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England and Wales High Court (Patents Court) Decisions |
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You are here: BAILII >> Databases >> England and Wales High Court (Patents Court) Decisions >> Tate & Lyle Technology Ltd v Freres [2009] EWHC 1312 (Pat) (16 June 2009) URL: http://www.bailii.org/ew/cases/EWHC/Patents/2009/1312.html Cite as: [2009] EWHC 1312 (Pat), [2010] FSR 1 |
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CHANCERY DIVISION
PATENTS COURT
Strand, London, WC2A 2LL |
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B e f o r e :
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TATE & LYLE TECHNOLOGY LIMITED |
Claimant |
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- and - |
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ROQUETTE FRÈRES |
Defendant |
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Mr Iain Purvis QC and Dr Anna Edwards-Stuart (instructed by Withers LLP) for the Defendant.
Hearing dates: 3,4,5 June 2009
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Crown Copyright ©
Mr. Justice Lewison:
Introduction
Basic background
The experts and the skilled addressee
Common general knowledge
i) the temperature of the solvent;ii) the concentration of the product in the solvent, including supersaturation;
iii) the presence (and rate) of stirring;
iv) the presence of impurities.
"The majority of habit modification cases reported in the literature have been concerned with laboratory investigations, but the phenomenon is of the utmost importance in industrial crystallization and by no means a mere laboratory curiosity. Certain crystal habits are disliked in commercial crystals because they give the crystalline mass a poor appearance; others make the product prone to caking (section 7.6), induce poor flow characteristics or give rise to difficulties in the handling or packaging of the material. For most commercial purposes a granular or prismatic habit is usually desired, but there are a few specific occasions when other morphologies, such as plates or needles, may be wanted. A few examples of habit modification of industrial interest are listed in Table 6.2. In nearly every industrial crystallization some form of habit modification procedure is necessary to control the type of crystal produced. This may be done by controlling the rate of crystallization, e.g. the rate of cooling or evaporation, the degree of supersaturation or the temperature, by choosing a particular solvent, adjusting the solution pH, deliberately adding an impurity that acts as a habit modifier, or even removing some impurity that already exists in the solution."
The patent in suit
"It has indeed demonstrated that, against all expectation, the form of the maltitol crystals was a function of the maltotriitol content of a maltitol syrup intended for crystallisation. The Applicant company has noted that by controlling the maltotriitol content of a maltitol syrup, it was possible to direct the form of the maltitol crystals towards one or other of the forms or towards a mix of the two forms, when this maltitol syrup is subjected to a crystallisation stage."
"One of the essential characteristics of the invention is therefore to vary the maltotriitol contents of the maltitol syrups to be crystallised while advantageously retaining a reduced content of maltosyl 1,6 matitol."
"it is already possible to control the maltotriose content (which after hydrogenation leads to maltotriitol) … by adjusting the amount of maltogenic a-amylase as a function of the maltotriose content and therefore of the form of the maltitol crystals that it is wished to obtain."
"[0071] According to a first version of the process, a series of steps is applied to the maltitol syrup obtained in the preceding hydrogenation stage as follows
- possibly carrying out a chromatographic fractionation, known per se, so as to obtain a maltitol rich fraction and a more or less rich maltotriitol fraction as a function of the form of crystals required
- concentrating the maltitol rich fraction
- crystallising and separating the formed maltitol crystals
- recycling the crystallisation mother liquors upstream of the chromatographic fractionation stage
[0072] According to a second version of the process, a series of steps is applied to the maltitol syrup obtained in the preceding hydrogenation stage as follows
- concentrating the maltitol syrup
- crystallising and separating the formed maltitol crystals."
"A process for directing the form of the maltitol crystals, characterised in that it consists in controlling the maltotriitol content of the maltitol syrup to be crystallised."
"The use of maltotriitol to modify or control the form of maltitol crystals."
Construction of the claim
i) that the maltotriitol content is manipulated by being increased or reduced in the course of the production process andii) that this manipulation actually affects the ultimate crystalline habit of the maltitol.
The validity attacks
i) The claim is anticipated because by working one or more inventions disclosed in the prior art the claim would inevitably be infringed;ii) Shorn of the other granted claims (and particularly claim 9) the remaining claim amounts to no more than a discovery and is therefore not a patentable invention;
iii) The claim is obvious over the prior art.
The prior art
US Patent No 4,408,041 ("Hirao")
US Patent No 4,840,797 ("Boursier")
US Patent No 4,486,139 ("Devos")
US Patent No 5,462,864 ("Niimi")
EP Application No 0,741,140A1 ("Magara")
US Patent No 5,580,601 ("Ribadeau-Dumas")
"In order to control the crystallization of maltitol … and to obtain sufficiently fine crystals, it will be preferable to adjust the oligosaccharide and polysaccharide contents in the grainy confectionery product in accordance with the invention."
US Patent No 5,651,829 ("Caboche")
Anticipation
"…the matter relied upon as prior art must disclose subject-matter which, if performed, would necessarily result in an infringement of the patent. That may be because the prior art discloses the same invention. In that case there will be no question that performance of the earlier invention would infringe and usually it will be apparent to someone who is aware of both the prior art and the patent that it will do so. But patent infringement does not require that one should be aware that one is infringing: "whether or not a person is working [an] … invention is an objective fact independent of what he knows or thinks about what he is doing": Merrell Dow Pharmaceuticals Inc v H N Norton & Co Ltd [1996] RPC 76 , 90. It follows that, whether or not it would be apparent to anyone at the time, whenever subject-matter described in the prior disclosure is capable of being performed and is such that, if performed, it must result in the patent being infringed, the disclosure condition is satisfied. The flag has been planted, even though the author or maker of the prior art was not aware that he was doing so. …
…But the infringement must be not merely a possible or even likely consequence of performing the invention disclosed by the prior disclosure. It must be necessarily entailed. If there is more than one possible consequence, one cannot say that performing the disclosed invention will infringe. The flag has not been planted on the patented invention, although a person performing the invention disclosed by the prior art may carry it there by accident or (if he is aware of the patented invention) by design. Indeed, it may be obvious to do so. But the prior disclosure must be construed as it would have been understood by the skilled person at the date of the disclosure and not in the light of the subsequent patent."
"It may be easy, given a knowledge of a later invention, to select from the general teachings of a prior art document certain conditions, and apply them to an example in that document, so as to produce an end result having all the features of the later claim. However, success in so doing does not prove that the result was inevitable. All that it demonstrates is that, given knowledge of the later invention, the earlier teaching is capable of being adapted to give the same result. Such an adaptation cannot be used to attack the novelty of a later patent."
Hirao
"A process for directing the form of the maltitol crystals, characterised in that it consists in controlling the maltotriitol content of the maltitol syrup to be crystallised."
Boursier
Devos
"Q. Therefore what I suggest, Dr. Lindley, is that if you were putting this into practice, what you would do is where it indicates here the range of maltotriitol levels in the syrup, which we looked at at column 5, lines 6 and 7, staying within the four corners of Devos, you would find out whether 13% maltitol let you run your crystalliser all right but gave you bad/good yield and whether 2.5% and few in between. That is what you would do.
A. Probably.
Q. It is not probably. It is what you would do, is it not?
A. Yes.
Q. The point then is, on the hypothesis that the patent is right, what would happen is that the habit of your crystals would change from prisms at 13% to a mixture of bipyramids and prisms at 2.5%.
A. All things being equal, yes."
Nimi
Magara
Ribadeau-Dumas
Caboche
Discovery
"An invention is a practical product or process, not information about the natural world."
Obviousness
i) (a) Identify the notional "person skilled in the art";(b) Identify the relevant common general knowledge of that person;ii) Identify the inventive concept of the claim in question or if that cannot readily be done, construe it;
iii) Identify what, if any, differences exist between the matter cited as forming part of the "state of the art" and the inventive concept of the claim or the claim as construed;
iv) Viewed without any knowledge of the alleged invention as claimed, do those differences constitute steps which would have been obvious to the person skilled in the art or do they require any degree of invention?
i) It is not permissible (save in rare circumstances) to construct a mosaic from different pieces of prior art;ii) One must be careful to avoid hindsight. All the pieces of prior art must be approached without knowledge of the claimed invention;
iii) One must be cautious about an assertion that something was "obvious to try".
"In the Court of Appeal, Jacob LJ dealt comprehensively with the question of when an invention could be considered obvious on the ground that it was obvious to try. He correctly summarised the authorities, starting with the judgment of Diplock LJ in Johns-Manville Corporation's Patent [1967] RPC 479, by saying that the notion of something being obvious to try was useful only in a case in which there was a fair expectation of success. How much of an expectation would be needed depended upon the particular facts of the case. As Kitchin J said in Generics (UK) Ltd v H Lundbeck A/S [2007] RPC 32, para 72:
"The question of obviousness must be considered on the facts of each case. The court must consider the weight to be attached to any particular factor in the light of all the relevant circumstances. These may include such matters as the motive to find a solution to the problem the patent addresses, the number and extent of the possible avenues of research, the effort involved in pursuing them and the expectation of success.""
i) Roquette were the first to discover the property of maltotriitol explained in the patent in suit. It had been some fifteen years since maltitol began to be crystallised, yet no one had discovered it before. Professor Davey characterised this as "weird", which is hardly suggestive of obviousness.ii) Although there was evidence that needle-like (or prismatic) crystals could cause problems (and indeed the patent in suit itself said that they could) there was no real evidence about how serious a problem it was. Mr Purvis forcefully submitted that:
a) if there was a serious problem which demanded a solution, the fact that no one had solved it until the patent in suit suggests invention; butb) if there was not a serious problem then it is hard to see why it would be obvious to embark upon a programme of work to investigate precisely what it was that changed crystal habit;c) consequently there was no clear motive for investigation.iii) If a problem had arisen it would have been one of the problems identified in the patent in suit viz. not flowing easily, being liable to cake or knot, poor solubility etc. One possible cause of the problem, as Professor Davey agreed, might be undue moisture retention. That might be solved by drying out the storage facilities. Another might be the size of the crystals, which might be solved by grinding them smaller. As Professor Davey put it:
"Supposing I am a member of a team who is charged with delivering a solid product and my technical service people come to me and say, sorry, we do not like what you have given us. It does not do this. It does not do that. We would like you to look at ways of improving it. Then I would expect somebody in that team to be able to say, well, one possibility is that we have got the morphology wrong, so let us look at the habit. Somebody else might say, I think it is the drier. Somebody else might say, well, let us try milling the stuff. I would expect a team working in a business whose prime aim was to deliver a solid product to have all these approaches to hand and all these avenues of potential investigation. That is my expectation and my experience actually."iv) Professor Davey said in his initial report (written without sight of the patent in suit but having been told of the problem with the crystals identified in the patent) that he assumed that the problem might relate to the morphology of the crystal. However, since he is a specialist in crystal morphology, I do not consider that his immediate reaction is a good proxy for the skilled person.
v) If the skilled person had pinpointed the problem as lying in the crystal habit, he might try variations in the temperature, the supersaturation or the stirring regime before investigating the effect of impurities in the syrup. This was the sequence that Professor Davey himself described. Mullin, in the passage cited (§ 15) also describes many different ways of altering crystal habit. He includes all the above methods, but also suggests adding impurities to the solution. Removing an existing impurity is last on his list and is described in terms that suggest it would be unusual ("or even removing some impurity").
vi) There was no real evidence about the expense or effort of pursuing the inquiries, although Dr Lindley said that testing a range of different concentrations of syrup would be "trivial". I think that it is a fair inference that the effort or expense of undertaking the study would not have been great. But "trivial" is not the same as "obvious".
vii) If the skilled person had decided to investigate impurities in the syrup there would have been a number to investigate. Sorbitol, for instance, would have been one. But syrups also contain other trisaccharides apart from maltotriitol and, indeed sometimes saccharides that are polymerised to a higher degree.
viii) The skilled person would have known that maltitol crystals existed in two different habits. Something must have caused the difference. If, therefore, he embarked upon a study programme to discover the cause of the change, he would have had a fair expectation of success. But that, as it seems to me, is not the same as saying that he would have had a fair expectation that changing the content of maltotriitol would have that effect.
i) In my judgment he was expressing a view based on his own highly specialised expertise rather than expressing what the unimaginative skilled addressee would have done;ii) There is force in Mr Purvis' criticism that Professor Davey treated the cited prior art as a quarry from which the occasional nugget could be extracted, with knowledge of the problem to be solved, rather than approaching the teaching of each of the pieces of prior art on its own terms and seeing where that led him.
Result