this country by
another inventor who had not abandoned, suppressed, or concealed it.” 35 U.S.C.
§ 102(g). Aventis argues that Dr. Smith “abandoned, suppressed, or concealed” SCH
31925, but we see no error in the district court’s implicit rejection of this argument. A
very similar method to the one Dr. Smith used had already been disclosed in the ’886
patent application, the exact method was subsequently disclosed in the ’258 patent, and
the composition was developed in the course of extensive ongoing research and
development and concurrent ongoing patent prosecution. There has been no showing
either that Smith “intentionally suppress[ed] or conceal[ed] h[er] invention” or that an
“inference of suppression or concealment can be drawn based on an unreasonable
delay in making the invention publicly known.” Flex-Rest, LLC v. Steelcase, Inc., 455
F.3d 1351, 1358 (Fed. Cir. 2006). Accordingly, SCH 31925—a mixture of 5(S) ramipril
with its SSSSR stereoisomer—is part of the prior art.
B. Obviousness of Claims 1 and 2
We turn to the question of obviousness. “Obviousness is a question of law,
reviewed de novo, based upon underlying factual questions which are reviewed for
clear error following a bench trial.” Alza Corp. v. Mylan Labs., Inc., 464 F.3d 1286, 1289
(Fed. Cir. 2006). The key question is whether the 5(S) stereoisomer of ramipril, in a
form substantially free of other isomers, 4 would have been obvious over the prior art
4
We note that the parties dispute the claim construction of “substantially
free of other isomers.” We need not address this question directly, however, because
their dispute centers on how much of another isomer a composition might contain while
2006-1530, -1555 12
listed above to one of ordinary skill in the art at the time of the ’722 patent’s priority date.
See 35 U.S.C. § 103(a). Such a composition is precisely the subject matter of claim 2
of the ’722 patent, but the question is dispositive of the obviousness of claim 1 as well,
because claim 1 is to a broader genus containing the same subject matter. See, e.g.,
Eli Lilly & Co. v. Barr Labs., Inc., 251 F.3d 955, 971 (Fed. Cir. 2001) (noting that a
“genus claim limitation is anticipated by, and therefore not patentably distinct from, [a]
species claim”).
The district court held that Lupin failed to meet its burden of proof by clear and
convincing evidence that a person of ordinary skill in the art would have been motivated
to purify 5(S) ramipril into a composition substantially free of other isomers. Invalidity
Opinion at 74–75. The district court saw this as a close case based principally on the
absence of a clear and convincing showing of motivation. Since the date of that
decision, however, the Supreme Court decided KSR International Co. v. Teleflex Inc.,
127 S. Ct. 1727 (2007), which counsels against applying the “teaching, suggestion, or
motivation” (“TSM”) test as a “rigid and mandatory formula[].” See KSR, 127 S. Ct. at
1741. It remains necessary to show “‘some articulated reasoning with some rational
underpinning to support the legal conclusion of obviousness,’” but such reasoning “need
not seek out precise teachings directed to the specific subject matter of the challenged
claim.” See id. (quoting In re Kahn, 441 F.3d 977, 988 (Fed. Cir. 2006)). Requiring an
explicit teaching to purify the 5(S) stereoisomer from a mixture in which it is the active
still remaining “substantially free of other isomers.” Whatever the answer to this
question might be, it is undisputed that SCH 31925 and the other mixtures of ramipril
isomers in the prior art are mixtures that are not substantially free of isomers other than
the 5(S) form, whereas the claimed composition of 5(S) ramipril is ipso facto
“substantially free” enough.
2006-1530, -1555 13
ingredient is precisely the sort of rigid application of the TSM test that was criticized in
KSR.
In the chemical arts, we have long held that “structural similarity between claimed
and prior art subject matter, proved by combining references or otherwise, where the
prior art gives reason or motivation to make the claimed compositions, creates a prima
facie case of obviousness.” Takeda Chem. Indus., Ltd. v. Alphapharm Pty., Ltd., No.
06-1329, slip op. at 9 (Fed. Cir. June 28, 2007) (quoting In re Dillon, 919 F.2d 688, 692
(Fed. Cir. 1990) (en banc)); see also In re Papesch, 315 F.2d 381 (C.C.P.A. 1963). The
“reason or motivation” need not be an explicit teaching that the claimed compound will
have a particular utility; it is sufficient to show that the claimed and prior art compounds
possess a “sufficiently close relationship . . . to create an expectation,” in light of the
totality of the prior art, that the new compound will have “similar properties” to the old.
Dillon, 919 F.2d at 692; see also In re Wilder, 563 F.2d 457, 460 (C.C.P.A. 1977)
(“[O]ne who claims a compound, per se, which is structurally similar to a prior art
compound must rebut the presumed expectation that the structurally similar compounds
have similar properties.”). Once such a prima facie case is established, it falls to the
applicant or patentee to rebut it, for example with a showing that the claimed compound
has unexpected properties. Dillon, 919 F.2d at 692.
The analysis is similar where, as here, a claimed composition is a purified form of
a mixture that existed in the prior art. Such a purified compound is not always prima
facie obvious over the mixture; for example, it may not be known that the purified
compound is present in or an active ingredient of the mixture, or the state of the art may
be such that discovering how to perform the purification is an invention of patentable
2006-1530, -1555 14
weight in itself. However, if it is known that some desirable property of a mixture
derives in whole or in part from a particular one of its components, or if the prior art
would provide a person of ordinary skill in the art with reason to believe that this is so,
the purified compound is prima facie obvious over the mixture even without an explicit
teaching that the ingredient should be concentrated or purified. See In re May, 574
F.2d 1082, 1090–94 (C.C.P.A. 1978) (holding isolated stereoisomer nonobvious over
racemic mixture of stereoisomers, after conceded prima facie showing of obviousness,
because isolated stereoisomer was unexpectedly nonaddictive); In re Adamson, 275
F.2d 952, 954–55 (C.C.P.A. 1960) (holding isolated stereoisomer obvious over racemic
mixture of stereoisomers, given insufficient showing of any unexpected result); see also
In re Merz, 97 F.2d 599, 601 (C.C.P.A. 1938) (holding, prior to the enactment of § 103,
that an applicant “is not entitled to a patent on [an] article which after being produced
has a greater degree of purity than the product produced by former methods” unless the
purification results in “properties and characteristics which were different in kind from
those of the known product rather than in degree”). Ordinarily, one expects a
concentrated or purified ingredient to retain the same properties it exhibited in a mixture,
and for those properties to be amplified when the ingredient is concentrated or purified;
isolation of interesting compounds is a mainstay of the chemist’s art. If it is known how
to perform such an isolation, doing so “is likely the product not of innovation but of
ordinary skill and common sense.” KSR, 127 S. Ct. at 1742.
The record suggests that when Dr. Smith synthesized SCH 31925, she
understood that the 5(S) form of ramipril was the mixture’s therapeutically active
ingredient. Even if she did not, however, the prior art provides a sufficient reason to
2006-1530, -1555 15
look to the 5(S) configuration. The SCH 31925 composition contained only the 5(S) and
SSSSR stereoisomers of ramipril. Importantly, these forms differ by the configuration of
only one carbon atom, and that atom is not one of the “bridgehead” carbons. Rather,
that carbon atom is in the part of the ramipril molecule that is common to the enalapril
molecule. In enalapril, as in captopril and BPP5a before it, all of the stereocenters are in
the S configuration; the Merck article taught that the SSS configuration of enalapril is
700 times as potent as the SSR form. The close structural analogy between 5(S) and
SSSSR ramipril and SSS and SSR enalapril would have led a person of ordinary skill to
expect 5(S) and SSSSR ramipril to differ similarly in potency. Moreover, the ’944 patent
specifically taught that stereoisomers of ramipril “can be separated by conventional
chromatographic or fractional crystallization methods.” ’944 patent, col. 10, ll. 28–31.
Aventis’s protestations notwithstanding, there is no evidence that separating 5(S) and
SSSSR ramipril was outside the capability of an ordinarily skilled artisan.
Aventis attempts to rebut this prima facie case of obviousness by arguing that
purified 5(S) ramipril exhibited unexpected results in the form of increased potency. In
support, Aventis points to the district court’s finding that 5(S) ramipril is 18 times as
potent as the next most potent isomer, the RRSSS form. Invalidity Opinion at 44.
Aventis is correct that, on the basis of the record, the RRSSS and 5(S) forms might
have been expected to have comparable potencies; both of them have only S-
configured stereocenters in the part of the ramipril molecule that is common to enalapril,
as the R stereocenters in the RRSSS form are the “bridgehead” carbons. This,
however, is the wrong comparison. The prior art supporting prima facie obviousness
included the SCH 31925 mixture, and so Aventis must show that 5(S) ramipril had
2006-1530, -1555 16
unexpected results not over all of its stereoisomers, but over that mixture, which did not
contain the RRSSS form. And the potency of pure 5(S) ramipril is precisely what one
would expect, as compared to a mixture containing other, inert or near-inert
stereoisomers. All evidence suggests, and the district court found, that potency varies
with the absolute amount of the 5(S) isomer in a mixture. Invalidity Opinion at 37. That
is, a 30 milligram dose of a mixture that is 1/3 5(S) ramipril has the same effectiveness
as a 10 milligram dose of pure 5(S) ramipril. Id. Aventis has thus failed to show
unexpected results that would tend to rebut a prima facie case of obviousness. See
Pfizer v. Apotex, 480 F.3d 1348, 1368–69 (Fed. Cir. 2007) (holding obvious a patent
claim to amlodipine besylate over prior art disclosing the small genus of
pharmaceutically acceptable amlodipine salts, where there was an insufficient showing
that the properties of amlodipine besylate, purportedly superior for the purpose of mass-
manufacturing tablets, were unexpectedly superior to other obvious-to-try salts); cf.
Forest Labs., Inc. v. Ivax Pharms., Inc., No. 07-1059, slip op. at 10–11 (Fed. Cir. Sept.
5, 2007) (holding that prima facie obviousness of a claim to a particular stereoisomer
over a racemic mixture was rebutted where the particular stereoisomer showed
unexpected benefits and evidence indicated that the isomers would have been difficult
for a person of ordinary skill in the art to separate).
In sum, we hold that claims 1 and 2 of the ’722 patent, which cover the 5(S)
stereoisomer of ramipril in a composition substantially free of other isomers, are invalid
under 35 U.S.C. § 103 over the SCH 31925 mixture, the ’944 patent, and the enalapril
references in the prior art.
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C. Obviousness of Claims 4 and 5
Two asserted claims of the ’722 patent remain for discussion. Claim 4 addresses
a “hypotensive composition” of the compound in claim 1 “comprising a hypotensively
effective amount” of the compound “and a pharmaceutically acceptable excipient
therefor.” Claim 5 addresses a “method for reducing blood pressure” by administering
the compound of claim 1. The parties argue this case by discussing the invalidity of the
’722 patent as a whole, but “we must evaluate obviousness on a claim-by-claim basis.”
DyStar Textilfarben GmbH & Co. Deutschland KG v. C.H. Patrick Co., 464 F.3d 1356,
1372 (2006). However, the parties do not challenge the district court’s observation that
“all the claims rise or fall with the validity of claim 1,” Invalidity Opinion at 17, and with
good reason. The added limitations of claims 4 and 5 appear almost verbatim in
virtually all the prior art patents, including the ’944 patent and its parent ’886 application.
E.g., ’944 patent, claims 3–4, col. 36, ll. 43–52. The prior art thus reveals that it was
well understood by ordinarily skilled artisans that ACE inhibitors were to be used in the
manner these claims describe. Accordingly, we hold that claims 4 and 5 of the ’722
patent are also invalid as obvious.
III. CONCLUSION
Having concluded that all asserted claims of the ’722 patent are invalid as
obvious, we need not reach Lupin’s remaining arguments in favor of reversal. Likewise,
Aventis’s cross-appeal is moot. Because Lupin is entitled to entry of judgment in its
favor, the judgment of the district court is
REVERSED.
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