Date: 20080509
Docket: T-833-06
Citation: 2008 FC 593
Ottawa, Ontario, May 9, 2008
PRESENT: The Honourable Mr. Justice Barnes
BETWEEN:
GLAXOSMITHKLINE INC. and
THE WELLCOME FOUNDATION LIMITED
Applicants
and
PHARMASCIENCE INC. and
THE MINISTER OF HEALTH
Respondents
REASONS FOR JUDGMENT AND JUDGMENT
[1]
This
application was commenced by Glaxosmithkline Inc. and the Wellcome Foundation
Limited (collectively GSK) against the Minister of Health and Pharmascience
Inc. (Pharmascience) under the Patented Medicines (Notice of Compliance)
Regulations, SOR/93-133 as amended (NOC Regulations). GSK seeks an order
prohibiting the Minister from issuing a Notice of Compliance (NOC) to the
Respondent, Pharmascience, until the expiry of Canadian Patent No. 1,340,083 (the
083 Patent). GSK asserts that the 083 Patent is a valid selection patent which
will be infringed if Pharmascience is permitted to produce the antiviral compound
valacyclovir (marketed as Valtrex). The 083 Patent was filed on August 12,
1998 and issued on October 13, 1998. It has a priority date of August 15, 1987
and it will expire on October 13, 2015. The earlier genus patent from which
the selection of valacyclovir was drawn was GSK’s European Patent No. 0,099,493
(the 493 Patent) for which the Canadian equivalent is Canadian Patent No. 1,208,637
(the 637 Patent).
The 637 Patent expired on July 29, 2003.
[2]
Notwithstanding
the summary nature of this proceeding, it is worth noting that the argument
took place over four and a half days, that the Application Record is made up of
40 volumes containing over 11 000 pages and that the cross-examination
transcripts of the five principal expert witnesses comprise over 1700 pages.
Counsel are, however, to be commended for having reduced the matters in issue
to those which had arguable merit thereby avoiding the full litigation of a
number of issues which would not have been determinative.
I.
Background
[3]
This
is a case about selection. It is common ground that GSK’s 493 Patent claimed a
monopoly over a class or genus of compounds which included valacyclovir. Pharmascience
wants to produce a generic version of GSK’s drug Valtrex but in doing so it will
admittedly infringe several claims in GSK’s later 083 Patent for valacyclovir.
Pharmascience asserted in its Notice of Allegation (NOA) that GSK’s 083 Patent
is invalid for anticipation, obviousness, non-utility, double patenting, lack
of invention, insufficiency, disclosure, lack of sound prediction and because
that patent does not contain or disclose a valid selection from GSK’s earlier
patent over valacyclovir (the EPA 493 Patent). Many of these allegations
overlap and for present purposes it is unnecessary to deal with all of them in
a discrete way.
Burden of
Proof
[4]
The
parties are in agreement that the ultimate burden of proof on a balance of
probabilities rests upon GSK subject to Pharmascience’s intermediate or
evidentiary burden to adduce sufficient evidence of invalidity to put its NOA
allegations “in play”.
The Person
Skilled in the Art and the Expert Witnesses
[5]
I
can identify no material differences among the expert witnesses’ opinions as to
the attributes required of the person skilled in the art in mid-1987 to whom
the 083 Patent would be addressed. Such a person would have a combination of
specialized education and work experience in the areas of drug discovery and
testing with particular exposure to the design, synthesis and evaluation of prodrugs.
This would include a capacity to evaluate the drug-like properties (eg.
bioavailability) of drug and prodrug candidates using standard in vitro and in
vivo studies. The educational attributes of such a person could include a B.Sc.
or M.Sc. or equivalent in the fields of pharmacy, chemistry, or an equivalent
discipline coupled with considerable employment experience. Such a person
might also hold a Ph.D. in a relevant field of expertise such as pharmaceutical
chemistry, bioanalytical chemistry, synthetic organic chemistry or medicinal
chemistry.
[6]
Subject
to the obvious limitations presented by attempting to evaluate the credibility
of any witness based on affidavits and cross-examination transcripts, I can
identify nothing which would generally discredit any of the expert witnesses
relied upon by the parties or which might cast doubt upon their qualifications
to give evidence in the required fields of expertise. Indeed, all of these
witnesses appear to be eminently qualified and generally objective in the
provision of their opinion evidence. To the extent that I have formed any
reservations about the expert evidence on particular points, I have attempted
to state them in these reasons.
Acyclovir and
Its Prodrug Esters
[7]
Acyclovir
is an antiviral drug which has been known for some time to be effective in the
treatment of a variety of herpes and other viral infections. Although
acyclovir is given orally, it presents problems of bioavailability such that
only 15% to 20% of any given dosage is actually absorbed into the bloodstream.
Acyclovir also has bioavailability limitations for use in aqueous dosage forms
such as eye drops and injectable solutions. The primary problem for such
aqueous uses was the low solubility of acyclovir. Essentially, not enough
acyclovir can be dissolved to obtain a concentration capable of delivering the
necessary dose in a formulation such as an eye-drop, which is inherently
limited to a very small volume of liquid. These bioavailability limitations
led researchers to search for more effective drugs.
[8]
One
of the known methods for overcoming the bioavailability limitations of a drug
like acyclovir was to link the molecule to another compound, referred to as a
pro-moiety, (often an amino acid) and to thereby create a prodrug.
Valacyclovir is a prodrug formed by the molecular combination of acyclovir with
the amino acid, L-valine.
[9]
The
intended mechanism of action of a prodrug is that the pro-moiety will help
deliver the active medicine more effectively to the site of action. In 1987,
the improved activity of a prodrug over its constituent medicine was generally
attributed to its optimal or more balanced absorption properties. In a 1985
publication by Hans Bundgaard,
the feasibility of designing prodrugs to obtain certain desirable absorption
properties was canvassed at length including the following discussion about the
potential development of prodrugs of acyclovir:
9.3
Enzyme-Specified
Prodrugs of Acyclovir
Acyclovir (150) is a clinically useful
antiherpetic agent which exhibits great selectivity in its antiviral action
through conversion to the active phosphorylated species by virtue of
virus-specific thymidine kinase [423 – 425]. It suffers, however, from poor
oral bioavailability, only 10 – 20 % of oral dose being absorbed in humans [426
– 429]. This can most probably be ascribed to the poor water-solubility and
lipophilicity of the compound. The 6-deoxy-6-amino congener (151) of acyclovir
has been studied as a prodrug in an attempt to improve the oral bioavailability
[430]. It is deaminated to acyclovir by adenosine deaminase [431], but oral
dosing of dogs and rats with the prodrug resulted in only modest increases in
acyclovir plasma levels relative to those achieved with acyclovir itself
[430]. A far better prodrug may be 6-deoxyacyclovir (152), recently developed
by Krenitsky et al. [432]. This compound is 18 times more water-soluble than
acyclovir and is oxidized rapidly in vivo by xanthine oxidase to the parent
drug. Preliminary studies in rats and in human volunteers showed that
6-deoxyacyclovir is absorbed readily after oral administration (5 – 6 times
greater bioavailability relative to acyclovir) [432, 432a]. The compound is
also susceptible to oxidation by aldehyde oxidase, to give the inactive
8-hydroxy-6-deoxyacyclovir, but this non-activating oxidation apparently plays
only a minor role in comparison to the activating oxidation by xanthine oxidase
[432].
[10]
Prodrugs
are designed such that the pro-moiety (in this case, the amino acid ester) is hydrolyzed,
or cleaved, from the active drug compound at an appropriate point after absorption
into the body. The evidence before me suggests quite strongly that the prodrug
strategy at the time usually employed one of the twenty naturally occurring
proteinogenic amino acids as a pro-moiety because the human body was known to
have enzymes which could recognize and cleave these amino acids and because the
resulting amino acid, once cleaved, would be expected to be non-toxic in
humans.
[11]
The
use of prodrugs was thus known to be a potentially useful strategy for overcoming
problems of solubility, stability and permeability associated with a parent
compound. It was for the purpose of overcoming the solubility limitations of
acyclovir that the amino acid esters of acyclovir were developed by GSK and claimed
in its 493 Patent as prodrugs.
493 Patent
[12]
The
493 Patent claimed a monopoly over a class of "new esters" of
9-(2-hydroxyethoxymethyl)guanine (i.e., acyclovir) of the general formula:
Wherein X represents an oxygen or sulphur
atom, R1 represents a hydroxyl or amino group; R2
represents a hydrogen atom or a group of formula –CH2OR3a;
and R3 and R3a, which may be the same or
different, each represents an amino acid acyl radical.
[13]
The
invention claimed compounds of the generic formula set out above and acceptable
salts thereof "for use in the treatment or prophylaxis of a viral disease
in an animal, e.g. a mammal such as man". The Patent specification
further described the compounds as follows:
Preferred compounds according to the
invention include those wherein R1 represents a hydroxyl group, R2
represents a hydrogen atom and X represents an oxygen atom, i.e. amino acid
esters of acyclovir, and their pharmacologically acceptable salts.
With regard to the amino acid acyl
radical(s) represented by R3 and/or R3a, such
radicals are preferably derived from an aliphatic amino acid, eg, glycine, α
– or β alanine.
[14]
These
new ester compounds were said to "surprisingly have an improved water
solubility compared with acyclovir which enables the derivatives to be used to
a greater extent than acyclovir in the formulation of aqueous
preparations". This solubility characteristic was said to be an
improvement over acyclovir which the inventor said "suffers from the
disadvantage that it has only a limited solubility in water". The
inventor further asserted that this advantageous increase in water solubility
over acyclovir is not gained at the expense of antiviral potency. The claimed
invention was thus not in finding new antiviral medicaments but in finding prodrug
compounds of acyclovir which more effectively delivered acyclovir in aqueous
solutions.
[15]
Although
the 493 Patent describes new esters of acyclovir as being "particularly
useful for the formulation of aqueous pharmaceutical preparations such as eye
drops and injectable preparations", the specification included a teaching
that "the active compounds may be administered by any route appropriate to
the condition to be treated... including oral, rectal, nasal, topical …,
vaginal and parenteral...” For oral administration of the new ester compounds,
the patent specification taught the following:
Formulations of the present invention
suitable for oral administration may be presented as discrete units such as
capsules, cachets or tablets each containing a predetermined amount of the active
ingredient; as a powder or granules; as a solution or a suspension in an
aqueous liquid or a non-aqueous liquid; or as an oil-in-water liquid emulsion
or a water-in-oil liquid emulsion. The active ingredient may also be presented
as a bolus, electuary or paste.
083 Patent
[16]
GSK’s
083 Patent claimed the compound valacyclovir (i.e., the L-valine ester of
acyclovir) as a selection from the genus of aliphatic amino acids esters of
acyclovir claimed in the 493 Patent. The discovery asserted by the 083 Patent was
that valacyclovir “surprisingly has improved bioavailability after oral
administration compared with alanine and glycine esters mentioned [in the 493
Patent]”. The specification also stated that while acyclovir possessed a
potent antiviral activity it was known to be poorly soluble in water and poorly
absorbed in the gastrointestinal tract. The inventors acknowledged the utility
of the 493 Patent in solving the solubility problem of acyclovir but, by
inference at least, they maintained that its oral bioavailability limitations
were still unresolved. The Patent specification goes on to offer the following
additional inventive findings:
In tests in rats, measuring the urinary
recovery as acyclovir (% dose administered) after oral administration, the
compounds of the invention show a large increase in absorption from the gut
compared with the other esters and compared with acyclovir. This enables less
drug to be administered while still providing equivalent drug levels in the
plasma after oral absorption. The L-valinate compound is especially preferred
by virtue of its particularly good absorption from the gut.
In addition to the relatively high
bioavailability, the compound according to the invention possess substantially
the same antiviral effect as acyclovir in vitro. The advantageous increase in
bioavailability of the compound is thus not gained at the expense of antiviral
potency. Indeed, it has been found that in certain clinical applications, e.g.
the treatment of stromal keratitis, certain amino acid esters have been found
to provide a superior therapeutic effect to acyclovir (EP 99493).
The pharmaceutically acceptable salts of
the compounds of formula (I) are preferably acid addition salts derived from an
appropriate acid, e.g. hydrochloric, sulphuric, phosphoric, maleic, fumaric,
citric, tartaric, lactic, acetic or p-toluenesulphonic acid. A particularly
preferred salt is hydrochloride salt of the compound of formula (I).
In experiments in animals, it was
discovered that the oral administration of the compounds of formula (I) above
produced measurable levels of acyclovir in the plasma. Thus according to
another aspect of the invention we provide a means of generating acyclovir in
vivo by administration of a compound of formula (I) above or a pharmaceutically
acceptable salt thereof to a mammal.
The research data offered in the 083 Patent
to support the oral bioavailability advantage of valacyclovir is set out in the
following example from the specification:
Determination of Oral Bioavailability
Long Evans Rats were administered the
compound to be tested by gavage at a dose equivalent to 25mg/kg acyclovir. The
urine was collected for 24 and 48 hours post-dose, ultrafiltered, and analysed
by reverse-phase high-pressure liquid chromatography. The oral bioavailability
of the compound was expressed as the percent of the dose excreted in the urine
as acyclovir.
|
Compound
Example
1 [valacyclovir]
Acyclovir
(ACV)
Glycyl
ester of ACV [glycine ester]
L-alanyl
ester of ACV [alanine ester]
|
Urinary Recovery (% of dose) as
acyclovir
63
15
30
34
|
[17]
It
is noteworthy that the 083 Patent makes no assertion that valacyclovir has, or
could be predicted to have, surprising or unexpected bioavailability advantages
over the compounds claimed in the 493 Patent beyond the glycine and alanine
esters tested.
II. Issue
[18]
Is
the 083 Patent for valacyclovir a valid selection patent?
III. Analysis
What is the
Scope of the 493 Patent Genus?
[19]
It
is a well accepted principle of selection law that a selection can be made from
a class of two or from a class of thousands. Accordingly, it is not necessary
to precisely define the scope of the class of compounds captured by the 493
Patent because it is agreed by the parties that, whatever its size or
composition, the 493 Patent covers valacyclovir. Nevertheless, the size of the
class of compounds claimed in an originating patent is a factor to consider in
determining whether a selection was obvious: see Eli Lilly Canada Inc. v.
Apotex Inc. 2007 FC 455, 58 C.P.R. (4th) 353 at para. 306. I
would add that the size of the genus may also be relevant to the determination
of whether an advantage identified in a compound selected from the genus was
surprising or unexpected relative to the other members of the genus. In other
words, it may be easier to predict that such an advantage will not be found in
a substantial number of other members of the genus where the genus is
relatively small and/or where a significant percentage of the genus has been
tested. Conversely, a sound prediction may be more elusive where the genus is
a large one.
[20]
GSK
asserts that the class of compounds within the 493 Patent is virtually infinite
because it includes all aliphatic amino acids, including synthetics. It says
that the person skilled in the art would understand that this class can be
expanded by systematically adding CH2 groups to the simplest amino
acid, glycine. Pharmascience says that the 493 Patent genus is limited to five
naturally occurring amino acids (i.e. glycine, alanine, valine, isoleucine and
leucine) which are aliphatic and which are used by the human body to make
proteins and one other amino acid that is formed in vivo in humans,
namely β-alanine.
[21]
I
am persuaded that GSK is correct in its interpretation of the scope of the 493
Patent. Claim 1 of that patent refers to compounds of a general formula by
which a molecule of acyclovir is linked at the R3 position to “an
amino acid acyl radical”. This claim is not further qualified or limited.
Upon a literal reading, the reference to “amino acid” would include any organic
compound, natural or synthetic, having at least one amine group (-NH2)
and at least one carboxylic acid group (-COOH). Although the patent
specification describes a preference for derivatives from an “aliphatic amino
acid, eg. glycine α- or β-alanine”, I accept GSK’s evidence that the
reference to “aliphatic amino acid” did not connote only a subset of 5 of the 20
amino acids which are the building blocks for proteins in the human body, but rather
would include any amino acid compound where carbon atoms are linked in open
chains rather than rings.
[22]
While
I agree that a person skilled in the art might be inclined to prefer the 20
human amino acids for use in the construction of a prodrug of acyclovir, the
prior art nevertheless taught that effective prodrug strategies were not
limited to the use of natural or human amino acids or entirely non-toxic pro-moieties.
[23]
There
is another anomaly confronting the construction suggested by Pharmascience
which arises from the β-alanine example given by the 493 Patent. While
α-alanine is one of the 20 amino acids taken up by the human body to make
proteins, β-alanine is not. Although β-alanine is used in the human
body, it is just one of several hundred known non-proteinogenic amino acids and
its inclusion in the list of patent examples is suggestive that the claimed
invention was not limited to those aliphatic amino acids which are a sub-group
of the 20 human proteinogenic amino acids. Although I accept that the five human
aliphatic proteinogenic amino acids are often listed together as a homologous
group for descriptive purposes, that practice does not explain the inclusion of
β-alanine or the absence of qualifying language in the patent
specification. If the inventor had intended to limit the class of compounds
claimed by the 493 Patent, it would have been a rather simple drafting exercise
to have obtained that result. It is perhaps noteworthy that when Drs. Mitra
and Dordick attempted to restrict the class of compounds claimed by the 493
Patent they frequently resorted to qualifying terms such as “basic,” “simple,”
“common,” or “natural.” My review of the relevant text book references
submitted as evidence also discloses no consistent nomenclature or scheme of
classification for aliphatic amino acids which would be sufficient to displace
the unqualified language of claim 1 of the 493 Patent. On this issue, I accept
Dr. Borchardt’s reply evidence as set out below:
44. At paragraphs 159 to 162 of his
affidavit, Dr. Mitra suggests that in addition to the α-amino acids,
glycine, alanine, valine, isoleucine and leucine, there is a β-amino acid,
β-alanine, found in the human body. Thus, Dr. Mitra suggests that the
person skilled in the art would include this and only this β-amino acid
with the 5 α-amino acids included in the “aliphatic amino acid” group, as
he defines it. Thus, Dr. Mitra concludes that the person skilled in the art
would interpret the term “aliphatic amino acid” as used in the EPA '493 as
being limited to now 6 aliphatic amino acids, namely, glycine, alanine (α-
and β-), valine, isoleucine and leucine.
45. Similarly, at paragraphs 72 to
77 and paragraphs 120 to 122, as well as Appendix A of his affidavit, Dr.
Dordick offers the same rationale for now including β-alanine within the
definition of “aliphatic amino acid” referred to in the EPA '493.
46. There is no suggestion
whatsoever in the EPA '493 that Dr. DeClercq intended to limit the preferred
“aliphatic amino acid” class to those which are found within the group of 20
naturally occurring amino acids which the body uses in the synthesis of
proteins, much less to the 5 amino acids which PMS has identified in the NOA,
namely, glycine, α-alanine, valine, leucine and isoleucine, or the 6 amino
acids identified by Dr. Mitra and Dr. Dordick.
47. First, an amino acid by
definition is simply a compound which includes both an amine group (-NH2)
and a carboxylic acid group (-COOH). Amino acids can be prepared synthetically
as well as naturally. In 1987 there were, for example, known to be
approximately 350 aliphatic amino acids found naturally.
48. Further, even within the 20
naturally occurring amino acids used in the manufacture of proteins in the
body, glycine, α-alanine, valine, leucine and isoleucine are not the only
amino acids which are categorized as being “aliphatic amino acids”. This is
clear from many of the references attached as exhibits to Dr. Mitra’s
affidavit. For example, the new prior art reference at Tab B37 of Dr. Mitra’s
affidavit indicate that 15 of the 20 naturally occurring amino acids used by
the body to manufacture proteins are considered to be “aliphatic amino acids”.
Furthermore, the reference at Tab B38 includes serine and threonine in the
definition of aliphatic amino acids that are found in protein. Pages 90 and 91
of the reference at Tab B38 of the Mitra Affidavit are included at Exhibit
“G” of this Affidavit.
49. Dr. DeClercq clearly indicates
that the term “aliphatic amino acids” as used in the EPA '493 includes
β-alanine. As Dr. Mitra and Dr. Dordick both concede, β-alanine is
not among the 20 naturally occurring amino acids used by the body to
manufacture proteins. Thus, it is illogical to suggest as both of them do that
the term “aliphatic amino acid” as used in the EPA '493 must be limited to
glycine, α-alanine, valine, leucine and isoleucine (all of which are
selected from the 20 naturally occurring amino acids used by the body to
manufacture proteins) plus one β amino acid (β-alanine) which does
not fall within this group. At the very least, the position being taken by
both Dr. Mitra and Dr. Dordick is a concession that Dr. DeClercq intended
“aliphatic amino acid” to include more than the 20 naturally amino acids
discussed at pages 2 and 3 of the NOA.
50. Thus, the person skilled in the
art reading the EPA '493 would clearly understand the term “aliphatic amino
acid” as encompassing both natural and unnatural amino acids and certainly not
just the 6 amino acids which PMS has arbitrarily selected to support its
position.
Obviousness
and Anticipation
[24]
I
am satisfied on the evidence presented that the bioavailability advantage that
was asserted as the inventive selection of the 083 Patent was neither
anticipated nor obvious.
[25]
Pharmascience
contends that the 083 Patent was anticipated by the prior disclosure of the 493
Patent in which one could find all the information which, for practical
purposes, is needed to produce valacyclovir and to appreciate its bioavailability
advantage. Pharmascience also argues that the inventive selection of
valacyclovir was obvious and that GSK’s attempt to repatent a compound it had
already monopolized constitutes double patenting or, as it is sometimes colloquially
termed, “evergreening.”
[26]
The
legal tests for anticipation and obviousness are well-known in patent law.
Suffice it to say that neither test is easily satisfied.
[27]
A
frequent expression of the test for anticipation can be found in the following
passage from Beloit Canada Ltd. et al. v. Valmet Oy, (1986) 8 C.P.R.
(3d) 289, 64 N.R. 287 (F.C.A.):
It will be recalled that anticipation, or
lack of novelty, asserts that the invention has been made known to the public
prior to the relevant time. The inquiry is directed to the very invention in
suit and not, as in the case of obviousness, to the state of the art and to
common general knowledge. Also, as appears from the passage of the statute
quoted above, anticipation must be found in a specific patent or other
published document; it is not enough to pick bits and pieces from a variety of
prior publications and to meld them together so as to come up with the claimed
invention. One must, in effect, be able to look at a prior, single publication
and find in it all the information which, for practical purposes, is needed to
produce the claimed invention without the exercise of any inventive skill. The
prior publication must contain so clear a direction that a skilled person
reading and following it would in every case and without possibility of error
be led to the claimed invention. Where, as here, the invention consists of a
combination of several known elements, any publication which does not teach the
combination of all the elements claimed cannot possibly be anticipatory.
[28]
A
useful summary of the law dealing with obviousness can be found in the
following passage from Janssen-Ortho Inc. v. Novopharm Ltd., 2007 FCA
217, 59 C.P.R. (4th) 116:
23 The accepted legal test for
obviousness is stated as follows in the leading case of Beloit Canada Ltd. et
al. v. Valmet OY (1986), 8 C.P.R. (3d) 289 (F.C.A.) at page 294, per Hugessen
J.A.:
The classical touchstone for obviousness
is the technician skilled in the art but having no scintilla of inventiveness
or imagination; a paragon of deduction and dexterity, wholly devoid of
intuition; a triumph of the left hemisphere over the right. The question to be
asked is whether this mythical creature (the man in the Clapham omnibus of
patent law) would, in the light of the state of the art and of common general
knowledge as at the claimed date of invention, have come directly and without
difficulty to the solution taught by the patent. It is a very difficult test to
satisfy.
24 The inquiry mandated by the Beloit test is factual and
functional, and must be guided by expert evidence about the relevant skills of
the hypothetical person of ordinary skill in the art, and the state of the art
at the relevant time. The expert evidence must be carefully assessed as to its
credibility and reliability. The classic warning from Beloit about hindsight must always be borne in
mind (at page 295, per Hugessen J.A.):
Every invention is obvious after it has
been made, and to no one more so than an expert in the field. Where the expert
has been hired for the purpose of testifying, his infallible hindsight is even
more suspect. It is so easy, once the teaching of a patent is known, to say,
"I could have done that"; before the assertion can be given any
weight, one must have a satisfactory answer to the question, "Why didn't you?"
25 There is no single factual
question or a set of questions that will determine every case, or any
particular case. Justice Hughes, at paragraph 113 of his reasons, proposes a
list of factors to be considered when the validity of patent is challenged on
the basis of obviousness. The list is apparently derived from a survey of
numerous cases from Canada, the United States and the United
Kingdom. In my
view, despite the continual debate as to whether the legal test for obviousness
is the same in all of those countries, the list of factors proposed by Justice
Hughes is helpful to guide the required factual inquiry, and as a framework for
the factual analysis that must be undertaken. What follows is an edited version
of his list:
Principal factors
1.
The
invention
What is in issue is the patent claim as
construed by the Court.
2.
The
hypothetical skilled person referred to in the Beloit quotation
It is necessary to identify the skills
possessed by the hypothetical person of ordinary skill in the art.
3. The body of
knowledge of the person of ordinary skill in the art
The common knowledge of the hypothetical
person of ordinary skill in the art includes what the person may reasonably be
expected to know and to be able to find out. The hypothetical skilled person is
assumed to be reasonably diligent in keeping up with advances in the field to
which the patent relates (Whirlpool at paragraph 74). The presumed knowledge of
the hypothetical skilled person undergoes continuous evolution and growth. Not
all knowledge is found in print form. On the other hand, not all knowledge that
has been written down becomes part of the knowledge that a person of ordinary
skill in the art is expected to know or find.
4. The climate in the
relevant field at the time the alleged invention was made
The general state of the art includes not
only knowledge and information but also attitudes, trends, prejudices and
expectations.
5. The
motivation in existence at the time the
alleged invention to solve a recognized
problem
"Motivation" in this context
may mean the reason why the claimed inventor made the claimed invention, or it
may mean the reason why one might reasonably expect the hypothetical person of
ordinary skill in the art to combine elements of the prior art to come up with
the claimed invention. If within the relevant field there is a specific problem
that everyone in the field is trying to solve (a general motivation), it may be
more likely that the solution, once found, required inventive ingenuity. On the
other hand, if there is a problem that only the claimed inventor is trying to
solve (a unique or personal motivation), and no one else has a reason to
address that problem, it may be more likely that the solution required
inventive ingenuity. However, if commonplace thought and techniques can come up
with a solution, there may be a reduced possibility that the solution required
inventive ingenuity.
6.
The time
and effort involved in the invention
The length of time and expense involved
in the invention may be indicators of inventive ingenuity, but they are not
determinative because an invention may be the result of a lucky hit, or the
uninventive application of routine techniques, however time consuming and
expensive they may be. If the decisions made in arriving at the solution are
few and commonplace, that may indicate that no inventive ingenuity was required
to arrive at the solution. If the points for decision were many and choices
abundant, there may be inventiveness in making the proper decisions and
choices.
Secondary factors
These factors may be relevant but
generally bear less weight because they relate to facts arising after the date
of the alleged invention.
7. Commercial success
Was the subject of the invention quickly
and anxiously received by relevant consumers? This may reflect a fact that many
persons were motivated to fill the commercial market, which may suggest
inventive ingenuity. However, it may also reflect things other than inventive
ingenuity such as marketing skills, market power and features other than the
invention.
8. Meritorious awards
Awards directed to the alleged invention
may be recognition that the appropriate community of persons skilled in the art
believed that activity to be something of merit. That may or may not say
anything about inventive ingenuity.
[…]
27 I emphasize that this list is a
useful tool, but no more. It is not a list of legal rules to be slavishly
followed; nor is it an exhaustive list of the relevant factors. The task of the
trial judge in each case is to determine, on the basis of the evidence, sound
judgment and reason, the weight (if any) to be given to the listed factors and
any additional factors that may be presented.
28 I would also repeat the caution of
Justice Hughes that catchphrases derived from this list or from the
jurisprudence are not to be treated as though they are rules of law. I agree
with the following comment of Justice Hughes from paragraph 113 of his reasons:
In this regard phrases such as
"worth a try" and "directly and without difficulty" and
"routine testing" have been used by the courts. It is not useful to
use such phrases as they tend to work their way into expressions of law or
statements of expert witnesses. Sachs L.J. deprecated the coining of such phrases
in General Tire & Rubber Company v. Firestone Tyre & Rubber Company
Limited, [1972] R.P.C. 195 at pages 211-12.
[29]
I
have carefully reviewed the 493 Patent and I accept that it does not anticipate
the selection of valacyclovir as a medicine that would have improved oral
bioavailability.
[30]
The
493 Patent taught the use of various esters of acyclovir as prodrugs for
achieving improved solubility for use principally in small volume aqueous
formulations. Overcoming the solubility problems of acyclovir in such uses was
the clear focus of the inventor’s work and the solution taught by the 493
Patent.
[31]
On
this issue, I accept the following interpretation of the 493 Patent offered by
Dr. Borchardt which seems to me to be consistent with the overall position of
the scientific evidence:
The strategy employed in EPA '493 to
increase the aqueous solubility of acyclovir is identical to the strategy that
other medicinal chemists were employing in the 1980s to increase the solubility
of other water-insoluble drugs, including metronidazole (Bundgaard et. al.,
1984 (NOA, Appendix A, Document 34); Bundgaard et. al., 1984 (NOA,
Appendix A, Document 35); Cho and Haynes, 1985), corticosteroids (Kawamura et.
al., 1971; Anderson et. al., 1985; Johnson et. al., 1985
(NOA, Appendix A, Document 50)), and paracetamol (Kovach et. al., 1981
(NOA, Appendix A, Document 23)). All of this work was focused on the potential
use of esters in topical or injectable formulations, e.g., formulations
for delivery by a route other than in or through the digestive system.
Improving the aqueous solubility of acyclovir, as with these other
water-insoluble drugs, in order to make aqueous formulations to inject or use
as eye drops is vastly different from improving oral bioavailability of a drug.
This interpretation was also borne out by
Dr. Borchardt’s cross-examination testimony in the following passage:
Q. But insofar as the
modes of absorption that you’ve described here, when you’re applying a topical
treatment, would the same principles apply here that we see here in 84, some
would go by way of transcellular diffusion, paracellular diffusion? Would that
apply to the eye and the skin?
A. Again, there are
significant differences between these barriers in terms of, for example, the
number of layers of cells, the lipid composition of those cells, the metabolic
capability of those cells, the junctions, tight junctions associated with those
cells.
Q. Perhaps you can
answer the question. I take it that when we look at applying a topical
treatment that we would have the same issues that we see here in paragraph 84.
We’re going to have paracellular division, we’re going to have fatty layers and
water channels, correct?
A. Again, I think there
are very significant differences and one cannot generalize about the barrier
properties of intestinal mucosa versus the skin.
[32]
While
I accept that the 493 Patent also recognizes the use of the esters of acyclovir
for oral use, there is nothing else to indicate to a person skilled in the art
that those compounds would have improved oral bioavailability over acyclovir.
To apply the current legal test, I do not accept that the 493 Patent contains
so clear a direction that a skilled person reading and following it would in
every case and without possibility of error be led to the promise of improved
oral bioavailability made by the 083 Patent.
[33]
Although
they alleged it in their NOA, Pharmascience did not spend much time asserting
that the Canada Patent No. 1,258,149 (the 149 Patent) was anticipatory or that
it was relevant prior art. The 149 patent claimed a very broad class of
compounds, but was not directed at prodrugs, let alone amino acid esters of
acyclovir. While a person skilled in the art might, by chance, find
valacyclovir among the thousands of compounds included in the 149 Patent genus,
that patent offered nothing to such a reader about the prospects for improved
oral bioavailability of valacyclovir. Needless to say, having come to the
conclusion that the 493 Patent did not anticipate the claimed advantage of the
083 Patent, it follows that the 149 Patent does not assist Pharmascience. On
this point, I agree with the evidence of Dr. Borchardt found at paras. 158 to
165 of his affidavit that the 149 patent did not disclose the subject matter of
the 083 patent.
[34]
With
respect to the issue of obviousness, the parties have adopted positions at opposite
edges of interpretation of the prior art. Pharmascience says, as it must, that
the prior art and common general knowledge would easily lead the person skilled
in the art to the solution taught by the 083 Patent, that is, that valacyclovir
would have improved oral bioavailability over the two other esters of acyclovir
tested. GSK maintains the opposite view that the prior art and common general
knowledge not only made the oral bioavailability benefits of valacyclovir
unpredictable but actually taught away from such a prediction. As with many
cases of this kind, the truth seems to me to lie somewhere between these
positions.
[35]
The
circumstances of this case are complicated somewhat by the fact that current
scientific knowledge bearing on the issue of the oral bioavailability of valacyclovir
disproves much of what was believed in the 1980s. In 1987, it was believed
that the permeability of such molecules was dependant entirely upon passive
transcellular and paracellular transport (i.e. diffusion through or between
cells). However, it is now understood that the valacyclovir and a number of
other drugs are actively transported through the cellular membrane of the
intestine and do not rely upon passive transport. This change in scientific
understanding placed all of the expert witnesses in the somewhat difficult
position of describing the belief of a notional person skilled in the art who
was later proven to be wrong. Needless to say, this current knowledge had the
potential to permeate or colour the expert testimony from all of the witnesses
and to some extent it did.
[36]
GSK
argues that it would not have been obvious to a person skilled in the art to
look at the amino acid esters of acyclovir to overcome the oral bioavailability
limitations of acyclovir. It makes this assertion based on its
characterization of those compounds as being known to be poor candidates for passive
transport across the intestinal wall. GSK says that no one would be motivated
to examine these compounds as the means of overcoming the poor absorption of
acyclovir.
[37]
The
evidence before me indicates, however, that there were some good reasons for GSK
to look at the potential of valacyclovir and the other esters of acyclovir for
improving the oral bioavailability of acyclovir. For instance, the 493 Patent
disclosed that the amino acid esters of acyclovir would be more soluble than
acyclovir and, at higher dosages, this property would have been expected to
improve their ability to permeate the membranes of intestinal epithelial cells.
Furthermore, the prodrug strategy was well understood as a method for
overcoming solubility, stability or permeability limitations in a parent drug
and the use of natural amino acid compounds in the furtherance of that strategy
was an accepted means of avoiding toxicity problems in human use. It was also
shown by at least 1982 that the esters of acyclovir exhibited good properties
of hydrolyzation in topical applications: see Colla et al., Synthesis and
Antiviral Activity of Water-Soluble Esters of Acyclovir ((1983) 26 J. Med.
Chem. 603). GSK could also have expected that valine would be a better
candidate than acyclovir and the two other amino acids it tested for improving permeability
because of its higher partition co-efficient. A person skilled in the art would also
have been somewhat encouraged by the apparent permeability of the
prodrugs of acyclovir through the membrane of the eye as disclosed by the 493
Patent.
[38]
Although
a person skilled in the art would also have expected that the pKa for the
esters of acyclovir at 7.5 would represent a potential barrier to their
absorption in the upper intestinal tract, that limitation would become less
significant as the compounds moved through the intestine where pH levels are
more conducive to absorption. The evidence also
indicates that there is not a linear relationship between absorption and the
increase in pH values through the intestine but rather that absorption rises dramatically
at pH values of more than 6. This would have suggested at the time that these
compounds would have an improved propensity for absorption as they moved
through the intestine.
[39]
It
is also noteworthy that, although acyclovir was known to have poor permeability
characteristics, it was (and is) still being used for oral administration
because it worked. Accordingly, the measure of the utility of any given
prodrug of acyclovir was not to be found in its inherent oral bioavailability
profile but in how that profile stacked up against that of acyclovir.
[40]
Notwithstanding
the above indications for the potential utility of valacyclovir as a solution
for the oral bioavailability limitations of acyclovir, I do not accept that the
prior art bearing on this issue is sufficiently compelling to meet the rigorous
test for obviousness. The best evidence indicates that the oral
bioavailability of any given ester of acyclovir was still largely
unpredictable. There were simply too many biological and chemical variables in
play to allow anyone at that time to predict directly and without difficulty
the oral bioavailability properties of valacyclovir either on its own or
relative to the properties of other esters of acyclovir.
[41]
Dr.
Borchardt’s affidavit evidence appears to me to characterize fairly the problem
of predictability facing a person skilled in the art in 1987:
91. There are many factors that can
affect the oral bioavailability of a drug. The factors that would have been
well-understood by the person skilled in the art in 1987 include the drug
molecule’s:
·
Chemical
and enzymatic stability in the stomach and small intestines;
·
Aqueous
solubility;
·
Interaction
with food;
·
Absorption
(permeability) – the ability to pass through the single layer of cells that
separates the small intestine (or the “intestinal mucosa”) from the
bloodstream; and
·
Propensity
to be metabolized in the intestinal mucosa and liver (first-pass metabolism).
(Pang and Gillette, 1980;
Benet and Sheiner, 1985a).
92. However, in the 1980s, it would
have been impossible for the person skilled in the art to know how each of
these individual factors influenced the oral bioavailability of a drug
candidate. This is because scientists trying to develop drugs at that time
used a strategy that employed drug testing with live, “whole animals” which
could only tell them whether they succeeded (improved oral bioavailability) or
failed (decreased or low oral bioavailability) – but not why.
[…]
99. However, development of an ester
pro-drug to enhance oral bioavailability is a very complex process (Beaumont et. al., 2003). As
illustrated, the ester pro-drug must be stable at the different environments of
both the stomach and the small intestine. It must be sufficiently water
soluble to dissolve the entire dose of the drug in the intestine. It must be
stable to enzymes [e.g., peptides and proteases (which primarily break
peptide bonds) and esterases (which break ester bonds)] in the stomach and
intestine that are present to digest proteins/peptides having peptide bonds and
lipids having ester bonds. The pro-drug must be sufficiently permeable (lipid
soluble) to allow absorption into the bloodstream. The pro-drug then must be
rapidly converted to the parent drug. Medicinal chemists and pharmaceutical
scientists were well aware of these problems in the 1980s, as illustrated by
review articles published by Sinkula and Yalkowsky (1975), Stella et. al.
(1985) and Higuchi (1987).
[42]
A
few examples of the uncertainty of the prediction will, I think, suffice:
[43]
Dr.
Mitra acknowledged that a person skilled in the art would have understood that
acyclovir would not be a good candidate for transcellular transport because of
its low partition co-
efficient. His affidavit stated that a
partition co-efficient of 1.5 to 2.0 is required before there would be
“appreciable absorption” by this mechanism. His affidavit confirmed this point
in the following passage:
It was understood that acyclovir was
absorbed by both transcellular and paracellular routes, with the paracellular
route being a major contributor in both oral and topical formulations (very
little amount of the drug went by the transcellular route).
This evidence would also apply to
valacyclovir because it had a partition co-efficient that fell well below the
stipulated range for meaningful passive transcellular absorption.
[44]
According
to Dr. Mitra, the only other expected transport mechanism for acyclovir and
valacyclovir would be by way of the paracellular route. Like Dr. Mitra, Dr.
Borchardt gave evidence that this was the expectation for the method of
absorption of acyclovir in 1986 (see page 58 of Dr. Borchardt’s
cross-examination transcript) but this, he said, was also a mechanism that was
“highly restrictive”. According to Dr. Borchardt the addition of valine to
acyclovir to create valacyclovir would have the effect of further limiting paracellular
transport because this would simply increase the already high molecular weight (and
size) of acyclovir (see para. 212 of Dr. Borchardt’s affidavit). Pharmascience’s
other expert witness, Dr. Dordick, offered the opinion that a person
skilled in the art would have understood that acyclovir would not likely
permeate the intestinal wall by the paracellular route because of its molecular
size. It stands to reason that valacyclovir would be even less likely to
permeate vis-à-vis the paracellular route for the same reason.
[45]
All
of this evidence suggests to me that very little was actually understood about
the transport of compounds through cellular membranes at the relevant time.
The fact that the experts disagreed among themselves about the likely mechanism
of transport of acyclovir and valacyclovir and the molecular properties that
would either inhibit or facilitate that process indicates to me that permeability
predictions for any particular compound were, at that time, highly suspect.
[46]
I
would add to this that even the named inventor of the 493 Patent did not
predict that the esters of acyclovir would have improved oral bioavailability
over acyclovir when he wrote on the subject in 1985 and stated the following:
One of the limitations of ACV is low oral
absorption (only about 20%). Upon oral administration, ACV may achieve plasma
drug concentrations that are sufficient to block HSV, but not VZV, replication.
Consequently, oral ACV has not been shown to be effective against VZV
infections. The poor oral absorption of ACV can be overcome by using
deoxy-ACV, a prodrug of ACV (3), which by itself is devoid of antiviral
activity but very well absorbed orally and then converted by xanthine oxidase
to ACV. Plasma ACV concentrations achieved with 50 mg deoxy-ACV are comparable
to those produced by 400 mg ACV (4,5). Whether deoxy-ACV will be safe and
effective in the oral treatment of VZV infections remains to be established.
[47]
Given
the scientific uncertainties that the evidence in this case presents, I am
satisfied that it would not have been obvious to a person skilled in the art
that valacyclovir would have any oral bioavailability advantages over other
esters of acyclovir.
The Law of
Selection and Utility
[48]
The
general principles of Canadian selection law are substantially derived from the
leading and often cited English case of In the Matter of I.G.
Farbenindustrie A.G.’s Patents, (1930) 47 R.P.C. 283. That decision
was one of the earliest to fully summarize the law dealing with selection
patents. The decision sets out several principles that are required for a
valid selection patent including the following:
(a)
the
selection invention must “add something of a substantial character to existing
knowledge”;
(b)
the
result achieved must not be obvious to persons skilled in the art;
(c)
a
selection patent does not in its nature differ from any other patent and is
open to attack on the usual grounds of want of subject-matter, want of utility,
want of novelty and so forth;
(d)
a
valid selection patent must be based on some substantial advantage to be
secured (or disadvantage avoided) by the use of the selected members;
(e)
the
whole of the selected members must possess the advantage asserted or the patent
will fail for insufficiency and non-utility;
(f)
the
selection must be in respect of a quality of a special character which is
peculiar to the selected group or compound. This special characteristic must
not be one which those skilled in the art would expect to find in a large
number of the members of the genus;
(g)
it
is necessary for the patentee to define in clear terms the nature of the
characteristic which is asserted to be possessed by the selected compounds.
[49]
A
helpful and more recent summary of the principles applicable to selection
patents in the context of an NOC proceeding can be found in the decision of
Justice Johanne Gauthier in Eli Lilly Canada Inc. v. Apotex Inc., above,
where she stated at paras. 88 to 90:
88 From the case law applied by the
Federal Court of Appeal, it appears that the nature of selection which
presupposes the existence of a class that encompasses the selected member(s)
mandates a particular approach to determine whether the prior patent covering
the class left the field open for someone to claim the selected compound(s) as
new (see Du Pont, above, at p. 310-311). If the field is indeed open,
the originating patent will not anticipate (see paragraphs 264-267 below) but
the selected member(s) may still be anticipated by other publications and, in
this respect, the usual principles apply. It is also clear that the inventive
step in the selection lies in the discovery that the selected compound(s) of a
known class of compounds (for example, the '687 Patent) possess(es) some
special advantage that could not be predicted before the discovery was made.
All selected compounds must have a "substantial" advantage (this
includes avoiding a disadvantage possessed by other members of the known class)
and the said advantage must not be one that those skilled in the art expect to
find in a large number of the previously disclosed genus or class.
89 Another special requirement of
this class of patent is that its said advantage(s) must be specifically
described in the disclosure of the patent. This requirement becomes
particularly pertinent when the Court needs to determine if the patent is
invalid on the basis of insufficiency.
90 Although selection patents possess
certain distinguishing features, the analysis regarding their validity is
largely the same as that which is carried out with respect to any other patent.
Like any other patent, they benefit from the presumption that the invention
(the selection) is novel, inventive and useful. Likewise, it is presumed that the
disclosure is sufficient to enable a person skilled in the art to take full
advantage of the benefit of the invention. There is
no good reason to treat these patents
differently when it comes to determining what a party must set in its NOA for
the purposes of NOC proceedings.
[Footnotes omitted]
[50]
I
have no difficulty with the proposition that selection patents are subject
generally to the same rules that apply to any other type of patent.
Nevertheless, there is an obvious danger presented by the granting of a fresh
monopoly over a compound already monopolized by the same party on the strength
of the finding of a supposedly unexpected and useful advantage or property.
That danger is well expressed in the following passage from Apotex Inc. v.
Wellcome Foundation Ltd., 2002 SCC 77, [2002] 4 S.C.R. 153:
80 In my view, with respect,
Glaxo/Wellcome's proposition is consistent neither with the Act (which does not
postpone the requirement of utility to the vagaries of when such proof might
actually be [page191] demanded) nor with patent policy (which does not
encourage the stockpiling of useless or misleading patent disclosures). 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 in 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 patent system would reward deep
pockets and the ingenuity of patent agents rather than the ingenuity of true
inventors.
This point of caution must, of course, be
balanced against the competing concern that the discovery of fresh advantages
should not be stultified by an overly restrictive enforcement of an earlier
patent monopoly: see E. I. DuPont De Nemours & Co. [1982] F.S.R.
303 (H.L.)
[51]
To
establish that a compound has a peculiar advantage over the genus of compounds
from which it was chosen requires that the advantage not be found or be predicted
to be found in a large number of members of the genus. This point is made in Farbenindustrie,
above, and confirmed in the following passage from Dreyfus and Others
Application (1945), 62 R.P.C. 125 (H.L.) at p. 133:
… Invention, if invention there be, must
involve at the least the discovery that the selected members possess qualities
hitherto undiscovered, peculiar to themselves and not attributable to them by
virtue merely of the fact of their belonging to a class specified by the
earlier inventor.
[52]
This
same point is made in the following passage from Pfizer Canada Inc. v. Canada (Minister of
Health),
2006 FCA 214, 2 F.C.R. 214 dealing with this issue in the context of utility:
31 To meet the statutory requirement
in subsection 34(1) of the Patent Act, R.S.C. 1985, c. P-4 (old Act) that
a patent be 'useful', the selected species
must have an advantage over the class as a whole (see Consolboard Inc. v. MacMillan
Bloedel (Saskatchewan) Ltd., [1981] 1 S.C.R. 504 at pages 525-526). That
case broadly defined the utility required for valid patent as discussed in Halsbury's Laws of England (3rd ed.), vol 29 at page 59:
...it is sufficient utility to support a
patent that the invention gives either a new article, or a better article or a
cheaper article, or affords the public a useful choice.
However, there are no special legal
requirements regarding what particular type of advantage is required. The test
for advantage is understood to include a disadvantage to be avoided, as is the
case here (see I.G. Farbenindustrie at page 322).
[Emphasis added]
Although the selection was upheld as
inventive by the Court of Appeal in the above decision, that finding was based
on an uncontested set of facts and findings made by the Court below and was
made in the context of an argument that had not been advanced in the second
party’s NOA. It was, accordingly, unnecessary for the Court of Appeal to
comment on the evidentiary requirements for proving an advantage of the selected
compound over the compounds from the genus from which it was chosen. I do not,
therefore, interpret the finding of the Court of Appeal as saying that proof of
a peculiar advantage over the genus claimed in a prior patent is not a
requirement for validating a later selection. Indeed, in the recent decision
by that Court in Pfizer Canada Inc. v. Canada (Minister of Health) 2008
FCA 108 (Pfizer v. Ranbaxy), Justice Marc Nadon indicated that
evidence of an unexpected selection advantage over the compounds covered by the
genus patent is a requirement, at least with respect to establishing utility:
see paras. 51 and 63.
[53]
The
utility of valacyclovir and the other esters of acyclovir as antiviral prodrugs
has already been asserted in the 493 Patent. The specific utility of valacyclovir
had to be found, therefore, not in its antiviral properties or in improved
solubility but in its supposedly better oral bioavailability profile over the
other members of the class from which it was selected. That utility had to be
established either by testing or by sound prediction or both. If the utility
of valacyclovir for enhanced oral bioavailability over the genus compounds was
not scientifically demonstrated or soundly predicted as of the Canadian filing
date, the 083 Patent must fail for lack of utility (Aventis Pharma Inc. v.
Apotex 2006 FCA 64, 349 N.R. 183). The fact that later evidence may
establish
utility does not transform the earlier
speculation into something inventive. This point is made in the following
passage from Apotex Inc. v. Wellcome Foundation Ltd., above:
… In the broader context of the Patent
Act, as well, there is good reason to reject the proposition that bare
speculation, even if it afterwards turns out to be correct, is sufficient. An
applicant does not merit a patent on an almost-invention, where the public
receives only a promise that a hypothesis might later prove useful; this would
permit, and encourage, applicants to put placeholders on intriguing ideas to
wait for the science to catch up and make it so. The patentee would enjoy the
property right of excluding others from making, selling, using or improving
that idea without the public's having derived anything useful in return.
[54]
The
requirement that there be sufficient testing of genus compounds to support at
least a sound prediction of a substantially unique or peculiar advantage for
the selection made is apparent from a complete reading of the decision in Farbenindustrie,
above. It is readily apparent from that decision that the Court had before it
substantial scientific evidence comparing the properties of the selected
substances to the unselected group. From that evidence, the Court concluded
that no special advantage had been proven as can be seen from the following
passages:
… The judgments of Dr. Oberlander
and Dr. Goldsmith on all these numerous samples of dyeings and kier
boilings were obtained in general terms from them, and they expressed the
opinion that with the selected dyestuffs (the word “selected” being used to
indicate dyestuffs manufactured under the Patents in suit) on the whole the
tests were satisfactory in that they indicated that they were fast to kier
boiling, and a great number of exhibits were produced and carefully examined by
me with the assistance of my Assessor.
I think the experiments or tests of the
Respondents showed that the selected dyestuffs in general possessed a certain
power to resistance to kier boiling in caustic soda. Thus a great number of
them would not suffer change if so boiled for three hours, which is half the
usual time, or for six hours at half the usual strength, which is not less than
4 grammes of caustic soda per litre. Whether this would be equally true as
regards boiling in an ordinary kier under commercial conditions when the goods
are exposed to pressure, I am not so sure; but this has not been tried. It
has to be remembered, however, that nothing useful is really proved by the fact
stated, unless the further step is taken of showing that the unselected
dyestuffs as a class do not possess the same quality of a limited resistance to
caustic soda. There was certainly evidence given which in my judgment
proved that the introduction of what has been called the patented group
improves to some extent and in many cases the resistance to kier boiling with
caustic soda. In some cases, however, the difference was only small. In a
large number of cases the introduction of the patented group did not give
“excellent” fastness. The fastness sometimes did not exist, for example, in
regard to nitro compounds. The alleged advantage is in some cases, I think,
merely a theoretical advantage; for both the selected and the unselected
dyestuffs in those cases are not fast to even a mild kier boil. That there was
in every case a practical advantage has not been established before me. The
Respondents also endeavoured to prove that on a laboratory test the selected
dyestuffs would in most cases resist what has been called Test 6, that is kier
boiling for six hours with 4 grammes of caustic soda per litre, or at any rate would
nearly resist that test. If this had been proved, no doubt the Respondents
would have gone some way towards establishing the substantial truth of the
promise; for the unselected dyestuffs as a class were known not to be fast to
ordinary commercial caustic soda kier boiling.
[…]
… I should add that it is apparent from
P.4 that the Petitioners set out to make a general comparison between the
selected and the unselected dyestuffs as regards resistance to caustic soda
kier boiling; and it is clear from R.22 that the Respondents paid much less
attention to the unselected group. I cannot escape the conclusion that Dr. Oberlander
and Dr. Goldsmith rather rashly jumped to the conclusion that the
unselected dyestuffs were not in any degree fast to caustic soda. The 26
instances of the unselected shown on R.22 were by some mischance apparently
judged more harshly than the selected dyestuffs shown on that chart. Not only
do the judgments differ very widely from those of Professor Rowe, but it
is a striking fact that when these dyeings were put (“unseen” in the sense
already mentioned) to Mr. Trotman, his verdicts were much more
favourable than theirs.
P.4, it will be remembered, deals with
the comparison between the selected and unselected dyestuffs, excluding those
which possess a nitro group in the azo component. I have come to the
conclusion that P.3 not unfairly represents the dyeing, and tests made in
relation to the selected and unselected dyestuffs including the nitro group in
the diazo component. It is apparent that in cases where the nitro groups are
so included, there is really no advantage possessed by the selected over the
unselected compounds. That there was no substantial advantage was hardly in
dispute. Combining then the results of P.3 and P.4, and making some allowances
in favour of the Respondents as regards P.4, for there are certain corrections
that had to be made (including those due to what I have said above as to the
Particulars of Objections) which are in favour of the Respondents, I must find
as a fact that there is no such advantage of the selected over the unselected
dyestuffs in relation to kier boiling with caustic soda as would justify the
promises made in the Specifications of the Patents in suit or any of them as
construed by the Respondents. If we are to consider the matter from the
standpoint of an ordinary commercial caustic soda boil, the results are
striking. The Respondents gave no evidence under this head. The Petitioners
proved in exhibits P.17 (a) and (b) their experiments on these lines, and
embodied the results in the charts P.7 and P.8. A mere glace at the charts is
sufficient to show that to such a kier boiling not a single selected or
unselected dyestuff is sufficiently resistant to satisfy the ordinary exigencies
of trade.
[…]
My conclusions on the three Patents must
be as follow: - First as a matter of law, there may well be a selection patent;
but it must be a selection for a useful, and special, characteristic or
property indicated in clear terms by the Patentee. Secondly, on the
construction which I have placed on the promises in relation to fastness to
kier boiling (i.e. fastness to practical soda ash kier boil) the promises
wholly fail. Thirdly, on the construction which the Respondents seek to place upon
the promises, that is a greater fastness to caustic soda kier boil in
comparison with other similar dyestuffs to a varying degree, the characteristic
as established is too vague, too uncertain, and (nitro compounds being
included) open to too many exceptions to enable the Patents to be supported.
[Emphasis added]
[55]
In
applying the above principles to the circumstances of this case, I have
concluded that GSK has not met the burden of establishing a valid selection, at
least in terms of utility. I have come to that conclusion because neither the
083 Patent nor the evidence of GSK’s expert witnesses is sufficient to
establish an advantage in the 083 Patent that fulfills the test for a valid
selection from the compounds claimed by GSK’s 493 Patent.
[56]
One
of the allegations in Pharmascience’s NOA was that the finding by GSK that
valacyclovir had improved oral bioavailability over glycine and alanine was not
new or surprising. This is an issue which can also be framed as one of utility
– did the compound selected actually have a surprising or previously unrecognized
advantage over the other members of the genus from which it was chosen. In
Pharmascience’s Memorandum of Fact and Law, this issue was framed in terms of
both disclosure and utility as can be seen from the following passages:
75. The '083 Patent provides
misleading and meaningless data comparing the valine esters with glycine and
alanine esters that are specifically referred to in the DeClercq EP Patent.
Despite the fact that the '083 Patent provides data against only 3 other
compounds, GSK now says that the DeClercq Patents actually covers thousands of
compounds. These thousands of other compounds are not discussed in the '083
Patent. There is no data to indicate whether the valine ester of acyclovir is
better than any of these compounds. The '083 Patent even failed to provide
comparison data for the other aliphatic amino acids that are taught by
DeClercq.
76. There is also no evidence that
it was soundly predictable that the valine ester of acyclovir would have the
promised surprising improvement in bioavailability over the thousands of
compounds. There are no tests done with such compounds and no articulable and
sound line of reasoning in the '083 Patent to support the inventiveness of valacyclovir
over these compounds. Thus, there is
no disclosure of the promised superiority
of the valine ester – i.e. no quid quo in exchange for allowing GSK to
patent another compound from its previously disclosed aliphatic amino acid
esters of acyclovir.
[Footnotes omitted]
[57]
Presumably
in response to Pharmascience’s allegations, GSK had its experts address the selection/utility
issue in their evidence.
[58]
The
inherent weakness of GSK’s evidence of a surprising or unexpected
bioavailability finding offered by its expert witnesses seems to me to be the
inevitable result of GSK’s highly selective comparative analysis. GSK selected
only three compounds from the genus of thousands of potential amino acid esters
of acyclovir claimed by the 493 Patent and subjected those compounds to some largely
undisclosed level of empirical analysis. From the data obtained, GSK asserted
that valacyclovir “surprisingly has improved bioavailability after oral
administration compared with the alanine and glycine esters mentioned [in the
493 Patent]”.
[59]
On
a literal reading of this sentence, the inventor is asserting no more than a
finding that valacyclovir was “surprisingly” more bioavailable than either the alanine
or the glycine esters of acyclovir. There is no clear assertion that it was
the stated quantitative bioavailability advantage in rats of valacyclovir over
the other two esters that was the surprising finding. This is substantially
borne out by Dr. Borchardt who readily acknowledged that the
bioavailability data obtained from GSK’s rat studies outlined in the 083 Patent
would be expected to correlate in humans only to the extent of a rank ordering
of the compounds tested. This, he said, was sufficient to allow for the choice
of a compound to “take into development”. His cross-examination testimony
indicated, as well, that a reported two-fold increase in the measured
bioavailability in the rat studies between the glycine ester and acyclovir was
only a “slightly better” result:
Q. Let’s go back to the
first question. According to the patent, the glycine ester is two times better
than acyclovir; right?
A. Mm-hmm. I would - -
-
Q. Is that right?
A. I would not use the
terminology that you have chosen to use. I would say, based on this data, it
would appear that the glycine ester is slightly better than acyclovir in terms
of urinary recovery of acyclovir.
Q. It’s slightly better
at - - -
A. Right.
Q. … 15 per cent
higher; is that right?
A. I’ve given you the
answer to my question.
Q. Okay. And does that
accurately predict the behaviour of glycine ester acyclovir in humans?
A. We discussed some of
this data yesterday that was in the Burroughs Wellcome letter, and I indicated
at that time that there is a correlation between the data seen in rats and the
data seen in those “primate” studies, and that the rank ordering of those
compounds are similar.
But I also pointed
out to you yesterday that the primate studies, there was no description of the
experimental methods that were provided. So it’s difficult for me to go much -
- to go beyond where I have gone in terms of interpretation.
Presumably the above evidence is equally
applicable to the two-fold increase in the bioavailability of valacyclovir over
the other two esters tested in rats as reported in the 083 Patent.
[60]
The
affidavits sworn by Dr. Sinko and Dr. Borchardt both describe the
bioavailability advantage promised by the 083 Patent as being relative only to
the other two esters of acyclovir tested. This is borne out by the following
passages from their affidavits:
Dr. Sinko
Based on the foregoing, the person
skilled in the art would understand from reading the '083 Patent that the invention is the
L-valine ester of acyclovir which has a surprisingly higher bioavailability
after oral administration as compared to the glycine, α-alanine and β-alanine
esters of acyclovir disclosed in EPA '493 and the Colla paper, and compared
to acyclovir itself. The surprisingly higher bioavailability of valacyclovir is
a substantial advantage over the other compounds, specifically disclosed in EPA
'493 and the Colla paper, and this
advantage could not have been expected before the discovery was made.
[…]
Furthermore, the person skilled in the
art in 1998 would thus understand that the invention disclosed in the '083
Patent is the L-valine ester of acyclovir (and its pharmaceutically acceptable
salts) which provides the substantial advantage of improved bioavailability of
acyclovir after oral administration (of the L-valine ester of acyclovir
thereof) as compared to the glycine, α-alanine and β-alanine esters
of acyclovir and acyclovir itself.
Dr. Borchardt
As set our in detail in Section VI, the '083 Patent discloses a single compound,
namely, valacyclovir which is a L-valine ester of acyclovir, and its pharmaceutically
acceptable salts. Valacyclovir has substantially improved oral
bioavailability (as measured by urinary recovery of acyclovir) relative to
other amino acid esters of acyclovir (i.e. the glycine and L-alanine
esters).
Valacyclovir as compared to the group of
amino acid esters of acyclovir exemplified in EPA '493 has been shown to have
substantially improved bioavailability versus acyclovir when administered
orally.
[Emphasis added]
It seems to me that the above passages
fairly characterize the limited promise of the 083 Patent – that is, that
valacyclovir had a better oral bioavailability profile than either of the two
other esters tested (i.e. glycine and alanine).
[61]
Both
Dr. Sinko and Dr. Borchardt went on to assert in virtually identical language
that valacyclovir had and has a unique bioavailability advantage over all
of the ester compounds claimed by the 493 Patent because it is supposedly the
only one of those compounds which has been shown to be actively transported by
a peptide transporter. Dr. Sinko’s evidence on this point was as follows:
Furthermore, to my knowledge the
substantial advantage of improved bioavailability is peculiar to the L-valine
ester of acyclovir (valacyclovir), and its salts, since they are the only
members of the classes of compounds encompassed by the genus disclosed in EPA '493 and the '149 Patent,
respectively, which are known to be actively transported by a peptide
transporter.
[…]
The claims of the '083 Patent, in contrast, are directed
specifically to the L-valine ester of acyclovir, that is, valacyclovir (as well
as its pharmaceutically acceptable salts and a process for making it) which
provides the substantial advantage of improved bioavailability over other amino
acid esters of acyclovir, as well as acyclovir.
To my knowledge, the substantial
advantage of improved bioavailability is particular to valacyclovir and not to
any of the other amino acid esters covered by the claims of CA '637. [the Canadian equivalent to
the 493 Patent] Furthermore, for the reasons discussed above, in my opinion,
the discovery that valacyclovir has the substantial advantage of improved
bioavailability when administered orally, over the class of compounds covered
by the claims of CA '637, and over acyclovir
itself, could not have been predicted before the discovery was made.
[Emphasis added]
[62]
To
the same effect is the following passage from Dr. Borchardt’s affidavit:
The '083 Patent is directed to improving
the bioavailability of acyclovir after oral administration so that it can be
formulated into pharmaceutical preparations for oral administration such as
tablets. The only compound described and claimed in the '083 Patent is valacyclovir and its
pharmaceutically acceptable salts.
Valacyclovir has substantially improved oral
bioavailability (as measured by urinary recovery of acyclovir) relative to
other amino acids of acyclovir (i.e. the glycine and L-alanine esters).
Valacyclovir, as compared to the amino
acid esters of acyclovir exemplified in the '637 Patent, has been shown to have
this substantially improved bioavailability versus acyclovir when administered
orally.
A substantially improved oral
bioavailability is peculiar to valacyclovir since, as I understand,
valacyclovir is the only member of the class of amino acid esters of acyclovir
encompassed in the '637 Patent which has been
shown to be actively transported by a peptide transporter.
For all these reasons, the '083 Patent
meet the criteria for a valid selection patent as I understand the test for
selection patents explained to me by Ogilvy Renault and set out in Section IV
(b) of my affidavit.
[Emphasis added]
It seems to me that the above evidence is
disingenuous for at least three reasons. Firstly, there is no evidence
produced by GSK to establish that the bioavailability advantage for
valacyclovir asserted by the 083 Patent was then known or predicted to be substantially
unique among the thousands of compounds claimed by the 493 Patent. For all I
can tell from the evidence, valacyclovir was, at best, shown to have a
qualitative bioavailability advantage over the other two esters tested but that
finding says absolutely nothing about whether the same advantage would exist
vis-à-vis a few, some, many, most or all of the other compounds claimed by the
493 Patent. This is hardly a sufficient basis to establish the legal
requirement that a selection be of a special or peculiar character relative to
the genus from which it was chosen: see Farbenindustrie, above, at page
232. Another way of putting this is that the selection of one compound with an
unquantified advantage over two others does not add anything of a substantial
character to the existing knowledge relative to the substantial pool of other
esters of acyclovir claimed by the 493 Patent: see Farbenindustrie,
above, at page 322. This is particularly obvious when one considers the
evidence of Dr. Borchardt that GSK’s research data permits only a rank or
qualitative ordering of the compounds tested as among themselves in human
application. On this point, I do not accept that a valid selection has been
made where the inventor selects one compound out of thousands claimed by the
genus patent, tests its characteristics against only two other genus compounds
and declares only that the selected compound has unquantified special
characteristics or unexpected advantages over the other two.
[63]
In
this case the comparator compounds were the glycine ester and the alanine ester.
No explanation is provided in the 083 Patent as to why those compounds were
chosen or whether they would be expected to exhibit bioavailability properties
commensurate with the thousands of other ester compounds claimed by the 493
Patent. The danger of such an approach is that an inventor may choose for
comparison unrepresentative compounds which would serve to highlight the “unexpected”
advantage of the chosen compound. Another problem which arises from such an
approach is that there is no standard against which to assess a supposedly
surprising or unexpected result vis-à-vis the other members of the genus. What
we are left with here is a 3-compound comparison which offers no quantitative data
about the compounds even compared among themselves let alone as against the
genus.
[64]
The
second problem with the evidence of Drs. Borchardt and Sinko is that there is
absolutely no other evidence to support their common opinion that valacyclovir
is, to their knowledge, the only amino acid ester of acyclovir
which has been shown to be actively transported by a peptide transporter. Dr.
Sinko’s affidavit is particularly troubling on this point in the face of the
following evidence he gave under cross-examination:
Q. And I guess with
respect to these other prodrugs, what other prodrugs are people looking at that
go through those transporters?
A. Well, like I said,
actually I have not - - -
Q. Sorry. You’re
right.
A. Once we went past
that, we were actually done with that and I don’t really follow it really that
carefully. I mean, I see it in general. And, you know, we’re looking for the
next new thing.
Q. Fair enough. That’s
where the money is. Any other esters of acyclovir that go through that
transporter?
A. I’ve not studied nor
seen, you know, reports of that mechanism.
[…]
Q. Now, what about - -
just going back to - - if we compare valacyclovir compared to the hundreds of
compounds from De Clercq, I take it De Clercq’s patent doesn’t tell us anything
about valacyclovir or bioavailability compared to the hundreds of compounds
that De Clercq talks about; is that right?
A. He doesn’t talk
about oral bioavailability of any compound.
Q. And what about when
we get to the '083 patent. Does that give us an indication of valacyclovir’s
superiority over the other hundreds of compounds that are covered by De Clercq?
MS. BREMNER: Do
you have the patent?
MR. KIERANS: Yes.
MS. BREMNER: Sure.
BY MS. BREMNER:
Q. My question was does
the '083 patent tell us anything about the improvement in oral bioavailability
of valacyclovir versus the hundreds of compounds that are covered by De
Clercq’s '493 patent?
A. So it lists on page
20 at the top there, Example 1, which would be valacyclovir, acyclovir, glycyl
ester and the L-alanyl ester of acyclovir. So it doesn’t address the hundreds
of compounds, but it addresses two of the compounds specifically mentioned by
De Clercq.
Q. So for example, proline,
that was one of the ones - - the particular examples you gave me. Do I know if
valacyclovir is any better than proleine for oral bioavailability?
A. I’ve not seen any
data. Are you talking about with respect to '083 patent?
Q. With respect to the
'083 patent or with respect to anything sitting here today.
A. Not that I’m
aware of.
[Emphasis added]
The above passages suggest that when Dr.
Sinko swore his affidavit he had no evidence or knowledge to support the
opinion that the valacyclovir was the only such ester of acyclovir to be
actively transported. Furthermore, if, as the evidence seems to suggest, no
one has taken the trouble of looking at even a representative sample of the
other esters of acyclovir, then no such opinion of uniqueness is sustainable.
[65]
The
final problem with these opinions is that Dr. Sinko and Dr. Borchardt both rely
upon evidence that did not become available to persons skilled in art until
1993. As noted previously, it is not appropriate to bootstrap a claim to an
inventive selection based on after-acquired evidence.
[66]
In
a pharmaceutical selection patent, the invention is the discovery of a
surprising or unexpected advantage of the selection over the genus of compounds
from which it was chosen. The utility of such a selection is not found in the
fact that it works to successfully treat some human condition or ailment but
rather that it works surprisingly better than the compounds monopolized by the
genus patent. That is the inventive promise made and the inventive promise
that must be established.
[67]
In
this case, GSK’s 493 Patent claimed a monopoly over several thousand ester
compounds of acyclovir for the treatment of specified viral infections. In
other words, GSK widely cast its net over thousands of ester compounds of
acyclovir – including valacyclovir – as effective and useful prodrugs. To
claim a further monopoly over valacyclovir it was incumbent upon GSK to
establish that valacyclovir had surprising and unexpected utility over the 493
Patent genus compounds. It is not enough for GSK to establish that
valacyclovir was useful as a prodrug because it worked better than acyclovir.
That claim had already been asserted in the 493 Patent.
[68]
All
that GSK did in this instance was select a likely compound from among the many
compounds claimed by the 493 Patent and measure its oral bioavailability
properties in rats against two other esters of acyclovir already exemplified in
the 493 Patent. From that analysis GSK obtained data which, at most, allowed
for a qualitative or rank ordering of the compounds tested for human use and
which identified valacyclovir as the best of the three. There is no evidence
to establish or to support a prediction that valacyclovir had a better oral
bioavailability profile than any of the other compounds of the 493 Patent
genus. This was, according to GSK, sufficient to support an inventive
selection. As previously noted above, I do not agree.
[69]
I
have therefore concluded that the 083 Patent is invalid because GSK has failed
to establish an inventive selection by failing to prove a special advantage or
utility vis-à-vis the genus from which valacyclovir was chosen. Therefore, the 083
patent fails for lack of utility.
[70]
I
do not mean to suggest by this analysis that a patentee of a selection patent
must test every compound in the genus but I do think that it requires
sufficient representative testing that a person skilled in the art could
soundly predict that the surprising characteristic would not be expected to be
found in a large number of the other members of the genus. In some cases, it
may be possible to make such a prediction on the basis of the prior art but the
patentee must at least offer evidence of a line of sound reasoning to show that
the asserted advantage is special or peculiar to the selection.
Disclosure
[71]
Having
regard to my finding with respect to utility, it is unnecessary to decide
whether the 083 Patent meets the test for disclosure under section 27(3) of the
Patent Act, R.S.C. 1985, c. P-4. However, I would add one point of
observation with respect to this issue. The law in the area of disclosure has
recently been clarified to a degree by the decision of the Federal Court of
Appeal in Pfizer v. Ranbaxy, above, which held that, for a selection patent,
the patentee need not disclose anything more than the surprising and unexpected
advantage of the selection. No data or other evidence to the support that
assertion is required to be published within the patent. Suffice it to say,
though, that when a patentee is attempting to establish the utility of a
selection by relying upon evidence of sound prediction, there may be an
obligation to disclose in the patent the underlying facts and the line of reasoning
which support the prediction: see Apotex v. Wellcome, above, at para.
70. Here, the disclosure of the 083 Patent completely fails to address the
issue of whether and why the asserted bioavailability advantage of valacyclovir
would be predicted to be substantially unique among the other esters of
acyclovir claimed by the 493 Patent. It seems to me that if a patentee is
relying on sound prediction to establish that its selection has some unexpected
advantage over the genus, it does have a heightened obligation to disclose in
the patent its line of reasoning because that is part of the quid pro quo
for the claimed monopoly over the selection.
Costs
[72]
As
I indicated at the conclusion of the hearing, I will allow the parties 10 days
to make submissions in writing concerning costs. Those submissions should not
exceed 5 pages in length.
JUDGMENT
THIS COURT ADJUDGES that this application is dismissed.
THIS COURT FURTHER ADJUDGES
that the matter of costs will be dealt with in a separate Order following
the receipt of the further submissions by the parties.
“ R. L. Barnes ”
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