Date: 20070112
Docket: T-2137-04
Citation: 2007 FC 26
Ottawa, Ontario, January 12,
2007
PRESENT: The Honourable Mr. Justice O'Reilly
BETWEEN:
PFIZER
CANADA INC. and PFIZER INC.
Applicants
and
APOTEX INC and
THE MINISTER OF HEALTH
Respondents
REASONS FOR JUDGMENT AND JUDGMENT
[1]
Apotex seeks to market tablets containing sildenafil, a
compound for which Pfizer owns a patent. Sildenafil is the active ingredient in
Pfizer’s medicine called Viagra (used in the treatment of erectile
dysfunction), as well as in another called Revatio (for pulmonary hypertension),
which are the subject of other patents.
[2]
Pfizer seeks an order prohibiting the Minister of Health
from issuing Apotex a Notice of Compliance under the Patented Medicines
(Notice of Compliance) Regulations, SOR/93-133, as amended. The Notice of
Compliance would permit Apotex to put its sildenafil tablets on the market.
Apotex alleges that Pfizer’s patent is invalid and, therefore, that Pfizer is
not entitled to the prohibition order it seeks. To obtain a prohibition order,
Pfizer must prove that Apotex’s allegations are unjustified. I find that Pfizer
has failed to do so and, therefore, I must dismiss Pfizer’s application.
I. Issue
[3]
Has Pfizer established that Apotex’s allegations challenging
the validity of Canadian Patent No. 2,044,748 patent are unjustified?
II.
Analysis
(a) Proceedings under the Notice of Compliance (NOC)
Regulations
[4]
Proceedings under these Regulations serve a limited purpose.
They provide an expeditious means of determining of issues relating to the
validity and scope of drug patents within the regulatory scheme governing
manufacturers' rights to market their products in Canada. They
are not equivalent to a civil action for patent infringement: Hoffmann-La
Roche Ltd. v. Canada
(Minister of National Health & Welfare), [1996]
F.C.J. No. 1333 (C.A.) (QL), at para. 12. The
Court's ruling under the Regulations is not binding in any subsequent action
between the parties: Fournier Pharma Inc. v. Canada
(Minister of Health), 2004 FC 1718, [2004] F.C.J. No. 2149
(T.D.) (QL).
(b) The
Legal Burden of Proof on Pfizer
[5]
In
proceedings under the Regulations, the respondent commonly alleges that it will
not infringe the applicant’s patent, or that the applicant’s patent is invalid,
or both. Here, Apotex suggests that Pfizer’s ‘748 patent is invalid. As the applicant,
Pfizer bears the legal burden of persuading me, on a balance of probabilities,
that Apotex’s allegation of invalidity is unjustified:
Pfizer Canada Inc. v. Novopharm Ltd., 2005 FCA 270, [2005]
F.C.J. No. 1318 (C.A.) (QL). If it fails to do
so, I cannot issue an order of prohibition.
[6]
While
the case law is clear about the legal burden on applicants, it is less so with
respect to the burden that falls on respondents, especially where the presumption of validity applies (Patent Act,
R.S.C. 1985, c. P-4, s. 43(2)) (relevant enactment are set out in an Annex). Some decisions suggest that respondents must prove
invalidity on a balance of probabilities: Aventis
Pharma Inc. v. Apotex Inc., 2005 FC 1283, [2005] F.C.J. No. 1559
(T.D.) (QL), aff’d 2006 FCA 64, [2006] F.C.J. No. 208 (C.A.) (QL); Aventis
Pharma Inc. v. Apotex Inc., 2005 FC 1504, [2005] F.C.J. No. 1843
(T.D.) (QL). Others state that respondents must merely put their allegations
“into play” and adduce evidence sufficient to rebut the presumption of validity:
Bristol-Myers Squibb Canada Co. v. Novopharm Ltd., 2005 FC 1458,
[2005] F.C.J. No. 1791 (T.D.) (QL); SmithKline Beecham Pharma Inc. v. Apotex
Inc., 2001 FCT 770, [2001] F.C.J. No. 1118), aff’d 2002 FCA 216, [2002]
F.C.J. No. 801 (C.A.) (QL); Pfizer Canada Inc. v. Canada (Minister of
Health), 2005 FC 1205, [2005] F.C.J. No. 1607 (T.D.) (QL).
[7]
The
proposition that a respondent must prove invalidity on a balance of
probabilities is traceable to the discussion of the presumption of validity of
a patent in Bayer Inc. v. Canada (Minister of National Health and
Welfare), [2000] F.C.J. No. 464 (C.A.) (QL). There, Justice Karen Sharlow
of the Federal Court of Appeal stated that the presumption of validity is
rebutted and no longer relevant where the respondent has proved invalidity on a
balance of probabilities (para. 9). However, I do not take Justice Sharlow’s
statement to be a definitive statement of the burden of proof on respondents. It
is clear, as she stated, that a patent cannot be presumed to be valid in the
face of proof to the contrary. This does not necessarily mean, however, that
there is a legal burden on respondents to prove invalidity on the balance of
probabilities.
[8]
Section
43 of the Act states that patents are presumed to be valid in the absence of
evidence to the contrary. As Justice Binnie has observed, this statutory
presumption is “rather weakly worded” (Apotex Inc. v. Wellcome
Foundation Ltd., [2002] 4 S.C.R. 153, at para. 43). If a respondent
presents some reliable evidence of invalidity, the presumption falls away. The
applicant must then do more than merely rely on the statutory presumption in
order to obtain the relief it seeks. It must prove on a balance of probabilities
that the respondent’s allegations are unsupportable. On the other hand, if the
respondent’s allegations of invalidity are unsupported by reliable evidence,
then the applicant can simply point to the presumption of validity and obtain
its prohibition order without the need to disprove the respondent’s
allegations.
[9]
In
my view, the burden on a respondent under the Regulations is an “evidential
burden” – a burden merely to adduce evidence of invalidity. Once it has
discharged this burden, the presumption of validity dissolves and the Court
must then determine whether the applicant has discharged its legal burden of
proof. I believe this is what is meant in those cases where the Court has stated
that the respondent must put its allegations “into play”. It must present sufficient
evidence to give its allegations of invalidity an air of reality.
[10]
Of
course, respondents will usually try to prove invalidity on a balance of
probabilities in an effort to ensure that applicants fail to obtain the relief
they seek. But it would be wrong to describe this as a legal burden. Only applicants
shoulder a legal burden. Respondents merely bear an evidential burden, as
described above. It is also fair to say that they carry a “tactical burden” - a
burden of providing enough evidence to persuade the Court that an applicant
should be denied the relief it seeks. If it fails to provide that evidence, the
respondent runs the risk of losing its case.
[11]
I
have discussed the burdens falling on applicants and respondents in cases of
alleged invalidity under the Regulations. I believe that the same principles apply
where respondents allege that they will not infringe the applicants’ patents.
However, it is unnecessary for me to say more on the subject, given that that
the case before me relates solely to invalidity.
[12]
To
summarize, Pfizer bears the legal burden of proving on a balance of
probabilities that Apotex’s allegations of invalidity are unjustified. Apotex merely
has an evidentiary burden to put its case “into play” by presenting sufficient
evidence to give its allegations of invalidity an air of reality. If it meets
that burden, then it has rebutted the presumption of validity. I must then determine
whether Pfizer has established that Apotex’s allegations of invalidity are
unjustified. If Apotex does not meet its evidential burden, then Pfizer can
simply rely on the presumption of validity to obtain its prohibition order.
[13]
Apotex
has clearly put its case “into play” through the reports and cross-examination
of its experts. Its allegations of invalidity have an air of reality. I cannot
presume, therefore, that Pfizer’s ‘748 patent is valid. I must determine
whether Pfizer has proved that Apotex’s grounds for challenging the patent are
unjustified based on the whole of the evidence.
(c)
The ‘748 Patent
(i) The compounds
[14]
The ‘748 covers a very broad range of compounds - Apotex
says the number is 260 quintillion. However, Pfizer seeks to protect only one
compound: sildenafil. Accordingly, Pfizer argues that Apotex’s allegations are
unjustified in respect of two of the claims under the ‘748 patent – Claims 6
and 17. Claim 6 relates to sildenafil alone. Claim 17 refers to all of the
compounds covered by the patent (including, therefore, sildenafil) for use in
the treatment of four particular conditions: angina, hypertension, heart
failure and atherosclerosis.
[15]
Pfizer says that the compounds identified
in the ‘748 patent have certain biochemical properties that suggest they may be
useful in the treatment of a wide range of conditions. To appreciate what these
properties are, one must understand some basic features of the human
involuntary nervous system and intracellular dynamics.
[16]
Our involuntary nervous system operates by
sending signals to parts of the body that need to react to certain stimuli.
Those signals are sent by chemical couriers – so-called “first messengers”.
Those messengers communicate with certain chemicals on or within human cells –
so-called “second messengers”. These second messengers stimulate the production
of other chemicals within the cell, and it is those substances that dictate the
response to the initial stimulus.
[17]
Human cells also have a built-in control
mechanism. At some point, the reaction to the initial stimulus must abate. That
reaction is slowed by another process. Substances within the cell gradually
neutralize the second messengers, so their signals and the corresponding
physiological response gradually diminish and stop.
[18]
An important first messenger in our body is
nitrous oxide (NO). There are two main second messengers. They are both cyclic
nucleotides (cyclic adenosine 3’5’-monophosphate and cyclic guanosine
3’5’-monophosphate), abbreviated as cAMP and cGMP respectively. The second
messengers are neutralized by enzymes called phosphodiesterases, abbreviated as
PDEs. Some PDEs react primarily to cAMP, some to cGMP, and some to both.
Accordingly, some PDEs can be described as being predominantly cAMP
PDEs or cGMP PDEs. Different areas of the body have different kinds of PDEs in
their cells.
[19]
Sometimes it is desirable to extend the duration
of the physiological reaction stimulated by a first messenger. This can be done
in two different ways, or by a combination of both. One way would be to
increase the supply of a first messenger, for example, by administering NO. This
would ultimately stimulate the production of the chemicals responsible for a
particular physiological reaction, through the process described above. This is
referred to as a “front-end” approach. Alternatively, one could curtail the
effect of the PDE responsible for neutralizing the operative second messenger.
Certain compounds, known as PDE inhibitors, limit the effectiveness of PDEs.
They do so by interfering with the PDE’s ability to interact with cAMP or cGMP,
the second messengers. Once a PDE is prevented from doing its job, the second
messenger keeps sending its signal, and the corresponding physiological
response continues. Use of PDE inhibitors is described as a “back-end”
approach.
[20]
The ‘748 patent describes the compounds
contained in it as “potent and selective cGMP PDE inhibitors”. This means that
the compounds are purported to be effective PDE inhibitors and more effective
at inhibiting cGMP PDEs than cAMP PDEs.
This makes them potentially suitable for certain “back-end” treatments, or for
use in combination with “front-end” approaches. They function by interfering
with the role that cGMP PDEs would normally play – that is, neutralizing the second messenger, cGMP – and
allowing the physical response that the second messenger is calling for to continue.
[21]
As
mentioned, the ‘748 covers of a broad range of compounds. However, the patent
categorizes certain compounds as “preferred”, “particularly preferred” and
“especially preferred”. Sildenafil is one of seven compounds in the “especially
preferred” class.
(ii) The invention
[22]
The ‘748
patent states that the compounds “exhibit selectivity for inhibition of cGMP
PDEs rather than” cAMP PDEs. It goes on to state that this property “can give rise to
beneficial platelet anti-aggregatory, anti-vasospastic and vasodilatory
activity”. By virtue of these characteristics, the patent states that the
compounds have “utility” in the “treatment of a number of disorders, including
Stable, unstable and variant . . . angina, hypertension,
congestive heart failure, atherosclerosis, conditions of reduced blood vessel
patency . . ., peripheral vascular disease, stroke, bronchitis, chronic asthma,
allergic rhinitis, glaucoma, and diseases characterised by disorders of gut
motility, e.g. irritable bowel syndrome (IBS).”
[23]
Later,
the ‘748 patent mentions that “also included in the invention are radiolabelled
derivatives” of the compounds, which are “suitable for biological studies”.
(iii)
Creating
the compounds
[24]
The
‘748 patent describes how the compounds can be prepared. It goes on to say that
the necessary chemical reactions are “entirely conventional” and can be carried
out with reference to standard text books and the examples set out in the
patent. The patent contains 58 examples of how various compounds coming with
the patent’s scope (including sildenafil) can be prepared.
(iv)
Determining
the properties of the compounds
[25]
The
patent says that a compound’s ability to inhibit cGMP PDEs is evaluated by
determining its so-called “IC50 value”. This
is a reference to a well-known measurement of the potency of PDE inhibitors.
The IC50 value refers to the concentration of the compound required
to inhibit 50% of a PDE’s activity.
[26]
The patent refers to a test for determining the
properties of the compounds. It states that PDE enzymes were taken from rabbit
platelets and rat kidneys. This yielded three different PDEs. The compounds
were tested for their capacity to inhibit these PDEs and the results showed that
“the compounds of the present invention are potent and selective inhibitors of
both cGMP PDEs”. This test is discussed in greater detail below.
(d)
Apotex’s allegations of invalidity
[27]
Apotex
alleges in its Notice of Allegation (NOA) that many of the claims in the ‘748 patent
are invalid. As mentioned, Pfizer is only concerned about Claims 6 and 17 in
respect of sildenafil.
[28]
Apotex
alleges that the ‘748 patent provides a very sketchy picture of the chemical
attributes of the compounds, particularly their capacity to inhibit cGMP PDEs.
The patent contains no specific IC50 values for any particular
compounds. The patent merely states that tests show that the compounds (i.e.
all of them) are potent and selective inhibitors of “both cGMP PDEs”. Apotex
states that it is unclear which cGMP PDEs were inhibited, or to what degree.
The patent also mentions some testing of compounds for their ability to inhibit
platelet aggregation (useful for the treatment of some cardiac conditions) and
to reduce hypertension in rats but, again, no particular compounds are
mentioned and no results are given.
[29]
Apotex
also submits that Pfizer did not have an adequate factual basis to suggest, or
a sound line of reasoning from which to infer, that the compounds set out in the
‘748 patent would be useful for their stated purposes. Further, Apotex alleges
that the ‘748 patent fails to set out the basis on which a skilled reader could
determine how the purported invention would work. Apotex relies on the
description of the required elements of the doctrine of sound prediction
established by the Supreme Court of Canada in Apotex Inc. v. Wellcome
Foundation Ltd., above.
[30]
Apotex
also suggests that the effectiveness of PDE inhibitors for particular purposes
can only be predicted if one knows the type of PDE in the target tissue. So, an
inhibitor of PDE5 might be effective in treating erectile dysfunction (because
there is PDE5 in the corpus cavernosum, an area of the penis) but be useless,
or even harmful, for treating certain heart conditions. Given the limited state
of knowledge about the distribution of PDEs at the priority date of the patent
(June 20, 1990), Apotex alleges that Pfizer did not have a sound basis for
predicting the compounds’ value in treating particular conditions. This is
particularly so, Apotex argues, when the patent does not disclose the degree to
which the compounds target particular PDEs.
[31]
Accordingly,
Apotex suggests that Pfizer had no factual basis, at the relevant date, for its
assertion that the compounds could do what the patent said they could do. Nor,
therefore, could they articulate a coherent line of reasoning from facts to a
conclusion that the compounds had the therapeutic utility described in the
patent. Finally, Apotex argues that even if Pfizer did have both a factual
basis and a sound line of reasoning supporting the patent’s assertions, it
failed to provide proper disclosure.
(e) Pfizer’s
response
[32]
Pfizer
submits that Apotex has misconstrued the ‘748 patent. It argues that its Claim
6 does not mention any specific use for sildenafil and, therefore, that it
qualifies as an invention, so long as there is some useful purpose for it
mentioned in the patent. According to Pfizer’s view of the essential
ingredients of a patent, the ‘748 patent should be considered valid if
sildenafil could be used simply as a research tool. Pfizer also suggests that
it does not have to show that sildenafil is useful in the treatment of the many
conditions mentioned in the patent. Those conditions, it says, are simply
examples of the areas where cGMP PDE inhibitors were known or expected to be
effective. Further, sildenafil is clearly a potent and selective PDE inhibitor,
just as the patent states. In any case, Pfizer also argues that it was also
soundly predictable that sildenafil would be useful in the treatment of the
various conditions identified in the patent.
[33]
With
respect to Claim 17 of the patent, Pfizer argues that it was soundly
predictable that sildenafil would be useful in the treatment of the four
conditions named in it: angina, hypertension, heart failure and
atherosclerosis.
[34]
Pfizer
also argues that it satisfied its obligation to disclose the characteristics of
the compounds in the patent and the means by which the compounds were tested
for their capacity to inhibit cGMP PDEs.
[35]
Accordingly,
Pfizer argues that Apotex’s allegations are unjustified, at least in respect of
Claims 6 and 17, as they relate to sildenafil.
(f) The concept of utility and the doctrine of sound prediction
[36]
The
Supreme Court of Canada identified the conditions for a valid patent relating
to compounds in Apotex Inc. v. Wellcome Foundation Ltd., above.
While the patent there related to a new use (treatment of HIV/AIDS) for an old
chemical compound (AZT), there is nothing in the judgment that leads me to conclude
that the principles set out in it do not apply equally to new compounds.
[37]
Justice
Binnie, speaking for the full Court, noted that “[u]tility is an essential part
of the definition of an ‘invention’” (citing s. 2 of the Patent Act).
Accordingly, “unless the inventor is in a position to establish utility as of
the time the patent is applied for, on the basis of either demonstration or
sound prediction, the Commissioner ‘by law’ is required to refuse the patent”
(para. 46). A similar approach has been taken in this Court: see, e.g., Aventis
Pharma Inc. v. Apotex Inc., 2005 FC 1283, [2005] F.C.J. No. 1559
(T.D.) (QL), aff’d 2006 FCA 64, [2006] F.C.J. No. 208 (C.A.) (QL).
[38]
Justice
Binnie set out three requirements of the doctrine of sound prediction:
Firstly, . . . there must be a factual
basis for the prediction. . . .Secondly, the inventor must have at the date of
the patent application an articulable and “sound” line of reasoning from which
the desired result can be inferred from the factual basis. . . . Thirdly, there
must be proper disclosure. Normally, it is sufficient if the specification
provides a full, clear and exact description of the nature of the invention and
the manner in which it can be practised. It is generally not necessary for an
inventor to provide a theory of why the invention works. Practical
readers merely want to know that it does work and how to work it. (At para. 70.)
[39]
The
doctrine of sound prediction allows inventors to patent new and useful products
even before their utility has been established through tests, so long as they
can show a factual basis for predicting utility, a sound basis for
extrapolating from those facts to the desired result, and provide an adequate
description of the invention and how it works. Only if these requirements are
met does the public get a fair exchange on the monopoly benefits that patentees
enjoy.
[40]
Therefore,
in order for Pfizer to succeed, it must prove that Apotex’s allegations - that Pfizer
has failed to demonstrate the utility of the compounds or satisfy the
requirements of the sound prediction doctrine - are unjustified.
(g) Construing
the claims of the ‘748 patent
[41]
As
I read the patent, having considered the expert evidence tendered by both
parties, there are really two levels of utility referred to in the patent. The
first level relates to the properties of the compounds themselves as “potent
and selective” cGMP PDE inhibitors. Compounds that manifest those qualities might
be useful, for example, for their ability to cause smooth muscles to relax, for
their anti-aggregatory or anti-hypertensive effects, or for use in the
laboratory. At the second level, because of those inherent properties, the
compounds might be useful in the treatment of a wide variety of conditions.
[42]
Much
of Apotex’s argument relates to the lack of demonstrated utility or sound
prediction in relation to the compounds’ use in treating the conditions named
in the patent. However, I agree with Pfizer that, at least for its Claim 6
(which is a claim for the compound sildenafil alone) it is enough if Pfizer can
prove that sildenafil had a useful property (i.e. potent and selective cGMP
PDE inhibition) that may make it suitable for use in the treatment of certain diseases
or conditions, or for use in the laboratory. In doing so, Pfizer would show
that its product met the definition of an “invention” set out in the Act. I am
satisfied from the evidence that, at the priority date of the patent, it was expected
that PDE inhibitors could be useful in the treatment of certain conditions.
Scientists were looking for compounds that were more potent and selective cGMP
inhibitors than were currently available. Accordingly, for Claim 6, Pfizer merely
has to show that sildenafil had been demonstrated, or soundly predicted, to be
useful simply by virtue of its capacity to act as a potent and selective cGMP
PDE inhibitor.
[43]
However,
where the patent is more specific and claims that a compound is actually useful
for the treatment of particular diseases and conditions, the patentee must show
the compound’s utility in those areas. Accordingly, for Pfizer’s Claim 17
(which is a claim for the compounds’ use in particular treatments), it must
demonstrate actual utility, or establish that utility was soundly predictable,
in those areas. But Pfizer can only be successful in defending Claim 17 if it
succeeds in defending Claim 6. Proof of sildenafil’s utility in the treatment
of the conditions named in Claim 17 (i.e. angina, hypertension, heart
failure or athersclerosis), or a sound prediction that it would be useful for
that purpose, is obviously dependent on proof that sildenafil was known (or
soundly predicted) to be a potent and selective cGMP PDE inhibitor in 1990.
[44]
Therefore,
unless Pfizer can prove that sildenafil had been shown, or that it was soundly
predicted, to be a potent and selective cGMP PDE inhibitor at the priority date
of the patent, it will fail to meet its burden of proof on both Claims 6 and
17. It will not have proved that Apotex’s most basic allegation – that there is
no evidence that sildenafil or, in fact, any of the compounds of the patent were
actually known or expected to be potent and selective PDE inhibitors – is
unjustified.
(h) The
Evidence
[45]
The
experts for both parties agree on the basic science of PDE inhibition as
described above. As mentioned, much of the dispute between the parties relates
to the utility of PDE inhibitors in the treatment of the conditions mentioned
in the patent. Accordingly, the bulk of the expert evidence tendered by the
parties addressed the question whether the compounds of the patent would be
useful for that purpose – Apotex’s experts stated that the compounds would not
be useful, and Pfizer’s experts stated that they could be.
[46]
In
addition, the parties’ experts disagreed on the most fundamental of Apotex’s
allegations - that neither sildenafil nor any of the other compounds of the
patent had actually been shown, or soundly predicted, to be potent and
selective PDE inhibitors at the priority date of the patent, June 20, 1990. The
following is a summary of the main evidence on this point.
(i)
Apotex’s expert evidence
[47]
Dr.
Joseph Beavo is a professor of Pharmacology at the University of Washington and is acknowledged
to be one of the world’s foremost experts on PDEs. He stated that, in order to
determine a compound’s capacity to selectively inhibit cGMP PDEs, it would
first be necessary to isolate a pure sample of a cGMP PDE because the risk of
contamination and ambiguous results is great. No clear method for obtaining a
pure sample is cited in the patent. The patent refers to a common method used
by W.J. Thompson, in which PDEs are obtained from rabbit platelets and rat
kidney, but that test would only yield partial separation of PDEs. Other more
effective methods were known and used in 1990, including by Thompson himself.
Dr. Beavo does not believe the patent informs a skilled user how the PDEs were
isolated or how the compounds were tested for their potency and selectivity. Further,
the patent gives no data about any of the compounds. While the patent groups
the compounds into categories, no criteria are given for those groupings. The
patent does not describe how to reproduce the results of the tests mentioned.
[48]
Dr.
Jonathan Dordick is a professor of Biology and Chemical and Biological
Engineering at the Rensseler Polytechnic Institute. His opinion echoed Dr.
Beavo’s on this point. He stated that tests for potency and selectivity must be
conducted under rigorous conditions, and within the same sample, in order for
the results to be reliable. The patent does not give sufficient information on
the test conditions or sampling methodology. The patent mentions a process by
which the PDE samples were tested, a test developed by W.J. Thompson and M.M.
Appleman, but then states that the test was modified. The patent does not
disclose the manner in which the test was modified. A skilled person would not
be able to reproduce the test results. Even if the patent had given the IC50
values for particular compounds (which it does not), that would not be
enough information on its own – one would have to know the circumstances under
which those values had been obtained. In fact, the patent gives no information
about which compounds were tested, what IC50 values were obtained in
relation to the three PDEs that had allegedly been isolated, or what the
conditions of the tests were.
[49]
Dr.
Dordick made similar comments about the patent’s description of the testing of
the compounds’ capacity to inhibit platelet aggregation or reduce hypertension.
No precise methodology is given for the tests, nor are any results given for
any particular compounds.
[50]
Dr.
Akio Yamazaki is a professor of Opthamalogy at Wayne State University. He concurred
with Dr. Dordick’s opinion on the patent’s lack of detailed testing
methodologies and results. In his view, the Thompson test would not yield a
pure sample of PDEs. In fact, that test had been abandoned for that purpose before
1990. In essence, he concluded that there appears to have been no factual basis
for soundly predicting that the compounds of the patent were actually potent
and selective cGMP PDE inhibitors.
[51]
Dr.
Jackie Corbin is a professor of Molecular Physiology and Biophysics at theVanderbilt School of
Medicine. He confirmed the view that the patent does not provide sufficient
information to permit a person skilled in the art to practise the alleged
invention. He noted that to describe the compounds as “potent” would be
meaningless without some frame of reference. Similarly, “selectivity” cannot be
understood without reference to relative potencies. Further, the patent gives
no information about the compounds’ effects on particular tissues. It would be
impossible, without that information, to know what the properties of particular
compounds would be or to what purpose they might be put.
[52]
In
addition to these points, Dr. Alexander Klibanov, a professor of Chemistry and
Bioengineering at MIT, noted that the patent refers to a prior European patent application
for a similar family of compounds, but describes those compounds as being
neither potent nor selective PDE inhibitors. Yet, the ‘748 patent discloses no
basis for believing that the compounds described in it are superior.
[53]
Many
of Apotex’s experts stated that the patent is ambiguous when it states that the
compounds are potent and selective inhibitors of “both cGMP PDEs”. They
point out that the compounds were ostensibly tested for their inhibitory
capacity against three PDEs, what are now known as PDE1, PDE3 and PDE5. PDE3 is
primarily a cAMP
PDE so,
presumably, the compounds were not potent or selective in relation to it. PDE5
is a cGMP PDE, so the patent was presumably referring to it as one of the PDEs
for which the compounds were believed to be potent and selective inhibitors.
The ambiguity lies in the reference to PDE1, which is capable of operating
against both cAMP and cGMP. A compound that is a potent and selective PDE1
inhibitor might, therefore, elevate cAMP rather than cGMP. Apotex’s experts,
therefore, suggest that it is anomalous to describe the compounds as potent and
selective inhibitors of “both cGMP PDEs” because PDE1 cannot be accurately
described as a cGMP PDE.
[54]
In
my view, however, in the context in which the phrase appears, it is clear that where
the patent refered to “both cGMP PDEs”, it meant PDE1 (to the extent
that it can operate against cGMP) and PDE5 (clearly a cGMP PDE), as
distinguished from PDE3 (referred to in the patent as a cAMP PDE).
(ii) Pfizer’s
expert evidence
[55]
Dr. Christopher Triggle is a professor of Pharmacology and
Therapeutics at the University of Calgary. He noted that the patent discloses
new chemical compounds, including sildenafil, “that have been found to be
potent and selective inhibitors of cGMP PDEs” (emphasis added). This wording suggests
that the compounds, including sildenafil, have subsequently been determined to
have the property that the patent says they have. Nowhere does he state that
the compounds were actually known to have that property in 1990. He says that
the IC50 values for the compounds could be determined by a skilled
user after conducting the tests described in the patent, if one wanted to know
how potent and selective a particular compound was. Similarly, a skilled user
could determine the degree to which a given compound exhibited anti-aggregatory
or anti-hypertensive effects.
[56]
Dr. Rodolphe Fischmeister is the Director of Research at the
Institut de la Santé et de la Recherche Médicale and Head of the Cellular and
Molecular Cardiology Laboratory at the University of Paris. He assumed that that
the patentee had not actually tested all of the millions of compounds of the
patent. He suggested that a skilled reader of the patent would expect that a
representative sample of the compounds would have been tested, including those
in the “especially preferred” category and those whose preparation is described
in detail in the patent. In his affidavit, he states “[w]hy
anyone would want to assay millions of compounds to determine their potency is
beyond me”. Yet he does not suggest any other means by which the compounds
might have been classified as “preferred”, “particularly preferred” and
“especially preferred”, or on what basis all of the compounds could be accurately
described as potent and selective cGMP PDE inhibitors.
[57]
Dr. Fischmeister also assumed that the IC50 values for
the compounds of the patent (again, presumably not all of them) were
determined, although the patent does not actually state that those values were
ascertained. It merely states that “compound affinities for cGMP and cAMP PDEs
are assessed by determination of their IC50 values”. Further, he
assumed that the compounds, once tested, probably yielded IC50
values in the nanomolar range (indicating potency) and had lower values for
PDE1 and PDE5 than they had for PDE3 (indicating selectivity).
[58]
With regard to the methods of isolating and testing PDEs (i.e.
the Thompson methodologies), Dr. Fischmeister stated in cross-examination that
the tests must have been conducted correctly or else the patentee could not
have arrived at the conclusion that sildenafil, and the other compounds of the
patent, were potent and selective cGMP PDE inhibitors. This suggests to me that
Dr. Fischmeister was reading the patent with the knowledge that sildenafil had
subsequently been determined to be a potent and selective cGMP PDE inhibitor,
rather than evaluating what the patentees knew or could have soundly predicted
in 1990. With regard to the Thompson method itself, he agreed with Apotex’s
experts that it was an inadequate test for determining potency and selectivity.
[59]
Regarding the compounds’ platelet anti-aggregatory effects, Dr.
Fischmeister stated that a skilled reader would conclude from reading the
patent that the compounds had such an effect and, therefore, that the compounds
would potentially be useful in the treatment of certain cardiovascular
conditions. The same would be true with respect to the compounds’ anti-hypertensive
effects.
[60]
Pfizer’s experts conceded that they did not know whether tests
had actually been conducted or by what methodology, before the priority date of
the patent. None had seen or been provided with any test results.
IV. Conclusion
(a) The bargain
of patent law
[61]
It
is important to recall that the requirement to prove utility rests on the
fundamental bargain of patent law – that patentees exchange a monopoly on their
inventions in exchange for disclosing to the public the nature of those
inventions and sufficient information to allow skilled persons to understand
and reproduce them:
The consideration for the grant is
twofold: “first, there must be a new and useful invention, and secondly, the
inventor must, in return for the grant of a patent, give to the public an adequate
description of the invention with sufficiently complete and accurate details as
will enable a workman, skilled in the art to which the invention relates, to
construct or use that invention when the period of the monopoly has expired. (Consolboard
Inc. v. MacMillan Bloedel (Saskatchewan) Ltd., [1981] 1 S.C.R. 504 at 517,
quoting Fox, Canadian Patent Law and Practice (4th ed.), at
p. 163).
[62]
In
addition, Justice Binnie has pointed out:
The patent system is designed to advance
research and development and to encourage broader economic activity.
Achievement of these objectives is undermined however if competitors fear to
tread in the vicinity of the patent because its scope lacks a reasonable measure
of precision and certainty….The patent owner, competitors, potential infringers
and the public generally are thus entitled to clear and definite rules as to
the extent of the monopoly conferred (Free World Trust v. Électro
Santé Inc., [2002] 2 S.C.R. 1024 at paras. 42-3).
[63]
In
Apotex Inc. v. Wellcome Foundation Ltd., above, Justice Binnie
gave an example of what a patent relating to a new and useful produce should
contain. He described the essential elements of the hypothetical patent for the
Wright brothers’ airplane:
The patent….would have to teach precisely
how the machine could be made to fly. Section 34(1)(b) of the Patent
Act requires the applicant to set out in the specification “the method of
constructing, making … or using a machine … in such full, clear, concise and
exact terms as to enable any person skilled in the art … to make, construct or
use it”. This means the Wright brothers’ hypothetical patent would have to
describe, amongst other things how to design an air foil that creates “lift” by
reducing the air pressure on the upper surface of the wing as the air rushes
over it as well as a suitable method of forward locomotion. If the essentials
of the heavier-than-air flying machine were set out with sufficient precision
to allow the reader actually to make a flying machine that flies, it is hard to
accept the “hypothetical” that experts would continue to insist, after it had
flown, that the prediction was unsound….
On the other hand, if the patent failed
to disclose the essentials of heavier-than-air flying machine, such that no one
would “soundly predict” whether or not the ill-defined thing could get off the
ground, then the patent would be rightly invalidated, even though the inventors
had flown some sort of machine in the meantime. It goes back to the same point.
The public is entitled to accurate and meaningful teaching in exchange for
suffering the patent monopoly. The patent claims must be supported by the
disclosure. Speculation, even if it afterwards proves justified, does not
provide valid consideration (at paras. 82-3).
[64]
After
referring to the analogy of the Wright brothers’ airplane, counsel for Pfizer
frequently referred to sildenafil as an “F-16” – in other words, it is currently
one of the most potent and selective PDE inhibitors known to science. The
question, though, is whether, Pfizer has proved that, in 1990, anyone had
demonstrated, or soundly predicted, that this compound could fly.
(b) Are Apotex’s
allegations of invalidity unjustified?
[65]
In
my view, Pfizer has failed to prove that Apotex’s allegations are unjustified.
In particular, Pfizer has failed to prove that the compounds of the ‘748 patent
generally, or sildenafil in particular, had been shown, or soundly predicted,
to be potent and selective cGMP PDE inhibitors in 1990. Given that Pfizer has
failed to meet its burden of proof in relation to that fundamental allegation,
it cannot show that the compounds had utility in the treatment of the particular
conditions.
[66]
Looking
first to the language of the patent itself, there are numerous instances where
vague language stands in the way of comprehending what the patent purports to
teach skilled readers:
· The
patent covers millions of compounds (at least), all of which are said to be potent
and selective PDE inhibitors, and some of which are preferred, particularly preferred
or especially preferred, but the patent contains no criteria to distinguish one
group from another and no basis for concluding that they actually possess those
properties.
· The
terms “potent” and “selective” are relative, but the patent provides no
information about how potent or selective any compounds are, or which cGMP PDE
they inhibit.
· The
patent states that potency and selectivity are measured by determining a
compound’s IC50 value, but does not actually state that any such
values were obtained or, if they were, what they were.
· The
patent states that the compounds were isolated and tested by modifying
well-known methodologies but does not clearly identify which methodologies were
actually used or what the modification was.
· The
patent states that platelet anti-aggregatory activity is measured by
determining a compound’s ability to inhibit platelet aggregation in vitro,
but does not state that any such tests were actually carried out or, if they
were, what the results were. This test is described as being based
“essentially” on the method devised by J.F. Mustard, et al., but no
information is given about how the test was modified.
· The
patent states that anti-hypertensive activity is determined by administering a
compound to hypertensive rats and then measuring blood pressure, but does not
state that such tests were actually carried out or, if they were, what the
results were. The patent says that the compound can be administered to the rats
either intravenously or orally, but does not specify which means were employed
if, indeed, any such tests were actually carried out.
· The
patent implies that the compounds are potent and selective cGMP PDE inhibitors
when compared to a similar family of compounds contained in a European patent
application, but provides no basis for that favourable comparison.
[67]
None
of Pfizer’s evidence helped resolve the ambiguities in the patent. Pfizer’s
experts took the patent at face value. Because the patent said that the
compounds were potent and selective cGMP PDE inhibitors, the experts assumed
that they had been tested and found to be so. They assumed that IC50
values had been taken for some group of compounds, which enabled them to be
classified in the manner set out in the patent. They assumed that tests of
platelet anti-aggregatory and anti-hypertensive activities had been carried out
and yielded positive results. As one of Pfizer’s experts stated candidly on
cross-examination, if what the patentees “claimed was not true, we would not be
sitting here” (Dr. Tony Durst, Professor Emeritus of Chemistry, University of Ottawa).
[68]
It
is clear, however, that after-the-fact confirmation of the utility of a
purported invention is not enough to uphold a patent. Justice Binnie made that
clear in his Wright brothers analogy set out above. He also emphasizes the
importance of this principle in the area of pharmaceutical patents:
Were the law to be otherwise, major
pharmaceutical corporations could (subject to cost considerations) patent whole
stables of chemical compounds for all sorts of desirable but unrealized
purposes is a shot-gun approach hoping that, as in a lottery, a certain
percentage of compounds will serendipitously turn out to be useful for the
purposes claimed. Such a system would reward deep pockets and the ingenuity of
patents rather than the ingenuity of true inventors. (Apotex Inc. v. Wellcome
Foundation Ltd., above at para. 80.)
[69]
The
assumptions made by Pfizer’s experts do not amount to evidence that would help
Pfizer satisfy its burden of proof. Apotex’s most basic allegation is that the
patent does not assist a skilled reader to appreciate the properties that the
compounds contained in the patent exhibit. It does not describe how the
allegedly useful properties of potency and selectivity were established or give
any indication of how potent or selective any of the compounds are, either in
respect of particular PDEs or in relation to specific tissues. Without that,
the patent does not describe an invention that meets the requirement of
utility. Certainly, there is nothing in the record before me that would suggest
that anyone knew, or could have soundly predicted, that sildenafil was an
extremely potent and selective cGMP PDE inhibitor, most particularly in
relation to PDE5.
[70]
It
is interesting to compare the evidence before me with the evidence submitted in
the Apotex Inc. v. Wellcome Foundation Ltd. case, above. In that
case, there was evidence before the Court relating to what the patentee’s
scientists knew at critical points in time before the patent for AZT was
registered, and what the results of numerous tests had revealed. Here, I have
no evidence whatsoever on that score. Utility and sound prediction are
questions of fact and must obviously be supported by evidence. I note that in
the other sound prediction cases cited to me, evidence of what was known or not
known at the relevant date was before the Court: Pfizer Canada Inc. v. Canada
(Minister of Health), 2005 FC 1205, [2005] F.C.J. No. 1607 (F.C.) (QL); Aventis
Pharma Inc. v. Apotex Inc., above.
[71]
Therefore,
I must conclude that Pfizer has failed to meet its burden of proving that
Apotex’s allegations were unjustified. In particular, it has not proved that
the compounds of the patent, or sildenafil in particular, had been demonstrated
to be potent and selective cGMP PDE inhibitors. Nor has it proved that there
was a factual basis to support a sound prediction that the compounds had those
properties. Further, the patent fails to provide skilled readers enough
information to be able to understand what the properties of the compounds were
or how to use them.
[72]
Accordingly,
Pfizer’s application for an order of prohibition is denied, with costs.
JUDGMENT
THIS COURT’S
JUDGMENT IS THAT:
1. The application for an order of
prohibition is denied, with costs.
“James
W. O’Reilly”
Annex
|
Patent
Act, R.S.C.
1985, c. P-4
Definitions
2. In this Act, except as otherwise provided,
“invention”
means
any new and useful art, process, machine, manufacture or composition of
matter, or any new and useful improvement in any art, process, machine,
manufacture or composition of matter;
Specification
27. (3) The specification of an invention
must
…
(b) set out
clearly the various steps in a process, or the method of constructing,
making, compounding or using a machine, manufacture or composition of matter,
in such full, clear, concise and exact terms as to enable any person skilled
in the art or science to which it pertains, or with which it is most closely
connected, to make, construct, compound or use it;
Form
and duration of patent
43. (1) Subject to section 46,
every patent granted under this Act shall be issued under the seal of the
Patent Office, and shall bear on its face the filing date of the application
for the patent, the date on which the application became open to public
inspection under section 10, the date on which the patent is granted and
issued and any prescribed information.
Validity of
patent
(2) After the patent is
issued, it shall, in the absence of any evidence to the contrary, be valid
and avail the patentee and the legal representatives of the patentee for the
term mentioned in section 44 or 45, whichever is applicable.
|
Loi
sur les brevets,
L.R.C. 1985, Ch. P-4
Définitions
2. Sauf disposition contraire, les
définitions qui suivent s’appliquent à la présente loi.
«invention »
Toute réalisation, tout procédé, toute machine, fabrication ou
composition de matières, ainsi que tout perfectionnement de l’un d’eux,
présentant le caractère de la nouveauté et de l’utilité.
Mémoire
descriptif
27. (3) Le
mémoire descriptif doit :
[…]
b) exposer
clairement les diverses phases d’un procédé, ou le mode de construction, de
confection, de composition ou d’utilisation d’une machine, d’un objet
manufacturé ou d’un composé de matières, dans des termes complets, clairs,
concis et exacts qui permettent à toute personne versée dans l’art ou la
science dont relève l’invention, ou dans l’art ou la science qui s’en
rapproche le plus, de confectionner, construire, composer ou utiliser
l’invention;
Forme
et durée des brevets
43. (1) Sous réserve de l’article 46, le brevet accordé sous le
régime de la présente loi est délivré sous le sceau du Bureau des brevets. Il
mentionne la date de dépôt de la demande, celle à laquelle elle est devenue
accessible au public sous le régime de l’article 10, celle à laquelle il a
été accordé et délivré ainsi que tout renseignement réglementaire.
Validité
(2) Une fois délivré, le brevet est, sauf preuve contraire,
valide et acquis au breveté ou à ses représentants légaux pour la période
mentionnée aux articles 44 ou 45.
|
FEDERAL COURT
NAME OF COUNSEL AND SOLICITORS OF RECORD
DOCKET: T-2137-04
STYLE OF CAUSE: PFIZER, ET AL v. APOTEX, ET AL
PLACE OF
HEARING: Toronto, Ontario
DATE OF
HEARING: October
16 to 20, 2006
REASONS FOR JUDGMENT
AND
JUDGMENT: O’REILLY
J.
DATED: January
12, 2007
APPEARANCES:
|
Robert
MacFarlane
Michael
Charles
Christine
Pallota
|
FOR THE APPLICANTS
|
|
Andrew Brodkin
Richard
Naiberg
Sorelle
Simmons
|
FOR THE RESPONDENTS
|
SOLICITORS
OF RECORD:
|
BERESKIN &
PAR
Toronto, ON
|
FOR THE APPLICANTS
|
|
GOODMANS LLP
Toronto, ON
|
FOR THE RESPONDENTS
|
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