IBOARDS OF APPEAL OF CHAMBRES DE RECOURS
DES EUROPAISCHEN THE EUROPEAN PATENT DE EUROPEEN
PATENTAMTS OFFICE DES BREVETS

Internal distribution code:

(A) Publication in OJ

(B) To Chairmen and Members
(C) To Chairmen

(D) No distribution

Datasheet for the decision
of 24 January 2019

Case Number: 1680/17 3.3.01
Application Number: lOl80667.7
Publication Number: 2266573

IPC: 


Language of the proceedings: EN

Title of invention:
Fulvestrant formulation

Patent Proprietor:
AstraZeneca AB

Opponents:

Hexal AG

Actavis Group PTC ehf

Fresenius Kabi 
Intas Pharmaceuticals Ltd.

Teva Pharmaceutical Industries Ltd.

Headword:


Relevant legal provisions:

EPC Art. lOO(c), 123(2), 76(l), lOO(b), lOO(a), 54(2),

This datasheet is not part of the Decision.

EPA Form 3030 It can be changed at any time and without notice.



56

Keyword:
Inventive step (yes) reasonable expectation of success (no)

This datasheet is not part of the Decision.

EPA Form 3030 It can be changed at any time and without notice.

 



Bahama-m:





2mm: mafeps'sw 
?935: ma?a-is

 

 

 

 

 

Beschwe rdekammern Boards of Appeal of the

European Patent Office
Richard-Reitzner?Allee 8

Boards of Appeal 85540 Haar

GERMANY
Tel. +49 (0)89 2399-0

ha bres de re CO rs Fax +49 (0)89 2399-4465

Case Number: 1680/17 3.3.01

of

Appellant:

(Patent Proprietor)

Representative:

Respondent 1:
(Opponent 1)

Representative:

Respondent 2:
(Opponent 2)

Representative:

Respondent 3:
(Opponent 3)

I I 

Technical Board of Appeal 3.3.01
of 24 January 2019

AstraZeneca AB
151 85 deertalje (SE)

Hoffmann Eitle

Patent? und Rechtsanwalte 
Arabellastra?e 30

81925 MUnchen (DE)

Hexal AG
Industriestrasse 25
83607 Holzkirchen (DE)

Greiner, Elisabeth

df?mp Dorries Frank?Molnia Pohlman
Patentanwalte Rechtsanw?lte PartG 
TheatinerstraBe 16

80333 MUnchen (DE)

Actavis Group PTC ehf
Reykjavikurvegur 76-78
222 Hafnarfjordur (IS)

Best, Michael

Lederer Keller

Patentanwalte Partnerschaft 
2

80538 MUnchen (DE)

Fresenius Kabi 
Else?Kroner?Str. 1
61352 Bad Homburg (DE)

Representative:

Respondent 4:
(Opponent 4)

Representative:

Respondent 5:
(Opponent 5)

Representative:

Decision under appeal:

Composition of the Board:

Chairman A. Lindner

Fresenius Kabi 
Patent Department

Borkenberg 14

61440 Oberursel (DE)

lntas Pharmaceuticals Ltd.
2nd Floor Chinubhai Centre
Ashram Road

Ahmedabad 380009

GUJ (IN)

Ter Meer Steinmeister Partner
Patentanwalte 

StraBe 4

80335 MUnchen (DE)

Teva Pharmaceutical Industries Ltd.
5 Basel Street
Petach Tikva 49131 (IL)

Best, Michael

Lederer Keller

Patentanwalte Partnerschaft 
2

80538 MUnchen (DE)

Decision of the Opposition Division of the
European Patent Office posted on 20 July 2017
revoking European patent No. 2266573 pursuant to
Article 101(2) and Article 101(3)(b) EPC.

Members: M. Pregetter

M. Blasi

 1 1680/17

Summary of Facts and Submissions

II.



European patent no. 2 266 573 was filed as patent
application no. 10 180 667.7 (document It is a
divisional application of the parent application

no. 05 016 921.8 (document published as

669 073 A1, which in turn is a divisional
application of the root application no. 01 900 186.6,
filed as an international application which was
published as WO 01/51056 (document 

Independent claim of the patent in suit as granted

reads as follows:

A pharmaceutical formulation for use in the
treatment of breast cancer by intra-muscular injection,
wherein the pharmaceutical formulation comprises
fulvestrant, a pharmaceutically?acceptable alcohol



being a mixture of 10 6 weight of ethanol per volume of
formulation and 10 weight of benzyl alcohol per
volume of formulation, and the formulation contains

15 weight of benzyl benzoate per volume of
formulation and a sufficient amount of a ricinoleate
vehicle so as to prepare a formulation of at least

45 fulvestrant, wherein the ricinoleate
vehicle is castor oil, and wherein the total volume of

the formulation is 6 ml or less."
In addition to those appearing in point I, the
following documents, cited during the opposition/appeal

proceedings, are referred to below:

(1) McLeskey et al., Clinical Cancer Research, 1998, 4,
697?711

(4) Howell et al., Br. J. Cancer, 1996, 74, 300?308

 2 1680/17

(5) Howell et al., Lancet, 1995, 345, 29-30

(7) EP 346 314 B1

(9) Riffkin et al., J.Pharm.Sci., 1964, 891-895

(10) O'Regan, J. Nat. Cancer Inst., 1998, 90(20),
1552?1558

(11) Howell et al., Eur. J. Cancer, 1998, 34, 819

(14) DeFriend et al., Cancer Res., 1994, 54(2), 408?414

(15) Wade and Weller Handbook of Pharmaceutical
Excipients, 2nd edition, 1994, pages 7-9 and 38-39

(21) Avis, Lieberman and Lachman Pharmaceutical
Dossage Forms: Parenteral Medications Volume 1, 2nd
edition, 1992, pages 173, 174 and 192

(23) Declaration of Dr Schaupp, 22 October 2015, 10
pages

(34) Dukes et al., J. Endocr., 1992, 135, 239?247

(35) Robertson et al., Clin Pharmacokinet, 2004, 43(8),
529?538

(43) Press release, thepharmaletter, printout from
internet: "Zeneca Allays Fears of Near?Term Product

Gap", 4 December 1997, 3 pages

(44) Press release, Pink Sheet, printout from internet:
"Zeneca faslodex Phase trial v. tamoxifen to start

in early 1998, with approval target in 2001; casodex

- 3 - 1680/17

early prostate cancer trial is 80% enrolled",

8 December 1997, 5 pages

(45) Sucker et al. Pharmazeutische Technologie,
1978, pages 551-553

(46) Wang et al., Parenteral Drug Association, 1980,
34(6), 452?462

(47) Kranz, Vademecum fur Pharmazeuten, 1995, 16th ed.,
pages 83/84

(48) Martindale, The Extra Pharmacopoeia, 1978, 27th
ed., pages 331, 332, 1235, 1400, 1401, 1409, 1529, 1536

(52) Fischer et al. Die Pharmaindustrie, 2003,
page 97

(54) Karzel et al., Allgemeine Pharmakologie, 1977,
pages 88-89

(63) Declaration of Dr Illum, 18 January 2015, 156
pages, including Appendix A, in total 193 pages

(64) Valium?, Fachinformation des Arzneimittel?
Kompendium der Schweiz?, dated 1 December 2015,

printout from internet on 6 March 2017, 6 pages

(65) Gupta and Brazeau Injectable Drug
Development, pages 215?266, 401?421

(66) Lopatin et al., Use of nonaqueous solvents to

prepare injection solutions, 1973, 724?733

(69) Howell Endocrine Therapy of Breast Cancer

IV.

VI.

VII.

4 1680/17

VT, 1994, pages 55-60

The appeal lies from the decision of the opposition
division to revoke the patent. The subject?matter of
the patent as granted (main request) was found to
fulfil the requirements of Articles 54, 76(1), 83 and
123(2) EPC. However, the subject?matter of the main
request and of auxiliary requests 1 to 3 was found to

lack an inventive step.

The patent proprietor lodged an appeal against this
decision, maintaining its requests and requested

acceleration of the appeal proceedings.

The board granted the request for acceleration. Oral
proceedings were held before the board on 23 and
24 January 2019.

The appellant's arguments, insofar as they are relevant

to the present decision, may be summarised as follows:

Extension of subject?matter

The description as filed was identical to the
description of the parent and grandparent applications
as filed. The description as filed related to
pharmaceutical formulations containing fulvestrant (see
page 1, first paragraph and page 2, lines 5 to 8, of
the grandparent application as filed) and described the
treatment of breast cancer as the preferred treatment
(see page 15, lines 21 to 31). There were several
disclosures of the formulation claimed in claim 1 of
the main request found in the description of the
grandparent application as filed (see page 9, lines 20
to 21, page 10, line 16, page 11, lines 5 to 6, and the

only example). The preferred embodiment relating to

- 5 - 1680/17

total volume and concentration was described on page 8,
lines 21 to 22. The combination of the claimed features
was thus prioritised in the application as filed. The

same basis was found in the parent application and the

present applications as filed.

Sufficiency of disclosure

Novelty

Respondent l's reference to document (1) was not a
valid argument to prove that the claimed invention was
insufficiently disclosed. There was no valid argument

on file.

Document (1) did not directly and unambiguously
disclose the fulvestrant formulation of claim 1 of the
main request. Furthermore, nor did it disclose the
treatment of breast cancer or intramuscular

administration.

Inventive step

Document (4) was a non?enabling disclosure. Its
teaching was not reproducible since the document did
not disclose the actual fulvestrant formulation used in
the experiments. At the priority date of the patent in
suit, no fulvestrant formulation that had been proven
to be safe and effective in a clinical setting for
treating breast cancer was known. Small changes in
excipients could result in large changes in in vitro
and in vivo results. Not all oily injections containing
fulvestrant provided the same effects of therapeutic
efficacy and tolerability. Consequently, common general
knowledge could not have provided the skilled person

with information on the fulvestrant formulation that

- 6 - 1680/17

was used in document (4).

According to the case law of the boards of appeal, an
embodiment that was not workable did not usually
qualify as the closest prior art document. When taking
document (4) as the closest prior art, the deficiencies
in disclosure had to be properly taken into

consideration.

Document (4) described results which were not
questioned as such. However, these results were not
accessible to the public since document (4) did not
disclose the formulation used. There was no evidence
that every castor oil-based formulation would provide
the results of document (4). As a consequence, the

results of document (4) were not state of the art.

The technical problem underlying the patent in suit was
to provide a fulvestrant formulation for the first
time - that was suitable for treating breast cancer,
i.e. that was effective and safe and showed an even
release of therapeutically significant fulvestrant
levels over a prolonged period of time following

intramuscular injection.

Concerning the formulation of the technical problem the
concentration must not be included in the formulation
of the technical problem since it was not part of the
problem but an element of the solution. In view of the
non-reproducible disclosure of document (4), the safe
and effective treatment had to be included in the
formulation of the technical problem since it
represented the core of the invention. The long?term
action also had to be included. It was a characteristic
linked to the fulvestrant formulation itself (whose

formulation was not disclosed in document 

- 7 - 1680/17

The problem had been solved, as could be seen from the
patent in suit and from document (35). Reference was
made to figures 1-3 of document (35) showing the
pharmaceutically significant blood plasma fulvestrant
concentrations after intramuscular administration of
the claimed formulation. More importantly, it was
stated in paragraph [0036] of the patent in suit that
intramuscular administration of this formulation led to
the release of fulvestrant over an extended period of
time. As described in paragraph [0040] an extended
release of fulvestrant at therapeutically significant
levels was found. The successful solution was not only
due to the castor oil but also to the other excipients
(see paragraph [0044] and table 4, which compare the
effects of formulations Fl and F3 on the precipitation
of fulvestrant at the injection site). Reference was
also made to paragraph [0049], which described the even
release profile and the absence of precipitation of
fulvestrant at the injection site. The complete
formulation was thus responsible for the even release

and the suitability for intramuscular administration.

The solution, as claimed in claim 1 of the patent in
suit, was not obvious since neither common general
knowledge nor document (1) would have provided the
skilled person with a reasonable expectation of

SUCCESS .

Document (4) did not disclose whether fulvestrant was
to be administered in solution or as a suspension.
Prior art fulvestrant formulations for animal tests
were either solutions or suspensions. Although a large
number of excipients were known from, for instance,
documents (46) and (63), no commercial preparation for

human administration comprising 3 co-solvents existed.

- 8 - 1680/17

As could be seen from document (9), especially from the
data in tables and VI, the same vehicle with a
different drug, or the same drug in a 
different vehicle, led to different responses with
regard to irritation (see also page 894, left column,
second paragraph). The effects of excipients were thus
unpredictable. Furthermore, the claimed combination of
excipients would have been perceived as exotic. Ethanol
in the claimed high concentration would have been
considered to cause pain and to be relatively toxic.
Ethanol in such a high concentration would normally
only be used in aqueous rapid release compositions
Valium, see document Benzyl benzoate,
although generally and widely used (see document 
even at higher concentrations (see document was a
bad solvent for fulvestrant and would thus not have
been considered suitable. Benzyl alcohol was known to
be toxic and act as an irritant (document (66), table
3). There was thus no pointer in the general prior art

towards the claimed combination.

A skilled person would not have sought information
about formulation development in document (1), which
mentioned formulations only in passing and focused on
basic research far removed from therapeutic
applications. A skilled person would not have found any
information on safety and tolerability of any
formulation in document (1). Document (1) did not use
an animal model that could show the efficacy of
fulvestrant in the treatment of breast cancer. The
shown anti?oestrogenic effect, which was shown in a
different animal model, was not enough to prove
efficacy in breast cancer treatment. Also, it was not
disclosed which fulvestrant formulation was used.
Furthermore, no information on even release could be

obtained due to the lack of pharmacological data and

- 9 - 1680/17

the administration of very high amounts of fulvestrant
in weekly intervals. Finally, document (1) could also
not have been taken to show a suitability for
intramuscular administration. In sum, a skilled person,
having in mind the problem formulated above, would not
have turned to document (1) for finding a solution,
since document (1) concerned an animal cancer model and
administration of a very high dose of fulvestrant at

weekly intervals subcutaneously to mice.

Furthermore, document (1) did not describe the physical
state of the formulation. Document (1) did not even
disclose the claimed combination as it did not disclose

whether w/v% or v/v% was used.

In addition, a skilled person would not have looked
specifically for a formulation containing 50 mg/ml
fulvestrant. Having in mind the information on drug
accumulation from document (4) (page 305, left column,
end of second paragraph of "Discussion"), the skilled
person would have looked for formulations comprising
less fulvestrant. Less fulvestrant would furthermore
have been considered advantageous since such

formulations would have needed less excipients.

Overall, the skilled person would have been careful
about the amounts and number of different excipients in
a pharmaceutical formulation and would have only used
as few as necessary. A warning could be found in
document (46), page 462, last paragraph. This was
backed up by the statement in document (65), page 414,
second paragraph, which discussed co-solvents in the
context of tissue damage and pain. Furthermore, it was
known from document (66), table 3, that benzyl alcohol
was toxic and an irritant in concentrations of 5% and

that ethanol had a low LD50 of about 8 g/kg. In this



l0 - 1680/17

context, it noted that table 1 of the patent contained
errors. For the last two entries, two columns had been
shifted, creating the impression that those entries
related to formulations comprising three co-solvents,

whereas only two co-solvents were present.

Furthermore, the effects, especially the therapeutic
effects, of a particular formulation given by a

particular mode of administration were not predictable.

In sum, starting from the deficient disclosure of
document (4), the skilled person would not have arrived
at the claimed subject-matter, even when aware of
document (1). The subject-matter of claim 1 of the main

request involved an inventive step.

The respondents' (opponents to 5) arguments, insofar
as they are relevant to the present decision, may be

summarised as follows:

Extension of subject?matter

The subject?matter of claim 1 as granted extended
beyond the application as filed and also beyond the
parent and grandparent applications as filed. A new
combination of a specific combination of excipients, a
specific medical use and a specific volume of the
formulation had been created. Selections of several
lists had to be made, the first list being the 3
alternative formulations of claims 1, 2 and 4 of the
grandparent application as filed. The second selection
was from the various combinations of alcohol? and ester
solvents in different concentrations from claims 5?16
and 20 of the grandparent application as filed. The
third selection was the medical indication "breast

cancer" on page 15, lines 20?30. The combination of the

- ll - 1680/17

specific combination of excipients in the amounts as
claimed and the total volume of the formulation was not
originally disclosed. Also, claim 1 as granted did not
define the formulation as an extended release
formulation. The deficiency was even more apparent when
looking for a basis in the parent application as

selections from more claims had to be made.

Sufficiency of disclosure

Novelty

Respondent raised a conditional objection for lack of
sufficiency of disclosure of the patent in suit: Should
the proprietor argue that it was not clearly and
unambiguously derivable from document (1) that the
composition under consideration was suitable for the
treatment of breast cancer, then the patent in suit,
based on comparable experimental data, should be
considered insufficiently disclosed. Respondent 1 took
the position that it was clearly and unambiguously
derivable from document (1) that its formulation was

suited for the treatment of breast cancer.

As a consequence of doubting the suitability of the
formulation of document (1), which is the same as the
formulation defined in claim 1 of the main request, the
same doubts would automatically also be extended to the

subject?matter of the main request.

Document (1), in the context of mechanistic
considerations of breast cancer treatment, disclosed a
preformulated formulation as defined in claim 1 of the
main request. The introduction of document (1) referred
to the use of fulvestrant in human breast cancer

treatment ("introduction", page 697, right column to

 l2 1680/17

page 698, left column). Intramuscular administration of
the fulvestrant formulation was implicitly disclosed to
the skilled person by document (1). It was mandatory to
inject fulvestrant intramuscularly for human use (see
document paragraph bridging pages 1552/l553).
Also, document (9) taught to administer oily steroid
formulations by intramuscular administration to humans.
This mandatory administration via the intramuscular
route would have been immediately complemented by the
skilled person when reading document (1) and was
therefore unmistakably disclosed to the skilled person
in document Document (1) disclosing all technical
features of claim 1 of the main request was thus
novelty destroying for the subject?matter of this

claim.

Inventive step

Document (4) represented the closest prior art. The
skilled person would have understood the teaching of
document (4) as a technical reality. The document
confirmed the suitability of fulvestrant for the
treatment of breast cancer in a clinical phase II
setting. The outcome of the study was positively
received by the community and the public (see also
press releases (43) and Document (4) would have
provided a wealth of information to the skilled person.
Apart from the confirmation that fulvestrant could be
used to treat breast cancer when the gold standard
tamoxifen failed, it provided information on the
concentration (50 mg/ml), including the amount (250 mg)
and volume (5 ml), the administration mode
(intramuscular), the dosage regimen, and the
indication that the formulation was castor oil?based
(the skilled person would have understood from the term

"based" that further excipients were present) (page

 13 - 1680/17

301, right column, first paragraph). The document
taught that 250 mg fulvestrant administered in 5 ml was
a suitable dose to achieve the necessary threshold
levels in serum, which were also disclosed (page 305,
left column, second paragraph of "Discussion").
Furthermore, it was stated that no serious side effects
were observed (page 303, right column, 
In sum, document (4) described a highly promising

treatment.

There was no disclosure of the complete formulation
administered. Not all excipients were derivable from
document (4) However, the most important excipient,
castor oil, which was responsible for the extended
release, was disclosed. The distinguishing feature was
the missing part of the formulation, i.e. a situation
arose where it was necessary to simply "fill in the
gap". The term "enabling disclosure" should be confined
to novelty objections, the appropriate term in the
context of inventive step would be "deficient
disclosure", which did not apply to document (4). The
missing piece of information relating to the exact
formulation used would not have kept the skilled person
from considering the valuable information regarding the
formulation in general terms and its successful use
derivable from document (4). Furthermore, the burden of
proof to show that document (4) was not enabling was on

the appellant.

The respondents formulated the following technical

problems:

Respondent l:
The problem resided only in the provision of a castor
oil?based fulvestrant injection formulation allowing

the solubilisation of a higher concentration of

 l4 1680/17

fulvestrant for a complete dose of around 250
mg to be solubilised in the recommended injection
volume for intramuscular administration of no more than

5 ml in a single injection.

Respondents 2 and 5:

The problem was to provide a fulvestrant formulation
based on castor oil, containing fulvestrant in a
concentration of 50 mg/ml and being suitable for

intramuscular administration.

Respondent 3:
The problem was to provide an exact formulation based

on castor oil and having 50 mg/ml fulvestrant.

Respondent 4:

The problem resided in the provision of a castor
oil?based formulation suitable for the administration
of 250 mg fulvestrant by intramuscular administration
of 5 ml.

Concerning the formulation of the technical problem the
respondents stressed that it was important to include
the specific concentration of fulvestrant in the
formulation of the problem since this concentration had
been shown to work in document (4) and to be suitable
to be given by one injection and would thus have been
an integral part of the formulation sought for by the
skilled person. The mere mention of drug accumulation
in document (4) would not have led the skilled person
away from a dose of 250 mg fulvestrant since no
negative effects were reported to be linked to this
drug accumulation. An "even release" profile should not
be part of the technical problem since it was not
reflected in the patent in suit. The extended release

was entirely due to the castor oil. Thus, there was no

- 15 - 1680/17

need to include it in the formulation of the technical
problem. It was irrelevant whether terms like "safe and
effective" were included in the formulation of the
technical problem since these terms were already
implied when talking about the treatment of breast
cancer. There was, furthermore, no question of
particular levels of safety or efficacy. Concerning the
treatment of breast cancer, the respondents argued that
the skilled person would have known from document (4)
that treatment had been achieved. Also, the solvents
were not responsible for obtaining the effects. No
effects should therefore be included in the formulation
of the technical problem. In sum, the skilled person
would have aimed at providing fulvestrant in a
formulation based on castor oil in the concentration

described in document (4).

The solution was obvious. A skilled person, in the form
of a team of a pharmacologist and a formulator looking
for a solution, would have had in mind that the
solution involved a castor oil-based formulation at

50 mg/ml suitable for injection by intramuscular
administration. When looking at what was available for
parenteral administration in general and for
fulvestrant in particular the skilled person would have

considered document (1).

Document (1) related to the same active, fulvestrant,
in the context of cancer research, especially breast
cancer research, and even cited document (4). The
pharmacologist in the team would have immediately
recognised that document (1) was relevant for breast
cancer treatment, while the formulator in the team
would not have missed the fulvestrant formulation
described in document (1), especially since it was

castor oil?based and had exactly the concentration of

- 16 - 1680/17

active sought. The fulvestrant formulation of document
(1) was sophisticated in that it comprised several
excipients. Knowing that fulvestrant was difficult to
formulate, the skilled person would have seriously
considered the formulation of document (1), especially
since it had been provided by Zeneca and was labelled

"preformulated".

It was also generally known that AstraZeneca was
developing a castor oil based fulvestrant formulation
for human application: Document (34), in 1992,
described a castor oil based fulvestrant solution as
"prototypic" of a long?acting formulation for
intramuscular injection (page 245, left column).
Document (14), in 1994, stated that studies were "now
in progress" (page 413, last paragraph before
"Acknowledgements"). In 1995, document (5) disclosed a
castor oil?based formulation (page 29, right
column). In 1996, document (4) was published, followed
in 1997 by document (1). Also in 1997, Faslodex was
announced (see document (43) and (44). Finally,
document (11), published in 1998, relates to the phase
clinical study. All these documents were initiated
by Zeneca or referred to Zeneca. The skilled person
would thus have seriously considered any complete, full
formulation provided by Zeneca. The obtention of a
sample of a drug or a drug formulation from the drug
producer was normal, and the skilled person would have
considered that such a drug or drug formulation would

work (see document (23), page 4, last paragraph).

Furthermore, the skilled person would have had a
reasonable expectation of success (neither a guarantee
of success nor a predictability of the outcome being
necessary, see established case law) when employing the

formulation disclosed in document (1). Document (1)

 17 1680/17

established the presence of an anti-oestrogenic effect
due to the administration of the fulvestrant
formulation, thus demonstrating that this formulation
inherently had the properties that were underlying its
effectiveness in breast cancer treatment. Document (1)
used fulvestrant explicitly as an anti?oestrogen
(abstract) and proved its anti?oestrogenic activity by
the "uterus test" (paragraph bridging pages 701 and
702). The skilled person the team of the
pharmacologist and the formulator) would not separate
the pharmacological information from the formulation
used in document When looking at the formulation
itself, the skilled person would have been aware that
all the excipients in the formulation were well known
in the art, e.g. from commercial products, i.e. from
formulations that work. This perception would have been
supported by statements in document (46), page 452,
"introduction" and document (65), page 406, third
paragraph. Furthermore, document (46), last paragraph,
pointed to the importance of selecting proper

excipients and using them at optimal concentrations.

The addition of the further excipients, which were co?
solvents or solubilisers, such as benzyl benzoate (see
document (15), page 38, left column, middle paragraph),
was necessary to provide a solution of fulvestrant. The
patent showed no further effects for these co-solvents.
Moreover, the formulation of document (7) had been
rejected by the patent proprietor merely due to
manufacturing reasons (see patent in suit, paragraph
[0014]).

The co-solvents themselves and the amounts to be
employed were well known for the intramuscular
administration of steroids. Document (9) described that

castor oil led to a prolonged release and that further

 18 - 1680/17

solvents increased the solubility of the steroids
(abstract). Annex A of document (63) provided a list of
commercially available products. Not even one page was
taken up by parenteral formulations in oily solutions,
these solutions having a very limited number of
excipients, namely, benzyl benzoate, benzyl alcohol,
ethanol and cholesterol. No oily suspensions were
disclosed for steroids. Oil?based formulations for
intramuscular administration were thus common in the
art. The skilled person would have been aware that the
presence of several co?solvents allowed for a
formulation having favourable characteristics. Further
relevant documents discussing the use and activity of
these excipients (ethanol, benzyl alcohol and benzyl
benzoate), often teaching to use several in combination
in lipophilic vehicles for intramuscular
administration, included documents (9) (paragraph
bridging pages 893 and 894), (45) (table 5.22), (47)
(page 84), (48) (excerpts referring to formulations
comprising the excipients under consideration for
administration by intramuscular injection) and document
(65) (table 11?1 and page 217, first and third
paragraph). The explanation by the appellant that table
1 of the patent contained errors and did not disclose a
formulation having more than two co?solvents was
accepted. Furthermore, document (1) already provided a
complete formulation. Since a complete formulation was
given, the skilled person would not have considered the
solubility of fulvestrant in the individual components

benzyl benzoate) of this formulation.

The skilled person would have been well aware that,
while subcutaneous administration differed from

intramuscular administration, the same formulations
could be used for these two types of administration

(see document (54), point 5.5).

- l9 - 1680/17

Finally, fulvestrant was known to be difficult to
formulate. Consequently, the skilled person, aware of
the disclosure of document (1), which described a
complete fulvestrant formulation, would have started
with this formulation and verified its suitability by
some routine tests. They would not have tried to make

up a formulation from scratch.

The drug-accumulation effects described in document (4)
would not have been a concern to the skilled person
since no negative effects were attributed to the
accumulation. Optimisation by routine experiments would

also have always been a consideration.

Furthermore, the subject?matter of claim 1 of the main
request was rendered obvious by combining the teaching
of document (4) with the common general knowledge. All
excipients were known for use in combination with
castor oil (see commercial products). Some simple
routine experiments were sufficient to find the claimed
formulation when starting from the information

available in document (4).

There was also no reason to have considered the
formulation of document (1) to be suitable only for
animal use. Formulations used in animal studies were
usually the same as the ones used for clinical studies.
It was furthermore well known that higher doses were
used in animal studies than in clinical studies (see
document (52), page 97, left column, paragraph 4).
Also, the proprietor's expert, Mr Wakeling, derived a
reasonable expectation of success from experiments in
animal models (document (69), page 58, paragraph

bridging the columns).

- 2O - 1680/17

Therefore, the subject?matter of claim 1 of the main

request did not involve an inventive step.

TX. The appellant requested that the decision under appeal
be set aside and the patent be maintained as granted,
i.e. that the oppositions be rejected, or
alternatively, that the patent be maintained in amended
form on the basis of one of the sets of claims of
auxiliary requests to 3, re-submitted with the

statement of grounds of appeal.

The respondents requested that the appeal be dismissed.

Reasons for the Decision

1. The appeal is admissible.

2. Extension of subject?matter (Article 100(c) EPC)

The wording of the passages of the description relevant
for the assessment of whether the ground for opposition
under Article 100(c) EPC prejudices the maintenance of
the patent as granted is identical in the application
as filed (document and in the two earlier
applications as filed in the "grandparent"
application EP 01 900 186.6, document (39), and the
parent application EP 05 016 921.8, document The
following passages refer exclusively to document (37),
the corresponding passages in documents (38) and (39),
which are in some instances shifted by a couple of

lines, are not identified.

On page 15, lines 20 to 27, the treatment of a benign
or malignant disease of the breast or reproductive
tract, preferably the treatment of breast cancer, is

described. Breast cancer is thus clearly identified as

 21 1680/17

the preferred treatment. The treatment is carried out
by intramuscular injection of an extended release
ricinoleate vehicle based pharmaceutical formulation
comprising at least 45 mgml?l fulvestrant. This vehicle
contains 35% or less weight of a pharmaceutically?
acceptable alcohol per volume of formulation and at
least 1% weight of a pharmaceutically?acceptable non?
aqueous ester solvent miscible in a ricinoleate vehicle
per volume of formulation. A limitation to the most
preferred formulation (see e.g. last entry in the table
on page 11, or the formulation according to the
invention in table 4 ("Formulation or the
formulation of the "Formulation Example" on page 16,
line 23, to page 17, line 11) does not add subject-
matter. An appropriate volume to administer the at
least 45 mgml?l fulvestrant intramuscularly is
disclosed in the passage on page 8, lines 18 to 21,
where it is stated that for preferred pharmaceutical
formulations the total volume of the formulation is

6 ml or less and the concentration of fulvestrant is at
least 45 mgml?l. The volume of 6 ml or less is thus the
only selection to be made to arrive at the subject?
matter of claim 1 of the main request. The claimed
formulation has been shown to have an extended release
(see figure 1), a definition of the formulation by the

term "extended release" is thus not necessary.

Consequently, the ground for opposition under
Article 100(c) EPC does not prejudice the maintenance

of the patent.
Sufficiency of disclosure (Article 100(b) EPC)
Respondent 1 has raised a conditional objection for

lack of sufficiency of disclosure of the patent in

suit: Should the proprietor argue that it was not

 22 1680/17

clearly and unambiguously derivable from document (1)
that the composition under consideration was suitable
for the treatment of breast cancer, then the patent in
suit, based on comparable experimental data, should be

considered insufficiently disclosed.

In its statement setting out the grounds of appeal, the
appellant stated that "No experiment is reported in D1
that would lead a skilled person to conclude that any
of the formulations tested would be suitable for a safe
and effective therapy as described in (page 28,
paragraph 3).

The patent in suit depicts the release profile of
fulvestrant in vivo over five days from the composition
under consideration following intramuscular
administration in rabbits (figure 1). This figure shows
that the claimed composition is suitable for achieving
the required plasma profiles. The suitability of
fulvestrant in the treatment of breast cancer has not
been questioned as such. Consequently, the data
presented in the application as filed and depicted in
the published patent renders it plausible that the
claimed composition is suitable for use in the
treatment of breast cancer. Post?published evidence, in

the form of document (35), was filed as confirmation.

Hence, the invention as defined in the claims is
sufficiently disclosed in the patent and the ground for
opposition under Article lOO(b) EPC does not prejudice

the maintenance of the patent.

NOvelty (Article 100(a) and Article 54(1) EPC)

Document (1) does not provide a direct and unambiguous

disclosure of the feature of intramuscular injection

- 23 - 1680/17

and is thus not novelty?destroying for the subject?

matter of claim 1.

Respondent 1 has argued that the skilled person would
have understood the disclosure of document (1) as
referring to intramuscular administration. The board
cannot accept this line of argument since document (1)
discloses the formulation under consideration solely
for animal studies. In animal studies a subcutaneous
administration is a common mode of administration which
is, however, distinct from intramuscular
administration. Therefore, intramuscular administration

is not directly and unambiguously disclosed.

The board notes that document (1) does not disclose any
concrete formulations in the context of the therapeutic
treatments discussed in the passages of the

"introduction" (page 697, right column, first paragraph

to page 698, left column, first paragraph).

The ground for opposition under Article 100(a) and
Article 54 EPC does therefore not prejudice the

maintenance of the patent.

Inventive step (Article 100(a) and Article 56 EPC)

Preliminary remarks

The boards of appeal of the European Patent Office
generally apply the problem?solution approach to assess
inventive step. In accordance with the problem-solution
approach, it is first necessary to identify the closest
prior art, then to determine in the light of the
disclosure of the closest prior art the technical
problem which the claimed invention addresses and

successfully solves, and finally to examine whether or

.2.

24 1680/17

not the claimed solution to this problem is obvious for
the skilled person in view of the state of the art. The
problem?solution approach was developed to ensure an
objective assessment of inventive step and to avoid ex
post facto analysis of the prior art (see "Case Law of
the Boards of Appeal of the 8th edition 2016,
I.D.2).

Closest prior art

The decision under appeal relies on document (4) as the
closest prior art. Furthermore, all respondents have
chosen document (4) as the closest prior art. Document
(4) is thus the only document that has been invoked as
the starting point for the assessment of inventive step

in the appeal proceedings.

The patent in suit is based on the premise that
oestrogen deprivation is fundamental to the treatment
of many benign and malignant diseases of the breast and
reproductive tract (paragraph [0002]) and consequently
provides a sustained release pharmaceutical formulation
comprising fulvestrant for the treatment of breast
cancer (paragraph [0001]). Document (4) relates to the

same problem.

Document (4) concerns the pharmacokinetics,
pharmacological and anti?tumour effects of the specific
anti?oestrogen TCT 182780 in women with advanced breast
cancer (title). TCT 182780 is fulvestrant. The agent
was administered as a depot intramuscular
injection. Out of the 19 patients participating in the
study, 13 responded, seven of which had partial
responses while the other six had "no change" responses
(abstract). No serious drug-related adverse events were

reported. The formulation was well tolerated locally at

.2.

25 - 1680/17

the site of injection (page 303, Of
the 19 patients treated, five patients were still in
remission and continued treatment after 30-33 months
(page 304, "Response"). There was evidence of drug
accumulation after multiple dosing, such that after

6 months of treatment, there was an 80% increase in
mean end of month drug levels and a 50% increase in the
AUC compared with data from month 1. These data were
interpreted as suggesting that lower doses of drug may
be effective in maintaining therapeutic serum drug
levels (page 305, left column, paragraph 3). In the
section "Study design", on page 301, right column,
first paragraph, information relating to the
administration of fulvestrant can be found. It is
stated that 182780 was administered as a long?
acting formulation contained in a castor oil-based
vehicle by i.m. injection (5 ml) into the
buttock. For appraisal of drug safety, the first four
patients received escalating doses of ICI 182780,
starting with 100 mg in the first month and increasing
to 250 mg i.m. from the second month onwards, following
confirmation of lack of local or systemic drug toxicity
at the 100 mg dose". This passage provides information
on the administration mode, i.e. intramuscular, the
administered volume, i.e. 5 ml, the amount of active,
i.e. 250 mg, and gives an indication that the vehicle
comprises castor oil. No further information is given

on other excipients.

In document (4), there is thus no disclosure of the
complete formulation used in the clinical study.
Information on further excipients is not provided, i.e.

is not been made available to the public.

Next, the consequences of the missing information must

be assessed.

 26 - 1680/17

In the absence of a disclosure of the complete
formulation used in the study, the study cannot be
directly reworked, i.e. reproduced. The question to be
answered in the context of the problem?solution
approach is: What exactly had been made accessible to

the skilled person?

To answer this question, the link between formulation
and effects must be examined. The literature cited in
this respect mainly relates to the side effects due to
the presence of excipients. Of particular relevance is
document (9). Entitled "Castor Oil as a Vehicle for
Parenteral Administration of Steroid Hormones",
document (9) discusses the use of co-solvents to render
castor oil-based steroid formulations suitable and

acceptable for parenteral administration.

The initial consideration to be made according to
document (9) is the solubility of the active in the
vehicle. The high concentrations of active in solution
sought by the clinicians required the addition of co?
solvents to castor oil (abstract, paragraph bridging
pages 893 and 894). The skilled person would thus have
been aware that the physical state of a formulation,
i.e. the form of solution or suspension, was linked to
the amount of active and the specific solvents/co-
solvents used. Furthermore, it was common general
knowledge that the physical state of a formulation had

an influence on the bioavailability of active agents.

The authors of document (9) then point to the fact that
the presence of side effects is linked to the specific
formulation. On page 894, left column, second
paragraph, it is stated that the irritative response

depended on the particular hormone, its concentration

- 27 - 1680/17

in the formulations, and/or the composition of the
vehicle. As can be seen in the data presented in tables
and VI, different vehicles were acceptable for
l7?hydroxyprogesterone caproate and for estradiol
valerate. While a vehicle comprising 58% castor oil,
40% benzyl benzoate and 2% benzyl alcohol was accepted
for estradiol valerate (adverse reactions in 
the same vehicle was rejected for
l7?hydroxyprogesterone caproate (adverse reactions in


The skilled person would thus have been aware, when
reading in document (4), page 303, right column, second
paragraph, that the formulation of fulvestrant used
appeared well tolerated locally at the site of
injection and that such a good tolerance was not to be
expected for any castor oil-based fulvestrant
formulation. Or, put another way, the skilled person
would have had in mind that the lack of side effects
would have been due to a particular formulation,
including a certain amount of a certain active in
combination with certain excipients in certain
concentrations. In sum, there is strong evidence in the
literature that side effects are linked to specific
formulations. There is no reason to believe that other
effects, e.g. effects in the context of efficacy of

treatment, would not be similarly linked.

This finding must be reflected in the assessment of the
overall information obtainable from document (4). Based
on the foregoing, the disclosure of document (4) would

have told the skilled person that:

- Fulvestrant was a potent agent in the treatment of
breast cancer.

Intramuscular administration was a suitable mode of

.2.

- 28 - 1680/17

administration.

A vehicle of choice would contain castor oil.

When using document (4) as the starting point in the
assessment of inventive step, i.e. as the closest prior
art, the next steps of the problem?solution approach
must therefore be based only on the disclosure as set

out above.

The fact that the missing information does not concern
only the formulation as such but also the achievability
of the effects described in document (4) has direct
consequences on the correct formulation of the

technical problem.

Technical problem

The following technical problems have been formulated

by the parties:

Appellant:

The problem is to provide a fulvestrant formulation -
for the first time - that is suitable for treating
breast cancer, i.e. that is effective and safe and
shows an even release of therapeutically significant
fulvestrant levels over a prolonged period of time

following intramuscular injection.

Respondent l:

The problem resides only in the provision of a castor
oil?based fulvestrant injection formulation allowing
solubilisation of a higher concentration of fulvestrant
for a complete dose of around 250 mg to be
solubilised in the recommended injection volume for
intramuscular administration of no more than 5 ml in a

single injection.

.3.

29 - 1680/17

Respondents 2 and 5:

The problem is to provide a fulvestrant formulation
based on castor oil, containing fulvestrant in a
concentration of 50 mg/ml and being suitable for

intramuscular administration.

Respondent 3:
The problem is to provide an exact formulation based on

castor oil and having 50 mg/ml fulvestrant.

Respondent 4:

The problem resides in the provision of a castor
oil-based formulation suitable for administration of
250 mg fulvestrant by intramuscular administration of 5

ml.

For the following reasons, the board cannot adopt any

of these wordings.

The board concurs with the respondents that the
inclusion of the terms "safe and effective" for
characterising the treatment of breast cancer is
meaningless in the absence of a certain "level" or
"benchmark" qualifying these terms. The terms
"treatment of breast cancer" are taken to imply that
patients with breast cancer benefit from the
administration of the formulation under consideration,
i.e. that the administration of the formulation has a
positive influence on their condition in the absence of

intolerable side effects.

However, having come to the conclusion that the
achievement of effects is linked to the actual
formulation (see point 5.2.3 above), the therapeutic

indication as such must be part of the technical

.3.

- 30 - 1680/17

problem.

Document (4), on two occasions (first on page 305, left
column, third paragraph, and second in the concluding
remarks on page 306, right column, last paragraph)
discloses that drug accumulation has been observed in
the patients. Drug accumulation is generally not
considered favourable by the skilled person. It is thus
questionable whether the skilled person would have
limited themselves exclusively to formulations
comprising 50 mg/ml or 250 mg total dose when starting
from document (4) as the closest prior art.
Consequently, the concentration or dose of fulvestrant
must not be included in the formulation of the

technical problem.

The technical problem is thus as follows:

The technical problem is the provision of a castor
oil?based vehicle for a fulvestrant containing
composition allowing for treatment of breast cancer by

intramuscular injection.

Solution of the technical problem

The patent specification provides the information that
the claimed fulvestrant composition, upon intramuscular
administration, leads to plasma levels which are
considered effective (see figure 1 of the patent in
suit). In paragraph [0049] it is stated that there was
no evidence of precipitation of fulvestrant at the
injection site. It is thus plausible that the claimed
formulation leads to the treatment of breast cancer.

This has not been contested by the respondents.

.5.

.5.

- 3l - 1680/17

Obviousness

In the following it will be examined whether the
solution as defined in claim 1 of the main request was
obvious. One point arising in this context is the
skilled person's expectation of success. It will thus
be examined, inter alia, whether the skilled person, in
the expectation of solving the technical problem, would
have arrived at the claimed subject?matter, in

particular, at the claimed fulvestrant formulation.

Two approaches will be analysed in detail. The first
approach focuses on the knowledge of the skilled person
in view of the preparation of a castor oil?based
intramuscular formulation containing a steroid as an
active agent. The second approach considers the state
of the art concerning the formulation of the active
agent under consideration, i.e. fulvestrant. Document
(7), fulfilling both criteria, will be addressed in the

second approach.

Various documents deal with castor oil as solvent for
steroids in the context of parenteral administration,
some also explicitly in the context of intramuscular

administration.

Documents (9) and (63) have extensively been discussed
by the parties in this context. Document (9) is silent
on fulvestrant. It relates to castor oil?based vehicles
for parenteral administration of steroid hormones
(title). Castor oil is combined either with benzyl
alcohol at 2 to benzyl benzoate at 20 to 50% or
with both. Tables and VI show that different vehicles
were acceptable for l7-hydroxyprogesterone caproate and
for estradiol valerate. While a vehicle comprising 58%

castor oil, 40% benzyl benzoate and 2% benzyl alcohol

- 32 1680/17

was accepted for estradiol valerate, the same vehicle
was rejected for l7?hydroxyprogesterone caproate.

The respondents have furthermore invoked Appendix A of
document (63) listing several commercially available

oil?based solutions for parenteral administration.

Document (45), a textbook on pharmaceutical technology,
discusses solvents and dispersing aids in parenteral
formulations. It lists solvents, including castor oil,
ethanol, benzyl benzoate and benzyl alcohol, for
parenteral formulations and provides indications for
their concentrations, including, however, both
hydrophilic and lipophilic vehicles (table 5.22).
Although combinations of alcohols are suggested, no
details on such combinations are disclosed (page 552,

last paragraph).

Document (47) lists solvents for peroral, parenteral
and cutaneous administration. This list includes, inter
alia, ethanol, said to be suitable in concentrations up
to 30% for all three modes of administration; castor
oil, also suitable for all three modes of
administration; and benzyl benzoate, listed only for
parenteral administration without any indication as to
its concentration. Ethanol is listed as being miscible
with castor oil, benzyl benzoate is to be used
exclusively in mixture with an oil, especially in
mixture with sesame oil (table on pages 83 and 84). No

concrete formulation is disclosed.

Document (48), comprising entries in the Martindale
Pharmacopoeia, provides excerpts on various drugs. It
shows that intramuscular formulations may contain one
or more of the excipients under consideration. No

formulation comprising a combination of castor oil,

- 33 - 1680/17

ethanol, benzyl benzoate and benzyl alcohol is

disclosed.

Document (65), a textbook entitled "Injectable Drug
Development", discusses various aspects of co-solvents.
A list of co-solvent compositions for various
formulations is shown in table 11?1. It can be seen
that mixtures of ethanol and benzyl alcohol are mainly
used in aqueous?based formulations for intravenous
administration. The importance of the selection of
appropriate co?solvents is stressed. On the one hand
co?solvents are considered powerful tools for providing
the required solubility (page 217, first and third
paragraph). On the other hand, they may cause side
effects (page 245, second paragraph and page 414,

second paragraph).

It is, however, not clear to what extent these passages
can be applied to fulvestrant. As acknowledged by all
parties, fulvestrant is difficult to formulate. Not all
general guidelines for steroids can be applied directly
to fulvestrant. Document (21), for example, teaches to
add benzyl benzoate to castor oil to increase the
solubility of the active agent in the form of a steroid
(page 192, paragraph 4, last three lines), and document
(15) provides guidance to generally use benzyl benzoate
in formulations for intramuscular administration at
concentrations of 0.01 to 46.0% (page 38, left column,
middle paragraph). Fulvestrant is however less soluble
in benzyl benzoate than in castor oil. A skilled person
would have had no incentive to add a worse solvent to

increase solubility.

Furthermore, the documents relied upon by the parties
in this context do not suggest using a combination of

the three co?solvents/excipients ethanol, benzyl

.5.

- 34 1680/17

benzoate and benzyl alcohol.

In sum, the documents considered above do not point
towards a formulation for intramuscular administration
of a steroid having the claimed combination of
excipients in the required concentrations. Such a
combination would thus not have been rendered obvious

by common general knowledge.

Several documents refer to fulvestrant formulations.

However, only two of these documents disclose complete

formulations. While documents (5) ("castor oil based
vehicle"), (10) (ethanol spiked into peanut oil), (11)
(no information on vehicle) and (14) (propylene based

vehicle) mention fulvestrant formulations, they do not
disclose a complete castor oil-based formulation.
Complete castor oil?based fulvestrant formulations are

disclosed in documents (1) and (7).

Document (7) deals with various steroids. Example 3
relates to a formulation of fulvestrant for
intramuscular administration. The formulation comprises
fulvestrant, benzyl alcohol and castor oil in certain
concentrations. Although breast cancer is not mentioned
in document (7), the document relies on the anti?
estrogenic effects of its actives. This can also be
seen from example 3, which describes that the/a "uterus
test" is carried out. In sum, document (7) discloses a
formulation that could have been adopted by the skilled
person. The formulation was, however, rejected by the
inventors of the patent in suit (see paragraph [0014]
of the patent in suit relating to the US family member

of document 

The only other concrete composition comprising

fulvestrant to be found in the cited documents is

- 35 - 1680/17

described in document (1), which is a scientific paper.
Document (1) is titled: "Tamoxifen?resistant Fibroblast
Growth Factor?transfected Cells Are Cross?
Resistant in Vivo to the Antiestrogen ICI 182,780 and
Two Aromatase Inhibitors". It aims to elucidate
mechanisms underlying an acquired tamoxifen resistance
in the therapy for estrogen receptor-positive breast
cancer (abstract). To find information underlying the
mechanism(s) or tamoxifen resistance, FGF?transfected
cells were used. Such cells do not rely on an
estrogen receptor based mechanism and thus allow for
the examination of other pathways. There is no doubt
that treatment, or rather the failure of treatment, of
breast cancer by tamoxifen, is the cause of the
experiments on which document (1) is based. However,
the purpose of document (1) is the elucidation of a
biochemical mechanism. Document (1) does not aim at the

provision of a therapy.

In the context of these mechanistic studies, four
drugs, ICI 182,780 (fulvestrant), 
hydroxyandrostenedione), letrozole and tamoxifen, were
used in 5 different vehicles. Fulvestrant was used in
two different vehicles. powdered fulvestrant
was dissolved in ethanol and spiked into peanut oil.
Secondly, preformulated drug in a vehicle of 10%
ethanol, 15% benzyl benzoate, 10% benzyl alcohol,
brought to volume with castor oil was used. The latter
formulation is said to have been provided by

M. Vose (Zeneca Pharmaceuticals)". The two
fulvestrant formulations were administered
subcutaneously at a dose vehicle
every week. For the experiments depicted in figure 1,
the first formulation was used, while for the
experiments used in figure 1, and C, the second

formulation was used. For other experiments, such as

.5.

.5.

- 36 - 1680/17

the "uterus test", which of the two fulvestrant
formulations was used is not disclosed (page 698, right

column, paragraph 3).

Thus, there is no doubt that document (1) discloses the
use of, inter alia, a fulvestrant formulation that has
the same excipients as defined in claim 1 of the main

request.

To determine whether the claimed invention, starting
from the closest prior art and the technical problem
formulated above (see point 5.3.3 above) would have
been obvious to the skilled person, it must be
determined whether the skilled person would have used
the fulvestrant formulation of document (1) which is
described as "preformulated drug in a vehicle of 10%
ethanol, 15% benzyl benzoate, 10% benzyl alcohol,
brought to volume with castor oil". The skilled person
would have used this formulation, if they had a
reasonable expectation of success that it would solve

the problem defined above.

Therefore, it is now necessary to have a closer look at
the context and the detailed disclosure of document

(1).

Document (1) is a scientific research paper. It
pertains to the domain of basic research. References to
therapeutic applications are made merely to put the
basic research into context. The document aims at
elucidating a mechanism of tamoxifen resistance on the
level of molecular pathways, in particular, looking at
whether estrogen receptor pathways are implicated.
Experiments in basic research are done with
formulations that primarily aim at ensuring that the

compound tested will be present at the location where

- 37 1680/17

it was hypothesised to exert its activity. This is
supported by the disclosure of document (1). After
negative results were obtained for the hypothesised
mechanism, the authors of document (1) went on to carry
out the "uterus test" to verify whether the compounds
tested (fulvestrant, 4?hydroxyandrostenedione and
letrozole) could exert their activity in the test
system. A formulation in basic research is thus geared
to ensure that a high concentration will reach the
required location. Such research requires no
considerations on the pharmacologically suitable
concentration, the safety and tolerability, or the
suitability for administration in a clinical setting
are necessary. Thus, a skilled person would have had no
incentive to turn to document (1), a scientific paper
dealing with basic research, to provide a formulation

for administration in a clinical situation.

The respondents have pointed to the fact that

document (1) cites document (4). Document (1), on page
698, left column, line 5, cites 8 references
(references l3?20) relating to the response of
tamoxifen?resistant patients to subsequent fulvestrant
or aromatase inhibitor therapy. One of these 8
references is document (4). These references are cited
in the context of considerations relating to mechanisms
of tamoxifen resistance. Formulations are not even
mentioned. The fact that document (4) is cited would
have thus not caused the skilled person to assess the

formulations of document (1) in a different way.

It has been argued that the relevant formulation of
document (1) has been highlighted by three facts:
the skilled person would have considered the
combination of a solvent (castor oil) with three co?

solvents to be "sophisticated". Secondly, the skilled

- 38 - 1680/17

person would have been made aware that the formulation
was the result of a targeted development process due to
the term "preformulated". Finally, the skilled person
would pay special attention to a complete formulation
obtained by "Zeneca", which was known to develop a

fulvestrant based medicament.

The formulation of document (1) contains three co?
solvents in addition to the base oil. Commercially
available steroid formulations for parenteral
administration usually contain one or two co?solvents,
the exception being "Syncortyl?", which contains three
further excipients in the form of cholesterol, benzyl
alcohol and ethanol (Appendix A of document 
Cholesterol, having a melting point of is not a
classical "co-solvent". The commercially available
compositions listed in table 1 of the patent include,
at most, two further solvents (note that the two last
entries of table 1 contain errors, two columns being
shifted). Document (65) states on page 217, first
paragraph, that co-solvents are powerful tools to
reduce irritation and have advantages over other
techniques for solubilisation of water?insoluble
compounds. The document goes on to teach that the
solubility of a compound should be maximised to lower
the total amount of solvents needed and thus to reduce
potential side effects (page 217, third paragraph).
Reduction of pain and irritation at the injection site
can be obtained by using appropriate co-solvents (page
245, second paragraph). Document (46) describes an
ideal formulation as containing no excipients at all.
It is however acknowledged that excipients are
necessary to preserve potency, elegancy and safety.
Nevertheless, extreme caution should be used in
selecting proper excipients (page 462, last paragraph).

Having in mind these statements, the skilled person

.5.

- 39 - 1680/17

would have had certain reservations against the use of

the formulation of document (1) in a clinical setting.

The respondents have argued that the term
"preformulated" would have directed the skilled person
towards this composition since they would assume that
this composition was the result of extensive
development. This is mere speculation. The term
"preformulated" in the context of document (1) simply
refers to the fact that an active has been provided to
the researchers in dissolved form. The reason for the
provision of fulvestrant in a solvent mix, in contrast
to the second part of fulvestrant used in document (1),
which was obtained as a powder, is not known. Several

different explanations are possible.

It does not come as a surprise that the "preformulated"
formulation, as well as the powdered fulvestrant, was
obtained from "Zeneca". Given the history of
fulvestrant, to which the respondents have pointed
several times, the obtaining of the compound from
Zeneca was to be expected, since Zeneca was the company
in possession of fulvestrant (after the transfer of,
inter alia, the pharmaceutical sector of TCT in 1993
(AstraZeneca only being founded in 1999)). Thus, no
pointer can be derived from the fact that fulvestrant
was obtained from Zeneca. This view is supported by
expert declaration (23) stating that active ingredients
were usually obtained from the producer of the active

ingredient (page 4, last paragraph).

Thus, having analysed document (1) in detail, a
conclusion must be reached whether the skilled person,
having in mind the problem defined above (see

point 5.3.3), would have considered the disclosure of

document (1) and adopted one of the fulvestrant

- 4O - 1680/17

formulations disclosed in it with a reasonable
expectation of success of solving the problem.

The respondents have asserted that a person skilled
would not have required certainty of success to adopt a
certain route. The board agrees with this statement.
However, in the present case, no expectation of success
can be admitted by the board when assessing the
approach proposed by the respondents. This absence of
an expectation of success is due to the following

reasons:

document is a scientific paper dealing
with basic research. The board considers that the
skilled person would not have turned to formulations
used in basic research when aiming at providing a
formulation for therapeutic treatment. The requirements
of a formulation to be used in basic research are
fundamentally different from the requirements of a
formulation to be administered to a patient. While in
basic research merely the availability of the active at
the test site is of relevance, in a clinical situation
aspects such as safety/tolerability and bioavailability

over the treatment period are decisive factors.

Secondly, even if the skilled person would have paid
particular attention to the formulations used in
document (1), they would have had reservations about
using a formulation having a combination of an
unusually high number of excipients in unusual

concentrations in a clinical trial.

Thirdly, the formulation under consideration of
document is not particularly preferred. This can be
seen in that it was not used in all the experiments

carried out in document (1).

.5.

4l 1680/17

Consequently, the skilled person would have had no
reasonable expectation of success when using the
formulation of document (1) in the treatment of breast

cancer. Such a use would thus not have been obvious.

Further arguments

It has been argued that the skilled person was a
team of a pharmacologist and a formulator. The
pharmacologist would have studied the introductory
parts of document (1) and concluded that it
concerns certain aspects of breast cancer. Having
been pointed to document (1), the formulator would
have immediately spotted the formulation under

consideration for the reasons set out above.

The board cannot accept this argument. The skilled
person may well be a team of specialists of
neighbouring technical fields. However, in the
present case, considering a pharmacologist and a
formulator as suggested by the respondents, the
proper "work sharing" of the team would be for the
pharmacologist to identify document (4) as a
promising springboard and for the formulator to
look for a formulation allowing the carrying out of
a therapeutic treatment. The approach adopted by
the respondents can either be seen as an ex post
facto analysis or as an approach taken by

researchers of inventive skill.

The respondents have argued that the skilled
person, being aware that the formulation of
document (1) had anti?estrogenic properties as
shown by the "uterus test", would have had a high
expectation of success when using this formulation

for solving the technical problem. The anti?

 42 1680/17

estrogenic properties are the properties of
fulvestrant that underlie its anti-breast cancer
effect.

However, document (1) discloses not one but two
fulvestrant formulations. Which of the two
fulvestrant formulations was used in the "uterus
test" is not disclosed. Furthermore, the simple
fact that an active agent has been shown to retain
its known activity under animal test conditions in
a mechanistic study cannot be seen as an incentive
for the skilled person to use such a formulation in

a clinical setting.

The respondents have argued that it was usual to
use similar or closely related formulations in
animal studies and in clinical studies. This
argument is pertinent when considering preclinical
animal studies carried out to assess the treatment
of a disease by a certain active. However, in the
present case, the situation is different since
document (1) pertains to the domain of basic

research far removed from preclinical situations.

In this context, it is important to stress that the
absence of an expectation of success by the skilled
person is (at least in part, see above) due to the
fact that document (1) is a scientific paper
relating to basic research. The mere fact that
animal models are used cannot be seen as a
deterrent for a skilled person to consider a
document in the context of therapeutic treatments,
such as the animal studies mentioned in

document (69). The animal studies referred to in
document (69), page 58, paragraph bridging the

columns, relate to pharmacological effects and

- 43 - 1680/17

anti?tumour acting in animal models, i.e. clearly
to preclinical studies. However, this passage
merely reports that "a variety of oil?based

formulations" of fulvestrant were used.

Castor oil-based fulvestrant formulations have been
identified as being "prototypic" of long-acting
formulations for intramuscular injection (document
(34), page 245, left column). This statement is in
line with the fact that document (4), i.e. the
closest prior art, relies on castor oil?based
fulvestrant formulations. However, no further
information or pointer can be gained from the
qualification of castor oil?based formulations as

being "prototypic".

The argument that the "The skilled person would use
the formulation, because it is there" amounts to an
ex post facto analysis. Although it sounds like a
compelling and simple approach when having in mind
the claimed formulation, it attains these
attributes only with the knowledge of the claimed
solution. According to established case law, it is
necessary to identify objective factors which would
have motivated the skilled person to combine the
teaching of documents. Such a pointer cannot be
seen in the fact that a formulation was merely

disclosed.

The subject?matter of claim 1 of the patent in suit
involves an inventive step and, therefore, the ground
for opposition under Article 100(a) and Article 56 EPC

does not prejudice the maintenance of the patent.

Order

l680/l7

For these reasons it is decided that:

l.

2.

The Registrar:

M. Schalow

\weyde/{am

\suhen .o
lay?! a 319/} fb?)

(- f-
6?

re.
. ?92> 5
4? a a 3950 $6

?943 






1:3 30.130


(123 brevers

Q)



?9900 
0

aya?ge??fi?jhs' 


2/

Decision electronically authenticated

The decision under appeal is set aside.

The oppositions are rejected.

The Chairman:

A. Lindner