Date: 20120927
Docket:
T-2072-10
Citation:
2012 FC 1142
Ottawa, Ontario, September 27, 2012
PRESENT: The Honourable Mr. Justice Barnes
BETWEEN:
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BRISTOL-MYERS SQUIBB CANADA CO.
AND MERCK SHARP & DOHME CORP.
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Applicants
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and
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MYLAN PHARMACEUTICALS ULC AND
THE MINISTER OF HEALTH
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Respondents
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PUBLIC REASONS
FOR JUDGMENT AND JUDGMENT
I. Introduction
[1]
This
is an application under the Patented Medicines (Notice of Compliance)
Regulations, SOR/93-133 as amended (NOC Regulations) for an order
prohibiting the Minister of Health from issuing a Notice of Compliance to Mylan
Pharmaceuticals ULC (Mylan) for a generic version of the Applicants’ efavirenz
compound marketed as “Sustiva”. Efavirenz is an anti-retroviral drug used to
treat HIV infection typically in combination with other antiretroviral agents.
[2]
The
Applicants seek protection until the expiry of Canadian Letters Patent
2,101,572 (the 572 Patent) and Canadian Letters Patent 2,279,198 (the 198
Patent). The 572 Patent will expire on July 29, 2013 and the 198 Patent will
expire on February 2, 2018.
[3]
Merck
Sharp & Dohme Corp. is the owner of the patents in issue and Bristol-Myers
Squibb Canada Co. (BMS) is its Canadian licensee.
II. Background
A.
Summary of the Science
(1) History of HIV and AIDS
[4]
A
biological virus works by inserting its own information into a host cell
causing the infected cell to misdirect its efforts to making more viruses,
which can then pass the information on to other cells. Side effects of this
replication process can lead to the death of the infected cells. The loss of
important cells in the body of the host can lead to disease.
[5]
AIDS
or acquired human immunodeficiency syndrome was first recognized as a disease
following a 1981 outbreak of very rare infections by a variety of bacteria,
protozoa and/or viruses combined with cases of otherwise rare cancers among gay
men and transfusion recipients in California and New York. It was rapidly
recognized that the underlying cause of AIDS was a transmissible agent that
attacked the immune system causing the loss of critical helper T cells. This
loss left the body unable to protect itself against infection with many types
of bacteria, parasites, and viruses normally present in the environment. It
takes about ten years from the time of infection to die from AIDS if left
untreated.
[6]
HIV
or human immunodeficiency virus was finally identified in 1983. By 1993, it was
understood in the scientific community that HIV infection was the cause of
AIDS. Soon thereafter, a second virus named HIV-2 was discovered that is
associated with a much slower and less uniformly fatal course of AIDS. In
consequence, the original HIV discovery was renamed HIV-1. HIV-1 and HIV-2
respond differently to antiviral drugs. References to HIV in the prior art, and
even now, are interpreted to mean HIV-1 and not HIV-2 unless stated otherwise.
[7]
At
the time of the 572 Patent, ARC or AIDS-related complex was thought to be
distinct from and a precursor to AIDS. ARC was used to describe the condition
that resulted from HIV infection. While this term appears in the 572 Patent, it
has subsequently been realized that there is no separate clinical entity and
the term is no longer used.
(2) Infection by the HIV Virus
[8]
The
virus particle is called a virion and it carries genetic information in the
form of a genome from one cell to another. Retroviruses, like HIV, have an RNA
genome which is a single strand of genetic material. Each HIV virion contains
two RNA strands with an enzyme called reverse transcriptase (HIV RT) and
protein structures.
[9]
The
proteins on the outer layer of the virion (the envelope) use the receptors
located on the surface of the helper T cell to bind to the envelope’s protein.
The envelope protein then pierces the host cell’s membrane and draws the viral
membrane and the host cell membrane together. This results in fusion of the two
membranes. The contents of the virion are then released into the host cell,
which include the virion’s proteins, enzymes and two strands of RNA. The proteins
are digested by the host cell while the enzymes and RNA remain to infect the
cell.
[10]
HIV
RT builds a complimentary strand of RNA using the host cell’s nucleotides to
convert the viral RNA into a single strand of DNA. These nucleotides are the
building blocks that make up the virion’s and the host cell’s genetic material.
In doing this, HIV RT will make some random errors due to its poor
“proof-reading” activity. HIV RT then converts the viral DNA strand into a
double strand of DNA; this is the form of DNA found inside the nucleus of the
host cell.
[11]
Integrase,
one of the enzymes brought into the host cell with the virus, carries the
double strand of DNA into the nucleus of the cell. Within the nucleus,
integrase finds the host cell’s DNA and makes a nick in the host DNA to allow
the viral DNA to insert itself into the host DNA. This is the event that
establishes lifelong infection.
[12]
Another
enzyme called RNA polymerase transcribes the host cell’s DNA where the viral
DNA has been inserted and creates several different messenger RNAs (mRNAs). The
mRNAs leave the host cell’s nucleus to begin the process of translation. In
translation, organelles of the host cell read the mRNA and produce a specific
amino acid chain which folds into the active proteins that are needed to form a
new virion. These viral proteins are shuttled to the cell surface where they
join with the other proteins initially left on the cellular membrane when the
virion fused with the now infected host cell. Two strands of RNA are also brought
up to this part of the surface.
[13]
The
virus buds off at the cell surface taking the RNA, enzymes, envelope proteins
and other viral proteins with it. Within the virion, an enzyme called protease
breaks up any protein chains made in the host cell into smaller functional
molecules in order to allow the proteins to form the mature structure of a
complete virion. This virion can now go on to infect other cells. Each host
cell will continue to produce hundreds of virions.
(3) Treatment of HIV and AIDS
[14]
While
no vaccine has yet been discovered to completely prevent HIV, drugs have been
discovered which have potent activity against it. An anti-HIV drug called AZT
was discovered and reported to have potent activity against HIV in cell
culture. AZT is a nucleoside reverse transcriptase inhibitor (NRTI). In 1993,
the FDA licensed two other NRTIs in addition to AZT that alone or in
combination could somewhat ameliorate HIV infection, but they did not have a
significant impact on patient survival.
[15]
While
it was initially thought that genetic information could only be transferred
from DNA to RNA, it was discovered in 1970 that RNA could transfer genetic
information to DNA through HIV RT. As discussed above, this is how retroviruses
such as HIV transfer genetic information to a host cell’s DNA.
[16]
In
order to become part of RNA or DNA, a nucleotide must be bound to the
neighbouring nucleotide’s hydroxyl group by an enzyme called polymerase. An
enzyme called kinase adds a triphosphate group to the nucleoside creating a
nucleotide. Polymerase then binds the nucleotide to a neighbouring nucleotide
on the RNA/DNA chain by creating a bond using the nucleotide’s hydroxyl group.
[17]
For
NRTIs to work, kinase must recognize them as a nucleoside and add to them a
trisphosphate group so that they look enough like nucleotides to be recognized
by HIV RT. However, they must lack the hydroxyl group necessary to bind them to
the next nucleotide. Therefore, when polymerase attaches the NRTI triphosphate
to its neighbouring nucleotide on the RNA chain, there is no hydroxyl group on
the NRTI to bind it to the next nucleotide. This prevents HIV RT from
continuing the RNA chain. In other words, HIV RT is halted from continuing its
synthesis.
[18]
The
rules for recognition of nucleosides or nucleotides by cellular uptake systems,
kinases, polymerases and HIV RTs are not well understood. Therefore, finding
NRTIs with the correct properties involves considerable trial and error. NRTIs
also have to be sufficiently foreign to the cell that they are not used by
normal cell DNA polymerases. This would result in them being highly toxic to
the cell.
[19]
It
soon became apparent that while NRTIs initially reduced the amount of virus in
the blood, viral loads quickly rebounded resulting in a limited survival rate.
It was discovered that HIV’s genes would mutate in HIV RT’s synthesis rendering
it resistant to the NRTI triphosphates. Specifically, HIV RT would sometimes
mutate at the region of HIV RT where NRTIs bind.
[20]
In
the late 1980s and early 1990s, it became clear that truly effective control of
HIV infection would require drugs of different classes used in combination,
specifically NRTIs, protease inhibitors and non-nucleoside reverse
transcriptase inhibitors (NNRTIs). Protease inhibitors stop viral protease from
breaking down the protein chains in a new virion thereby preventing the
proteins from forming a mature virion.
[21]
NNRTIs
are a set of compounds that inhibit HIV RT by blocking its ability to
synthesize DNA in infected cells. Specifically, NNRTIs inhibit HIV RT and
interfere with polymerase’s transcription of the host cell’s DNA by binding to
the allosteric site. An effector molecule such as NNRTI is a molecule that
binds to a protein and thereby alters the activity of that protein. When an
effector molecule binds to the allosteric site, it creates a conformational
change that can result in enzyme inhibition. The allosteric site of HIV RT
where NNRTIs bind is described as a pocket that contains amino acids at
approximately amino acid positions 100 to 236. While all NNRTIs inhibit HIV RT
by binding the enzyme in the allosteric site, each NNRTI has a unique
interaction with the amino acids in the allosteric site pocket.
[22]
Soon
after their development, it was discovered that HIV could evolve to become resistant
to NNRTIs through mutations in HIV RT. Specifically, an inappropriate
nucleotide is incorporated into a DNA strand which may cause a change in the
amino acid pattern such that the sequence codes for a different protein or
results in the protein adopting a slightly different shape. Some of these
mutations can cause changes in HIV RT’s amino acid sequence, that affect the
parts of HIV RT where the various drugs act.
[23]
In
normal circumstances, these mutant varieties of HIV do not replicate as
efficiently as the non-mutated virus called the wild-type virus (the WT virus).
If untreated, the WT virus is able to replicate faster than the mutants and
infect a greater number of the host cells. WT virus is predominant in HIV
infected persons who are not taking any antivirals. If an infected person is
taking antivirals such as an NRTI or an NNRTI, the antivirals will typically
block replication of the WT virus. However, mutated viruses can still
proliferate because antivirals effective against the WT virus may not
effectively operate where the mutations have caused alterations in the
antivirals’ allosteric sites. These mutants are drug resistant mutants because
they have changed in such a way that they are no longer susceptible to the
antivirals that target the WT virus.
[24]
As
of 1993, a number of such mutations had been identified. HIV RT mutant strains
are named by reference to the numbered amino acid position on the enzyme where
the mutations occurred, the WT amino acid and the new amino acid due to the
mutation. For example, K103N indicates that lysine (K) has changed to
asparagine (N) at HIV RT amino acid position 103.
(4) The 572 Patent
[25]
The
572 Patent is entitled “Benzoxazinones as Inhibitors of HIV Reverse
Transcriptase” and was filed in Canada on July 29, 1993, published on February
8, 1994 and issued on August 28, 2001. It claims a family of NNRTI compounds
including efavirenz (referred to as Compound 37.2). The 572 Patent
specifically demonstrates efavirenz’s ability to inhibit the K103N mutation,
the Y181C mutation and the double mutant which has both the K103N and Y181C
mutations.
The 572 Patent also describes how efavirenz’s potency against these HIV RT
mutations may therefore be useful in the treatment of infection by HIV and thus
in the treatment of AIDS and/or ARC.
[26]
The
potency of efavirenz is demonstrated by the results of two assays published in
the 572 Patent: the reverse transcriptase assay, which measures efavirenz’s
ability to inhibit HIV RT in vitro and the cell culture assay, which
measures efavirenz’s ability to inhibit the spread of HIV in cell culture in
vitro. The assay results in the 572 Patent reveal that efavirenz is an
extremely potent inhibitor of HIV RT in the K103N, the Y181C and the double
mutant. It also reveals inhibitory activity against the WT virus. The 572
Patent goes on to demonstrate that efavirenz is bioavailable in humans based on
bioavailability studies performed on rhesus monkeys.
(5) Crystalline Forms and Polymorphism
[27]
Crystals are
solids in which the atoms or molecules are arranged in a periodic repeating
pattern that extends in three dimensions. When crystals are grown slowly and
carefully they normally have flat surfaces extending in different directions
called plane faces that can be seen with the naked eye (eg. salt, minerals)
However, some materials do not display these obvious plane faces and instead
are made up of small crystals that can be seen under a light or electron
microscope (eg. steel, concrete, bone, teeth). Some materials are only
partially crystalline or have crystalline regions (eg. wood, silk, hair,
plastics). Solids that are not crystalline and have no long range order are
said to be amorphous (eg. glass).
[28]
The
internal structure of molecular crystals is called the crystal structure and is
determined by the position of the molecules relative to each other and the
symmetry of the structure. The dimensions of the crystal structure are unique
and can be used to distinguish one crystalline form of a molecule from another.
[29]
Crystal
morphology refers to the external shape of the crystals. The shape of a crystal
can be influenced by both its internal structure and the conditions of its
crystallization, including growth rate, heat, solvents used in the
crystallization process and/or the presence of any impurities. Two crystals
made from the same material with the same crystal structure can have very
different morphologies.
[30]
Polymorphism
is the ability of a solid material to exist in more than one form or crystal
structure. Properties that vary in different polymorphs include hardness,
density, electrical conductivity, shape, solubility, dissolution rate and
vapour pressure. In different thermodynamic conditions, one polymorph will be
more stable than the others. In a monotropic system, one polymorph is the most
stable at all temperatures. If the stability of a polymorph is a function of
temperature, the system is said to be enantiotropic. Consequently, the
stability of enantiotropic polymorphs will vary according to temperature.
[31]
In
order to convert one crystal form into another, one must apply energy (often in
the form of heat) to the initial form. Direct solid conversion is another way
to create a polymorph. It is the slowest form of transformation because it is
literally the transition of one solid crystal to another. The molecules within
these crystals have lower molecular mobility than in a liquid, which is what
makes the transformation so much slower.
[32]
The
most common type of crystallization is crystallization from solution where a
material that is solid is dissolved in a solvent. Crystallization is induced by
changing the state of the system in some way that reduces the solubility of a
crystallizing species. The change of state from solution to crystal can be done
by temperature change, evaporating the solvent, changing the solvent
composition or changing the pH. When this change of state occurs, the solution
is said to be supersaturated. At this point, the solution is unable to hold all
of the solute resulting in its emergence from the solution as a crystalline
solid.
(6) Identifying Crystalline Structures
[33]
X-ray
powder diffraction (XRPD) is the most commonly used method of x-ray analysis to
identify crystal forms. The XRPD pattern measures peaks and d-spacings, both of
which are used to characterize a crystal form.
[34]
The
differential scanning calorimetry (DSC) is a technique that measures the amount
of heat required to increase the temperature of a sample where the heat
increases linearly over time. The DSC is often used to measure the melting
point of a crystal.
(7) Granulation
[35]
Polymorphs
of pharmaceuticals have become an increasingly important part of drug
development as the differences in the chemical and physical characteristics of
polymorphs can affect the manufacturability, performance and/or quality of the
drug product. It is for this reason that pharmaceutical companies generally
seek out the most stable crystal form of a substance when developing a new
drug.
[36]
In
the pharmaceutical industry, granulation refers to the act or process in which
primary powder particles of the active pharmaceutical ingredient (API) are made
to bind to one another to form larger, multi-particle entities called granules.
The API is usually mixed with excipients that are pharmacologically inactive
substances used as a carrier for the API. Bonds are formed between the powder
particles by compression or by using a binding agent.
[37]
Granulation
is extensively used in the manufacturing of tablets. The pharmaceutical
industry employs two types of granulation techniques: wet granulation and dry
granulation. However, only wet granulation is relevant to this litigation. Wet
granulation is the process of adding a liquid solution to the powder particles.
The fluid contains a solvent which must have characteristics that allow it to be
removed by drying. It is common ground in this case that the solvent used by
Mylan in its wet granulation process is purified water.
[38]
The
solution mixed into the powders can form bonds between powder particles that
are strong enough to lock them together. Water is not always strong enough to
create and hold a bond once the solution dries resulting in the powders falling
apart. In such instances, a liquid solution that includes a binder
(pharmaceutical glue) is required. The binder is dissolved in the solvent and
is added to the process. The binder forms a bond with the powders during the
process and then the solvent is evaporated. Once the solvent has been dried and
the powders have formed a more densely held mass, the granulation is milled.
This process results in the formation of granules. The process can be very
simple or very complex depending on the characteristics of the powders, the
final objective of tablet making, and the equipment that is available.
(8) The 198 Patent
[39]
The
198 Patent is entitled “Process of the crystallization of a reverse
transcriptase inhibitor using an anti-solvent” and was filed on February 2,
1998, published on August 6, 1998 and issued on April 14, 2009. It claims
Form I efavirenz, which is one of many crystal forms of efavirenz. The 198
Patent describes the processes for the crystallization of efavirenz and
describes methods to convert Form II and Form III efavirenz into Form I. The
198 Patent also claims and characterizes efavirenz Form I by its XRPD pattern.
B.
Expert Witnesses
(1)
BMS’s Expert Witnesses
(a)
Dr. Barry M. Trost
[40]
Dr.
Barry M. Trost is a Professor in the Department of Chemistry, School for
Humanities & Sciences at Stanford University. He has a 45 year career as an
organic chemist and has experience in synthesis and design of biologically
active molecules, including molecules that have activity as pharmaceuticals.
Dr. Trost has been elected to the National Academy of Sciences, which is
considered to be one of the highest honours possible for scientists in the United States. Among the many awards and honours he has received, he has received the
Arthur C. Cope Award for outstanding achievement in the field of organic
chemistry, which is considered the most prestigious award given by the American
Chemical Society in the field of organic chemistry and the Roger Adams
Award for his outstanding contributions to research in organic chemistry. Dr.
Trost has been recognized as one of the world’s 50 most cited chemists and one
of the 1000 most cited contemporary scientists: Affidavit of Dr. Barry M. Trost
(27 July 2011) at paras 1-12 [Affidavit of Dr. Trost].
(b)
Dr. John M. Coffin
[41]
Dr.
John M. Coffin is the American Cancer Society Professor and Distinguished
Professor in the Department of Molecular Biology and Microbiology at Tufts University in Boston, Massachusetts. Like Dr. Trost, he has also been elected to the
National Academy of Sciences. He has been involved in RT research for more than
40 years and has been actively involved in HIV research since 1997. Dr. Coffin
was a student in the laboratory that initially discovered retroviruses and his
ongoing research in this field culminated in his participation of the national
committee that named HIV. He then became the Director of the HIV Drug
Resistance Program within the nationally renowned U.S. National Cancer
Institute. Dr. Coffin is now or has previously been on the editorial boards of
the top journals in his field and edited and coauthored the definitive text on
retroviruses, which is referred to as the “bible of retrovirology”. Dr.
Coffin’s research has led to some of the key new insights on how antiviral
therapy works and how HIV evolves resistance to it: Affidavit of Dr. John M.
Coffin (27 July 2011) at paras 1-13 [Affidavit of Dr. Coffin].
(c)
Dr. Mark A. Wainberg
[42]
Dr,
Mark A. Wainberg is a Professor of Medicine and Microbiology at McGill University and the Director of the McGill AIDS Centre at the Montreal Jewish General
Hospital. He is an internationally recognized scientist specializing in the
area of HIV/AIDS. His research particularly focuses on the study of HIV
reverse transcriptase and HIV drug resistance and has played a lead role in the
development of anti-HIV drugs. Some of the many honours he has received include
being made an Officer of the Order of Canada and an Officer in the Ordre
National du Québec in recognition of his contributions to the study and
treatment of HIV. He has also received the Prix Galien for Research, one of the
most prestigious awards in the field of Canadian pharmaceutical research and
development. He has been a member of various government committees such as the
Expert Advisory Committee to Evaluate Drugs and Vaccines for HIV-1-Associated
Disease. He is currently the Editor-in-Chief of the Journal of the International
AIDS Society and has coauthored over 450 research papers and over 200 book
chapters, commentaries and reviews, which have been published in various
peer-reviewed journals: Affidavit of Dr. Mark A. Wainberg (28 July 2011) at
paras 1-16 [Affidavit of Dr. Wainberg].
(d)
Dr. Allan S. Myerson
[43]
Dr.
Allan S. Myerson is a Professor of the Practice of Chemical Engineering in the
Department of Chemical Engineering at the Massachusetts Institute of Technology
(MIT). He is a chemical engineer by training and has been active in researching
pharmaceutical development and manufacturing and has conducted research in the
area of industrial crystallization for over 34 years. He also consults with
pharmaceutical companies, which has helped him understand industrial needs and
practices. Included in the several awards he has received are the American
Chemical Society Division of Industrial and Engineering Fellow Award and the
American Chemistry Society Award in Separation Sciences and Technology. Dr.
Myerson has edited five books on crystallization and is the Associate Editor of
a journal published by the American Chemical Society entitled “Crystal Growth
and Design”. Dr. Myerson is also a named author on over 150 publications:
Affidavit of Dr. Allan S. Myerson (22 August 2011) at paras 1-18
[Affidavit of Dr. Myerson].
(2)
Mylan’s Expert Witnesses
(a)
Dr. Donna L. Romero
[44]
Dr.
Donna L. Romero is the current President of Pharma-Vation Consulting, LLC where
the focus of her expertise and work relates to the design and optimization of
compounds for clinical development in a variety of therapeutic areas including
the treatment of HIV and AIDS. She has a Ph.D. in synthetic organic chemistry
and has held the positions of Director and Senior Director of Medicinal
Chemistry at Pharmacia Corp. and Pfizer Inc. respectively. As a Research
Scientist, she was a leader on teams that discovered drugs and drug candidates
for HIV RT and protease targets and developed structure activity relationships
for inhibitors of HIV RT and protease. She is a named author on over 40
publications in her field and has received numerous awards from the
Universities and Companies with which she has been employed: Affidavit of Donna
L. Romero, Ph.D. (28 October 2011) at paras 1-17 [Affidavit of Dr. Romero].
(b) Dr.
Michael J. Cima
[45]
Dr.
Michael J. Cima is a Professor of Material Science and Engineering at MIT and
was recently appointed as one of a selected group of engineering faculty to the
Koch Institute for Integrative Cancer Research at MIT. He has been elected to
the National Academy of Engineering and is a named author on over 200
peer-reviewed scientific publications and 45 patents. He is actively involved
in materials and engineered systems for improving human health such as
treatments for cancer, metabolic diseases, trauma and urological disorders. He
has co-founded a specialty pharmaceutical company and a company that develops
drug products for urology. He has won the International Award of Materials
Engineering for Resources and occupies the endowed chair at MIT under the
titled of the David H. Koch Professor of Engineering: Affidavit of
Michael J. Cima, Ph.D. (28 October 2011) at paras 1-12 [Affidavit of
Dr. Cima].
[46]
All
of these experts are eminently qualified in their respective fields and to give
opinion evidence on the matters in issue in this proceeding.
D.
The Person of Ordinary Skill in the Art
[47]
The
person of ordinary skill in the art is the person to whom the patent is
addressed. A person of skill must possess certain qualifications or experiences
in the field to which the patent relates. The person of skill is further
defined by Justice Roger Hughes in Janssen-Ortho Inc v Novopharm
Ltd, 2006 FC 1234 at para 90, 301 FTR 166:
90 Care must be taken in describing a person
skilled in the art as there could be danger in defining such a person so
narrowly that few, if any, would qualify. Conversely, if the net is cast too
broadly, a danger exists in bringing in those unfamiliar with the field. The
Court must take a fair and generous view as to what sort of person comprises a
person skilled in the art. That person is the ordinary person skilled in the
art, not the least qualified or slowest witted. It must not be too astute or
technical in its inclusion or exclusion of any group of persons. Further, with
respect to evidence as to the understanding of such person, the Federal Court
of Appeal has said that a witness on the subject need not be that very person,
so long as they are in a position to provide appropriate evidence as to what
such a person would have known and understood at the relevant time (Halford
v. Seed Hawk Inc., [2006] F.C.J. No. 1205, 2006 FCA 275 at para. 17).
As between the parties, this is not
an issue of particular controversy. Nevertheless, the person of skill for each
patent will be addressed separately below.
(1)
The 572 Patent
[48]
The
572 Patent has a biological component and an organic chemistry component, which
means that the Patent addresses two groups of people of skill: Cross-Examination
of Dr. Barry M. Trost, Ph.D. (6 January 2012) at pp
33-34, 37. With regard to the biological component, Drs. Trost, Coffin and
Wainberg opine that the person of skill would be a scientist with a Ph.D. in
virology, microbiology or pharmacology who has experience with HIV and/or
retroviruses because the 572 Patent describes the potential therapeutic value
of the disclosed compounds: see Affidavit of Dr. Trost at para 46; Affidavit of
Dr. Coffin at para 20; and Affidavit of Dr. Wainberg at para 22. In addition,
Dr. Wainberg believes that a person of skill is also a person with a Masters in
the above specializations or a M.D. who has spent considerable time working in
the field of HIV therapeutics and/or retrovirology and/or molecular studies
pertaining to retrovirology or HIV therapeutics: see Affidavit of Dr. Wainberg.
[49]
Though
Dr. Romero does not include persons with the above qualifications and
experiences in her description of a person of skill, I am willing to accept all
of the above descriptions (including the addition made by Dr. Wainberg). The
572 Patent describes the potential therapeutic value of its disclosed compounds
and the person of skill described above would have the qualifications and
experience necessary to understand and implement its teachings.
[50]
With
regard to the organic chemistry component, Drs. Trost, Coffin, Wainberg and
Romero agree that the person of skill to whom the 572 Patent is addressed is a
person with a Ph.D. in organic chemistry or medicinal chemistry who has several
years of experience synthesizing compounds or a Masters in organic chemistry or
medicinal chemistry with many years of experience synthesizing compounds. This
person would be knowledgeable about the structure and synthesis of organic
compounds: see Affidavit of Dr. Trost at para 45; Affidavit of Dr. Coffin at
para 20; Affidavit of Dr. Wainberg at para 23; and Affidavit of Dr. Romero
at para 63.
[51]
Dr.
Romero further asserts that this person of skill will also have experience
“evaluating the results of experiments which assess HIV-RT inhibition activity”
or will have a “familiarity with organic synthesis and . . . compounds intended
for uses in the area of HIV and AIDS” as well as “particular knowledge of the in
vitro testing of NNRTIs during the 1990s”: see Affidavit of Dr. Romero
at paras 63-64. While these experiences are helpful in understanding the 572
Patent, I disagree that they are experiences necessarily possessed by a person
of skill in this context. The person of skill is “the notional person to whom
the patent is addressed, and who takes his or her place in the spectrum of
other fictional legal persons, such as the “reasonable person” in tort law”: Allergan
Inc v Canada (MOH), 2012 FC 767 at para 101 . The person of skill is not
required to have specific experience with the exact or similar tests performed
in the 572 Patent, however, they must have the qualifications and experience to
understand and implement them. Additionally, Dr. Romero acknowledged in
her cross-examination that a separate biology team would conduct the above
experiments using the compound prepared by chemists: Cross-Examination of
Dr. Donna L. Romero (20 January 2012) at pp 17-18. I believe the
of the organic chemist or medicinal chemist described above by Drs. Trost,
Coffin, Wainberg and Romero is a person of skill capable of understanding and
implementing the teachings of the 572 Patent.
(2)
The 198 Patent
[52]
Drs.
Myerson and Cima generally agree that the person of skill in the context of the
198 Patent has a bachelor’s degree in chemistry, chemical engineering or other
related fields with at least three years experience in the pharmaceutical
industry or with a Masters or Ph.D. in these fields with less experience: see
Affidavit of Dr. Myerson at para 53; and Affidavit of Dr. Cima at paras 47, 49.
However, Dr. Cima further asserts that the person of skill must have some
practical experience with crystalline forms because the 198 Patent discloses
processes for crystallizing and characterization results for efavirenz:
Affidavit of Dr. Cima at para 48. I agree that the person of skill will be
familiar with crystallography in addition to the above qualifications and
experience for the reasons provided by Dr. Cima.
III.
Analysis
A.
Burden of Proof
[53]
The
issue of burden of proof in NOC proceedings is not in dispute and I adopt the following
analysis provided by Justice Roger Hughes in the Eli Lilly Canada Inc v
Apotex Inc, 2009 FC 320 at paras 37-40, 346 FTR 78:
37 The issue as to who bears the burden of proof
in NOC proceedings, as to validity of a patent or infringement of a patent is
an issue that I had thought had been put to rest. Nonetheless the parties in
such proceedings continue to argue the point. It seems that my recent decision
in Brystol-Myers Squibb Canada Co. v. Apotex Inc., 2009 FC 137 has given
fresh ammunition to those continually wishing to stir the pot in this regard.
Let me state emphatically that I did not intend in Brystol-Myers to say
or apply any burden different than I had stated in previous decisions.
38 To be perfectly clear, when it comes to the burden
as to invalidity I canvassed the law, in particular recent Federal Court of
Appeal decisions, in Pfizer Canada Inc. v. Canada (Minister of Health),
(2008), 69 C.P.R. (4th) 191, 2008 FC 11 and concluded at paragraph 32:
32 I do not view the reasoning of the two
panels of the Federal Court of Appeal to be in substantial disagreement.
Justice Mosley of this Court reconciled these decisions in his Reasons in
Pfizer Canada Inc. v. Apotex Inc., [2007] F.C.J. No. 1271, 2007 FC 971 at
paragraphs 44 to 51. What is required, when issues of validity of a patent are
raised:
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 nonetheless weigh the
strength of 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
balance.
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 that it seeks.
39 I stated the matter more succinctly in Pfizer
Canada Inc. v. Canada (Minister of Health), 2008 FC 500 at paragraph 12:
12 Here the only issue is validity.
Pharmascience has raised three arguments in that respect. Each of Pfizer and
Pharmascience have led evidence and made submissions as to those matters. At
the end of the day, I must decide the matter on the balance of probabilities on
the evidence that I have and the law as it presently stands. If, on the
evidence, I find that the matter is evenly balanced, I must conclude that
Pfizer has not demonstrated that Pharmascience's allegation is not justified.
40 The above cases state correctly in my view,
the law as to the burden in NOC proceedings as to invalidity.
[Emphasis in original]
B.
The 572 Patent
(1) The Sufficiency of Mylan’s Notice of Allegation
[54]
BMS
argues that Mylan has failed to put its allegation of inutility into play
because Dr. Romero’s evidence on point is substantially different from the
Notice of Allegation (NOA). In short, BMS says that the NOA assertion is not
justified by the evidence Mylan produced and falls short of the requirement set
out in section 5 of the NOC Regulations that an NOA shall include “a
detailed statement of the legal and factual basis for [an] allegation”. BMS
relies on several authorities that state that a second person cannot build its
Notice of Compliance (NOC) case on the strength of evidence that fails to
conform to its NOA allegation or by prosecuting a case in a piecemeal fashion.
[55]
Although
Mylan does not attempt to defend its literal and broad NOA allegations, it
contends that the issues were appropriately framed, that BMS knew enough to
effectively meet Mylan’s allegations and that any potential prejudice was
mitigated by Prothonotary Aalto’s decision to allow BMS a right of reply.
[56]
There
is, of course, considerable jurisprudence dealing with the issue of the
sufficiency of NOAs. A useful general statement can be found in the following
passage from AB Hassle v Apotex Inc, 2006 FCA 51 at para 4, [2006] 4 FCR
513:
4 It has been recognized by this Court that a
notice of allegation, together with the detailed statement of the factual and
legal basis of the allegations stated in the notice, plays a critical role in
defining the issues to be determined in proceedings under the NOC Regulations.
The notice of allegation and detailed statement must address all relevant
patent claims, and must contain enough information to allow the "first
person" (as defined in [section 2 of] the NOC Regulations) to make an
informed decision as to whether to respond to the notice of allegation by
commencing an application for a prohibition order. A notice of allegation that
meets these tests is said to be "sufficient". The corollary is that a
"second person" (as defined in [section 2 of] the NOC Regulations)
cannot, in response to a first person's application for prohibition, present
evidence and argument relating to an issue that is outside the scope of the
notice of allegation and detailed statement. The jurisprudence on sufficiency
arises from a line of cases that includes Bayer AG v. Canada (Minister of
National Health and Welfare) (1993), 163 N.R. 183, 51 C.P.R. (3d) 329 (F.C.A.)
at paragraph 15; AB Hassle v. Canada (Minister of National Health and Welfare)
(2000), 7 C.P.R. (4th) 272, 256 N.R. 101 (F.C.A.) at paragraph 21; SmithKline
Beecham Inc. v. Apotex Inc. (2001) 10 C.P.R. (4th) 338, 267 N.R. 101 (F.C.A.)
at paragraph 27, and AstraZeneca AB v. Apotex Inc. (2005), 335 N.R. 1 (F.C.A.)
at paragraph 12.
[57]
Other
authority establishes that it is impermissible for a second person to improve
its case in a piecemeal fashion by relying on a new factual basis for an
invalidity allegation or to resile from a position of fact or law taken in an
NOA: see Mayne Pharma (Canada) v Aventis Pharma Inc, 2005 FCA 50 at para
25, 38 CPR (4th) 1; Merck & Co v Pharmascience Inc, 2010 FC 510 at
para 96; 85 CPR (4th) 179; and Pfizer Canada Inc v Novopharm Ltd, 2005
FCA 270 at para 4, 42 CPR (4th) 97.
[58]
There
is no question that the Mylan NOA left much to be desired at least insofar as
it concerned the inutility allegation that was later advanced by
Dr. Romero. Mylan’s NOA asserted that the promise of the 572 Patent is
fundamental to the utility analysis. It then went on to characterize the
promise of the 572 Patent in the following way:
The skilled person would understand the promise of
“potent inhibition” in the 572 Patent to mean the compounds of the invention,
including efavirenz, are more effective against all known resistant mutants of
HIV RT than previously known compounds including, but not limited to the three
compounds specifically discussed (the “Comparison Compounds”).
[59]
I
do not agree with Mylan that the BMS witnesses understood the nature of the
case that later emerged as a result of Dr. Romero’s evidence. In my view,
the nature of the case that BMS was required to meet was significantly changed
by that evidence. Although Prothonotary Aalto declined to strike the Affidavit
of Dr. Romero, he did find that her evidence represented a “different view”
than had been expressed in Mylan’s NOA. In granting BMS the right of reply to
Dr. Romero’s evidence, Prothonotary Aalto described the problem in the
following way:
Notwithstanding Mr. de Grandpré’s
cross-examination of Dr. Coffin, I am not satisfied that he could have anticipated
the 188 mutation as being as central to the position of Mylan as it now is. It
will be of significant assistance to the Court to have the benefit of both
views in respect of the 188 mutation. Further, the Romero affidavit refers to
14 pieces of additional post prior art that were not referred to in the NOA and
about which Dr. Coffin could have had no anticipation that it would be referred
to.
Bristol-Myers Squibb Canada Co v Mylan
Pharmaceuticals ULC
(25 January 2012), Toronto T-2072-10 (FCTD) at 5.
Although the NOA contains a passing
reference to the 188 mutation, there is no suggestion that the failure of the
inventors to test efavirenz against this mutation would become the central
feature of Mylan’s construction and utility case. Not surprisingly, the point
was not addressed in BMS’s initial evidence.
[60]
Mylan
seeks to excuse the broad language of its NOA saying that no reasonable,
knowledgeable person would interpret its NOA in the way it is written.
According to Mylan, its references to a promise in the 572 Patent of
efavirenz’s utility “against all known HIV RT resistant strains” would
be read down by a person of skill. Mylan says that a reasonable reader would
take its assertion to mean a promise of utility against a limited number of HIV
RT mutations that were material to treatment including, but not limited to, the
188 mutation. Mylan argues that the BMS experts were not misled by the
language of the NOA and specifically took issue with Mylan’s view in their
evidence.
[61]
Mylan’s
NOA assertion that the HIV RT mutations tested by BMS and reported in the 572
Patent were not “representative” of the class of material resistant mutations
also failed to inform BMS of the true nature of Mylan’s case. Dr. Coffin
initially addressed this point by identifying the 103 and 181 mutations as “the
logical strains to study at the time” and “the most prevalent and most
important mutations against NNRTIs”: see Affidavit of Dr. Coffin at para 75.
Dr. Wainberg similarly addressed this point by saying that the 103 and 181
mutations were of particular interest at the time to research scientists and
“the most logical mutants to test when investigating a novel NNRTI”: see
Affidavit of Dr. Wainberg at paras 91 and 92. Neither witness had any basis to
infer from the NOA that Mylan’s case would subsequently focus on the 188
mutation and an argument that “[e]stablishing the activity of an NNRTI against
enzymes having mutations at the 103, 181 and 188 positions was necessary
in order to demonstrate that efavirenz, as a novel NNRTI, would be able to
inhibit HIV-RT rendered resistant to other antivirals”: Affidavit of Dr.
Romero at para 93. Indeed, on a plain reading of the NOA, Mylan’s
assertion regarding the promise of the 572 Patent was much broader than
anything Dr. Romero was able to support.
[62]
In
the context of its challenge to the 198 Patent, Mylan emphasizes the summary
nature of NOC proceedings and the absence of a right to full discovery of
potentially relevant evidence. This formed the basis for Mylan’s refusal to
turn over to BMS samples of its efavirenz product or to disclose the details of
its manufacturing process and, later, for the Prothonotary’s decision to
support that refusal.
[63]
But
these principles also underscore the importance of the NOA as the initiating
document in an NOC proceeding. A second party is not permitted to adduce
evidence that is inconsistent with its NOA allegations and to effectively
blindside its opponent with a different case to meet. I agree with BMS that
the right of reply is not a complete answer to the problem presented by cases
like this. Here, BMS’s experts were met with evidence from Dr. Romero
about the scope of the disputed claims that was significantly different than
what Mylan had asserted in its NOA. This approach left BMS to effectively
guess about the real grounds for Mylan’s allegation of inutility and it
represented an inappropriate piecemeal attack on the Patent. I am satisfied
that Mylan’s NOA failed to inform BMS about the true nature of the case that it
was required to meet and that it was legally insufficient. In the result, BMS
has met its burden on the issue of inutility and is entitled to an order of
prohibition until the expiry of the 572 Patent.
[64]
Notwithstanding
the above finding, I will deal with Mylan’s inutility allegation on the
merits.
(2) Claims Construction
(a) Principles of Claims Construction
[65]
The
outcome of Mylan’s validity challenge to the 572 Patent turns on claims
construction. This is an issue of law for the Court to determine, to a greater
or lesser extent, with the aid of expert witnesses: see Pfizer Canada Inc v
Canada (MOH), 2007 FCA 209 at para 39, [2007] FCJ no 767 (QL).
[66]
The
parties agree that the construction of patent claims must be carried out
purposively and in accordance with the principles discussed in Whirlpool
Corp v Camco Inc, 2000 SCC 67 at paras 55-56, [2000] 2 S.C.R. 1067 [Whirpool],
and Free World Trust v Électro Santé Inc, 2000 SCC 66, [2000] 2 S.C.R. 1024
[Free World].
[67]
Claims
language is a critical component of the public notice requirement and
subsection 27(4) the Patent Act, RSC 1985, c P-4, emphasizes its
importance:
|
27.(4)
The specification must end with a claim or claims defining distinctly and
in explicit terms the subject-matter of the invention for which an exclusive
privilege or property is claimed.
|
27.(4) Le mémoire descriptif se
termine par une ou plusieurs revendications définissant distinctement et en
des termes explicites l’objet de l’invention dont le demandeur revendique la
propriété ou le privilège exclusif.
|
[68]
The
Supreme Court of Canada emphasized the purpose and importance of requiring
clear language in the drafting of patent claims in Free World, above, at
paragraphs 14, 15 and 42:
14 Patent claims are frequently analogized to
"fences" and "boundaries", giving the "fields" of
the monopoly a comfortable pretence of bright line demarcation. Thus, in Minerals
Separation North American Corp. v. Noranda Mines, Ltd., [1947] Ex. C.R. 306,
Thorson P. put the matter as follows, at p. 352:
By his claims the inventor puts fences around the
fields of his monopoly and warns the public against trespassing on his
property. His fences must be clearly placed in order to give the necessary
warning and he must not fence in any property that is not his own. The terms of
a claim must be free from avoidable ambiguity or obscurity and must not be
flexible; they must be clear and precise so that the public will be able to
know not only where it must not trespass but also where it may safely go.
15 In reality, the "fences" often
consist of complex layers of definitions of different elements (or
"components" or "features" or "integers") of
differing complexity, substitutability and ingenuity. A matrix of descriptive words
and phrases defines the monopoly, warns the public and ensnares the infringer.
In some instances, the precise elements of the "fence" may be crucial
or "essential" to the working of the invention as claimed; in others
the inventor may contemplate, and the reader skilled in the art appreciate,
that variants could easily be used or substituted without making any material
difference to the working of the invention. The interpretative task of the
court in claims construction is to separate the one from the other, to
distinguish the essential from the inessential, and to give to the
"field" framed by the former the legal protection to which the holder
of a valid patent is entitled.
…
42 The patent system is designed to advance
research and development and to encourage broader economic activity.
Achievement of these objectives is undermined however if competitors fear to
tread in the vicinity of the patent because its scope lacks a reasonable
measure of precision and certainty. A patent of uncertain scope becomes "a
public nuisance" (R.C.A. Photophone, Ld. v. Gaumont-British Picture Corp.
(1936), 53 R.P.C. 167 (Eng. C.A.), at p. 195). Potential competitors are
deterred from working in areas that are not in fact covered by the patent even
though costly and protracted litigation (which in the case of patent disputes
can be very costly and protracted indeed) might confirm that what the
competitors propose to do is entirely lawful. Potential investment is lost or
otherwise directed. Competition is "chilled". The patent owner is
getting more of a monopoly than the public bargained for. There is a high
economic cost attached to uncertainty and it is the proper policy of patent law
to keep it to a minimum.
[69]
Notwithstanding
the above cautions, the law is clear that a purposive approach requires the
Court to examine claim language in the sense that the patentee is presumed to
have used it and not through the lens of strict literalism. Even a term that
appears to be plain and unambiguous may, when read in the context, reasonably
support a different meaning. Whirlpool, above, also counsels that the
search for meaning is not carried out through the eyes of a grammarian, but
rather in light of the common knowledge of the person of ordinary skill in the
field to which the patent relates. Thus, it is permissible to look to the
patent disclosure to ascertain the technical meaning of terms used in the
claims.
[70]
I
have no difficulty with the point that purposive construction is capable of
expanding or limiting a literal text: see Whirlpool, above, at para
49. It seems to me, though, that there is some judicial concern about
importing essential features of an invention from the disclosure to the claims,
particularly where the disclosure is somewhat unclear about the scope of the
invention. In other words, even if one resorts to the disclosure to interpret
the claims “the precise and exact extent of the exclusive property and
privilege claimed” must always be identifiable: see Consolboard Inc v
MacMillan Bloedel (Saskatchewan) Ltd, [1981] 1 S.C.R. 504 at para 26, 122 DLR
(3d) 203.
[71]
In
BVD Co v Canadian Celanese Ltd, [1937] S.C.R. 441, [1937] 3 DLR 449
[BVD], the Court declined to read into a patent claim an “essential”
feature of an invention and struck the patent down because the claims, as
written, exceeded the scope of the invention. This decision predates the
decisions in Whirlpool and Free World, above, and their
elaboration of the principles of purposive construction. Nevertheless, BVD
has not been overruled and it continues to underscore the importance of ensuring
that a patent clearly delineates the subject matter of an invention and the
importance of the claims language in achieving that end: see also Apotex
Inc v Sanofi-Synthelabo Canada Inc, 2008 SCC 61 at para 77, [2008] 3 SCR
265; Amfac Foods Inc v Irving Pulp & Paper, Ltd, [1986] FCJ no 659
(QL), 72 NR 290 (CA).
[72]
What
I take from the authorities is that resort to the disclosure is permissible,
but only for the purpose of comprehending the meaning of words or expressions
found in the claims. Essential information that is contained in the disclosure
that is not relevant to the search for meaning of claims language cannot be
imported by implication to qualify the claims: see Janssen-Ortho Inc v Canada
(MOH), 2010 FC 42 at para 119, 361 FTR 268 [Janssen-Ortho]. It is
also not appropriate to ascribe meaning to words in the claims by reference to
“stray phrases” found in the disclosure: see Electric & Musical
Industries, Ltd v Lissen Ltd, [1938] 4 All ER 221 at p 227, 56 RPC 23 (HL
(Eng)).
[73]
The
first step in a patent suit is to construe the claims without regard to issues
of validity or infringement: see Whirlpool, above, at para 43. Where
there is doubt about the meaning of claims language, one resorts first to the
language of the claims followed by consideration of the disclosure, if
necessary: see Janssen-Ortho, above, at para 116.
(b) The
572 Patent Claims
[74]
The
572 Patent claims a class of benzoxazinones including efavirenz which are said
to inhibit HIV RT, to be useful for treating HIV infection and for treating
AIDS or ARC. The claims in issue are the following:
28. A compound of claim 3, which is
[efavirenz], or a pharmaceutically acceptable salt thereof.
29. A pharmaceutical composition of claim 4,
wherein the compound is [efavirenz], or a pharmaceutically acceptable salt
thereof.
30. A pharmaceutical composition of claim 5,
wherein the compound is [efavirenz], or a pharmaceutically acceptable salt thereof.
[Emphasis added]
[75]
Claims
4 and 5 of the 572 Patent read as follows:
4. A pharmaceutical composition useful for
inhibiting HIV reverse transcriptase, comprising an effective amount of a
compound as in any of claims 1 or 3, and a pharmaceutically acceptable carrier.
5. A pharmaceutical composition useful for
treating infection of HIV or for treating AIDS or ARC, comprising an effective
amount of a compound of claim 1, 2 or 3, and a pharmaceutically acceptable
carrier.
[76]
Standing
on their own, these claims promise only that efavirenz is useful to inhibit HIV
RT and for treating HIV, AIDS or ARC. Nevertheless, the Patent discloses that
the inventors had demonstrated that the claimed compounds, including efavirenz,
are inhibitors of HIV RT with “the particular advantages” being their
demonstrated inhibition of drug resistant HIV RT. Under the “Background of the
Invention” the compounds are expressly stated to be “useful in the inhibition
of HIV reverse transcriptase (and its resistant varieties), the prevention of
infection by HIV, the treatment of infection by HIV and in the treatment of
AIDS and/or ARC…”. At pages 28-29 of the 572 Patent, the inventors further
state:
The particular advantage of the
compounds of this invention is their potent inhibition against HIV reverse
transcriptase rendered resistant to other antivirals, such as L-697,661, which
is
3-([(4,7-dichloro-1,3-benzoxazol-2-yl)methyl]-amino)-5-ethyl-6-methyl-pyridin-2(1H)-one;
or L-696,229, which is
3-[2-(1,3-benzoxazol-2-yl)ethyl]-5-ethyl-6-methyl-pyridin-2(1H)-one; or AZT.
[77]
The
inventors go on to report two assays designed to measure the efficacy of
efavirenz against four HIV virus forms, namely the WT virus, the 103 mutant
form, the 181 mutant form and the 103/181 double mutant form. Those assays
demonstrate efavirenz’s potent efficacy against the wild type virus and all of
the tested HIV mutations. These results are not in dispute. It is
common ground that efavirenz was demonstrated to be bioavailable and useful for
inhibiting HIV RT. In the result, it was predicted to be useful to treat
AIDS/ARC in humans. The 572 Patent also sets out a method for making a crystal
form of efavirenz having a stated melting point of 131-132ºC.
[78]
Mylan
concedes that its efavirenz product will infringe the claims in issue if the
572 Patent is valid.
(c) The Construction Issue
[79]
Mylan
contends that the inventive promise of the Patent claims must be determined by
reference to the disclosure. According to Mylan’s argument, the person of
skill reading the 572 Patent in its entirety would characterize its promise as
involving efavirenz’s potent inhibition of HIV RT including the major
HIV RT strains rendered resistant to other NNRTIs. In addition, Mylan says
that the Patent promises that efavirenz will treat HIV infection and AIDS
rendered resistant to other NNRTIs.
[80]
Only
by reading into the claims a promise that efavirenz will treat the “major” or
“most significant” NNRTI resistant HIV strains including the 188 mutant strain,
is Mylan able to assert a lack of demonstrated or predicted utility against the
broader and presumably untested class of mutations.
[81]
BMS
asserts a narrower construction of the 572 Patent claims. According to this
argument, the 572 Patent promises only that efavirenz inhibits HIV RT thereby
inhibiting HIV infection and rendering it useful to treat AIDS or ARC in humans.
BMS says that although the 572 Patent identifies an advantage of efavirenz over
other NNRTI compounds rendered resistant to specified strains of HIV RT, this
is not part of the promise of its claims. For the reasons that follow, it is
unnecessary for me determine if the 572 Patent promises efavirenz’s utility
only as against HIV RT or as against the HIV RT mutations that it was tested
against.
(d)The Evidence
[82]
In
support of its construction argument, Mylan relies on evidence from
Dr. Romero. Dr. Romero’s affidavit describes the promise of the 572
Patent in the following way:
74. In my opinion, the skilled person reading
the 572 Patent would conclude that the patent promises that efavirenz inhibits
HIV-RT, and that it does so potently against HIV-RT that has been rendered
resistant to other antiretroviral agents. This promise is stated explicitly on
page 1, lines 33-35, and on page 28, line 32 to page 29, line 2.
75. The skilled person would understand from
the 572 Patent that the compounds of Formula I, including efavirenz, are
effective against all of the most significant NNRTI-resistant strains
(including, but not limited to, mutant strains having amino acid substitutions
at positions 103, 181 and 188).
76.
As
underlined in the excerpt at paragraph 71 above, the 572 Patent also indicates
that efavirenz is useful as a laboratory screening tool to allow further
mutants to be isolated. It was known in 1993 that NNRTIs could be used by
culturing virus in the presence of the inhibitor to isolate mutant strains of HIV-RT
that were resistant to the NNRTI used to generate resistance. Efavirenz could not
be used as a screening tool “for more powerful antiviral compounds” unless it
was effective against all important mutant strains.
77. The 572 Patent also promises that
efavirenz is useful to treat HIV infection, and AIDS and ARC. This would be
understood by the skilled person to also be part of the invention’s promised
utility. It would be understood by the skilled person that the 572 Patent
promises that efavirenz will treat HIV infections, AIDS and ARC which have been
rendered resistant to other antivirals.
[Emphasis added]
Affidavit of Dr. Romero at paras 74-77.
[83]
As
set out above, Dr. Romero includes as part of the promise of the 572
Patent efavirenz’s stated advantage as a potent inhibitor against HIV RT
rendered resistant to other antivirals: see also Affidavit of Dr. Romero at
para 72. This characterization of the promise of the 572 Patent is, of course,
narrower than Mylan’s NOA which asserted that the 572 Patent promised that
efavirenz was “more effective against all known resistant mutants of HIV
RT than previously known compounds”: Notice of Allegation from Mylan
Pharmaceuticals ULC (4 November 2010) at p 13 [NOA] [emphasis added].
[84]
As
discussed above, when Drs. Coffin and Wainberg filed their affidavits, they
were responding to Mylan’s NOA which had asserted that the 572 Patent promised
that efavirenz was “more effective against all known resistant mutants of HIV
RT than previously known compounds” and was not useful because it was not a
potent inhibitor of “all resistant mutants of HIV RT known as of the filing
date”: NOA at p 13. They countered this assertion by pointing out that HIV
mutates at a very high rate and that new resistant varieties of HIV RT were, at
the time, constantly being identified. According to Drs. Coffin and Wainberg,
Mylan’s suggestion that the 572 Patent should be read to include the entire
range of resistant strains of HIV RT was unreasonable – a point that Mylan does
not now contest.
[85]
In
response to Mylan’s NOA, Dr. Coffin offered the following construction of
the promise of the 572 Patent:
68. The 572 Patent promises
that the compounds of the invention, including efavirenz, are inhibitors of HIV
reverse transcriptase. This is stated at page 1, lines 27 to 28:
Applicants demonstrate that the
compounds of this invention are inhibitors of HIV reverse transcriptase.
69. At pages 1 to 2, the
572 Patent also describes various advantages of the invention including inhibition
of resistant strains of HIV reverse transcriptase, prevention of infection by
HIV, treatment of infection by HIV and treatment of AIDS and/or ARC (see pages
1 and 2 of the 572 Patent for example).
70. As of 1994, the
treatment of AIDS/HIV was in its infancy and there was much still to be
understood about the disease. There was constant development and re-adjustment
of theories as scientists continued to research and advance the science in this
area. The skilled person would have understood that when a compound was able to
interfere with the replication of HIV, for example through inhibiting the
reverse transcriptase enzyme, it was expected that the compound would inhibit
HIV infection, treat HIV infection and treat AIDS and/or ARC. This is what the
inventors discuss when they refer to further advantages.
71.
At
page 1, lines 28 to 30 of the 572 Patent, it states:
The particular advantages of the present compounds
are their demonstrated inhibition of resistant HIV reverse transcriptase.
72. Here, the inventors are
referring to the demonstrated inhibition of resistant HIV reverse
transcriptase. In the patent, the inventors demonstrated inhibition to three
resistant strains: K103N, Y181C and a strain containing both K103N and Y181C
mutations (double mutant). I describe these data further in the next section of
this affidavit.
73. The person skilled in
the art would understand that reference to “demonstrated inhibition” means to
the specific resistant strains referred to and tested in the patent. This is not
a reference to inhibition of all resistant strains.
74. Mylan in its letter, at
page 13 states that the promise of the 572 Patent includes potent inhibition “against
all known resistant mutants of HIV RT”. Mylan then lists some of the known
resistant RT mutants in Table B at page 15 to 17 of Mylan’s Letter. Mylan then
states at page 17 that:
Although the tested mutations K103N, YI81C and
K103N/Y181C were reported in the literature prior to the filing date of the 572
Patent, these are by no means the most prevalent or important mutations. The
mutants tested in the 572 Patent were not representative of the resistant
mutants known on the filing date.
75. I completely disagree
with these statements. As I explained above, HIV strains containing the K103N
and Y181C mutations (alone and in combination) were the logical strains to
study at the time. [Indeed, [t]he HIV research group I work with still studies
these mutations to this day]. These were the most prevalent and most important
mutations against NNRTIs known at the time. To suggest otherwise is simply
wrong.
[Emphasis in original]
Affidavit of Dr. Coffin at paras
68-75.
[86]
When
Dr. Romero advanced a different and narrower construction of the claims,
Dr. Coffin filed an affidavit in reply. He pointed out that most of the
scientific references cited by Dr. Romero were not disclosed in Mylan’s
NOA and several of those references were published after the filing date of the
572 Patent. He also noted that in similar research, carried out by a group
that included Dr. Romero, the target compound was not tested against the
188 mutation.
[87]
Dr. Coffin’s
reply affidavit addressed Dr. Romero’s construction opinion in the
following way:
11. Despite the clear
wording of the patent, Dr. Romero asserts that “[t]he skilled person would
understand from the ‘572 Patent that the compounds of Formula I, including
efavirenz, are effective against all of the most significant HHRTI-resistant
strains (including, but not limited to, mutant strains having amino acid
substitutions at positions 103, 181,and 188)” [emphasis added].
12. Dr. Romero further
alleges that establishing the activity of an NNRTI against enzyme having
mutations at the 103, 181 and 188 position was necessary in order to
demonstrate that efavirenz, as a novel NNRTI, would be able to inhibit HIV RT
rendered resistant to other antivirals. The remainder of the Romero Affidavit
is almost entirely focussed [sic] on the alleged ‘failure’ of the patent
to present data in which the drug was tested against mutations at position 188.
13. Dr. Romero is wrong
when she suggests the 188 mutant was significant at the time. The skilled
person, when reading the ‘572 Patent, would not understand the ‘572 Patent as
promising that efavirenz is effective against all of the ‘most significant’
resistant strains. Rather, the person skilled in the art would understand that
the ‘572 Patent as demonstrating inhibition of the 103, 181 and double mutant
strains.
[Emphasis in original]
Reply Affidavit of Dr. John M. Coffin (26 January 2012)
at paras 11 -13.
[88]
Despite
Dr. Romero’s
initial assertion that the 572 Patent promises efavirenz’s efficacy against the
most significant HIV RT mutant strains (not limited to 103, 181 and 188) she
later seemingly narrows the list of treatable mutations to those at positions
103, 181 and 188 of HIV RT: see Affidavit of Dr. Romero at paras 90-91. Later
at paragraph 94, Dr. Romero returns to her initial position that in order
to fulfill this part of the promise the inventors needed to demonstrate efavirenz’s
utility “against mutant RTs with amino acid substitutions at position 188 (among
others)”. Nowhere in her evidence does she specifically identify the other
significant mutant strains that would be understood by a person of skill at the
time to be included in the promise of effective treatment.
[89]
Dr. Romero’s
approach to the construction of the 572 Patent represents a compromise position
between Mylan’s NOA and the plain reading of the 572 Patent. Nowhere in the
572 Patent is there a statement that efavirenz is effective against any
resistant mutant strains of HIV RT beyond those that were tested. It is only
by reading up the promise of efficacy that Mylan can argue that BMS had failed
to demonstrate what was promised.
[90]
The
inventors published their data in the 572 Patent to assist the skilled reader
to understand the scope of its promised utility. The 572 Patent speaks to what
had been experimentally demonstrated and clearly expresses the experimental
data. I do not accept that a person of skill would read more into the claims
than what was disclosed.
[91]
Although
Mylan is correct that a patentee is not required to disclose its evidence of
demonstrated utility, here the evidence was presented. There is simply no
basis for a person of skill to infer that the inventors had conducted
additional successful testing of efavirenz against any other viral mutations
that it inexplicably failed to disclose or to assign any particular
significance to the references in the disclosure to other antiviral compounds
including AZT.
[92]
Although
Dr. Romero opined that there were other material mutations that were
included in the promise of the patent, she failed to say what they were. The
sole focus of her concern was the 188 mutation and the inventors’ failure to
test efavirenz against it. I do not understand the logic of this criticism. I
can only conclude from Dr. Romero’s failure to define the outer limits of
the promise as she claims to have understood it, that, at the relevant time,
there was no clear scientific consensus about the mutant forms that were
considered to be clinically important to treatment with NNRTIs. This would
also explain the unsustainable assertion in Mylan’s NOA that the promise of the
572 Patent included all mutant forms of HIV RT. If Mylan and Dr. Romero
were unable to clearly identify the outer boundaries of the promise, I do not
understand the basis for their expectation that a person of skill would be in a
position to do so. This is a further reason to adopt the construction advanced
by BMS which also has the distinct advantages of clarity and precision.
[93]
According
to Mylan, Dr. Wainberg agreed with Dr. Romero’s construction opinion
and Dr. Coffin disclaimed any opinion on the subject: see Memorandum of
Fact and Law of Mylan Pharmaceuticals ULC (4 May 2012) at para 45.
[94]
I
do not agree that Dr. Wainberg adopted Dr. Romero’s view on the
critical issue of whether the 572 Patent promises utility against the major or
most significant HIV RT strains rendered resistant to other NNRTIs. His
evidence on this point was as follows:
568 Q. Looking at page 1, line
33, it’s saying:
“Compounds
of formula I, as herein defined, are disc1osed. These compounds are useful in
the inhibition of HIV reverse transcriptase (and its resistant varieties).”
Again, that’s something the
person skilled in the art would understand as part of the promise of the
patent?
A. Yes. The statement does not
say -- it says “its resistant varieties.” That’s a vague, general term. It
doesn’t state “all resistant varieties,” but it clearly makes the case that
this compound should be useful to block the replication of at least some
resistant varieties and HIV reverse transcriptase.
Cross-Examination of Dr. Mark A. Wainberg (25
January 2012) at pp 188-189.
[95]
Although
Mylan is correct that under cross-examination Dr. Coffin was somewhat
equivocal on this point, he did express some doubt that efavirenz’s efficacy
against HIV RT resistant strains was part of the promise of the Patent. In the
end, he appropriately recognized the problem to be fundamentally one of law and
not science: see Cross-Examination of Dr. John M. Coffin (27
January 2012) at pp 193-195.
[96]
The
parties adduced considerable evidence about the significance of testing the 188
mutation in the development of compounds useful to address the resistance
problem. I have no doubt that, at the material time, the 188 mutation had been
identified as a focal point for study, albeit perhaps not to the level of
importance ascribed to the 103 and 181 mutations. I do not accept, however,
that testing the efficacy of an HIV RT inhibitor against the 188 mutation or,
indeed, against any particular mutation would have been seen by a person of
skill to be a prerequisite for establishing a level of utility. On the
evidence before me, the development of a novel compound that inhibited only the
WT virus would have been seen as inventive and useful. Even if it would have
been prudent for the inventors to test efavirenz against the 188 mutation, I do
not see how this advances Mylan’s construction position. Mylan and
Dr. Romero acknowledged the utility of efavirenz insofar as it will
inhibit HIV RT and the resistant HIV strains that are expressly identified in
the 572 Patent. Mylan also acknowledges efavirenz’s efficacy to treat HIV and
AIDS in humans. The fact that the inventors may have chosen not to test
efavirenz against the 188 mutation is no basis for assigning to the
construction of the claims a promise of efavirenz’s efficacy to inhibit the
most significant HIV RT mutations let alone every known mutation.
[97]
I
agree with BMS that Mylan’s inutility argument rests upon a false premise –
that is, that efavirenz is not useful to treat conditions that the inventors
declined to examine and therefore did not assert.
[98]
On
the point of patent construction, I prefer the evidence of BMS’s witnesses. No
witness accepted Mylan’s NOA allegation that the Patent promised the inhibition
of all known resistant mutants of HIV RT. For the reasons expressed above, I
accept the construction opinions offered by Dr. Coffin and by
Dr. Wainberg as set out in their affidavits and I reject Dr. Romero’s
opinion. It follows from this that the 572 Patent is not invalid for inutility
and BMS is entitled to a prohibition order until its expiry.
C.
The 198 Patent
[99]
There
is no dispute that crystal forms of efavirenz had been previously made and
patented. The 198 Patent inventors claimed to have discovered a novel and
useful crystal form of efavirenz named Form I and the process for making it.
Mylan’s NOA alleges that a prior United States patent anticipated the process
for making Form I, that it was obvious and that, in any event, its efavirenz
product will not infringe.
(1) Claims Construction
[100]
Only
claims 1 to 3 of the 198 Patent are in issue. In order to resolve the
substantive issues in dispute, those claims must first be construed. They read
as follows:
1. Form I of [efavirenz] which is characterized
by an X-ray powder diffraction pattern comprising the following 2θ peaks
with intensities (I/Imax%) of 10 or greater:
|
6.0800
|
6.3900
|
|
10.3950
|
10.9875
|
|
12.2850
|
13.1900
|
|
14.1700
|
15.1925
|
|
16.9000
|
18.4375
|
|
19.2275
|
20.0925
|
|
21.2100
|
22.3600
|
|
23.0725
|
24.8900
|
|
25.9500
|
26.3575
|
|
27.2550
|
28.1150
|
|
28.5850
|
29.1325
|
|
29.5625
|
30.6850
|
|
32.3725
|
38.3125
|
2. Form I of [efavirenz] characterized by
having crystallographic D-spacings of 14.5, 8.5, 8.0, 7.2, 6.7, 6.2, 5.2, 4.6, 4.4,
4.2 and 3.6 Angstroms.
3. Form I according to Claim 2, having no
detectable peaks for Form II or Form III in its X-ray powder diffraction pattern.
[101] Mylan
argues that the above claims are directed to a highly pure Form I efavirenz
that is substantially free of other polymorphic forms. BMS says that the
claims do not imply any purity threshold so that a Mylan product that contains
any detectable level of Form I efavirenz will infringe.
[102] Mylan’s
construction case is built around the evidence of Dr. Cima. Paragraph 59
of his affidavit provides the following summary of his position:
59. Therefore, I would read claims 1-3 of the
198 Patent to add the words “in pure form” at the end of each claim. If this
limitation is not read into the claims, then the subject-matter of the claims
is not new, as the 198 Patent itself acknowledges. That is, I believe one
skilled in the art would construe claims 1-3 as referring to Form I and only
Form I. One skilled in the art would understand that the XRPD peaks
characterizing Form I would be present and no other peaks would be present.
It is my experience that even 5 wt. % contamination of other forms can be detected
by XRPD. Thus, claims 1-3 are referring to material that is greater than 95 wt.
Form I.
[Emphasis in original]
Affidavit of Dr. Cima at para 59.
[103] It is
of some interest that Mylan took the position in its NOA that its efavirenz
product would contain no amount of Form I, but now advances a construction
argument that, for purposes of infringement, would allow it to incorporate a
substantial amount of Form I in its final efavirenz product. I do not,
however, read Mylan’s NOA as including a stipulation that is inconsistent with
the evidence of Dr. Cima. The NOA frames the issue sufficiently to
fulfill the purposes of section 5 of the NOC Regulations.
[104] Under
cross-examination Dr. Myerson construed the claims more narrowly. He
testified as follows:
840 Q. Right. So we know that what the
inventors of the 198 patent did was obtain highly pure crystalline Form I of
efavirenz?
A. Sure. Typically when you’re trying
to characterize a polymorphic form that’s what you need to do.
841 Q. You would agree with me the invention
of Claim[s] 1-3 of the . . . 198 patent is highly pure form efavirenz?
A. No, it would not.
842 Q. That’s what the inventors claim?
A. Not what the claim says. The plain
language of the claim is Form I efavirenz containing certain XRPD peaks, either
peaks or d-spacings, if you have any amount of that form contained and you
detect all of those d-spacings then it’s within the limitation of the claims no
matter what other forms are present.
843 Q. But we know that the inventors
must have had at least enough of Form I to be able to identify all 26 of the
peaks in Claim 1; correct?
A. It’s certainly correct that in
characterizing the form you have a relatively pure polymorphic form in order to
characterize its X-ray diffraction degree. That’s not the same as then claiming
this crystalline form in any proportion and any mixture because you’re actually
claiming the form itself, not in pure form but just in any amount. So Claims 1
and 2 are certainly, to my mind mean any detectible amount that meets the limitation
of those claims. In fact, Mylan in its NOA didn’t say it didn’t infringe
because the efavirenz present in its tablets was not pure Form I, it actually
says that no detectible amount of Form I. I can read the language exactly but
if you read what it says in the NOA in your noninfringement contention it
actually says it itself.
Cross-Examination of Allan Myerson, Ph.D. (12
January 2012) at pp 190-191 [Cross-Examination of Dr. Myerson].
[105] There
is an inherent weakness to Dr. Cima’s construction opinion in that it
requires the person of skill to add to the language of the claims the words
“Form I efavirenz in pure form”. I accept that Free World stands, in
part, for the idea that claims language can be supplemented either by the
language of the disclosure or by implication from that language. Nevertheless,
there is some judicial reluctance about reading down patent claims in the
manner urged by Mylan where the necessary inference is not unequivocally borne
out by the disclosure.
[106] A
central component of Mylan’s construction case is based on the inclusion in the
claims of the XRPD patterns and d-spacings. According to Mylan, this
additional language limits the scope of the claims to Form I efavirenz with a
purity greater than 95%. Only with that level of purity could one expect to
see the requisite peaks and d-spacings and no others. Dr. Cima testified
that “having a claim narrowly limited to 26 peaks implies that we’re talking
about . . . a pure form because it would be difficult to find the weakest peak
if it was a mixture”: Cross-Examination of Michael Cima (13 January 2012) at p
67 [Cross-Examination of Dr. Cima].
[107] It
seems to me, however, that another and more plausible rationale can be taken
from the inclusion of this information in Claims 1 and 2: the inventors were
simply informing a reader of the XRPD pattern of Form I efavirenz without
ascribing any particular level of purity to the resulting product. The fact
that Claim 3 incorporates an aspect of purity suggests that Claims 1 and 2 do
not. Added to this is Dr. Myerson’s evidence that even in an amalgam of
different crystal forms, Form I could be identified using a specialized
microscope and, if segregated from the amalgam, it could be analyzed by XRPD to
confirm its identity.
[108] Dr. Cima’s
opinion rests on an inference. According to him substantial purity is implied
despite the fact that the disclosure does not say that pure Form I will be
obtained by the process described. The fact that the inventors claimed a
process that produced purer Form I efavirenz does not lead to a conclusion that
the claims are limited to essentially pure Form I. The previously identified
process for making Form I as described in the “Background of the Invention” of
the 198 Patent indicates that the earlier process produced a compound of
minimal purification that was difficult to handle. The promise of the 198
Patent is only that the claimed process is better, not perfect.
[109] On
this question I prefer the evidence of Dr. Myerson. Dr. Myerson
deposed that the presence of the stated diffraction patterns for Form I
efavirenz does not mean that other crystal forms or impurities could not be
present. Those readings simply indicate to a person of skill that Form I
efavirenz is present and detectable in the sample. According to
Dr. Myerson, only Claim 3 indicates that efavirenz in Forms II and III
will be less than 5 to 10% of the claimed compound. I accept BMS’s
construction of the claims in issue. It follows that, absent a finding of
invalidity, if the Mylan efavirenz product is proven to contain any detectable
amount of Form I efavirenz, it will infringe.
(2) Anticipation
[110]
Mylan
contends that the United States Patent Number 5,519,021 (the 021 Patent), which
was also published as WO95-20389, disclosed the subject matter of Claims 1 to 3
of the 198 Patent . Mylan argues that, according to the BMS construction of
the claims in issue, practising the 021 Patent would necessarily produce Form I
efavirenz. Apart from the 021 Patent, there is no other prior art cited by
Mylan establishing anticipation: see Cross-Examination of Dr. Cima at p
55.
[111] The
legal principles that apply to anticipation are summarized in Abbott
Laboratories v Canada (MOH), 2008 FC 1359 at para 75, [2009] 4 FCR 401
aff’d 2009 FCA 94, 73 CPR (4th) 444:
1. For there to be
anticipation there must be both disclosure and enablement of the claimed
invention.
2. The disclosure does
not have to be an "exact description" of the claimed invention. The
disclosure must be sufficient so that when read by a person skilled in the art
willing to understand what is being said, it can be understood without trial
and error.
3. If there is sufficient
disclosure, what is disclosed must enable a person skilled in the art to carry
out what is disclosed. A certain amount of trial and error experimentation of a
kind normally expected may be carried out.
4. The disclosure when
carried out may be done without a person necessarily recognizing what is
present or what is happening.
5. If the claimed
invention is directed to a use different from that previously disclosed and
enabled then such claimed use is not anticipated. However if the claimed use is
the same as the previously disclosed and enabled use, then there is
anticipation.
6. The Court is required
to make its determinations as to disclosure and enablement on the usual civil
burden of balance and probabilities, and not to any more exacting standard such
as quasi-criminal.
7. If a person carrying
out the prior disclosure would infringe the claim then the claim is
anticipated.
[112] Mylan’s
anticipation argument is premised on an assumption (supported by Dr. Cima)
that what the inventors produced in the 021 Patent and described only as a
white crystal with a melting point of 131ºC to 132ºC was Form I efavirenz.
[113] Dr. Cima
concedes at paragraph 102 of his affidavit that the crystal form of efavirenz
produced by the teaching of the 021 Patent was solely characterized by its
melting point. He also acknowledges that the observed melting point “does not
correspond to any known pure crystal form of efavirenz” and is 8ºC lower than
the known melting point of Form I. He then makes an incredible leap by
assuming that the 021 Patent inventors likely erred in their melting point
measurement: Affidavit of Dr. Cima at paras 104-105. Under cross-examination,
Dr. Cima offered the following tenuous justification for this view:
A. Well, I think someone skilled in
the art would know that melting points can be inaccurately measured.
366 Q. But is there anything in this patent
that suggests that that measurement was anything other than an accurate
measurement?
A. I think a person skilled in
the art takes this for what it’s worth on the page and checks every measurement
you can.
367 Q. And he could do that by running a
repeat, for example?
A. That’s right.
368 Q. If someone were interested -- if
there was a compound or structure and interested they would go to their lab and
run it and your suggestion it might turn out to be Form I or turn out to be
something else?
A. Might turn out to be Form I
but their measurement of the melting point might vary and it does, I can tell
you it does.
Cross-Examination of Dr. Cima at p 80.
[114] Dr. Cima
concludes this part of his opinion with the following:
108. If it is true, as Dr. Myerson apparently
believes, that any form of efavirenz converts to crystalline Form I efavirenz
upon being exposed to mild drying conditions, it is likely that a person making
the crystalline form taught in the US 021 Patent would in fact have made
crystalline Form I efavirenz, whether or not this person characterized the
crystalline form he obtained. It is not inventive in my field - and was not
inventive in 1998 - to characterize a sample with XRPD.
109. Therefore, if the invention in claims 1-3
of the 198 Patent is construed to be crystalline Form I efavirenz itself, the
invention in these claims was disclosed and enabled by the process and results
described in the 021 Patent. A person skilled in the art following the disclosure
in the 021 Patent would have made crystalline Form I efavirenz as claimed in
the 198 Patent.
Affidavit of Dr. Cima at paras 108-109.
It is not entirely clear to me that
the above statement represents Dr. Cima’s view or is simply an attempt to
criticize Dr. Myerson’s opinion. In any event it is not persuasive.
[115] Dr. Cima’s
opinion is not only speculative; it is based on the improbable assumption that
an error was made by the 021 Patent inventors in measuring the melting point of
the efavirenz crystal form they had produced. I do not accept Dr. Cima’s
evidence that Form I efavirenz was likely produced by the inventors of the 021
Patent nor do I agree that a person of skill would draw such a conclusion from
its teachings. Instead I accept the evidence of Dr. Myerson as set out
below:
87. Mylan alleges that the
crystal made according to the teaching of the US ‘021 Patent at columns 29-30
is nevertheless Form I efavirenz.
88. The US ‘021 Patent in example 6 at step D (column 30, line 22) describes a synthetic procedure
for the preparation of efavirenz. The final purification step involves
recrystallization of the synthesized material from hot hexane to produce white
crystals with a melting point of 131°-132°C.
89. Melting points are used
to characterize crystal forms of compounds (polymorphs) as well as to indicate
the chemical purity of these materials. Relatively pure solids generally have
melting points within a range of approx. 1ºC when measured (e.g. 131°-132°C).
Different polymorphs will have different melting points.
90. The sharpness of a
melting point determination (that is, the difference between the lower and
higher temperatures given for the melting point) is an indication of chemical
purity and crystal form purity. The sharper the peak (the narrower the
difference), the less likely that there are significant amounts of another
crystal form present in the solid.
91. A melting point range
of 1°C is considered a relatively sharp melting point and would generally
indicate a pure crystalline phase.
92. Form I efavirenz has a
melting point of 139°C, as shown in the DSC labelled Figure 6 of the ‘198
Patent and also at page 9, lines 18-23. The melting point is sharp.
93. The form produced in
the US ‘021 Patent has a melting point of 131°-132ºC, which is substantially
different from that of Form I efavirenz. As a result, one of ordinary skill in
the art would not confuse the form produced in the US ‘021 Patent with Form I
efavirenz. Rather, a person of ordinary skill would conclude that the form produced
in the US ‘021 Patent is a different form than Form I.
94. Hence, this example
from the ‘021 Patent does not disclose Form I efavirenz as claimed in [the] ‘198
Patent. Thus, Mylan’s allegation that the US ‘021 Patent anticipates claims 1-3
of the ‘198 Patent is not justified.
Affidavit of Dr. Myerson at paras 87-94.
For the reasons given above,
Mylan’s anticipation argument is rejected.
(3) Obviousness
[116]
Mylan
contends that because other crystal forms of efavirenz were known in the prior
art it would have been self-evident to a person of skill that other useful
crystal forms could be created by using routine techniques for inducing
polymorphic transformations.
[117] Mylan’s
position on this issue is contained in the following paragraphs from Dr. Cima’s
affidavit:
114. If it is accepted that any crystalline form
of efavirenz converts to Form I under mild drying conditions (as Dr. Myerson
suggests), then crystalline Form I would have been obvious to a person skilled
in that art practising the invention in the US 021 Patent. It is inconsistent
for Dr. Myerson to argue on the one hand that independently finding crystalline
Form I efavirenz would require considerable experimentation (Myerson Affidavit
at para. 118) and, on the other hand, that crystalline form I efavirenz is
inevitably formed, by accident, during Mylan’s tableting process (Myerson
Affidavit at para 81).
115. At paragraph 115, Dr. Myerson argues that
the person of ordinary skill in the art would not have arrived at the precise
conditions of the process disclosed in the 198 Patent to make Form I. It is of
no moment that the US 021 Patent does not describe the process disclosed in the
198 Patent because this is not the invention in claims 1-3 of the 198 Patent.
116. Under Dr. Myerson’s analysis, claims 1-3 of
the 198 Patent claim crystalline form I in any amount, as an allegedly novel
crystalline form, however produced. The issue is whether a skilled person aware
of the invention in the 021 Patent would have arrived at Form I by any process,
whether similar or not to that disclosed in the 198 Patent.
117. In my view, any skilled person looking for
crystalline forms of efavirenz would have heated and recrystallized efavirenz
in the organic solvents, such as hexane, disclosed in the 021 Patent (see 021
Patent, col. 30:38). These basic steps would have resulted in crystalline Form
I.
118. Contrary to what Dr. Myerson suggests at
paragraph 118 of his Affidavit, I do not believe that the invention in the 198
Patent consists in disclosing the properties of Form I. The 198 Patent refers
to Form I as being “less viscous and more homogeneous” than the final slurry
obtained with previous processes (see p. 11, lines 22-31). These are not
surprising properties for a crystalline form.
[118] Dr. Myerson
provided considerably more evidence in his affidavit on this issue as can be
seen from the following extracts:
104. Contrary to Mylan’s assertion on page 32 of
the Mylan Letter [NOA], it would not be more or less self-evident that other
crystalline forms of efavirenz exist, nor would be more or less self-evident
that, if additional crystal forms did exist, they would have properties that
would be suitable for pharmaceutical preparations. A given compound can exist
in a single crystal form or in multiple crystal forms. These crystal form(s)
can be non-solvated (or non-hydrated) crystal form(s) or can be solvates (or
hydrates). Prior to actual discovery and characterization, it would be
impossible for a person skilled in the art to predict the number of forms of a
given compound or their properties and thus their potential use in a
pharmaceutical formulation.
105. Knowledge of the existence of a single
crystalline form of a given compound gives no information on whether additional
forms exist or the properties of these potential crystal forms.
106. On page 35 of the Mylan Letter, Mylan
alleges that techniques for carrying out polymorphic transformation were
well-known at the relevant time and that “[v]arious polymorphs of efavirenz could
have been easily and routinely prepared, and tested simultaneously to determine
the physical properties and relative suitability for use in pharmaceutical
preparations, Mylan goes on, in pages 35-44, to cite multiple references
discussing such techniques.
107. The search for new polymorphs, as
previously noted, has become a significant part in the development of new
pharmaceutical products. Polymorph screening for a given compound can involve
thousands of experiments performed over many months or even longer. In the relevant
time period, polymorph screening was done by individuals without significant
automation.
108. While the general methods to perform
crystallizations at different conditions and with different solvents was
well-known, the combination of different solvents, solvent mixtures,
temperatures, cooling rates, evaporation rates, as well as other potential
variables that can be changed, make the number of potential experiments that
can be conducted in a polymorph screening exercise very large.
109. Given a particular compound such as
efavirenz, a person of ordinary skill could not predict the level of effort
required to obtain additional polymorphs and in fact, could not predict whether
the screening effort would be successful in finding additional polymorphs. In
addition, any potential polymorphs discovered might not have properties which
are suitable for formulation into a drug product.
110. On pages 35-44 of the Mylan Letter, Mylan
cites several textbooks and reference books (including my own) in support of
the proposition that the prior art teaches many methods for performing crystallization
including the use of anti-solvents. While these books describe crystallization techniques
in general, they provide no teaching of the polymorphs of efavirenz, how to
make them, and in particular how to prepare Form I efavirenz. At best the
documents cited by Mylan suggest that many compounds can be crystallized, and
that many factors, including solvents and temperatures, can affect the ability
to crystallize. Nothing in these documents make it obvious that crystalline
Form I exists and can be prepared.
…
115. As previously discussed, the use of a
variety of organic solvents for crystallization and as anti-solvents has been
disclosed in many references. The fact that the ‘198 Patent employs “methanol,
ethanol, and 2-propanol”, and these solvents are commonly known to be used in
crystallizations along with other solvents and solvent combinations, does not
make the precise conditions disclosed in the ‘198 Patent to prepare Form I
efavirenz with the disclosed 2θ and d-spacings self-evident to one
of ordinary skill. One of ordinary skill would recognize that methanol,
ethanol, and 2-propanol, are one of many of potential solvents and solvent
combinations that could be used to potentially crystallize efavirenz. The
determination of specific solvents and solvent ratios, along with temperatures
and other crystallization conditions required to produce Form I efavirenz,
would involve significant experimentation by one of ordinary skill.
116. On page 41 of the Mylan Letter, Mylan
discusses how analytical methods such as XRPD, DSC and thermogravimetic
analysis (TG), nuclear magnetic resonance (NMR), differential thermal analysis,
and electron microscopy were well-known methods for characterizing polymorphs.
While it is correct that one of ordinary skill would understand that these methods
could be used to characterize polymorphs, these methods can only be used to characterize
a polymorph after it has been made. The ability to characterize a polymorph
gives no information as to how to prepare a particular polymorphic form.
117. On page 43 of the Mylan Letter, Mylan
discusses the fact that Form I efavirenz is the most stable thermodynamic form
and that other forms of efavirenz will convert to Form I under various drying
conditions. One of ordinary skill would not know based on the prior art the
existence of any of the crystalline forms of efavirenz, nor would they know,
without significant experimentation that Form I was the most stable form. The
arguments made by Mylan, are clearly made with hindsight indicating that
something that has already been made and characterized is obvious based on the
knowledge of its properties.
118. The opposite of course is true, one of
ordinary skill would have to discover one or more crystal forms of efavirenz,
characterize them, and determine their relative stability, to allow
understanding of the polymorphs of efavirenz and their conversion from form to
form . The existence of and the characteristics of Form I efavirenz, as claimed
in the ‘198 Patent, would not have bean self- evident to the person skilled in
the art based on the prior art cited by Mylan or the knowledge and information
available to them in 1998.
119. On page 44 of the Mylan Letter, Mylan
asserts that “the person skilled in the art possessed with the knowledge that
efavirenz existed in crystal form would have been strongly motivated to
determine the existence of other crystal forms, and to determine their
suitability of each crystal form for use as a pharmaceutical preparation.” The
inventors of efavirenz, as well as other researchers employed by the patent
holder, would consider looking for additional solid forms of efavirenz. Other
individuals not associated with the invention of efavirenz or employed by the
patent holder, would not necessarily be interested in searching for additional
crystalline forms.
120. Even if one of ordinary skill had looked
for additional solid forms of efavirenz, one of ordinary skill would have no way
of predicting whether these additional crystalline forms existed, and in
particular, could not predict the existence of Form I efavirenz with the 2θ
angles and d-spacings described in the ‘198 Patent. Thus, Mylan’s allegation
that the subject matter of claims 1-3 of the ‘198 Patent is obvious is not
justified.
[119] The
complexities of polymorph screening were conceded by Dr. Cima under
cross-examination: see Application Record, Volume 21, Tab 26 at pp 5957 to
5960. In that testimony he acknowledged that polymorphism was scientifically
unpredictable and the processes involved were, at the relevant time, tedious
and subject to many variables. A particularly compelling passage from
Dr. Cima’s evidence is the following:
A. Yeah. What was – – obviously it
was known at the time in many cases, not all cases, the desired form was the,
quote, most thermodynamically stable form, and while that was certainly known
to be desirable in many cases there wasn’t a systematic way of finding that. And
as you probably are aware, there were notorious and since been other notorious
problems where one form is selected and developed and on the market it decides
to change.
Dr. Cima also conceded that in
1998 it was not known that Form I efavirenz was the most thermodynamically
stable crystal form of efavirenz: see Application Record, Volume 21, Tab 26 at
p 6014.
[120] The
above evidence is inconsistent with the factors that must be established for
finding of obviousness: see Apotex Inc. v Sanofi-Synthelabo Canada Inc.,
2008 SCC 61, [2008] 3 S.C.R. 265 at pp 293-294. I do not agree that before
February 1998 the amount of effort required to find Form I efavirenz would be
considered by a person of skill to be routine or non-arduous. I also do not
accept that a person of skill would have considered it to be self-evident that
the product obtained would be useful.
[121] I am
therefore satisfied on a balance of probabilities that the invention claimed by
the 198 Patent was not, at the relevant time, obvious.
(4) Infringement
[122]
A
central pillar of BMS’s infringement case rests on an allegation that the Mylan
NOA contains an admission that Form [omitted] will convert to Form I under mild
drying conditions. Because Form [omitted] will have to be dried during Mylan’s
wet granulation tabletting process, BMS contends that some detectable amount of
Form I will be created by polymorphic conversion.
[123] The
NOA statement relied upon by BMS is contained within Mylan’s obviousness
allegations. It reads as follows:
In addition to processes for making Form I efavirenz
by crystallization from a solvent and anti-solvent system, the 198 Patent also
teaches, at page 11, that the crystallization process of the 198 Patent
produces a form of efavirenz that will convert to Form I under mild drying conditions.
In fact, all forms of efavirenz will convert to Form I under mild drying
conditions. This is admitted in WO 99/64405, entitled “Crystalline Efavirenz,”
which teaches at pg 23, lines 12-20:
Form 1 is the most thermodynamically stable form. It
has a melting point of about 138°C to about 140°C, which is the highest of the
four forms. Due to its increased stability, it is commonly used for drug
formulation. All other forms may be converted into Form 1 during drying at
about 60°C to about 110°C. Conversion and drying is preferably done in a dryer
oven at about 70°C to about 110°C under reduced pressure. More preferred is
about 75°C to about 85°C.
NOA at p 43 [emphasis added].
[124] I do
not agree that the above passage constitutes a binding admission by Mylan. In
context, this paragraph refers to the teachings of a Dupont patent application
(W099/64405) [omitted]. Moreover, those crystal forms that were said to
convert to Form I did so with the use of solvents (unlike water) in which
efavirenz would readily dissolve or involved three days of drying at a
temperature of 95ºC. Those conditions have not been shown to be an aspect of
Mylan’s wet granulation process. [omitted]. Accordingly, the conditions that
would influence the conversion of Form [omitted] to Form I under mild drying
conditions were very different from the prevailing conditions under which the
Dupont efavirenz compounds were observed to convert.
[125] Dr. Cima’s
affidavit provides the scientific context underlying Mylan’s NOA assertion .
and this evidence was substantially uncontradicted: see Affidavit of Dr. Cima
at paras 86-89. The NOA statement relied upon by BMS cannot be read
unqualified by the scientific context described by Dr. Cima. Therefore I
do not agree that it constitutes an admission of infringement by the conversion
of [omitted] to Form I in Mylan’s tablet manufacturing process. I am,
accordingly, left to assess the remaining evidence in the absence of any
binding admission by Mylan.
[126] The
parties agree that the initial active pharmaceutical ingredient (API), Form
[omitted], in Mylan’s manufacturing process will not infringe. That is so
because [omitted] form of efavirenz than Form I.
[127] BMS’s
infringement concern is that Mylan’s Form [omitted] will convert to Form I
during the tablet manufacturing process because of the necessary application of
heat during drying. BMS asserts, and it does not appear to be in dispute, that
some level of heating is required to evaporate the water from the initial
mixture and again when the final coating is applied to the tablet. Mylan
denies that any conversion will occur during its tabletting process and, for
that reason, it will not infringe the 198 Patent.
[128] A
problem for BMS is that Mylan refused its request for detailed information
about its manufacturing processes and provided no information about the final
composition of its efavirenz tablet. Mylan also refused to turn over a sample
of the final product to allow BMS to conduct its own testing. BMS says that
Mylan held all of the evidentiary cards and that an adverse inference ought to
be drawn from its failure to disclose that evidence.
[129] There
is no doubt that Mylan could have put that issue squarely to rest by producing
the information requested by BMS or by producing reliable data from its own
testing of the product if any was done. Instead, Mylan asked Dr. Cima to
opine about this infringement issue on the strength of his general knowledge of
the science of crystallization and the typical manufacturing processes that
would be expected for the production of such a tablet. Mylan very deliberately
failed to inform Dr. Cima about the details of the process it uses to
produce its efavirenz tablet. I agree with BMS that it would have been a
relatively simple exercise for Dr. Cima to have tested Mylan’s efavirenz
tablet to determine if Form I was present, but Mylan avoided that option as
well.
[130] The
essential problem with BMS’s position is that it, too, could have done much
more to establish the likelihood of conversion. Mylan did not hold all of the
evidentiary cards on this critical issue of infringement.
[131] Dr. Myerson
admitted that he had the ability and knowledge to make Form [omitted]: see
Cross-Examination of Dr. Myerson at p 172.). He also had the ability to
subject Form [omitted] to a set of conditions that would mimic a typical wet
granulation drying process. I have no doubt that had Dr. Myerson
conducted an experiment of this sort and established some level of conversion,
BMS would have met its burden of proof – provided that Mylan was unable to
contradict it.
[132] In
the absence of evidence of this sort, Dr. Myerson speculated about the
potential for Form [omitted] to convert to Form I. That was certainly the view
of Prothonotary Aalto in his decision declining to order Mylan to provide
additional disclosure – a decision that was upheld on appeal.
[133] It is
clear from Dr. Myerson’s affidavit and from his testimony that he did not
address the conditions under which Form [omitted] would convert beyond
accepting that all crystal forms of efavirenz will convert to Form I given the
application of sufficient energy over time: see Cross-Examination of Dr.
Myerson at pp 166-171. Instead, Dr. Myerson’s opinion about the likely
presence of Form I in Mylan’s efavirenz product is dependant upon the existence
of a binding admission in Mylan’s NOA that all crystal forms of efavirenz will
convert to Form I under mild drying conditions. His testimony on this point is
as follows:
499 Q. And the Mylan product information.
So you rely on these two buckets of information for the purpose of reaching the
conclusion in Paragraph 81; correct?
A. That’s correct.
500 Q. In fact, both buckets of information,
if we can call them that, Mylan’s NOA and your view that Mylan’s process
involved mild drying temperatures, both of these buckets are necessary for you
to reach the conclusion you reach in Paragraph 81; correct?
A. Yes.
501 Q. So I’m going to suggest to you
that if you did not rely on the NOA in your affidavit you could not reach the
conclusion that you reached in Paragraph 81 of your affidavit?
A. Meaning absent the information
in the NOA?
502 Q. Yes.
A. I would say that’s correct.
…
506 Q. Is there anywhere else in this
affidavit, Dr. Myerson, where you reached a conclusion that the final Mylan
tablet product will contain Form I efavirenz as claimed in 1, 2, 3 of the 198
patent without relying on the Mylan statement?
A. My whole -- my NOA relies on
-- I’m sorry. My affidavit relies on all the information given in this case
which includes the Mylan NOA. Those -- that’s how I base my opinion.
507 Q. Fair enough. I understand that to
be your answer. I want to make sure I understand how your opinion hangs, so to
speak. Is there any portion in this affidavit where you reach the conclusion
that you do in Paragraph 81 without relying on Mylan’s statement?
A. In the affidavit as written,
that’s correct, there is no other.
…
736 Q. Dr. Myerson, is it your view that
all crystal forms of efavirenz will convert to Form I as claimed in the 198 patent
under mild drying conditions?
A. I’ve been instructed by counsel
I can assume that that statement in the Mylan NOA is true.
Cross-Examination of Dr. Myerson at pp 113, 115-116,
164.
[134] Having
found that Mylan’s NOA does not contain an admission that Form [omitted] will
convert to Form I under mild drying conditions, I am left with no evidence to
support the BMS conversion theory which, of course, underpins its infringement
allegation.
[135] The
weight of the evidence before the Court on the issue of infringement favours
Mylan. Notwithstanding the failure by Mylan to fully inform Dr. Cima
about all of the particulars of its tabletting process, he was able to opine
from what was known that a conversion of Form [omitted] to Form I was
unlikely: see Cima affidavit at paras 83-97. While this undoubtedly does not
represent the best available evidence, it was not challenged by Dr. Myerson
who, instead, was told by BMS to assume that all forms of efavirenz will
convert to Form I under mild drying conditions. Dr. Cima’s evidence is
also not speculative. It had a scientific foundation which led him to believe
that Mylan’s tabletting process would not be expected to incite a conversion.
[136] I
also do not agree with BMS that its infringement allegation can be supported by
the drawing of an adverse inference from Mylan’s refusal to disclose. That
refusal was upheld by the Prothonotary and sustained on appeal. Furthermore,
as stated above, BMS had the ability to make and to test Form [omitted]. It
chose not to do so and, instead, had Dr. Myerson base his opinion on an
unwarranted assumption. This is not a situation where all of the information necessary
to prove infringement was particularly within the knowledge of Mylan or
manifestly beyond the power of BMS to ascertain. It is not a requirement in
these proceedings that conclusive evidence be produced to meet the burden of
proof on this point: see Pfizer Canada Inc. et al v Apotex Inc. et al
(2004), 31 CPR (4th) 214 at paras 15 to 17. I am not prepared to
draw an adverse inference in a situation where BMS made a strategic choice not
to pursue evidence that might have satisfied its burden of proof. Because BMS
carries the ultimate burden of proof, the absence of evidence of infringement
leads necessarily to a finding that its allegation has not been proven to be
justified.
[137] Because
BMS has failed to establish that Mylan’s allegation of non-infringement is not
justified no order of prohibition will issue with respect to the 198 Patent.
[138] I
would be remiss if I did not add a comment about the strategic manoeuvring that
was apparent around this issue. The judicial process may not be well-served by
strategies that fail to put the best available evidence before the Court. That
is particularly true in proceedings of this type where evidentiary limitations
are already built-in. The danger, of course, is that inconsistent outcomes may
arise if and when a later action is brought forward for infringement on the
strength of evidence deliberately withheld in an earlier NOC proceeding.
[139] If
the parties are unable to come to an agreement with respect to costs, I will
hear each of them in writing on that issue. I will allow BMS 21 days to file a
written submission and Mylan will have 14 days thereafter to respond. Neither
submission is to exceed 10-pages in length.
JUDGMENT
THIS
COURT’S JUDGMENT is that:
[1]
the
application is allowed in part;
[2]
the
Minister is prohibited from issuing a Notice of Compliance to Mylan in respect
to its efavirenz drug product until the expiry of Canadian Letters of Patent
2,101,572; and
[3]
the
issue of costs is reserved pending further submission from the parties.
"R.L.
Barnes"
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