Date: 20100120
Docket: T-118-08
Citation: 2010 FC 46
Ottawa, Ontario, January 20,
2010
PRESENT: The Honourable Mr. Justice Kelen
BETWEEN:
BIOVAIL CORPORATION
and DEPOMED, INC.
Applicants
and
THE MINISTER OF HEALTH
and APOTEX INC.
Respondents
AMENDED PUBLIC REASONS FOR ORDER
AND ORDER
[1]
This
is an application for an Order under the Patented Medicines (Notice of
Compliance) Regulations, SOR/93-133 (the NOC Regulations), prohibiting the
Minister of Health from issuing a Notice of Compliance to Apotex for a generic
version of metformin ER extended release 500 mg tablets, until Biovail’s
Canadian Patent 2,290,624 (hereafter the ‘624 patent) expires on June 5, 2018. Apotex
alleges that Biovail’s ‘624 patent for extended release metformin sold by
Biovail under its trade name GLUMETZA is invalid for reasons of anticipation,
obviousness, and double patenting so that the generic version of the drug
should immediately be allowed on the Canadian market. Moreover, Apotex alleges
that its formulation for extended release metformin is made in accordance with
the prior art so that its formulation does not infringe the ‘624 patent, and
the Gillette defence applies.
Preliminary matter with
respect to Canadian Patent No. 2,416, 671 (the ‘671 Patent)
[2]
At
the hearing, the parties advised the Court that the ‘671 patent was originally
part of the NOA and accordingly part of this Notice of Application. The
applicants advised that the ‘671 patent is no longer the subject of the application
and that this Court need not address the ‘671 patent in this Judgment. After
the hearing the parties advised the Court that this application should be
dismissed “insofar as it relates to Canadian Patent No. 2,412,671”.
BACKGROUND
The ‘624 Patent
[3]
The
‘624 patent is for an extended release drug delivery system which releases
highly soluable drugs in a controlled manner over an extended period of time in
order to achieve greater efficacy and more efficient use of the drug.
[4]
The
Applicant Depomed, Inc. owns the ‘624 patent. In Canada the
Applicant Biovail Corporation markets, under licence, the drug metformin
hydrochloride in accordance with the ‘624 patent under the trade name GLUMETZA.
[5]
The
‘624 patent was filed on June 5, 1998, and claimed priority from U.S. Patent
application 8,870,509, which was filed on June 6, 1997. The ‘624 patent was
issued on December 5, 2006 and expires on June 5, 2018.
[6]
The
‘624 patent teaches a drug delivery system that is a swellable, gastric
retentive dosage form that releases drugs, such as metformin, in a controlled
manner in the stomach over an extended period of time. The controlled-release
delivery of these drugs is achieved through their synthesis into a polymeric
matrix. The applicant relies on claims 6,11,16,19 and 20 of the patent. The applicant
states the inventive concept disclosed in the asserted claims is the
combination resulting in a controlled-release gastric retentive oral dosage
form for use with metformin where the rate of drug release is dependent on
dissolution and diffusion and that that the polymer stays intact during the
drug delivery period, and the primary drug release mechanism is not erosional.
[7]
The ‘624 patent is entitled “Gastric-retentive
oral drug dosage forms for controlled release of highly soluble drugs”. The
‘624 patent explains that in the 1970s a variety of controlled delivery systems
for drug doses were introduced for “sparingly soluble drugs” (see page 1, line
20 of the patent). However, these controlled release delivery systems did not
work for highly soluble drugs. The patent explains the invention is a
controlled release delivery system for highly soluble drugs like metformin.
The Parties
[8]
The
Applicant Biovail markets “once daily” GLUMETZA (metformin hydrochloride) in Canada pursuant to
a Notice of Compliance (NOC) issued by Health Canada dated
May 31, 2005 for the control of hyperglycaemia in type 2 diabetes.
Biovail is the exclusive licensee of the ‘624 patent and has the consent of the
‘624 patent’s owner, Depomed, Inc., to include the patent on Health Canada’s Patent
List.
[9]
Depomed,
Inc. is the owner and developer of the ‘624 patent.
[10]
The
Respondent Apotex Inc. is a Canadian manufacturer of generic drugs. Apotex
filed an Abbreviated New Drug Submission (ANDS) with Health Canada for APO-Metformin
ER extended release 500 mg tablets for oral administration for the control of
hyperglycaemia in adult patients with type 2 (non-insulin-dependent, mature
onset) diabetes, as an adjunct to dietary management, exercise, and weight
reduction, and when insulin therapy is not appropriate. Apotex served its
Notice of Allegation (NOA) on Biovail on December 11, 2007, alleging the
invalidity of the ‘624 patent for anticipation, obviousness, double patenting
and non-infringement based on the Gillette defence.
[11]
The
Minister of Health filed a Notice of Appearance, but did not participate
further in this matter.
The drug in issue: Metformin
Hydrochloride
[12]
Biovail’s
GLUMETZA, and its active ingredient metformin hydrochloride, is used to treat
type 2 diabetes. Metformin hydrochloride is the salt form of metformin.
[13]
Metformin
is a well-known and established drug recognized as an oral anti-diabetic since
1959. Oral dosage forms for the delivery of metformin and its salts were
described and patented as early as 1965. For example, United States Patent No.
3, 174, 901 entitled “Process for the Oral Treatment of Diabetes” was issued on
March 23, 1965 and teaches oral dosage forms containing metformin and its
salts. At the time the ‘624 patent was filed in 1997, metformin was a popular
anti-diabetic drug that was administered two or three times daily. By this
time, the patent for metformin had expired and it was being made by generic
drug companies.
[14]
Metformin
is a highly soluble drug that dissolves quickly in the stomach. As a highly
soluble drug metformin presents two difficulties for formulators of an extended
releases version to overcome: drug absorption location and rate of release.
First, the drug needs to be retained in the stomach to promote delivery of the drug
into this area. As discussed by Dr. Fass, the oral administration of formulated
drugs, e.g. via tablets, capsules etc., is the most common way that humans are
treated with pharmaceutical products. Therefore, oral administration drugs
must be able to work within the highly variable and often extreme conditions of
the digestive tract. Given that most drugs are preferentially absorbed in the
upper region of the small intestine, promoting retention of metformin in the
stomach is preferred.
[15]
Second,
highly soluble drugs remain in the stomach for short and inconsistent periods
of time, resulting in poor bioavailability, a lower fraction of the drug being
absorbed, and possible immediate overdosing followed by a period of
underdosing.
[16]
It
is also desirable to reduce the number of doses of a drug taken per day as
patient compliance is difficult to achieve if frequent dosing is required.
Limiting the number of doses may also reduce unwanted side effects such as
stomach irritation. Therefore, formulating metformin in a suitable dosage
form, such as extended release, can reduce the overall amount of metformin the
patient must take and can help steady the concentration of the drug in the body
over time.
[17]
As
set out by Ms. Louie-Helm, in the early 1970’s drug delivery methods were
improved through the introduction of a variety of controlled delivery systems,
which included systems using particular polymers to control the delivery of low
or sparingly soluble drugs. Accordingly, for drugs with low solubility, extended
release formulations came on the market. For water soluble drugs early polymer
matrices lacked sufficient control over release of the drug and typically
resulted in the drug being released within the first two hours.
[18]
Glumetza
is administered once-daily by taking a tablet after a meal when the stomach is
in the “fed mode”, i.e. when the gateway between the stomach and the
small intestine is constricted and only liquid and small particles can pass
through. Large particles are retropelled back into the stomach for further
digestion. The swelling of the polymeric matrix on contact with the gastric
fluid serves two purposes: (1) it hinders passage out of the stomach, allowing
the dosage form to stay in the stomach for a longer period of time and (2) the
swelling slows the rate of diffusion of the incorporated drug out of the tablet
and into the upper region of the small intestine.
Polymers
[19]
The
term polymer describes a large class of material with a wide range of
characteristics and purposes. According to Dr. Paul, polymers are compounds
formed by joining together smaller units, referred to as monomers. Linking
repeat units together enables a formulator to create synthetic polymers with
specific structures and qualities. For example, adding hydroxyalkyl to the
backbone chain of cellulose will generate a polymer that is water-loving
(hydrophilic). When immersed in water such polymers will tend to swell as water
is imbibed.
[20]
Polymers
can be combined with medical ingredients such as metformin to control the
release of the drug in the stomach. There are five rate controlling mechanisms
known to control drug release: diffusion, dissolution, swelling, erosion, and
chemical decomposition of the polymetric matrix. The control mechanisms are not
mutually exclusive. For the purposes of the ‘624 patent, diffusion,
dissolution and swelling are the most important.
[21]
Diffusion
is the movement of molecules from an area of high concentration to an area of
low concentration based on their random thermal motion. For controlled-release
dosage forms, the drug release occurs where the solid drug (in the polymeric
matrix) dissolves into the polymer or the polymer that has taken in the solvent
(such as stomach fluid) and then diffuses into the surrounding environment.
Dissolution describes the process of dissolving a solid into a liquid to yield
a solution.
[22]
As
discussed above, water-loving polymers swell upon taking in a fluid. In
swelling controlled-release dosage forms, the rate of drug release is dependent
on the rate at which the surrounding fluid is taken into the polymeric matrix.
Hydroxypropylmethylcellulose (HPMC) and polyethylene oxide (PEO) polymers, both
named in the ‘624 patent as part of the invention, are two of the most common
swellable polymers used for controlling drug release in the stomach, come in a
variety of molecular weights, and have been used for approximately 25 years
(see Affidavit of Dr. Digenis, paragraphs 38-42, 72).
EVIDENCE
[23]
On
October 15, 2008, Prothonotary Kevin Aalto ordered the “reversal of evidence”,
which required Apotex to deliver its evidence in support of the invalidity
allegation first. Biovail then responded with its evidence.
[24]
Apotex
filed affidavits from three expert witnesses, an Apotex employee and a law
clerk employed by the respondent’s counsel:
Experts
1. Dr. Robert Langer
2. Dr. Tarun Mandal
3. Dr. George Digenis
Apotex Employee
4. Mr. John Hems
Law Clerk
5. Ms. Biserka Horvat
(law clerk at Goodmans LLP)
[25]
Biovail
provided affidavits from two expert witnesses, one of the ‘624’s two inventors,
a fact witness, a Biovail employee, and a law clerk employed by the applicant’s
counsel:
Experts
1. Dr. Donald Paul
2. Dr. Ronnie Fass
Co-inventor
3. Ms. Jenny
Louie-Helm
Fact Witness
4. Ms. Christine
Haskett (a partner at a US law firm involved in US litigation
relating to counterparts of
the ‘624 patent).
Biovail Employee
5. Dr. Alim
Mamajiwalla
Law Clerk
6. Mr. Roger Shoreman
(law clerk at Lanczner Slaght Royce Smith Griffin
LLP)
The backgrounds of these witnesses are set
out in a document attached hereto as “Appendix A”.
Evidence of Ms. Jenny Louie-Helm
[26]
The
named inventors of the ‘624 patent are Dr. John W. Shell and Ms. Jenny
Louie-Helm. Dr. Shell was the President and Founder of Depomed. Dr. Shell is
retired and did not provide an affidavit because of his age and health. The
co-inventor Ms. Louie-Helm provided an affidavit, including her detailed
laboratory notes, in which she outlined her work on metformin.
[27]
In
the early 1990s Dr. Shell and Ms. Louie-Helm focused on the development of
controlled-release dosage forms for drugs having low solubility in water. In
1992 their work focused on developing a control-release gastic-retentive dosage
form for acetylsalicylic acid (“ASA” or “aspirin”). According to Ms.
Louie-Helm, it was the experimentation with ASA that led to an understanding of
the relationship between polymer type and grade to form a polymeric matrix that
would swell to a size sufficient for gastric retention and provide controlled
release of a low solubility drug. [CONFIDENTIAL EVIDENCE REFERRED TO HAS
BEEN REDACTED FROM THE PUBLIC VERSON OF THE REASONS FOR ORDER ________________
________________]
[28]
Ms.
Louie-Helm states that her goal was to identify gastric-retentive controlled
release polymer based dosage forms that would be suitable for use with highly
water soluble drugs without the addition of waxy additives.
[29]
In
1993 Depomed prepared gastric-retentive control released dosage forms
formulated with highly soluble drugs. Ms. Louie-Helm stated that the
development of these dosage forms focused on a variety of factors, including:
selecting appropriate polymer types, amounts, molecular weights or viscosities
and combinations, and formulating the selected components into a
controlled-release dosage forms in order to obtain a drug release
profile.
[30]
[CONFIDENTIAL
EVIDENCE REFERRED TO HAS BEEN REDACTED FROM THE PUBLIC VERSION OF THE REASONS
FOR ORDER ______________________
_______________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________]
Evidence of Dr.
Donald Paul
[31]
Dr.
Paul, the main expert witness for Biovail, has a Ph.D in chemical engineering.
Like the main expert witness for Apotex, Dr. Langer, Dr. Paul’s curriculum
vitae demonstrates outstanding qualifications to give evidence in this
case. Dr. Paul explained the state of the art for controlled-release drug
delivery systems and formulations before the ‘624 patent was laid open to the
public in 1997. During the 1970s and 1980s controlled release or delayed
release drug formulations were created using polymers, but they were for drugs
with low solubility, meaning that the drug did not dissolve quickly in water.
For drugs with high solubility, such as metformin, these controlled-release
mechanisms did not work. Dr. Paul deposes that the teachings of the ‘624 patent
are distinguished from the controlled-release dosage forms known in the prior
art for two reasons. First, the ‘624 patent is for a controlled-release
mechanism for drugs that are defined as freely soluble in water. Second, the
drug is released primarily by diffusion, not dissolution, when the drug is
formulated with swellable polymers of high molecular weight.
Evidence of Dr. Robert
Langer
[32]
Dr.
Langer has a doctorate in chemical engineering and gave evidence as an expert
witness for Apotex. His curriculum vitae is approximately 70 pages
single-spaced. He has received over 160 major awards including the 2006 United
States National Medal of Science, the highest scientific honour bestowed in the
United
States.
In 2002, he received the Charles Stark Draper Prize, considered the equivalent
of the Nobel Prize for engineers and the world’s most prestigious engineering
prize.
[33]
The
Court notes, once again, that both Dr. Paul and Dr. Langer are outstanding
chemical engineers and highly regarded in their field.
[34]
Dr.
Langer fully reviewed the ‘624 patent in over 10 pages in his affidavit.
[35]
Dr.
Langer deposes that the Apotex extended release metformin tablets are prepared
in accordance with the teachings of two DOW METHOCEL PRODUCT GUIDES published
and available to the public. The first DOW GUIDE was published in 1982. The
second DOW GUIDE was published in 1995. Dr. Langer undertakes a detailed
analysis in his affidavit in this regard.
[36]
Dr.
Langer also states his opinion that the ‘624 patent was obvious in light of the
state of the art as of the claim date of the ‘624 patent. Again, Dr. Langer
undertakes a detailed analysis in this regard. This affidavit is detailed and
technical, and comprises 143 pages, not including the aforementioned curriculum
vitae.
Litigation of the ‘624
Patent
[37]
The
‘624 patent has not been litigated in Canada. However, two related
patents, US Patent Nos. 6, 340,475 and 6,635,280 have been considered in the United
States
in Depomed, Inc. v. Ivax Corporation. On December 20, 2006, Mr. Justice
Charles Breyer issued a claims construction order for the two US patents (see Depomed,
Inc. v. Ivax Corporation, United States District Court, Northern District
of California, (9th Cir.) case number 3:06-cv-00100 CRB
(unreported)). On December 12, 2007, Justice Breyer granted the patentee
Depomed, Inc.’s motion for summary judgement of infringement and denied the
generic’s motion for summary judgment on invalidity, no wilful infringement and
inequitable conduct (see Depomed, Inc. v. Ivax Corporation and Ivax Pharma, 532
F. Supp. 2d 1170, (9th Cir. 2007).
ISSUES
[38]
In
this litigation, Apotex’s Notice of Allegation (“NOA”) asserts that the ‘624
patent is invalid for reasons of anticipation, obviousness, double patenting,
and that there is no infringement based on the Gillette defence.
[39]
Accordingly,
the issues in this prohibition application are whether the following Apotex
allegations are justified:
a. whether the ‘624 patent was
anticipated by the prior art, which Apotex restricted to the ‘755 application
at the hearing;
b. whether the ‘624 patent was
disclosed in a mosaic of the prior art and was accordingly obvious to a person
skilled in the art;
c. whether the ‘624 patent is
invalid upon the principle that it is a double-patent, i.e. a patent for an
invention which was the subject of another patent, patent 2,416,671 (the ‘671
patent); and
d. whether the Apotex formulation
for extended release metformin was disclosed in the prior art, namely the Dow
Publications, so that the Apotex formulation cannot infringe the ‘624 patent
and the Gillette defence applies.
ANALYSIS
Burden of Proof
[40]
As
stated by Mr. Justice Roger Hughes in Eli Lilly Canada Inc. v. Apotex Inc.,
2009 FC 320 at paragraph 38, the issue of the burden in NOC proceedings as to invalidity
should be determined as such:
1. The
second person, in its Notice of Allegation, may raise one or more grounds for
alleging invalidity;
2. The
first person may, in its Notice of Application filed with the Court, join issue
on any one or more of those grounds;
3. The second
person may lead evidence in the Court proceeding to support the grounds upon
which issue has been joined;
4. The first
person may, at its peril, rely simply upon the presumption of validity afforded
by the Patent Act or, more prudently, adduce its own evidence as to the
grounds of invalidity put in issue;
5. The
Court will weigh the evidence; if the first person relies only on the
presumption, the Court will weigh the evidence led by the second person. If
that evidence is weak or irrelevant, the presumption will prevail. If both
parties lead evidence, the Court will weigh all the evidence and determine the
matter on the usual civil standard; and
6. If the
evidence weighed in step 5 is evenly balanced (a rare event), the applicant
(first person) will have failed to prove that the allegation of invalidity is
not justified and will not be entitled to the order of prohibition.
[41]
Apotex
has raised arguments in respect of validity. Each of Biovail and Apotex have
led evidence and made submissions.
[42]
Where
a generic has alleged non-infringement, the statements that it makes in
that regard in its Notice of Allegation are presumed to be true. The applicant
(first person) bears the burden of proof, on a balance of probabilities, to
satisfy the Court with evidence that the allegations of non-infringement are
not justified. (Novopharm Limited v. Pfizer Canada Inc. (2005), 42
C.P.R. (4th) 97, 2005 FCA 270 at paragraphs 19, 20 and 24).
Person Skilled in the
Art
[43]
Patent
construction is to be done on the basis that the addressee is a person skilled
in the art and the knowledge that person is expected to possess is to be
considered. The hypothetical person who is skilled in the art possess the
ordinary skills and knowledge of the particular art to which the invention
relates, a mind willing to understand a specification, and is assumed to be
someone who is going to try to achieve success and not one who is looking for
difficulties or seeking failure (Free World Trust v. Electro Sante Inc.
(2000), 9 C.P.R. (4th) 168 (S.C.C.)).
[44]
Based
on the affidavit evidence of both Biovail and Apotex’s experts, the person
skilled in the art is a person (or team) that has an advanced degree in
pharmaceutical chemistry or a related degree and experience with
pre-formulation and formulation methods and the design and manufacture of
pharmaceutical dosage forms, including controlled release dosage forms. The
person skilled in the art would also have a working knowledge of polymers,
gastric anatomy and physiology combined with experience in the development of
controlled-released dosage forms.
Patent Claims
Construction
[45]
Construction
of the claims is to be performed by the Court before consideration is given to
issues of validity and infringement (Whirlpool Corp. v. Camco Inc.,
[2000] 2 S.C.R. 1067 at paragraph 43). It applies to the whole of the patent,
where necessary, and not only to the claims (Burton Parsons Chemicals, Inc.
v. Hewlett-Packard (Canada) Ltd., [1976] 1 S.C.R. 555 at page 563).
[46]
Construction
is a task for the Court alone (Whirlpool, above; Burton Parsons,
above) and must be approached in an informed and purposive manner, paying close
attention to the purpose and intent of the authors and a judicial anxiety to
support a really useful invention (Consolboard Inc. v. MacMillan Bloedel
(Saskatchewan) Ltd., [1981] 1 S.C.R. 504). However, the patentee is not
able to re-write a claim in claims construction (Whirlpool, above).
[47]
The
‘624 patent relates to drug delivery systems that are retained in the stomach
for an extended period of time while releasing a highly soluble drug in a
controlled manner over the extended period in order to achieve greater efficacy
and more efficient use of the drug. At page 2 of the ‘624 patent the patentee
described the invention as such:
It is has now been discovered that drugs
that are highly soluble in water can be administered orally in a manner that
will prolong their delivery time to extend substantially through the duration
of the fed mode but not a substantial time beyond.
[48]
At
paragraph 47 of their Memorandum of Fact and Law, the applicant states that the
inventive concept disclosed in the asserted claims is the combination resulting
in a controlled-release gastric retentive oral dosage form for use with
metformin where the rate of drug release is dependent on dissolution and
diffusion, that the polymer stays in tact during the drug delivery period and
that the primary drug release mechanism is not erosional.
[49]
The
‘624 patent contains 23 claims. Biovail asserts claims 6, 11, 16, 19 and 20,
which are set out as:
6. A
dosage form of any one of claims 1 to 4 in which said drug is metformin
hydrochloride.
11. A dosage form of any
one of claims 1 to 9 in which said polymeric matrix is formed of a polymer
selected from the group consisting of poly(ethylene oxide), xanthan gum,
hydroxymethylcellulose, hydroxyethylcellulose, hydroxypropylcellulose,
hydroxypropylmethylocellulose, and carboxymethylcellulose.
16. A dosage form of any
one of claims 1 to 14 in which said weight ratio of drug to polymer is from about
30:70 to about 80:20.
19. A dosage form of any
one of claims 1 to 17 in which said polymeric matrix upon immersion in gastric
fluid retains at least about 60% of said drug one hour after such immersion.
20. A dosage form of any
one of claims 1 to 17 in which said polymeric matrix upon immersion in gastric
fluid retains at least about 80% of said drug one hour after such immersion.
[50]
Each
of the asserted claims depends on Claims 1-4. Claims 11, 16, 19 and 20 are
clear on their face and do not need to be construed by this Court. At the
hearing, Biovail confirmed that it was only relying on Claim 6 as it depended
on Claim 1. Also at the hearing, Apotex confirmed that it agrees with and
accepts the construction of Claim 1 as set out in the Affidavit of the Biovail
expert witness Dr. Paul at paragraph 80. Accordingly, the Court will construe
Claim 6 as it depends on Claim 1 as such:
A dosage form in which the drug is
metformin and the dosage has the following 8 elements as set out in Claim 1:
(i)
The drug
has a solubility of one part by weight in less than ten parts by weight of
water;
(ii)
The drug
is dispersed in a solid polymeric matrix at a weight ratio of drug to polymer
of about 80:20 or less;
(iii)
The
polymeric matrix swells to at least about twice its volume upon imbibition of
water;
(iv)
The
dispersed drug is released from the polymeric matrix into gastric fluid by
dissolution and diffusion;
(v)
The
polymeric matrix retains at least 40% of the dispersed drug for one hour after
immersion in gastric fluid;
(vi)
Substantially
all of the dispersed drug is released from the polymeric matrix within about
eight hours of immersion in gastric fluid;
(vii)
The
swollen polymeric matrix remains substantially intact until all of the drug is
released; and
(viii)
The
swollen polymeric matrix promotes retention of the dosage form in the stomach
during fed mode.
Issue No. 1: Whether the ‘624 patent
was anticipated by the prior art, which Apotex at the hearing restricted to the
‘755 application
[51]
Apotex
submits that the ‘624 patent is invalid for anticipation.
[52]
The
relevant date for anticipation is June 6, 1997, (see s. 28.2 of the Patent
Act).
[53]
The
law of anticipation is set out by the Supreme Court of Canada in Apotex Inc.
v. Sanofi-Synthelabo Canada Inc., [2008] 3 S.C.R. 265 at paragraphs 23-37 (Sanofi).
In Sanofi the Supreme Court adopted a two step approach to determine if
a patent was anticipated: there must be disclosure and enablement. The steps
are to be considered separately and proven. For prior disclosure, the prior art
must disclose that the subject matter, if performed, would inevitably or
necessarily result in infringement of that patent without trial or error. For
enablement, the person skilled in the art must have been able to perform the
invention without undue burden or the requirement of an inventive step.
[54]
As
the Supreme Court of Canada stated in Sanofi, anticipation and
obviousness are related concepts. However, although both require an examination
of the prior art, that prior art must be treated differently. In examining an
allegation of anticipation (or lack of novelty), the Court must determine
whether the claimed invention has already been disclosed to the public in a
single disclosure in such a way as to enable it to be put into practice (see
also Synthon BV v. Smithkline Beecham plc [2005] UKHL 59, at paragraph
25, and Eli Lilly Canada Inc. v. Novopharm Limited, 2009 FC 301, at
paragraph 58.)
[55]
Prior
to the hearing there was a dispute between the parties with regard to the prior
art that could be relied upon by Apotex in relation to the issues of disclosure
and enablement.
[56]
Biovail
argued that the only allegations of anticipation were with respect to claims 6,
11 and 16 and that a careful reading of the NOA revealed that only three
references were alleged to anticipate these claims. These references were: PCT
Publication WO 93/ 18755 (the ‘755 application) against claims 11 and 16;
United States Patent 5,273,758 (the ‘758 patent) against claims 6 and 16, and
PCT Publication WO 96/32097 (the ‘097 application) against claim 11.
[57]
In
their Memorandum of Fact and Law Apotex asserted the ‘755 application, the ‘097
application, US Patent Number 5,582,837 (the ‘837 patent), the ‘758 patent, and
an article by A. Apicella et al., “Poly(ethylene oxide) (PEO) and Different
Molecular Weight PEO Blends of Monolithic Devices for Drug Release” (1993)
14(2) Biomaterials 83.
[58]
At the hearing, Apotex advised the Court that it
would only rely on the ‘755 application to support its anticipation allegation.
Therefore, only the ‘755 application has been considered by the Court.
[59]
The
‘755 application was published on September 30, 1993 and is entitled
“Alkyl-Substituted Cellulose-Based Sustained Release Oral Drug Dosage Forms”.
The application disclosed controlled release oral dosage forms incorporating
polymeric matrices that swell and become slippery upon taking on water. The
‘755 application teaches that this will promote gastric retention of the dosage
form in the stomach during the fed state.
[60]
As
set out by Drs. Langer and Mandal, there are many “characteristics” disclosed
in the ‘755 application that are also claimed in the ‘624 patent. These include
the use of controlled-release oral dosage forms for releasing a drug into the
stomach and the use of alkyl-substituted cellulose-based polymers. I agree
with Drs. Langer and Mandal that the polymer used to form the matrix and the
ratio of drug-to-polymers in claims 6 and 11 are also set out in the ‘755
application.
[61]
However,
the ‘755 application does not disclose or enable the person skilled in the art
to come directly to the ‘624 patent. This is due to the fact that the ‘755
application is directed to improvements to the delivery of limited solubility
drugs. There maybe some overlap between the ‘755 application and the class of
drugs described in the ‘624 patent and other drugs of higher solubility, but
this would not result in the person skilled in the art being directly enabled
by the ‘755 application.
[62]
At page 3 of the ‘755 application under the
heading “DESCRIPTION OF THE PREFERRED EMBODIMENT”, the ‘755 application states:
The dosage forms
of the present invention are effective for administering drugs of limited
solubility in gastric fluid … Normally, the solubility of the drug (measured in
water at 37°C) will be in the range of 0.001% to about 35% by weight, more
normally 0.001% to 5% by weight.
The invention is
particularly useful for delivering drugs that are irritating to the
gastrointestinal track … For instance, aspirin …
[63]
Accordingly, the Court must conclude on the face
of the ‘755 application itself, that this prior art is not directed to
administering controlled released drug dosages of high solubility.
[64]
The Court notes that the solubility of metformin
is 35%, and that this falls at the very upper limit of the range discussed in
the ‘755 application. But it is also clear to the Court that the ‘755
application is primarily effective and directed toward low solubility drugs.
[65]
Dr. Paul, the expert witness for Biovail, was
cross-examined by Apotex on this point.
Dr. Paul agreed
that the 35% solubility comes within the ‘755 application range, but he noted
that the ‘755 application employs additional measures for higher solubility
drugs. Dr. Paul also testified under cross-examination that the ‘755
application contemplates drugs more normally in the 0.001% to 5% range. See
cross-examination of Dr. Paul, page 119, question 650.
[66]
In Dr. Paul’s Affidavit, he deposes at paragraph
97 that a person of skill in the art would understand the ‘755 application to
be applicable to drugs of “limited solubility”. He states:
… however, the
‘755 Application employs additional measures for the higher solubility drugs.
They are formulated with additional compounds not required in the ‘624 patent
(such as long chain fatty acid esters of glycerine) in order to retard the
release rate of the drug.
[67]
Another important difference between the ‘624 patent
and the ‘755 application is that the ‘755 application teaches the dominant
release mechanism is dissolution. Dr. Paul states at paragraph 98 in his
affidavit:
This is not
surprising given that the ‘755 application is directed to limited solubility
drugs … where it would be expected that the dominant release mechanism would be
dissolution.
[68]
According to Dr. Paul on cross-examination, this
is a major difference with the ‘624 patent where the drug is released over the
controlled-release time period by diffusion, not by dissolution. See the
cross-examination of Dr. Langer, pages 102 and 103, questions 563 to 567. On
re-examination, Dr. Paul returns to the subject at questions 853 to 855 and says
that a difference with the ‘755 is that the mechanism for drug release is
dissolution and erosion, while the mechanism for drug release in the ‘624
patent is diffusion.
[69]
Finally, another difference Dr. Paul speaks to
is the rate of release of the drug disclosed in the ‘624 patent is that
substantially all of the drug is released over 8 hours. In contrast, the ‘755
application demonstrates a different release profile. Dr. Paul says that his
assessment of the data is that with the ‘755 application after about 8 hours
approximately 70% of the drug has been released, not all of it. See the
Affidavit of Dr. Paul, paragraphs 98 and 99.
[70]
I have reviewed Dr. Langer’s evidence with
respect to solubility. He states that a 35% solubility by weight would be
considered “very soluble” and he agreed that the ‘755 application gives a range
up to 35%. See the cross-examination of Dr. Langer, questions 659 to 660.
However, the Court does not find that Dr. Langer sufficiently addressed the
fact that the ‘755 application is primarily effective with low solubility
drugs, up to 5% solubility.
[71]
Dr. Langer also states that the drug is released
from the polymer in the ‘755 application by dissolution. He does not speak to
this difference with the ‘624 patent where the drug is released from the
polymer primarily by diffusion. Dr. Langer does not address this difference
between the ‘755 application and the ‘624 patent.
[72]
The Court must conclude, after reviewing the
competing evidence, that the major expert witnesses for the parties are both
extremely qualified and highly regarded in their fields of chemical
engineering. While Apotex has established many of the elements of the ‘624
patent are contained in the ‘755 application, the experts agree there are
differences in some of the elements. Based on the competing evidence, the Court
might find the competing evidence to be evenly balanced. However, there is one
major difference expressly stated in the ‘755 application itself which tips the
balance. The ‘755 application expressly states that the controlled release
invention is for drugs of “limited solubility”, normally in the range from very
low to 5% by weight (see page 3). Of course, the ‘624 patent is expressly
directed to drugs of high solubility and expressly mentions metformin which is
a drug with a 35% solubility rate. For these reasons, the Court must conclude
that Biovail has met its burden on the balance of probabilities to demonstrate
that the ‘755 application did not anticipate the ‘624 patent. The Court is
mindful that the title of the ‘624 patent states that it is “FOR CONTROLLED
RELEASE OF HIGHLY SOLUBLE DRUGS”. The inventors of both the ‘624 patent and the
‘755 application would not have used such express and opposite language if this
difference in the inventions were not true.
[73]
The U.S. patent litigation referred to above considered similar patents and
prior art as before the Court in this case. It is interesting to find that
Justice Breyer held at page 17 of his summary judgment decision on invalidity
when speaking of the ‘837 patent, which is very similar to the ‘755
application:
… The patented
invention involves dissolution-controlled release systems (citations removed).
Thus, the patented formulations are primarily used for low solubility drugs
because drugs of high solubility would rapidly leach from the dosage forms and
thus not sustained controlled-release.
[74]
Mr. Justice Breyer continues along the same line
that this Court has outlined above, which was independently concluded by this
Court without prior reference to the U.S. Judgment.
[75]
For
these reasons the Court concludes that the ‘755 application does not anticipate
the ‘624 patent.
Issue No. 2: Whether the ‘624 patent
was disclosed in a mosaic of the prior art and was accordingly obvious to a
person skilled in the art
[76]
In
accordance with section 28.3 of the Patent Act, the date to be used in
assessing whether the invention claimed in the ‘624 patent was obvious is June
6, 1997.
[77]
The
Supreme Court adopted the following four-step approach to an obviousness
inquiry in Sanofi, supra. at paragraph 67:
(1) (a) Identify
the notional “person skilled in the art”;
(b) Identify the relevant common general knowledge of that person;
(2) Identify the inventive concept of the claim in question or if
that cannot readily be done, construe it;
(3) Identify
what, if any, differences exist between the matter cited as forming part of
the “state of
the art” and the inventive concept of the claim or the claim as construed;
(4) Viewed without any knowledge of the alleged invention as claimed,
do those differences constitute steps which would have been obvious to the
person skilled in the art or do they require any degree of invention?
[78]
The
Supreme Court noted that it may be appropriate to consider an “obvious to try”
analysis, especially if there may be numerous interrelated variables with which
to experiment (see paragraph 68 of Sanofi). The word “obvious” has been
defined as “very plain” and the invention must be more or less self-evident (Sanofi,
paragraph 66; Pfizer Canada Inc. v. Apotex Inc., 2009 FCA 8 at paragraph
29).
[79]
If
an “obvious to try” test is warranted, Justice Rothstein set out a
non-exhaustive list of factors to take into account (see paragraph 69 of Sanofi):
(1) Is it more or less
self-evident that what is being tried ought to work?
(2) What
is the extent, nature and amount of effort required to achieve the invention?
Are routine trials carried out or is the experimentation prolonged and arduous,
such that the trials would not be considered routine?
(3) Is
there a motive provided in the prior art to find the solution the patent
addresses?
[80]
The
respondent has provided a plethora of prior art from the relevant period, which
is before 1997. In his affidavit, Dr. Paul specifically addressed 19 pieces of
prior art put forward by Apotex and their experts to support their obvious
argument. It is Apotex’s position that the drug metformin was old, the use of
swellable polymers for control-released tablets was known, and that the
specific polymers referenced in the patent were known.
[81]
Biovail
does not dispute that many of the elements in Claim 1, as incorporated into the
dependent claims of the ‘624 patent, were individually described in the art at
the relevant time. It is their position that the inventiveness of the ‘624 patent
is the combination of these features.
[82]
The
applicant also argues that the respondent’s recitation of what was known at the
relevant time is simplistic. Biovail states that the position taken by Apotex
does not appreciate that there are a number of characteristics and behaviours
of a formulation, vast differences between different types of polymers and that
these factors ultimately contribute the dominant rate controlling mechanism of
the drug from the dosage form. These variables were set out by Drs. Digenis and
Mandal on their cross-examination, and will be discussed later in these reasons.
Biovail submits that the methods understood by the person skilled in the art to
achieve gastric retention in 1997 were very different from the ‘624 patent, and
that the art taught away from size-dependent gastric retention. Biovail also
submits that highly soluble drugs present special problems for formulators, in
that the polymeric matrices did not provide control over the release profile
and the drug release was rapid, resulting in most of the drug being released
within the first two hours. In simple terms, highly soluble drugs in a
polymeric matrix, dissolve quickly upon contact with gastric fluid.
[83]
Apotex
submits that when considering obviousness, the court is permitted to consider a
mosaic of prior art.
[84]
A
mosaic of prior art may be assembled in order to render a claim obvious.
However, in doing so, the party claiming obviousness must be able to
demonstrate not only that the prior art exists, but how the person of ordinary
skill in the art would have been led to combine the relevant components from
the mosaic of prior art (see Laboratories Servier v. Apotex Inc. (2008),
67 C.P.R. (4th) 241 at paragraph 254).
[85]
It
is settled law that there is no invention in discovering properties of know
substances (Pfizer Canada Inc. v. Ratiopharm Inc. (2006), 52 C.P.R.
(4th) 241 at paragraph 24 (F.C.A.)).
[86]
The
inventive concept in the ‘624 patent was set out by Biovail at paragraph 47 of
their Memorandum of Fact and Law as such:
The inventive concept disclosed in the
Asserted Claims is the combination resulting in a controlled-released gastric
retentive oral dosage form for use with metformin where the rate of drug
release is dependent on dissolution and diffusion. The polymer stays intact
during the drug delivery period: the primary drug release mechanism is not
erosional. Further characteristics of the invention delineate a specific drug
release profile (less than 40% of the drug released within 1 hour,
substantially all of the drug released within 8 hours) and a range of drug
loadings from 30:70 to 80:20. These characteristics are particularized by the
dependencies of the Asserted Claims.
[87]
Therefore,
it is important to understand the “state of the art” with respect to: issues of
special problems for highly soluble drugs; the use of polymers for
controlled-release gastric retentive oral dosage forms; the methods of drug
release from the polymer and drug release profiles; and drug loading.
What was known in 1997
[88]
From
the Memorandums of Fact and Law, submissions by counsel for the parties during
the hearing, and the expert evidence, in particular that of Drs. Langer and
Paul, the following can be accepted by the Court as prior knowledge:
(a) Issues of
special problems for highly soluble drugs:
[89]
Metformin
was known to be a highly soluble drug that was absorbed in the duodenum and had
a short half-life. It was known that metformin should be administered in a
controlled release format, and in the “fed state”. It was also known that
highly soluble drugs were best formulated in high molecular weight polymers to
control the drug release. The prior art taught the beneficial use of high
molecular polymers, including the HMPC and PEO polymers, in the preparation of
gastric retentive controlled release dosage forms for highly soluble drugs,
that at least 40% of the drug is retained after one hour, and that the dosage
form is substantially intact until all the drug is released (for example, see
L.S. Hermann, “Metformin: A Review of its Pharmacological Properties and
Therapeutic Use” (1979) Diabetes & Metabolism 5 233; the ‘755 application).
(b) Use
of polymers for controlled-release gastric retentive oral dosage forms:
[90]
The
‘624 patent acknowledges, and Biovail does not dispute, that
controlled-released dosage forms and their preparations and uses, including
controlled release dosage forms made with swellable polymeric materials, had
long been known and their benefits recognized. At page 1, line 12, the ‘624 patent
states that “For many drugs, this pattern results in a transient overdose,
followed by a long period of underdosing. This is of little clinical
usefulness. The delivery pattern was improved in the 1970’s with the
introduction of a variety of controlled delivery systems”. The person skilled
in the art knew that gastric retentive dosage forms were to be administered in
the fed state. The dosage forms claimed in the ‘624 patent were known and used
in the industry for gastric retentive controlled release dosage forms.
(c) The use and
properties of the high-molecular weight polymers in the ‘624 patent were known
[91]
The
use and properties of high-molecular weight polymers in the ‘624 patent were
known, including their behaviours, the molecular weight grades of each, that
they have hydrophilic polymeric matrices in swellable, controlled release
dosage forms and are good for gastric retention. It was known that release
rates were dependent on, inter alia, the molecular weight of the polymer
and that high molecular weight HMPC polymers swelled and absorbed water more
slowly than low molecular weight HMPC polymers (for example, see Waleed S.W.
Shalaby, “In vitro and in vivo studies of enzyme-digestible hydrogels for oral
drug delivery” (1992) 19 J. of Controlled Releases 131; K. Park,
“Enzyme-digestible swelling hydrogels as platforms for long-term oral drug
delivery: synthesis and characterization” (1988) 9 Biomaterials 435; the ‘755
application).
(d) The methods of
drug release from the polymer:
[92]
In
swellable controlled release dosage forms prepared with high molecular weight
polymers, it was known that drug release could be controlled by the swelling of
the polymer matrix, drug dissolution and diffusions, among other release
mechanisms. For example, in A. Pham and P. Lee’s article, listed below, the authors
conducted experiments on high viscosity HPMC to “elucidate the mechanism [regulating drug
release] involved”. The aim of the U. Conte et al.’s works, listed below, was
to determine the influence of the swelling and dissolution properties of the
system on drug release, and the movement of the interfaces between solvent and
system was measured during the release process.
[93]
It
was also known that high molecular weight polymers, such as HPMC, result in
dosage forms in which swelling rather than erosion is the dominant drug release
mechanism (for example, see U. Conte et al., “Swelling-activated drug delivery
systems” (1988) 9(6) Biomaterials 489; A. Pham and P. Lee “Probing the
mechanism of drug release from hydroxypropylmethyl cellulose (HMPC) matrices”
(1993) 20 Proceedings of the International Symposium on Controlled Release of
Bioactive Materials 220; Dow Publications: Formulating for Controlled Release
with METHOCEL Premium cellulose ethers (Dow Chemical Company: 1995) and
Formulating Sustained Release Pharmaceutical Products with METHOCEL (Dow
Chemical Company: 1982)).
(e)
Drug
loading:
[94]
It
was recognized that drug to polymer ratios are an important factor in
controlling drug release. In Ford et al, listed below, the authors found that
the major factor controlling drug release was the drug to polymer ratio. (For example,
see Ford et al, “Importance of Drug Type, Tablet Shape and Added Diluents on
Drug Release Kinetics from Hydroxyproplylmethylcellulose Matrix Tablets” (1987)
40 Int. Journal of Pharmaceutics 223; the ‘755 application).
Metformin
[95]
Biovail
also submits that metformin was not directly addressed in the disclosure of the
prior art. However, the problems of highly soluble drugs were known in 1997. [CONFIDENTIAL
EVIDENCE REFERRED TO HAS BEEN REDACTED FROM THE PUBLIC VERSION OF THE REASONS
FOR ORDER_____________________________________________] Accordingly,
the Court does not agree that identifying metformin for a controlled release
dosage is inventive in itself.
The mechanism of action
[96]
Biovail
argues that the mechanism of action in the ‘624 patent was not known.
[97]
Drug
release mechanisms have elements of swelling, dissolution, diffusion and
erosion, even if one element is more pronounced than another. Dr. Mandal
explained that erosion is an inherent characteristic of polymers (see his
cross-examination, pages 36-37, 39), and Dr. Paul agreed that all polymers will
at some point erode (see his cross-examination, Q170). Dr. Paul also agreed
that it was known that the molecular weight of the polymer affects the drug
release mechanisms. The ‘718 application and Pham and Lee articles taught that
a higher molecular weight PEO swelled faster than it eroded and that the drug
release will be via diffusion or a mixture of dissolution and diffusion.
[98]
On
cross-examination, Dr. Paul agreed that the ‘755 application taught how to deal
with more soluble drugs and speaks to the drug being dispersed in a solid
polymeric matrix, in that case hydroxyethyl cellulose, at a weight ratio of
drug to polymer of about 80:20 or less. Dr. Paul also agreed that that the ‘755
application includes a discussion of the solubility of the drugs that can be
used in the controlled-release oral dosage forms, with normal solubility in a
range up to 35%, which is the upper end of the range listed in the ‘624 patent.
However, Dr. Paul stated that what the ‘755 application does not address the
question of what controls the release of the drug. At question 709 on his
cross-examination, he stated “But what controls that release is what is at
issue, in my mind…”.
[99]
However,
mechanisms of action, even if not known as of 1997, are inherent properties of
high molecular weight polymers in controlled-release systems containing highly
soluble drugs. In AstraZeneca AB v. Apotex Inc. (2007), 60 C.P.R. (4th)
199 at paragraph 103 per Barnes J., the applicant argued that the new use
disclosed by the patent was the discovery of a mechanism of action. Justice
Barnes held that a new use is not satisfied by identifying an inherent effect
of a known therapy.
[100] As stated by
Justice Hughes in Shire Biochem Inc. v. Canada (Minister of
Health)
(2008), 67 C.P.R. (4th) 94 at paragraph 79, the fact that a number of routes
exist to the invention does not mean that the alleged invention is not obvious.
[101] Viewed
without any knowledge of the alleged invention as claimed, any “new” learnings
were with regard to the mechanism of action of the drug release. These are
inherent properties and not patentable. The non-inherent elements of the ‘624
invention were known.
[102] Biovail argues
that the work on metformin was based on a culmination of years of research and
development. The difficulty in selecting a polymer, based on the variable
factors that need to be considered, were acknowledged by Dr. Digneis and Dr.
Mandal on cross-examination.
[103] On
cross-examination Dr. Digenis noted that there are numerous factors that have
an impact on the speed of delivery of a drug out of the dosage form. At
questions 126 – 146 Dr. Digneis agreed that molecular weight and viscosity of
the polymer, if the polymer is cross-linked or branched, solubility of the
drug, the presence or absence of food, any coatings, excipients or fillers,
compression during manufacturing, and the shape of the dosage form are all
factors that would effect the delivery of the drug.
[104] Dr. Mandal
agreed on cross-examination that the way a polmeric matrix behaves is dictated
by a number of different variables (page 27, lines 8-16). Dr. Mandal also
agreed that there are a huge range of polymers and that within each of those
types, there is a vast variation (page 28, lines 1-25). At page 29, starting
at line 10, Dr. Mandal agreed that there are numerous types of cellulosic
polymers that could be used and that these can be substituted with a number of
different functional groups, such as hydroxyl groups.
[105] The evidence
from Ms. Louie-Helm on this subject is contained in her affidavit, her
voluminous lab note books, and her cross-examination.
[106] Ms.
Louie-Helm deposes that the effort to develop the invention spanned years of
research, dating back to 1992 and Depomed’s work on ASA, and that there was a
need to address the multiple dosing problem by prolonging the release of freely
soluble drugs over an extended period of time. However, the evidence with
regard to metformin does not demonstrate the rigour that is often associated
with pharmaceutical research. [CONFIDENTIAL EVIDENCE REFERRED TO HAS
BEEN REDACTED FROM THE PUBLIC VERSION OF THE REASONS FOR ORDER_____]
Conclusion with respect
to obviousness
[107]
When the Court applies the law to the evidence
in this case, the Court concludes that:
1.
The difference between the state of the art and
the inventive concept in the ‘624 patent is the “right” combination of known
elements with a highly soluble drug like metformin. The known elements include
a high molecular weight polymer which swells to enhance gastric retention. The
result is a mechanism of action which releases the metformin predominantly by
diffusion and dissolution, not erosion, over an eight hour time period;
2.
The resulting “mechanism of action” is an
inherent property of the particular polymer chosen and, in law, is not
patentable;
3.
The experimentation which defined a polymer with
the right molecular weight and other characteristics to control the release of
the highly soluble drug metformin is the alleged invention. The evidence is
evenly divided as to whether this experimentation was such that it could be
considered “obvious to try” or not;
4.
The question is whether the experimentation
would have been “obvious to try” by a person skilled in the art. In this
regard, the Court has weighed the evidence adduced by both sides of the case
and finds the evidence evenly balanced;
5.
The parties agree that the elements of the
invention were known in the prior art and it was their combination, including
the right choice of polymer, which caused the “mechanism of action” claimed in
the ‘624 patent;
6.
The evidence showed that high molecular weight
polymers were known to be more viscous and to retain the drug for a longer
period of time, than lower
molecular weight polymers;
7.
It was known that the solubility of the polymer
decreases as the molecular weight increases. Moreover, the higher molecular
weight polymer imbibes water which slows the release of the drug;
8.
The polymers identified in patent ‘624 were
well-known, readily available polymers;
9.
The parties recognized that a controlled release
dosage form for highly soluble drugs such as metformin was required. There was
a motive to find the solution;
10.
The evidence as to the extent, nature and amount
of experimentation required to achieve the ‘624 patent were as a result of
trials on a number of polymers; and
11.
The Court finds the evidence evenly balanced as
to whether these trials were the type of routine experimentation which were
“obvious to try” by a person skilled in the art.
Because the
applicant has the onus of proof and because the Court has concluded that the
evidence on this important “obvious to try” test criteria is evenly balanced,
the applicant has not satisfied its onus to prove, on a balance of
probabilities, that the allegation in this regard was unjustified. For this
reason, the Court must dismiss this application.
[108] I recognize
that in Depomed Inc. v. Ivax Corporation, United States District Court,
Northern District of California, case number 3:06-cv-00100 CRB, per Judge
Charles Breyer (December 12, 2007) Judge Breyer denied Ivax’s motion for
summary judgement of invalidity as he found that Ivax had failed to meet its
burden of demonstrating that the asserted claims of the patents at issue in
that case were obvious in light of two prior art references, US Patent No.
5,582, 837 and the Dow publications. I note that this matter was heard in a
foreign jurisdiction under different law, did not involve the ‘624 patent, that
only two pieces of prior art were considered, and that this case is based on a
different record.
[109] In the event
that I am wrong on this issue of obviousness, I will proceed to consider the
remaining two issues.
Issue No. 3: Whether the ‘624 patent
is invalid upon the principle that it is a double-patent, i.e. a patent for an
invention which was the subject of another patent, patent 2 414 671 (the ‘671
patent)
[110]
Apotex submits that the ‘624 patent is invalid
on the principle of “double-patenting”.
Mr. Justice Hughes clearly explained the principle against
double-patenting in Bristol-Myers Squibb Canada Co. v. Apotex Inc.,
[2009] F.C. 137 at paragraphs 173 and 174:
¶ 173. Double
patenting, put simply, involves the concept that a person cannot get a second
patent for the same thing for which they already have received a patent. A
patent is a monopoly for a limited period of time and that period should not be
extended by the expedient of getting a subsequent patent for the same thing.
¶ 174. Double
patenting only applies when dealing with the same person getting two or more
patents. If some other person has received an earlier patent, then the second
patent is to be considered in the context of anticipation and obviousness or,
in the case of pre-October 1989 patent applications, the first to invent.
[111]
Apotex submits that the asserted claims of the
‘624 patent are invalid on the basis of the claims in Canadian ‘671 patent. The
Supreme Court of Canada in Whirlpool Corp. v. Camco Inc., [2000] 2
S.C.R. 1067 at paragraph 63 per Binnie J. explained that:
Prohibition
against double patenting relates back to the “evergreen” problem mentioned at
the outset. The inventor is only entitled to “a” patent for each invention. If
a subsequent patent issues with identical claims, there is an improper
extension of the monopoly.
[112] In the case at bar the Court is satisfied that the ‘624 patent
expires before the ‘671 patent. Accordingly, the ‘624 patent does not evergreen
a prior patent with the same invention. The ‘624 patent expires on June 5, 2018.
The ‘671 patent expires on February 26, 2021. Without the Court needing to go
into further detail, it is clear that the ‘624 is not a subsequent patent to
the ‘671 patent within the meaning of the principles of law against double
patenting and the mischief of “evergreening”.
[113] Since it is clear to the Court that the double patenting law is not
applicable to the ‘624 patent, it is not necessary for the Court to consider
whether the ‘624 patent claims are “identical or conteriminous” with the ‘671
patent.
Issue No. 4: Whether the Apotex
formulation for extended release metformin was disclosed in the prior art,
namely the Dow Publications, so that the Apotex formulation cannot infringe the
‘624 patent and the Gillette defence applies.
[114] The Gillette
defence is made out when it is established that the alleged infringing product
is based on the teachings of a prior art and that the alleged infringer is
simply doing something that is already known (Gillette Safety Razor Co. v.
Anglo-American Trading Co. Ltd. (1913), 30 R.P.R. 465 (H.L.)).
[115] Hughes and
Woodley on Patents (Hughes, Roger T., John H. Woodley, Neal Armstrong and
David Smith, Hughes and Woodley on Patents , 2nd ed. (Markham, Ont.: LexisNexis
Butterworths, 2005 at para 38A) described this defence as follows:
The House of Lords in England gave rise to a defence to an
allegation of infringement that has commonly been called the Gillette Defence
after the case of that name(1). The Court said:
The defence that “the alleged
infringement is not novel at the date of the plaintiff’s Letters Patent” is a
good defence in law, and it would sometimes obviate the great length and
expense of Patent cases if the defendant could and would put forth his case in
this form and thus spare himself the trouble of demonstrating on which horn of
the well-known dilemma the plaintiff had impaled himself, invalidity or
non-infringment.
This defence as such has been raised in
Canadian cases(2) and been successful in one.(3)
____________
1.Gillette Safety Razor Co. v.
Anglo-American Trading Co. Ltd. (1913), 30 R.P.C. 465 at 480-481 (H.L.);
Eli Lilly Canada Inc. v. Apotex In., [2008] F.C.J. No. 171, 63 C.P.R. (4th)
406 at paras. 185 and 186.
2. Citations omitted.
3. Eli Lilly Canada Inc. v. Apotex
Inc., [2009] F.C.J. No. 413, March 26, 2009, 2009 FC 320 at paras. 60 to
64.
[116] Apotex
alleges that it is merely practicing the teachings of the prior art in a manner
that is consistent with the knowledge of a person skilled in the art. It is
their position that their extended release metformin tablets are made in
accordance with the teachings of the two Dow Chemical publications referred to
above in the obviousness section.
[117] The parties
disagree as to whether a successful Gillette defence is entirely reliant on an
anticipating prior art reference and that absent this conclusion, the defence
is unsustainable and unjustified. Apotex relies on the original text from the
House of Lords decision in Gillette Safety Razor Company v. Anglo-American
Trading Company Ltd. and an excerpt from Fox, Canadian Patent Law and
Practice (4th ed. 1969) at 352-252 for their position that the question should
be whether Apotex’s tablets are made in accordance with the prior art, not
whether the prior art anticipates the claims.
[118] Two recent
decisions of this Court support Biovail’s position that, essentially, the
Gillette defence is an attack on validity and lack of novelty: Eli Lilly
Canada Inc. v. Apotex Inc., 2009 FC 320 and Sanofi-Aventis Canada Inc.
et al. v. Apotex Inc. et al., 2009 FC 676.
[119] In Eli
Lilly Canada Inc. v. Apotex Inc. Justice Hughes found at paragraph 64 that,
on the facts of that NOC proceeding, Apotex's allegations as to the Gillette
defence were justified as the Apotex product was to be produced in accordance
with the process outlined in a piece of prior art that would fall within the
scope of the claims of the patent at issue in that matter. However, Justice
Hughes had previously found that product set out in the prior patent
anticipated the product as claimed in the patent at issue and therefore the
claims were not valid and no valid claim had been infringed.
[120] In Sanofi-Aventis
Canada Inc. et al. v. Apotex Inc. et al., 2009 above at paragraphs
347 to 349, Justice Snider interpreted the conclusion of Justice Hughes in Eli
Lilly Canada Inc. v. Apotex Inc, above. According to Justice Snider,
Justice Hughes’ conclusion on the Gillette defence was entirely reliant on his
conclusion on anticipation and that absent his finding of anticipation, the
Gillette defence would not have been available to Apotex. Justice Snider
therefore determined that the Gillette defence could not be sustained in the
matter before her as Apotex had not made a claim on invalidity due to
anticipation by the prior patent.
[121] Based on
these decisions, it is clear to the Court that the Gillette defence has only
ever applied in Canada when the prior art anticipates the patent. In
the case at bar, Apotex has not asserted that the 2 Dow Chemical publications
in 1982 and 1995 anticipate the ‘624 patent. The Court would have expected Apotex
to rely on these Dow publications in its argument on anticipation if these
publications really did disclose and enable the invention claimed in the ‘624
patent.
[122] In this case
Apotex did not assert the Dow Chemical publications in its allegations on
anticipation. As discussed, I have found that Biovail has shown that Apotex’s
allegation of invalidity for anticipation is not justified. Therefore, absent a
finding that Biovail has failed to show that the anticipation allegations are
not justified, Apotex’s Gillette defence argument must fail.
CONCLUSION
[123] The Court
concludes that the applicants have established on the balance of probabilities
that the Apotex allegations that the Biovail ‘624 patent is invalid for
anticipation, double-patenting and infringement are not justified. However, the
Court has also concluded that the applicants have not met their legal burden to
establish on the balance of probabilities that the Apotex allegation that the
Biovail ‘624 patent is invalid for obviousness are not justified. Accordingly,
the application for an Order prohibiting the Minister of Health from issuing a
Notice of Compliance to Apotex for a generic version of the metformin extended
release tablets will be dismissed with costs.
COSTS
[124]
At
the hearing, the parties indicated that if they cannot agree upon the scale of
costs and the number of counsel, they will make submissions to the Court.
Accordingly, the Court will make a subsequent order detailing the scale of the
tariff and the number of counsel if the parties do not reach an agreement.
ORDER
THIS COURT
ORDERS that:
This application for an Order
prohibiting the Minister of Health from issuing a Notice of Compliance to
Apotex for a generic version of metformin extended release tablets is dismissed
with costs.
“Michael
A. Kelen”
Appendix A
Background of
Witness
Unless noted, all witnesses were cross-examined.
APOTEX’S
WITNESSES:
Dr. Robert Langer:
Dr. Langer is a chemical engineer whose work focuses on the areas of chemical
engineering, biomedical engineering, biotechnology, pharmaceutical chemistry
and formulation development. He is one of 14 Institute Professors at the
Massachusetts Institute of Technology, has authored or co-authored over 1,000
articles, and has approximately 600 issued or pending patents world wide. Dr.
Langer has sat on numerous Boards, such as the United States Food and Drug
Administration’s Science Board, and received over 160 major awards.
Dr. Tarun Mandal: Dr. Mandal is a pharmaceutical formulator and is the
McCaffrey/Norwood Professor of Pharmacy and Pharmaceutics at Xavier University
of Louisiana. He has served as a reviewer or on the editorial board for
numerous peer-reviewed journals. Dr. Mandal also has an extensive record of
peer-reviewed publications including original research papers.
Dr. George Digenis: Dr. Digenis is an Emeritus Professor of Medicinal Chemistry and
Pharmaceutics at the College of Pharmacy at the University of Kentucky, as well as an Emeritus Professor in the Departments of Nuclear
Medicine and Toxicology at the College of Medicine at the University of Kentucky. He has more than 190 peer-reviewed scientific articles or books
to his name, and holds 14 patents. Dr. Digenis’ research interests include
drug design and delivery and the release behaviour and bioavailability of
dosage forms. In particular, he has studied metformin and its absorption in
the stomach intestine.
Mr. John
Hems: Mr. Hems is the Director, Regulator Affairs,
Canada, at Apotex. Mr. Hem’s
affidavit included excerpts from Apotex’s drug submission. He was not
cross-examined.
Ms.
Biserka Horvat: Ms. Horvat is a law clerk at
Goodmans LLP whose affidavit included copies of the references listed in the
NOA. She was not cross-examined.
BIOVAIL’S
WITNESSES:
Dr. Donald Paul: Dr. Paul is the Director of the
Texas Materials Institute, the Earnest Cockrell Sr. Chair in Chemical
Engineering, and Director of the Center for Polymer Research, all at the University
of Texas at Austin. He is a member of numerous professional societies such as
the American Institute of Chemical Engineers, has authored over 600
peer-reviewed scientific publications, and is on the editorial board for
peer-reviewed journals such as the Journal of Applied Polymer Science.
Dr. Ronnie Fass: Dr. Fass is a Professor of Medicine
at the University of Arizona, Chief of Gastroenterology at Southern Arizona VA
Health Care System, and Director of GI Motility Laboratory at both Southern
Arizona VA Health Care System and the University of Arizona Health Sciences
Centre. He holds numerous awards and honours for his work, is extensively
involved in the gastroenterology community, and is a reviewer for numerous
academic journals. Dr. Fass has a particular expertise in gastrointestinal
motility.
Ms. Jenny Louie-Helm: Ms. Louie-Helm is a co-inventor of the 624 Patent.
Ms. Christine Haskett: Ms. Haskett is a partner at a US law firm involved in US litigation relating to the counterpart
of the ‘624 Patent. Ms. Haskett was not cross-examined.
Dr. Alim
Mamajiwalla: Dr. Mamajiwalla is the Senior
Director, Intellectual Property at Biovail, who provided patent listing
information. He was not cross-examined.
Mr. Roger
Shoreman: Mr. Shoreman is a law clerk at Lanczner
Slaght Royce Smith Griffin LLP whose affidavit included a certified copy of the
‘624 Patent. He was not cross-examined.
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