This is an appeal from a patent infringement action in which Key Pharmaceuticals, Inc. (“Key”) charged Hereon Laboratories Corporation (“Hereon”) with infringement of its U.S. Patent No. 5,186,938 (“ ’938 patent” or “the patent”). Hereon, in addition to denying infringement, counterclaimed that the patent is invalid and unenforceable. Following a bench trial, the United States District Court for the District of Delaware concluded that Hereon infringed the patent and that it failed to prove the patent invalid or unenforceable, and entered a final judgment to that effect.
See Key Pharm., Inc. v. Hereon Lab. Corp.,
BACKGROUND
Key manufactures and sells a nitroglycerin transdermal patch known as the Nitro-Dur II for treating angina pectoris due to coronary artery disease. The Nitro-Dur II patch consists of an impermeable plastic backing layer to which is laminated an adhesive layer having nitroglycerin dispersed therein. The “drug-in-adhesive” patch is applied to a patient’s skin, and is designed to deliver nitroglycerin through the skin over a twenty-four hour period. The Nitro-Dur II is Key’s purported commercial embodiment of the ’938 patent, entitled “Adhesive Trans-dermal Dosage Layer.”
Hereon is a generic drug manufacturer seeking to manufacture and sell a generic version of the Nitro-Dur II. This dispute arose when Hereon applied for Food and Drug Administration (“FDA”) approval of its generic patch. Key sued Hereon, alleging that Hereon had infringed the ’938 patent by submitting applications for FDA approval, and seeking to enjoin Hereon from manufacturing and selling its generic patch.
In response, Hereon asserted that its generic patch does not infringe and that the patent is invalid and unenforceable. Key ultimately limited its infringement charge to claim 14 of the ’938 patent. Hereon, as part of its invalidity case, argued that claim 14 is anticipated and rendered obvious by, among other things, Japanese Kokai 46959-1983, a prior-art Japanese published patent application (hereafter the “ ’959 reference” or “ ’959 Japanese patent application”).
Within the context of transdermal patches, the ’938 patent, the patent-in-suit, is directed generally to the adhesive layer, namely, an “adhesive transdermal dosage layer” that contains a “pharmaceutically active drug” dispersed in the adhesive layer. ’938 patent, col. 3, ll. 39-43. The adhesive layer is placed on a backing or “facing” layer to form a transdermal patch. Id. col. 4, ll. 18-26. The adhesive layer includes, intermixed, an adhesive acrylate polymer, a cross-linking agent, and a pharmaceutically active drug that by itself, or as dissolved in a solvent, acts as a solvent with respect to the adhesive polymer. See id. col. 3, ll. 39-51. The patent teaches that a sufficient amount of drug must be added to the adhesive layer for it to be “pharmaceutically effective.” Id. col. 3, ll. 43-48. However, according to the patent, as more solvent-acting drug is added, the adhesive polymer becomes “soft and runny.” Id. col. 3, ll. 54-64. To offset this solvent effect, *712 the cross-linking agent is added. See id. col. 3,1. 54, to col. 4,1. 5.
Claim 14, the only claim at issue, is a dependent claim, depending on claim 13, which in turn depends on claim 12, an independent claim. Claim 12 specifies an adhesive layer comprising a cross-linked acrylate polymer and a pharmaceutically active drug:
12. An adhesive transdermal layer for sustained release of a pharmaceutically active drug to the skin of a human patient, comprising:
a pharmaceutically active drug-containing essentially planar sheet of an at least partially cross-linked acrylic adhesive, said essentially planar sheet comprising a flexible self-supporting cross-linked acrylate polymer of sufficient adhesivity, durability and strength whereby intimate diffusional contact with skin of the patient is maintained for a period of at least about 24 hours without destruction of the physical integrity thereof, said essentially planar sheet being capable of retaining dispersed therein sufficient pharmaceutically active drug to deliver to the skin a pharmaceutically effective amount of said pharmaceutically active drug over a 2Jp-hour time interval, without dissolution of the at least partially cross-linked acrylic pressure-sensitive adhesive.
Id. col. 12, ll. 5-23 (emphasis added).
Whereas claim 12 is directed to adhesive layers containing “pharmaceutically active drug[s]” generally, claim 13 limits claim 12 by requiring that the “pharmaceutically active drug” be a “vasodilator,” and claim 14 in turn limits claim 13 by requiring that the vasodilator be “nitroglycerin.” Id. col. 12,11. 24-28.
At trial, the question of the validity of claim 14 over the ’959 reference turned principally on the proper construction of the claim clause “sufficient pharmaceutically active drug [nitroglycerin, in the case of claim 14] to deliver to the skin a pharmaceutically effective amount of said pharmaceutically active drug [nitroglycerin] over a 24-hour time interval.” The primary dispute was whether the ’959 reference disclosed a transdermal patch capable of delivering such an amount of nitroglycerin. At Hercon’s urging at trial, the trial court construed the clause based on the range of nitroglycerin dosages conditionally approved by FDA in 1984,
i.e.,
2.5 to 15 milligrams per day (“mg/day”),
see Key Pharm.,
Hercon’s unenforceability counterclaim was also based in large part on the ’959 reference. During the prosecution that led to the issuance of the ’938 patent, Key submitted to the U.S. Patent and Trademark Office (“PTO”) only the English-language abstract of the ’959 Japanese patent application. Hereon argued that Key committed inequitable conduct by failing to submit the English-language translation of the complete ’959 Japanese patent application.
As found by the trial court, the ’959 reference discloses a transdermal acrylic adhesive layer, at least partially cross-linked, for administering a drug through the skin. See id. at 311. The abstract of the ’959 reference, which was submitted to the PTO, describes an adhesive transdermal formulation containing an adhesive polymer, cross-linking agents, and a solvent drug; the abstract however does not mention any specific drug. The complete ’959 Japanese patent application, on the other hand, discloses nitroglycerin as one suitable drug, and provides a specific example, “Example 3,” in which 40 milligrams (“mg”) of nitroglycerin are contained in a cross-linked acrylic adhesive layer in a 100 square-centimeter (“cm 2 ”) patch.
The trial court found that Hereon failed to establish the threshold levels of materiality and intent required for inequitable conduct,
*713
see
Halliburton Co. v. Schlumberger Tech. Corp.,
Here on appeal Hereon asserts that the trial court erred in not finding the ’938 patent invalid or unenforceable based on the ’959 reference. Hereon does not challenge the infringement finding or any other aspects of the judgment.
DISCUSSION
I.
With regard to validity, Hereon argues that claim 14 of the ’938 patent is anticipated or rendered obvious by the ’959 reference, and that the trial court’s contrary conclusions are in error. Hercon’s appeal in this regard hinges largely on claim construction, namely, the proper construction of the clause “sufficient pharmaceutically active drug [nitroglycerin, in the case of claim 14] to deliver to the skin a pharmaceutically effective amount of said pharmaceutically active drug over a 24-hour time interval.” Hereon argues that the trial court’s construction of this clause is wrong, even though it urged that construction at trial. Key, for its part, asserts that the construction is absolutely right, though it opposed the construction at trial.
Our standard of review of claim construction is now firmly established: we exercise independent review.
See Cybor Corp. v. FAS Techs., Inc.,
In construing the disputed claim clause, the trial court relied heavily on the testimony of Hercon’s technical expert, Dr. Richard H. Guy, a Ph.D. in pharmaceutical chemistry. Dr. Guy explained that for a transdermal patch to be effective, it should produce and sustain a concentration of the drug in the blood that falls within a range referred to in the art as “the therapeutic window,” at the low end of which the drug is minimally effective and at the high end is minimally toxic. Tr. at 1093-94. He testified that the term “pharmaceutically effective amount” refers to the amount of drug, e.g., in milligrams, required over a twenty-four hour period to produce and sustain a drug concentration within the therapeutic window. Tr. at 1096.
With regard to claim 14, he stated that the phrase refers to “the amount of nitroglycerin required in a day to achieve the sustained concentration.” Tr. at 1097. When Hercon’s counsel asked Dr. Guy whether “anything in the specification or claims or file history of the ’938 patent ... would lead [him] to come to a different conclusion as to the meaning of ‘pharmaceutically effective amount ... ’ as used in claim 14,” Dr. Guy replied, “No.” Id.
Hercon’s counsel then directed Dr. Guy’s testimony to specific numerical values encompassed by the term “pharmaceutically effective amount.” In response to questioning by Hercon’s counsel, Dr. Guy testified that the patent provides no numerical values for the term, that one of ordinary skill in the art would therefore look to the FDA for numerical ranges, and that there one would find the range 2.5 to 15 mg of nitroglycerin per day:
Q. Does the ’938 patent provide any numerical values for what is meant by “a pharmaceutically effective amount”?
*714 A. No.
Q. If the ’938 patent doesn’t provide any numerical values, what, then, would one of ordinary skill in the art use as a pharma-ceutically effective amount?
A. As one of ordinary skill in the art in the area of transdermal delivery, at — in 1984, let’s say, the information which is available to one concerning the pharmaceu-tically effective amount of nitroglycerin over a period of 24 hours would — I would look to the conditionally approved FDA— or conditionally approved by the FDA transdermal delivery systems for guidance on that number.
Q. And looking there for guidance, what amounts would that lead you to?
A..... [T]he conditionally approved systems teach you between 2.5 and 15 milligrams per day as being a range which at that time by the FDA were thought to be pharmaceutically effective.
Tr. at 1097-99. In sum then, Dr. Guy opined that one of ordinary skill in the art at the time of the claimed invention would have construed the phrase “a pharmaceutically effective amount [of nitroglycerin]” to mean an amount falling within the range delivered by the nitroglycerin patches conditionally approved by the FDA in 1984 — the earliest effective date for the ’938 patent — ie., 2.5 to 15 mg/day.
The trial court’s claim construction essentially tracks Dr. Guy’s testimony. As already noted, the court construed the clause to mean “an amount sufficient to provide a patient with 2.5 to 15 mg of nitroglycerin per day — that is, 2.5 to 15 mg of nitroglycerin, plus an excess amount to ensure that the desired amount is delivered.”
Key Pharm.,
The disputed claim clause actually refers to two interrelated amounts: the amount of drug contained in the adhesive layer
(ie.,
“sufficient pharmaceutically active drug”), and the amount of drug delivered to the patient
(ie.,
“a pharmaceutically effective amount”).
See
’938 patent, col. 12, ll. 16-21, 24-28 (“said [adhesive layer] being capable of retaining dispersed therein
sufficient phar-maceutically active drug
[nitroglycerin, in the case of claim 14] to deliver to the skin
a pharmaceutically effective amount
of said pharmaceutically active drug over a 24-hour time interval”). The trial court’s claim construction addressed each of these amounts: the court construed the phrase “a pharma-ceutically effective amount” — the amount delivered to the patient’s skin — as 2.5 to 15 mg of nitroglycerin per day, and the phrase “sufficient [nitroglycerin]” — the amount in the adhesive layer — as an amount in excess of 2.5 to 15 mg of nitroglycerin to ensure that 2.5 to 15 mg of nitroglycerin are delivered to the patient.
See Key Pharm.,
Hercon’s appeal is directed specifically to the construction of the phrase “a phar-maceutically effective amount,”
ie.,
the amount of nitroglycerin delivered to the patient, and Key agrees that that is the principal claim construction issue. The parties dispute the particular numerical range encompassed by the phrase “a pharmaceutically effective amount,” and they present the dispute as one of claim construction. We observe in passing that, not unlike a determination of infringement, a determination of anticipation, as well as obviousness, involves two steps. First is construing the claim, a question of law for the court, followed by, in the case of anticipation or obviousness, a comparison of the construed claim to the prior art. This comparison process involves fact-finding, and is for the fact-finder in the first instance.
See Beachcombers, Int’l, Inc. v. WildeWood Creative Prods., Inc.,
A.
The dispute presented to us is not one that typically is brought before an appellate court. We find highly questionable Her-con’s assertion on appeal that the trial court erred when it adopted the very construction Hereon urged upon the court through the testimony of Dr. Guy. In essence, Hereon *715 asserts that the trial court erred by adopting the position it advocated at trial. Although the function of an appellate court is to correct errors committed at trial, we look with extreme disfavor on Hercon’s assertion that the trial court committed error in its claim construction. Ordinarily, doctrines of estop-pel, waiver, invited error, or the like would prohibit a party from asserting as “error” a position that it had advocated at the trial. 1
Allowing parties in a patent suit to assert “error” in such situations would open the door to mischief and judicial inefficiency. For example, a party could advocate a certain claim construction at trial believing that that claim construction will result in favorable resolution of infringement or validity issues. If the trial court adopts that claim construction but resolves the infringement or validity issues unfavorably, the party could thereafter assert a new claim construction to get the proverbial “second-bite,” possibly necessitating a retrial.
This is a case in point. At trial, Hercon’s witness, Dr. Guy, proposed the 2.5 to 15 mg/day claim construction with the belief that the Example 3 patch of the ’959 reference delivered an amount of nitroglycerin within this range and therefore anticipated claim 14.
See
tr. at 1104. However, on cross-examination Dr. Guy conceded that he had erred in his calculations regarding Example 3.
See Key Pharm.,
Concurrently, in an obvious attempt to salvage its invalidity case, Hereon offered an alternative claim construction under which the lower limit of “a pharmaceutically effective amount” is 1.5 mg of nitroglycerin per day. See Hercon’s Opening Post-Trial Br. at 62-63. On appeal, it is this alternative claim construction (discussed below) that Hereon aggressively asserts, seeking to disavow the claim construction it urged at trial through Dr. Guy. In this case, we see no reason for Hercon’s claim construction reversal other than its desire to escape Dr. Guy’s erroneous calculations regarding Example 3. Such a reason does not justify an after-trial attempt to disavow a claim construction urged upon the trial court as correct., Absent a justifiable reason for such a claim construction shift, the doctrines of law to which we have referred should bar parties from fundamental changes in positions asserted at trial.
The impropriety of asserting a position which the trial court adopts and then complaining about it on appeal should be obvious on its face, and litigants hardly need warning not to engage in such conduct. Indeed, we could appropriately refuse to entertain Her-con’s appeal on the issue of claim construction.
It is the case, though, that we have not found any prior opinion of this court that has had occasion to publicly condemn this behavior.
2
Nor did Key object to the conduct by
*716
Hereon, or seek to invoke estoppel or the other principles to which we have referred. In an abundance of fairness,' then, and to preclude any argument by Hereon that it was not on notice, we choose instead to independently review the correctness of the trial court’s claim construction. We do not take our task lightly in this regard, as we recognize the national
stare decisis
effect that this court’s decisions on claim construction have. See
Markman v. Westview Instruments, Inc.,
B.
Turning then to the propriety of the trial court’s claim construction, Hercon’s principal argument is that the court erred in relying on so-called extrinsic evidence,
i.e.,
evidence outside of the “patent record,”
see Markman,
Furthermore, a trial court is quite correct in hearing and relying on expert testimony on an ultimate claim construction question in cases in which the intrinsic evidence
(i.e.,
the patent and its file history— the “patent record”) does not answer the question.
See Vitronics,
What is disapproved of is an attempt to use extrinsic evidence to arrive at a claim construction that is clearly at odds with the claim construction mandated by the claims themselves, the written description, and the prosecution history, in other words, with the written record of the patent.
See Markman,
Hereon contends that the trial court’s construction of the phrase “a pharmaceutically effective amount” violates this prohibition. According to Hereon, the patent itself defines this amount as being as low as 1.5 mg of nitroglycerin per day and that it was therefore improper to rely on FDA values — evidence extrinsic to the patent record — to reach a contrary lower limit. Hereon points to the “OBJECTS OF THE INVENTION” set forth in the patent’s written description in which it is stated that one “object of the invention is to provide a dosage system wherein nitroglycerin is delivered to the skin in an amount of from about 0.3 to about 0.7 mg per square centimeter of the [adhesive] layer per 24-hour time interval,” ’938 patent, col. 4, 1. 67, to col. 5, 1. 3, and the patent’s “DETAILED DESCRIPTION OF THE INVENTION” in which it is stated that “the presently contemplated preferred [patch] sizes are 5, 10, 15, 20, 25 and 30 cm2,” id. col. 9, ll. 47-49.
According to Hereon, one arrives at the minimum “pharmaceutically effective amount” by multiplying the lowest stated flux rate (ie., 0.3 milligrams per square-centimeter per day (“mg/cm 2-day”)) by the smallest stated preferred patch size (ie., 5 cm2), which yields 1.5 mg/day. Hereon is certainly correct that multiplying flux rates by patch sizes yields daily dosages. However, there is no suggestion in the ’938 patent that the full stated range of flux rates can be combined with the full stated range of preferred patch sizes to obtain delivery of “phar-maceutically effective amount[s]” of nitroglycerin. That is, there is no suggestion that each and every combination of flux and patch size from the stated ranges will be effective.
Most importantly, there is no suggestion to use the lowest stated flux rate with the smallest stated preferred patch size. To the contrary, the patent teaches that enough drug be incorporated into even the smallest preferred patch size to provide pharmaceutical efficacy: “The present invention allows for the incorporation of enough pharmaceuti-cally active drug such as nitroglycerin to provide efficacy with a dosage system having a 5 cm2 surface area and a thickness of about 3.5 to 4 mm.” Id. col. 9, ll. 51-55.
Furthermore, Hercon’s argument is unconvincing because it is based on using the smallest “preferred” patch size (5 cm2), whereas the full stated range of patch sizes is 1 to 200 cm2. Id. col. 9, ll. 46-49 (“A surface area in the range of 1 to 200 cm2 is contemplated and the presently contemplated preferred sizes are 5,10,15, 20, 25 and 30 cm 2.”). Thus, under Hercon’s approach one would actually expect to combine the overall smallest patch size (1 cm2) with the lowest flux rate (0.3 mg/cm 2-day) — not the smallest “preferred” patch size. This combination would give a 0.3 mg/day patch, which is well below the 2.5 mg/day minimum dosage approved by the FDA. Accordingly, Hercon’s assertion that the patent teaches that combining the smallest patch size with the lowest flux rate produces the minimum “pharmaceu-tically effective amount” is without merit.
Indeed, under Hercon’s direction, its expert Dr. Guy testified that the flux rates disclosed in the patent tell one nothing about the meaning of the term “pharmaceutically effective amount”:
Q. Looking at the recitations ... relating to flux rate ..., does that tell you anything about the meaning of the term “pharma-ceutically effective amount” as used in the claims of the ’938 patent?
A. No.
Tr. at 1104.
Nor did Key’s expert, Dr. John K. Beasley, a Ph.D. in physical chemistry, testify that one skilled in the art would combine the extremes of the disclosed ranges of flux rates and patch sizes to determine the range of amounts represented by the term “pharma-ceutically effective amount.” Rather than addressing the amounts represented by this term, Dr. Beasley and Key focused on whether the disputed claim clause “sufficient [nitroglycerin] to deliver to the skin a phar-maceutically effective amount of said [nitroglycerin] over a 24-hour time interval” incorporates and therefore requires the written-description stated flux range (0.3 to 0.7 mg/cm 2-day,
see
’938 patent, col. 4, 1. 67, to col. 5, 1. 3), weight percentage of nitroglyce
*718
rin in the adhesive layer (20 to 60 percent,
see id.
col. 7, ll. 11-15) and efficacy capability with a small patch (5 cm 2,
see id.
col. 9, ll. 51-55).
See Key Pharm.,
In sum, neither Hereon nor Key has pointed to intrinsic evidence establishing the numerical range of amounts represented by the term “pharmaceutically effective amount.” Nor have we independently found any. Thus, the resort to and use of extrinsic evidence in this case was entirely appropriate.
Furthermore, we detect no error in the particular extrinsic evidence relied upon by the trial court. To the contrary, it is quite sensible to look to the FDA to determine what amounts are considered pharmaceuti-cally effective. In 1984, the earliest effective filing date for the ’938 patent, the FDA considered 2.5 to 15 mg/day to be pharma-ceutically effective; in fact, that is the range of dosages approved by the FDA as effective through at least 1993,
see
Notice, 58 Fed.Reg. 38129, 38130-31 (1993).
3
The trial court’s determination that this range corresponds to that represented by the term “pharmaceutically effective amount” is logical and appropriate; it does not constitute error.
See Markman,
Lastly on the issue of claim construction, we address Hercon’s alternative argument that, if looking to FDA-approved dosages to construe claim 14 is deemed proper, the lower limit of the term “pharmaceutically effective amount” is actually 2.0 mg/day. Hereon arrives at this conclusion by noting that the FDA considers a transdermal patch to be bioequivalent to an approved patch if the amount of drug it delivers is within plus or minus 20 percent of that delivered by the approved patch. According to Hereon, the lower limit should therefore be 20 percent less than the 2.5 mg/day minimum approved
dosage
— ie., 2.0 mg/day. However, as concluded by the trial court, there is insufficient evidence in the record to establish that “one of ordinary skill in the art would have so construed ‘a pharmaceutically effective amount.’ ”
Key Pharm.,
C.
In view of our affirmance of the trial court’s construction of the term “pharmaceu-tically effective amount,” Hereon’s assertions that the validity judgment should be disturbed fail. The evidence at trial indicated that, based on mathematically modeling the Example 3 patch of the ’959 reference, the Example 3 patch would deliver at most 2.0 mg of nitroglycerin per day, though even this was subject to some doubt.
See id.
at 312-13. Assuming for sake of argument that the Example 3 patch would deliver 2.0 mg/day, there is no anticipation because claim 14, as construed, requires that the patch be capable of delivering at least 2.5 mg/day.
See Minnesota Mining & Mfg. Co. v. Johnson & Johnson Orthopaedics Inc.,
We are also unpersuaded by Hercon’s further alternative arguments that, even accepting the trial court’s claim construction, claim 14 is inherently anticipated or rendered obvious by the ’959 reference. Hereon asserts that the Example 3 patch of the ’959 reference would merely have to be increased in size by 25 percent to deliver 2.5 mg'day, and that this is inherently taught by, or at least obvious in view of, the ’959 reference. However, as the trial court’s findings indicate,
*719
these assertions lack the kind of support in the record needed for proof of invalidity by clear and convincing evidence.
See Key Pharm.,
The trial court did not err in determining that Hereon failed to prove by clear and convincing evidence that claim 14 is either anticipated or rendered obvious by the ’959 reference. Accordingly, we affirm the trial court’s judgment on validity.
II.
Turning to the issue of inequitable conduct, the factual prerequisites to inequitable conduct are materiality and intent to deceive.
See Glaverbel Societe Anonyme v. Northlake Mktg. & Supply, Inc.,
In this case, the trial court found that Hereon proved neither the threshold level of materiality nor intent.
See Key Pharm.,
Having carefully considered Hereon’s various arguments, we acknowledge that the issue of inequitable conduct in this case is a close one. However, the finding on intent in particular depended heavily on the presentation of evidence and witness testimony at trial. The trial court was able to hear these matters first hand and assess witness credibility. Upon the record before us, we cannot say that the trial court’s finding on intent is clearly erroneous. Accordingly, while the finding of no materiality is problematic, we need not decide whether that finding was in error, because, given our affir-mance of the finding on intent, we must affirm the determination of no inequitable conduct.
See id.
at 872 & n. 5,
CONCLUSION
The judgment of the trial court is
AFFIRMED.
COSTS
Each party shall bear its own costs.
Notes
.
See Yniguez
v.
State of Ariz.,
.
But cf. Sage Prods., Inc. v. Devon Indus., Inc.
. The FDA's approved range of nitroglycerin dosages is expressed in terms of milligrams per hour ("mg/h”), namely 0.1 to 0.6 mg/h.
See