![]() |
[Home] [Databases] [World Law] [Multidatabase Search] [Help] [Feedback] | |
England and Wales Court of Appeal (Civil Division) Decisions |
||
|
You are here: BAILII >> Databases >> England and Wales Court of Appeal (Civil Division) Decisions >> Pharmacia Corporation & Ors v Merck & Co Inc & Anor [2001] EWCA Civ 1610 (14 December 2001) URL: http://www.bailii.org/ew/cases/EWCA/Civ/2001/1610.html Cite as: [2001] EWCA Civ 1610, [2002] RPC 41, [2002] ENPR 10 |
||
[New search] [Printable RTF version] [Help]
COURT OF APPEAL (CIVIL DIVISION)
ON APPEAL FROM CHANCERY DIVISION
MR JUSTICE PUMFREY
Strand, London, WC2A 2LL Friday 14th December 2001 |
||
B e f o r e :
LORD JUSTICE SEDLEY
and
LADY JUSTICE ARDEN
____________________
| (1) PHARMACIA CORPORATION (2) G.D. SEARLE & COMPANY (3) PFIZER INC |
Claimants/ Appellants |
|
| - and - |
||
| (1) MERCK & CO, INC (2) MERCK, SHARP & DOHME LIMITED |
Defendants/ Respondents |
____________________
Smith Bernal Reporting Limited, 190 Fleet Street
London EC4A 2AG
Tel No: 020 7421 4040, Fax No: 020 7831 8838
Official Shorthand Writers to the Court)
Mr David Young QC, Mr Justin Turner and Mr Thomas Hinchliffe (instructed by Lovells for the Respondents)
____________________
Crown Copyright ©
LORD JUSTICE ALDOUS:
The Patent
"5. I take the following account of the development of the understanding of the action of NSAID's from Professor Flower's evidence, which was unchallenged on this issue. There are two major classes of anti-inflammatory compounds, the steroids and the NSAID's. In 1971, Sir John Vane and his colleagues discovered that aspirin, indomethacin and sodium salicylate had the ability to inhibit the synthesis of prostaglandins, and suggested that this was the major mode of operation of these drugs. Prostaglandins are chemicals which play a part in inflammation. There are a number of prostaglandins, and they are responsible for many of the body's regulatory functions. The ones in which Vane was interested were those which were produced by the body during inflammation. They are synthesised in the body from arachidonic acid and other fatty acids via an enzyme then called prostaglandin H synthase, then fatty acid cyclooxygenase, and finally COX. Vane showed that NSAID's directly inhibited COX in cell-free tissue extracts in vitro. This discovery explained the tendency of the NSAID's, to cause stomach irritation and ulceration. The drugs cause the irritation because they inhibit the synthesis of the prostaglandin which is responsible for regulating the secretion of acid in the stomach and the secretion of the mucus which protects the lining of the stomach against being digested.
6. This elucidation of the action of NSAID's led immediately to a method of screening potential drugs for aspirin-like activity without having to perform in vivo experiments. Provided that a source of COX was available, the enzyme could be exposed to the drug, and its ability to synthesise prostaglandin from arachidonic acid could be measured. If the drug successfully inhibited COX, little arachidonic acid would be used to synthesise prostaglandin and the amount produced could be measured. At this time, all the enzyme available had to be derived from animal tissue; so there was dog spleen COX, rabbit brain COX, and so on.
…
10. Once the discovery of COX had been made, those responsible for the development of NSAID's, having available an assay for the activity of a compound, were in a position easily to investigate both new NSAID's and existing drugs.
…
15. By the mid-1980's a number of companies (including the defendants) had run their investigation of novel NSAID's down. During the later 1970's and the 1980's it appears that at least two groups were working on the activity of NSAID's in the inhibition of the COX enzyme. At DuPont, a long investigation into the properties of existing compounds had started in 1979/80, as Dr Galbraith described. This work consisted at that time of screening the compounds in vivo and the principal area of concentration was diaryl heterocycles. Such compounds are the subject of the two Haber patents relied on by the defendants in these proceedings as rendering the patent invalid. The diaryl heterocycles were (as far as the evidence went) 2,3 diaryl materials (Figure A)
16. Among the results of this work was a compound called DuP 697, a description of which was published in 1989 in a patent applied for in 1984 relied on by the defendants ("Haber 2"). This compound is also the subject of a paper also relied on by the defendants to support their allegation of invalidity by Gans and others. DuP 697 was reported as having low gastric irritancy but good anti-inflammatory characteristics. The authors of this Gans paper hypothesised that its good gastric characteristics were due to tissue selectivity and its lack of an acid functional group in the molecule, a group possessed by the largest class of NSAID's.
17. During the 1980's, other work was being carried out in relation to the prostaglandins and inflammation, particularly by Dr Needleman's group both before and after he joined the claimants in 1989. By 1989, it had been demonstrated that some COX enzyme was manufactured by the body in response to inflammatory stimuli. This means that the COX responsible for the inflammatory response was not a purely constitutive enzyme (i.e. present all the time in the body). In 1988 Dr Needleman had hypothesised that there might be two different COX enzymes. Then in 1991 it was reported by a number of groups that there was in fact not one but two COX enzymes. The paper of one of these groups (Xie) is relied on by the defendants. In 1992 Dr Needleman's group confirmed that there was a second COX enzyme which came to be called COX-2. The gene for this enzyme was cloned by late 1992, so making available supplies of recombinant COX-2 to all those who had access to the cloned gene."
"24. I think that it is clear that those working at the forefront of NSAID research were in all probability aware of the existence of Cox II and of its importance. Indeed, it appeared from Dr Galbraith's evidence under cross-examination that all the information with which I am concerned was discussed at that conference by himself and the other speakers. The list of those attending survives, and although it represents a good cross-section of well-known chemical companies I cannot say that the attendees are representative of every company who might be interested in the subject matter of the patent. But a year elapsed from the Winter Prostaglandin conference to the priority date of the patent in suit, and another year until the application resulting in the patent in suit. By the application date for the patent in suit, I have no doubt that the Cox I/Cox II relationship, its importance and the fact that Cox II was a target for NSAID development was common general knowledge. On the whole of the evidence, and paying attention to that of Professor Flower, I think that it was also part of the knowledge of the skilled man, as a good basis for further action, at the claimed priority date."
"Prostaglandins play a major role in the inflammation process, and the inhibition of prostaglandin production, especially production of PGG2, PGH2 and PGE2, has been a common target of anti-inflammatory drug discoveries. However, common non-steriodal anti-inflammatory drugs (NSAIDs) that are active in reducing prostaglandin-induced pain and swelling associated with the inflammation process, are also active in affecting other prostaglandin-regulated processes not associated with the inflammation process. Thus, use of high doses of most common NSAIDs can produce severe side-effects, including life-threatening ulcers, that limit their therapeutic potential. An alternative to NSAIDs is the use of corticosteriods which have even more drastic side-effects, especially when long-term therapy is involved.
Previous NSAID's have been found to prevent the production of prostaglandins by inhibiting enzymes in the human arachidonic acid/prostaglandin pathway, including the enzyme cyclooxygenase (COX). Recently, the sequence of another heretofore unknown enzyme in the human arachidonic acid/prostaglandin pathway has been reported by T. Hia and K. Nielson, Proc. Natl. Acad, Sci, USA, 89, 7384 (1992) and named "cyclooxygenase II (COX II)" or "prostaglandin G/H synthase II". The discovery of an inducible enzyme associated with inflammation provides a viable target of inhibition which more effectively reduces inflammation and produces fewer and less drastic side effects. Cyclooxygenase II is inducible by cytokines or endotoxins and such induction is inhibited by glucocortoids (J. Masferrer et al, Proc. Natl. Acad. Sci. USA, 89, 3917 (1992)). The 6-methoxy-2-naphthylacetic acid metabolite of nabumetone has been found by E. Meade et al to selectively inhibit the COX II enzyme (J. Biol. Chem. 268, 6610 (1993)). In addition, Futaki et al (Gen. Pharmac., 24, 105 (1993)) has reported that N-(2-cyclohexyloxy-4-nitrophenyl) methanesulphonamide is anti-inflammatory and lacks gastric side effects.
The substituted thiophene compounds disclosed herein selectively inhibit cyclooxygenase II over cyclooxygenase I and relieve the effects of inflammation. These compounds, in addition, do not display substantial inhibition of cyclooxygenase I and produce a reduced amount of side effects."
"The compounds are useful as anti-inflammatory agents, such as for the treatment of arthritis, with the additional benefit of having significantly less harmful side effects.
The present invention also includes compounds which selectively inhibit cyclooxygenase II over cyclooxygenase I and do not significantly inhibit one or more other arachidonic pathway steps, such as thromboxane B2 (TXB2) production. Importantly, thromboxanes cause blood platelet aggregation and have vasoconstriction properties. Thus a lack of effect in the regulation of non-inflammation related thromboxane production is further evidence of the beneficial selectivity of the present compounds.
Preferably the compounds of the present invention have a thromboxane B2 inhibition lC50 of greater than about 1.5 µM, as determined by a whole cell assay and preferably over 10 µM. The inhibition of the production of TXB2 by a whole cell assay is a better indicator of potential in vivo behavior as the assay also incorporates such factors as cell transport.
More preferably the compounds also have a selectivity ratio of cyclooxygenase II inhibition over cyclooxygenase I inhibition of at least 50 and preferably of at least 100. Such preferred selectivity may indicate an ability to reduce the incidence of common NSAID-induced side effects, such as ulcers."
"32. The text may be picked up at page 31, where the biological evaluation of the compounds are described. Two in vivo and two in vitro tests are described. The in vivo tests are well established tests carried out on rats to evaluate NSAID's, and form part of the common general knowledge. It should be noted that such evaluations are performed only in respect of those compounds which have already demonstrated promise in vitro. In summary, the carrageenan foot pad oedema test is to determine whether the compound reduces the inflammation-induced swelling induced in a rat's paw caused by injection of a compound (carrageenan). The carrageenan-induced analgesia test consists of inflaming the paw, again by injection of carrageenan, and seeing whether the compound increases the time which it takes for the rat to remove its paw from a source of pain. A number of these evaluations were carried out for the purpose of this action. The results reported in the specification were in respect of 5 compounds only, and as will be apparent from Table I on page 32 of the specification not all 5 compounds were assayed on both tests. Example 1 is shown as analgesic but not as anti-inflammatory. Examples 2, 13 and 14, which are within the claim, are shown as having an anti-inflammatory effect, while the comparison example 4 shows comparable anti-inflammatory characteristics. It should be noted that Example 4 is said to be a comparison example. The compound is 3,4-bis (4-methoxyphenyl) thiophene. This compound does not fall within claim 1 because neither of the substituent aryl groups is itself substituted with methylsulphonyl or sulphamyl.
33. A very large amount of evidence was provoked by the in vitro tests which the specification now describes. The tests as described depend upon having available the gene for either human or mouse Cox I and Cox II.
A 2.0 kb fragment containing the coding region of either human or murine COX-I or human or murine COX-II was cloned into a BamHI site of the baculovirus transfer vector pVL1393 to generate the baculovirus transfer vector. Recombinant baculoviruses were isolated by transfecting 4µg of baculovirus transfer vector DNA into SF9 cells (2 x 10e8) along with 200 ng of linearized baculovirus plasmid DNA by the calcium phosphate method. Recombinant viruses were purified by three rounds of plaque purification and high titer (10E7 - 10E8 pfu/mI) stocks of virus were prepared. For large scale production SF9 insect cells were infected in 10 liter fermentors (Bioprocess group) (0.5 x 106/mI) with the recombinant baculovirus stock such that the multiplicity of infection was 0.1. After 72 hours the cells were centrifuged and the cell pellet homogenized in Tris/Sucrose (50 mM: 25%, pH 8.0) containing 1% CHAPS. The homogenate was centrifuged at 10,000xG for 30 minutes, and the resultant supernatant was stored at -80ºC before being assayed for COX activity.
34. The identification of the gene coding for human or murine COX had been identified by the claimed priority date. Professor Flower's evidence was that Needleman's hypothesis of the existence of the two isozymes was accepted by 1992 and the cloning of the human gene had been achieved in 1992. This passage of the specification reinforces my view that Professor Flower's evidence as to what was generally known is correct, and that the genes were available.
35. The assay for Cox I and Cox II activity which is described in the specification is in fact that which was used by the claimants at the relevant time in assessing Cox I/Cox II activity. The basic idea of the assay is that the enzyme is pre-incubated with the compound under test. During the period of incubation, the enzyme will be inhibited if the compound is a COX inhibitor. The enzyme is then exposed to its substrate, arachidonic acid, and the amount of prostaglandin synthesised by the enzyme in a fixed period is measured. A good inhibitor will mean less prostaglandin. The compound is tested at a number of concentrations and the final figure which is used for comparison purposed between different compounds is the concentration of compound which is needed to produce 50% inhibition, the so-called ID50 or IC50. Table II of the patent on page 33 shows the results of such tests. Fourteen compounds of the patent are shown as having been tested, mainly by reference to mouse Cox I and Cox II, although one of the results (Example 1) relates to human COX. The specification does not provide any interpretation of these results. The only guide to their interpretation is the passages to which I have already referred. There is no comparison with, for example, an established NSAID such as indomethacin which is used, incidentally, to stop the synthesis of prostaglandin during the assay. It seems to follow that this test is essentially a comparative test which is intended to reveal differences in Cox I and Cox II activity.
36. The final test to which the patent relates is the whole blood assay for thromboxane B2 activity. This is an assay for Cox I inhibition. Professor Flower describes it as follows. This experiment tests for eicosanoid (i.e. prostaglandin derivative) synthesis as a consequence of blood platelet (red blood cell) aggregation. Briefly, blood is taken from a healthy volunteer. A sample is measured out together with the test compound and the blood is allowed to clot naturally in a 37°C water bath. During the clotting process, platelets are activated and arachidonic acid is released. Large amounts of prostanoids (that is, prostaglandin derivatives) will be produced by the platelets, as a result of Cox I acting on the arachidonic acid substrate. These prostanoids can be recovered (mainly in the form of thromboxane B2 or TXB2) in the serum. The presence in the blood of Cox inhibitors will reduce the TXB2 formation. This is a very convenient way of assessing the activity of potential inhibitors in man and precise IC50 values can be obtained.
37. Thus, the idea is that the thromboxane B2 assay is that it provides a way of detecting Cox I inhibition alone. Professor Flower emphasises, and all the witnesses agreed, that it is not possible directly to compare the results of the thromboxane B2 assay with that of the Cox I/Cox II comparative assay. The specification says nothing about the interpretation of the thromboxane B2 assays that are set out. In general terms, however, it may be seen that the higher the IC50 , the more of the compound is needed to achieve a 50% reduction in prostanoid synthesis, and thus the less effective is the compound as a Cox I inhibitor. Seen in the context of the passage in the specification to which I have referred in paragraph 26 above, this test enables the skilled man to identify those compounds included within the claim which do not significantly inhibit one or more "other arachidonic pathway steps, such as thromboxane B2 production." Two preferable ranges for IC50 in the thromboxane B2 assay are indicated at page 5 line 5: greater than 1.5µM and greater than 10µM. Table III thus shows three groups of compounds: 1, 13 and 14, which show IC50's comfortably in excess of 10µM; compounds 10 and 11, which show IC50's in excess of 1.5µM, and compounds 2, 4 and 7 which are potent inhibitors of Cox I with very low IC50's.
38. This table may be compared with Table II, which shows relative Cox I/Cox II activity in that assay. Example 1 is highly Cox II selective over Cox I. Example 13 is also highly Cox II selective over Cox I. Example 14 is Cox II selective, as are compounds 10, 11 and 13. Example 4, the comparison example, shows little or no Cox II selectivity. If there is Cox II selectivity in example 7, it is obscured because in this assay example 7 is a potent inhibitor both of Cox II and of Cox I. The specification draws no conclusions from these results, which are merely presented to the reader. They may be related to the preferred ranges of selectivity set out on page 4 at line 9: Examples 1, 10 and 11 are certainly over 100, and example 14 may be: it is certainly over 50. Examples 3 and 13 show a selectivity of 50 or above. The remainder are Cox II selective, with the exception of example 4 (where they are comparable) and example 7, where no conclusions can be drawn."
"Claim 1 of the unamended patent is as follows. I have added labels to the features for ease of reference. This subdivision of the features was given to me by the claimants without dissent from the defendants. I have also underlined those features of the claim which are relied on for the allegation of infringement.
|
I |
A compound of Formula I
wherein Y is selected from S, O and NR1;
wherein R1 is selected from hydrido and C1-C6 alkyl;
wherein X is one or more substituents selected from
(a) (i) hydrido
(ii) halo
(iii) cyano
(iv) nitro
(v) hydroxy
(vi) acyl
(vii) lower alkyl substituted at a substitutable position with a substituent selected from halo, hydroxyl, amino, acylamino, lower alkylamino, lower alkyl(acyl)amino, acyl, aryl optionally substituted with hydroxyl, a heterocyclic group, hydroxyimine and lower alkoxyimine,
(viii) lower alkonyl optionally substituted at a substitutable position with cyano,
(ix) amino optionally substituted at a substitutable position with a radical selected from acyl and lower alkylsulfonyl,
(x) sulfo,
(xi) sulfamoyl optionally substituted with a substituent selected from the group consisting of lower alkyl, halo(lower)alkyl, aryl, hydroxyl, lower alkylamino(lower)alkyl, a heterocyclic group and (esterified carboxy)lower alkyl,
(xii) N-containing heterocyclicsulfonyl,
(xiii) a heterocyclic group optionally substituted at a substitutable position with a substituent selected from the group consisting of hydroxyl, oxo, amino and lower alkylamino,
provided that when Y is O or NR1 then X cannot be hydroxyalkyl,
(b) S(O)nR5, wherein R5 is C1-C6 alkyl optionally substituted at a substitutable position with fluoro, and n is 0, 1 or 2,
(c) C(R6)(OR8)(R7) wherein R6 and R7 independently are selected from CF3, CF2H, CFCl2, CF2Cl, CClFH, CCl2F, CF3CF2 and C1-C2 alkyl, and wherein R8 is selected from hydrido, C1 -C4 alkyl, (C1-C3 alkyl)C(O) and CO2R9 wherein R9 is C1-C4 alkyl,
(d) C(O)ZR4, wherein Z is O, N, or S, and R4 is selected from hydrido, C1-C5 alkyl and aryl, and when Z is N then R4 is independently taken twice, and
(e) C(R9) (NHR11) (R10), wherein R9 and R10 are independently selected from CF3, CF2H, CFCl2, CF2Cl, CClFH, CCl2F, and R11 is selected from hydrido and C1-C3 alkyl, and
wherein R2 and R3 are independently selected from
aryl or heteroaryl, wherein the aryl or heteroaryl radical is optionally substituted at a substitutable position with a radical selected from halo, lower alkyl lower alkoxy, lower alkylthio, lower alkylsulfinyl, lower alkylsulfonyl, nitro, amide, amino, lower akylamino, sulfamyl and lower alkylsulfonylamino,
provided that at least one of R2 and R3 is substituted with methylsulfonyl or sulfamyl;
or a pharmaceutically acceptable salt thereof."
"42. On the other hand the defendants contended that the invention of the specification was a class of compounds substantially all of which were both anti-inflammatory and had significantly less harmful side effects than the existing NSAID's. They further said that the specification taught only two mechanisms for reducing harmful side effects: to provide Cox II selectivity, and further to provide Cox I inactivity. They submitted that while gastric-sparing qualities might arise from other causes, so far as the specification was concerned the teaching was such that the addressee would understand that the inventor's contribution lay in a class of compounds which possessed Cox II/Cox I selectivity at least when assayed in the manner described in the specification. However, apart from a specific teaching in respect of the thiophenes at page 3 line 29 (see paragraph 27 above) the patent neither identifies the members of the claimed class which possess Cox II selectivity nor those which do not inhibit Cox I. The defendants contend that accordingly the teaching of the patent is that all the claimed classes, or at least all the thiophenes, possess Cox II selectivity, and moreover produce a reduced amount of side effects. This question as to the teaching of the specification is fundamental to the dispute between the parties. …
46. I have come to the conclusion that the defendants' contention is correct. The class is presented as a class of compounds which have anti-inflammatory and/or analgesic activity with fewer and less drastic side effects, the reduction in side effects being due to Cox II selectivity. Of the particular passages in the specification on which the claimants relied, I consider that the passage bridging pages 4 and 5 of the patent supports the construction which I think is the right one. As a matter of language, it says that all the compounds of the present invention selectively inhibit Cox II over Cox I, and some of them also do not inhibit one or more other arachidonic pathway steps (i.e. Cox I). The experimental results and the manner in which they are presented are also consistent with this view. All the compounds tested in vivo show either anti-inflammatory or analgesic qualities. The comparison compound 4 does not exhibit Cox II selectivity, but those within the claim do, with the exception of example 7 where the result is not determinate. Those compounds tested with a high degree of Cox II selectivity also have poor Cox I activity in the thromboxane B2 assay. So apart from example 7, which is equivocal, the experimental results demonstrate that the compounds tested within the claim are Cox II selective. The preferred ratios for Cox II over Cox I activity do not throw any light on the problem, since they leave open the question whether the class includes compounds which exhibit no Cox II selectivity at all. The diffident statement that "Such preferred selectivity may indicate an ability to reduce the incidence of common NSAID-induced side effects, such as ulcers" again does not indicate that the class includes compounds which are not Cox II selective, and must be read in the context of the clear statement in respect of the thiophenes to which I have already referred and the general statement that the compounds have fewer and less drastic side effects. The whole thrust of the specification is towards Cox II selectivity."
"The substituted thiophene compounds disclosed herein selectively inhibit cyclooxygenase II over cyclooxygenase I and relieve the effects of inflammation. These compounds, in addition, do not display substantial inhibition of cyclooxygenase I and produce a reduced amount of side effects."
Infringement
"174. The compound sold by Merck as the active ingredient of Vioxx is 3-phenyl-4-(4-methylsulphonylphenyl)-2-(5H) furanone. It is referred to as MK-966 (Figure B).
It is common ground that this compound is not among those explicitly listed in claim 1. In aqueous conditions, however, MK-966 undergoes a chemical process called tautomerisation, and it is from this fact that the allegation of infringement really springs. Before turning to the details of the allegation of infringement, I should first describe tautomerism."
"The same is true of tautomerism in aromatic molecules. Returning to the defendants' compound MK-966, this undergoes tautomerisation in aqueous solution. Its tautomeric companion is 3-phenyl-4-(4-methylsulphonylphenyl)-2-hydroxyfuran (Figure C).
Figure C: tautomerism of MK-966"
"The hydroxyfuran is an acid, and will dissociate to some extent into an anion (a negatively charged ion) and a hydrogen ion (or proton).
The charges are shown by the plus and minus signs. The negatively charged ion is the enolate ion."
"60(1) (a) where the invention is a product, he makes, disposes of, offers to dispose of, uses or imports the product or keeps it whether for disposal or otherwise;
…
(2) Subject to the following provisions of this section, a person (other than the proprietor of the patent) also infringes a patent for an invention if, while the patent is in force and without the consent of the proprietor, he supplies or offers to supply in the United Kingdom a person other than a licensee or other person entitled to work the invention with any of the means, relating to an essential element of the invention, for putting the invention into effect when he knows, or it is obvious to a reasonable person in the circumstances, that those means are suitable for putting, and are intended to put, the invention into effect in the United Kingdom."
"197. I must be satisfied that the construction which I place on the claim satisfies the requirements of the Protocol by providing fair protection for the patentee and a reasonable degree of certainty for third parties. Were the claim to be construed so as not to cover a compound which is necessarily present with a compound expressly claimed, and which would be prepared with that compound, I think that there is no offence against this principle. I believe that it is helpful to consider the phrase used by Fox LJ which is quoted by Hoffmann J in Improver, "within the ambit of the language". My conclusion is that the words used in the claim have a clear and unambiguous meaning which does not admit of variants, and that the words are not used figuratively so that the correct conclusion is that the claim does not cover the furanone tautomer of the 2-hydroxyfuran expressly claimed.
198. It follows from my conclusions that claim 1 is not infringed by the importation and sale of MK-966. Claim 13 is not infringed by the importation and sale of pharmaceutical preparations containing it."
"196. … It is not altogether easy to apply the principles of construction articulated in these cases [Improver and STEP v Emson] to a claim in which every term is unambiguous and devoid of any question of degree (except as to the number of carbons embraced by the phrase "lower alkyl" and similar matters) but which would nonetheless be read as necessarily involving the presence of other species which are not mentioned but which would play a role in the chemical properties of the compound claimed. The third Improver question also presents a difficulty. It is in the nature of class claims that not every member of every class will be exemplified and described. If there is no description of a hydroxy-substituted compound, there will be nothing in the specification likely to help to decide whether the patentee intended as a matter of words to exclude the tautomer, but, since the presence of the tautomer is a matter of common general knowledge the fact that there is no reference to suggests a deliberate exclusion."
Insufficiency
"(c) the specification of the patent does not disclose the invention clearly enough and completely enough for it to be performed by a person skilled in the art."
"60. It is a generally recognised principle of patent law that the patentee is not entitled to protection wider than the contribution which he has made to the art. It goes without saying that the patentee's claim should not cover that which is old or obvious. If it were otherwise, the patentee would be able to prevent others from doing what was old or obvious at the priority date, and this is intuitively wrong. Of course, this principle must be qualified. Merrell Dow v Norton [1996] RPC 76 establishes that it applies only to matters rendered old or obvious by information disclosed before the priority date. Other forms of protection (rather than invalidity) are provided by the statute for those who have used the invention before the priority date but in a manner which conveys nothing.
61. When one turns to the extent of the patentee's contribution to the art, the problem becomes more difficult. The essential underlying concept is that of the enabling disclosure. The patentee may not obtain a monopoly for matter which he has not told the public about and enabled them to do for themselves on the basis of what he has disclosed in the specification. This concept is manifested in two substantive requirements for the specification and claims. Subsection 14(3) of the Act requires that the specification of the application shall disclose the invention in a manner clear enough and complete enough for it to be performed by a person skilled in the art. Subsection 14(5) of the Act, mirroring Article 84 EPC, requires that the claim be supported by the description. It has never been the law that the claim must be co-extensive with the embodiments specifically disclosed by the patentee in his specification. Protection limited in this way would in all probability be illusory. When the patentee makes an invention, he may not appreciate its ramifications, and, when he files an application, he has in effect a year in which to develop and refine his invention before describing it in a further application which will result in the patent. The process of development and refinement may result in further applications along the way, but the application which will result in the patent must be made within a year. If, and only if, the claim is supported by the matter disclosed in the earliest application will it be entitled to priority from that application; and the intervening applications may form the bases of other claims to priority. The claims of the patent itself must be supported by the description given in the application for the patent, and the patentee may not add further to the disclosure of the application during the process of prosecution. As Lord Hoffmann explained in Biogen v Medeva [1997] RPC 1 at page 46, when the Act provides in section 72 for revocation of the patent on the ground that the specification of the patent does not disclose the invention clearly enough and completely enough for it to be performed by a man skilled in the art, it gives effect not merely to the substantive requirement of subsection 14(3) but to that of subsection 14(5)(c) as well."
"Section 72(1)(c) of the 1977 is not only intended to ensure that the public can work the invention after expiration of the monopoly. It is also intended to give the court in revocation proceedings a jurisdiction which mirrors that of the Patent Office under section 14(3) or the E.P.O. under article 83 of the EPC, namely, to hold a patent invalid on the substantive ground that, as the E.P.O. said in Exxon/Fuel Oils (T 409/91) [1994] O.J. E.P.O. 653, paragraph 3.3, the extent of the monopoly claimed exceeds the technical contribution to the art made by the invention as described in the specification. In the 1949 Act, this function was performed by another ground for revocation, namely that the claim was not "fairly based on the matter disclosed in the specification" (section 32(1)(i)). The requirement of sufficiency was therefore regarded as serving a narrower purpose. But the disappearance of "lack of fair basis" as an express ground for revocation does not in my view mean that general principle which it expressed has been abandoned. The jurisprudence of the E.P.O. shows that it is still in full vigour and embodied in articles 83 and 84 of the EPC, of which the equivalents in the 1977 Act are section 14(3) and (5) and section 72(1)(c)."
"67. This seems to me to be a clear statement that the applicable principle is that the claim must equiparate (to use Graham J's phrase in Olin Mathieson v Biorex [1970] RPC 157) with the invention, and, if it does not do so, the claim will not be enabled across its full width, because it will cover matter which owes nothing to the invention disclosed. It follows that if the claim covers compounds which do not satisfy the representations made about them in the specification, it is likely to be invalid, because, again, the claim will be covering compounds which owe nothing to the teaching of the specification. This is not to say that when the claim reflects a new feature uniting the class as a class, and relating the desirable quality of the compounds to this feature, it is bad if a few members of the class do not possess the desirable quality or possess it in an attenuated form. But the qualities of the class must be related to the features of the claim. If compounds having the features of the claim may or may not possess the qualities which the patent says unify the class, it cannot be said that the claim reflects a true class at all. It is just a generalised description of a large number of chemical compounds. Such a claim is not analogous to a claim to a new principle, since the patentee has given no information, such as a structure/activity relationship, which enables the reader of the specification to draw any conclusions as to the properties of any particular compound without further experiment. All he has done is to describe the scope of the claim with spurious precision."
"Since Genentech I/Polypeptide expression the E.P.O. has several times reasserted the well established principles for what amounts to sufficiency of disclosure. In particular, in Exxon/Fuel Oils (T 409/91) [1994] O.J. E.P.O. 653, paragraph 3.3, the Technical Board of Appeal said of the provision in the European Patent Convention equivalent to section 14(5)(c) of the Act:
"Furthermore, Article 84 EPC also requires that the claims must be supported by the description, in other words, it is the definition of the invention in the claims that needs support. In the Board's judgment, this requirement reflects the general legal principle that the extent of the patent monopoly, as defined by the claims, should correspond to the technical contribution to the art in order for it to be supported, or justified.""
"2.4.2 … it has for long been a generally accepted legal principle that the extent of the patent monopoly should correspond to and be justified by the technical contribution to the art (see T 409/91, OJ EPO 1994, 653, reasons Nos. 3.3. and 3.4, and T 435/91, OJ EPO 1995, 188, reasons Nos. 2.2.1 and 2.2.2). Now, whereas in both the above decisions this general legal principle was applied in relation to the extent of the patent protection that was justified by reference to the requirements of Articles 83 and 84 EPC, the same legal principle also governs the decision that is required to be made under Article 56 EPC, for everything falling within a valid claim has to be inventive. If this is not the case, the claim must be amended so as to exclude obvious subject-matter in order to justify the monopoly.
…
2.5.4 It follows directly from these considerations that a technical effect which justifies the selection of the claimed compounds must be one which can be fairly assumed to be produced by substantially all the selected compounds (see also e.g. T 131/87 of 7 September 1989, No.8 of the reasons T 742/89 of 2 November 1992, No.7.4 of the reasons, T 626/90 of 2 December 1993, No.4.3.2 of the reasons, and T 741/91 of 22 September 1992, No 4.2 and 4.3 of the reasons)."
"'The concept of an enabling disclosure is central to the law of patents. For present purposes, it touches the matters in issue at three different points. First, as we have seen, it forms part of the requirement of "support" in section 5(2)(a). Secondly, it is one of the requirements of a valid application in section 14. And thirdly, it is essential to one of the grounds for the revocation of a patent in section 72. I shall start with section 14. Subsection (3) says:
"The specification of an application shall disclose the invention in a manner which is clear enough and complete enough for the invention to be performed by a person skilled in the art."
This is plainly a requirement of an "enabling disclosure". In addition, subsection (5)(c) says that the claim or claims shall be "supported by the description". It was by reference to subsection (3) that Lord Oliver of Aylmerton, who gave the leading speech in Asahi, reasoned at page 536 that a description would not "support" the claims for the purpose of subsection (5)(c) unless it contained sufficient material to enable the specification to constitute the enabling disclosure which subsection (3) required: "the Act can hardly have contemplated a complete application for a patent lacking some of the material necessary to sustain the claims made". By parity of reasoning, he said that "support" must have the same meaning in section 5(2)(a).
The absence of an enabling disclosure is likewise one of the grounds for the revocation of a patent specified in section 72(1). Paragraph (c) says that one such ground is that -
"the specification of the patent does not disclose the invention clearly enough and completely enough for it to be performed by a person skilled in the art."
This is entirely in accordance with what one would expect. The requirement of an enabling disclosure in a patent application is a matter of substance and not form. Its absence should therefore be a ground not only for refusal of the application but also for revocation of the patent after grant. Similarly, the same concept is involved in the question of whether the patent is entitled to priority from an earlier application. This is not to say that the question in each case is the same. The purposes for which the question is being asked are different. But the underlying concept is the same.'
"Section 72(1)(c) of the 1977 is not only intended to ensure that the public can work the invention after expiration of the monopoly. It is also intended to give the court in revocation proceedings a jurisdiction which mirrors that of the Patent Office under section 14(3) or the E.P.O. under article 83 of the EPC, namely, to hold a patent invalid on the substantive ground that, as the E.P.O. said in Exxon/Fuel Oils (T 409/91) [1994] O.J. E.P.O. 653, paragraph 3.3, the extent of the monopoly claimed exceeds the technical contribution to the art made by the invention as described in the specification. In the 1949 Act, this function was performed by another ground for revocation, namely that the claim was not "fairly based on the matter disclosed in the specification" (section 32(1)(i)). The requirement of sufficiency was therefore regarded as serving a narrower purpose. But the disappearance of "lack of fair basis" as an express ground for revocation does not in my view mean that general principle which it expressed has been abandoned. The jurisprudence of the E.P.O. shows that it is still in full vigour and embodied in articles 83 and 84 of the EPC, of which the equivalents in the 1977 Act are section 14(3) and (5) and section 72(1)(c).'"
"5. The specification of the Patent does not disclose the invention clearly enough and completely enough for it to be performed by a person skilled in the art. In particular
(a) the specification of the patent fails to identify which (if any) compounds among those classes of 3,4 diaryl thiophenes, furans and pyrroles claimed:
(i) are Cox II selective or enable the skilled addressee of the patent to predict which compounds are Cox II selective;
(ii) exhibit anti-inflammatory activity or enabled the skilled addressee of the patent to predict which compounds exhibit anti-inflammatory activity;
(iii) exhibit reduced gastric side effects when administered to patients or enable the skilled addressee of the patent to predict which compounds will exhibit reduced gastric side effects.
(b) the specification of the patent fails to teach the skilled addressee how to synthesise the substituted pyrrole and furan derivatives of the invention and in particular the hydroxyfurans of the invention.
In the premises the claims of the Patent extend beyond the technical contribution to the art (if any) of the specification of the Patent."
"2. Without prejudice to the generality of the plea, hereunder the Defendants repeat the groups of compounds listed in paragraph 1(a), 1(b), 1(d)-(f) above as examples of those compounds which are claimed in the patent but which are not COX II selective and do not exhibit reduced gastric side effects.
Further compounds which R3 is a phenyl group substituted in the 2 position by an alkyl group and substituted in the 6 position by any group occupying a space larger than flourine; or compounds in which R3 is a non phenylaryl group substituted in the 2 position by any group occupying a space larger than flourine, are claimed in the Patent but are not COX II selective and do not exhibit reduced gastric side effects."
"1. The Defendants refer hereunder to the Supplemental Further and Better Particulars of the Particulars of Objections of 21 September 1998.
2. In their Notice of Experiments the Defendants have alleged that they will provide the following facts in relation to the in vitro experiments the results of which are recorded in Annexes 1(a) and 1(b) herein:
2. That compounds of the alleged invention lack h-COX II selectivity unless one of R2 or R3:
(a) is substituted with methylsulfonyl or sulfamyl; and in particular unless,
(b) one of R2 or R3 is 4-methylsulfonylphenyl or 4-sulfamylphenyl; and,
(c) there are no additional substituents on R2 (other than the 4-methylsulfonylphenyl or 4-sulfamylphenyl groups).
3. That prior art compounds 72 – 75 and 78 have lower IC50 against h-COX II than against h-COX I selective and that prior art compounds 74, 75 and 78 have a h-COX II selectivity ratio greater than 50.
4. That of the compounds exemplified in the patent in suit, examples 3, 5, 8 and 9 (that is to say compounds 3, 4, 7 and 8) are inactive as measured by either h-COX I or h-COX II inhibition in vitro.
5. That of the compounds listed in Annex I those in which the aryl or heteroaryl group R3 is substituted with a bulky group or are distributed, are inactive as measured by either h-COX I or h-COX II inhibition in vitro (see for example compounds 27 – 34 and 37).
6. That of the compounds listed in Annex I those in which the thiophene or furan ring is substituted at the carbon atom opposite R2 by a bulky group are inactive as measured by either h-COX I or h-COX II inhibition in vitro (see for example compounds 4 and 54 – 60).
7. That of the 3,4 diarylthiophenes and furans listed in Annex I those in which the thiophene or furan ring is substituted at the carbon atom adjacent R2 by a bromine group or any group that occupies a space as large or larger than a bromine group are inactive as measured by either h-COX I or h-COX II inhibition in vitro (see for example compounds 38 – 40a and 43 – 47).
3. The Defendants have disclosed the results of all COXII/COXI in vitro testing using the techniques advanced in the patent in suit) of the compounds falling within claim 1 of the patent in suit. At the trial of this action they intend to rely on those results which are the subject of the Notice of Experiments."
"71. I can turn to the details of the experiments. The ELISA plates are made of translucent plastics material and contain 96 "wells" in which reagents are successively added to the compound under test. This is a standard technique which utilises an antibody which can bind specifically to PGE2. It results in a colour change which can be measured using a spectrophotometer and is inversely proportional to the amount of PGE2 present. The ELISA used is based on a proprietary kit produced by Cayman Chemicals. There are a number of prescribed concentrations of compound, expressed as micro moles or µM, which enables the results of the assay on different compounds to be compared. If a compound is insufficiently soluble to pass into solution, the results are said to be valueless because not all the compound is in solution and the nominal concentration is not achieved.
72. The concentrations selected by the defendants were 0.0064µM, 0.032µM, 0.16µM, 0.8µM, 4µM, 20µM, 100µM and 1000µM. Each successive concentration is five times the preceding one (except, obviously, between 100 and 1000µM). There was precipitation in all of the defendants' experiments at 1000µM. There is some dispute as to the extent to which there was precipitation in the others."
"96. Class D is intended to show that substitution at the 4 position in R2 is essential, a move to either the 2 or 3 positions resulting in an inactive molecule. This the experiments did show: there were no counterexamples. The claimants say that the result is to be explained by insolubility, and those otherwise analogous compounds in class A which did work are to be explained by the fact that sufficient got into solution to work. In fact, a check of the results show that these compounds showed no activity at any concentration whether there was precipitation or not. This experiment establishes that a compound in which the methylsulphonyl or sulphamyl group is not at the 4 position will be inactive."
"98. Class F was a somewhat miscellaneous class, intended to show that various bulky groups on the aryl ring not substituted at the 4 position with methylsulphonyl or sulphamyl would prevent inhibitory activity. The claimants complain, with some justification, that Class F represented a moving target. There were three classes of compounds. The Notice of Experiments states that the fact to be proved is
…compounds in which the aryl or heteroaryl group R3 is substituted with a bulky group, or are disubstituted, are inactive as measured by either h-Cox I or h-Cox II inhibition in vitro (see for example compounds 27 - 34 and 37).
In his report, Professor Baker relied not only upon this experiment but upon three other compounds. Thus his class F in its entirety consists of compounds B50 to B63 inclusive. In support of the fact, however, Professor Baker also relied on a number of compounds in Class A (which, it will be remembered, the defendants considered to be active and Cox II selective). His evidence was this:
Section F of the Table contains a list of compounds that differ from selective COX-2 molecules only in that they have a large group on the other aryl group (R3). Comparison of Sections A and F indicates that, whilst there is some space around the second aryl group, such that fluoro (B1), methyl (B6), methoxy (B3), thiomethyl (B13) and amino (B14) can be tolerated, anything significantly larger cannot be accommodated in the enzyme.
The examples which he gives of the effect of such substitutions is complicated, and he summarises them in his report thus:
(a) A second 4-methylsulphonylphenyl or sulphamylphenyl group is not tolerated by either COX-1 or COX-2 (see compounds B50 & B51). Further, a 4-methylsulphinylphenyl group is not tolerated (B58);
(b) Even relatively small groups are not tolerated in the 2-position (see B52, B55 and B56). This effect may be aggravated if there is a substituent in the X position opposite the 4-methylsulphonylphenyl because this may cause the twisting of the aromatic ring (see B62).
(c) Whilst there appears to be more space around the 4-position, moderately large alkyl or alkylamine groups in these positions result in inactive compounds against either form of the enzyme (see B53 and B54).
(d) The 2, 6 or 3,5 di-substituted compounds for example in which R3 is 2, 6-dichlorophenyl and 3,5-difluorophenyl are inactive (see B60 and B61).
Professor Flower introduced a number of additional compounds into the discussion, with the result that RJF 25 contains 30 compounds in class F. It should be recalled that the compounds found by Professor Flower in the defendants' documents have a number beginning C and it is not suggested that Professor Baker was aware of these compounds when he wrote his report. With his C compounds, Professor Flower produces counter-examples to each of these propositions of Professor Baker's. In fact, there is a clear counter-example to (a) in compound C13 as Professor Baker accepted in cross-examination. Professor Baker himself qualified paragraph (b) in the light of compound C9. His evidence was that the results collected in RJF 25 represented an attempt at an SAR for these molecules, which would necessarily require refinement, but this is not one of the facts that the Notice of Experiments was put forward to show. There is no doubt that many of the compounds in question were inactive; others less so. The claimants pointed to C3, C5, C6, C10, C11 and C12 as compounds where there was activity below but close to 50% at 100µM or 1000µM. On the other hand, some compounds were plainly inactive, among which B55 is to be included. The same goes for paragraph (d). The evidence was thin, but the compounds disubstituted at the 2,6 and 3,5 positions actually tested were inactive."
"100. It is possible to draw a number of conclusions from the very extensive evidence which was available in respect of classes F, G and H. The first is that it is quite clear that it is not possible to predict the degree of activity of the compounds in general. The second is that it is likely that the defendants have identified classes of compounds within the claims in which activity is very unlikely. In particular, it seems clear that large substituents at X will be inactive, and this is more likely if there are two X substituents, as the claim permits. Since X may be acyl, a substantially unbounded class of substituents, and aryl, a very large class also, and since both on Professor Baker's unchallenged evidence include substituents equal in size to or bigger than the whole of the rest of the molecule, I am satisfied that what can loosely be called the bulky group point is established. From classes B, C and D I am satisfied that unless there is a 4-methylsulphonylphenyl or 4-sulphamylphenyl substitution at either the 3 or 4 position of the heterocycle, it is very much more likely than not that the compound will be on the patent's own terms inactive. Finally, Class E does establish that disubstitution of the 4-substituted phenyl ring will substantially reduce the prospects of finding an active compound."
"112. The in vivo tests did demonstrate that there were three examples of the patent in suit which failed to demonstrate any anti-inflammatory effect, and a preferred compound (compound 68) which was a gastric irritant. They did not demonstrate that example 1 of the patent in suit was inactive as an anti-inflammatory, but did show that it was certainly not attractive."
"115. In coming to a conclusion on the question of the right criterion to apply in deciding whether or not a compound exhibits activity in the in vitro tests, I have gone over a great amount of the ground covered by the objection of insufficiency. I am satisfied that the experimental evidence shows that the specification provides the skilled man with a class comprising many compounds which may or may not be Cox II selective with diminished side effects. The effect of the experiments taken as a whole is to demonstrate that the class in question is unpredictable in its qualities and contains a substantial number of compounds which do not have one or other or both of these qualities. It is not possible to point to any characteristic which underpins success, and avoids failure. As I have indicated, the feature which immediately distinguishes the compounds of claim 1 from those constituting the state of the art is (subject to the disclosure of Brown) the 3,4 disubstitution of the heterocycle as opposed to the 2,3 disubstitution displayed in, for example, DuP 697. But it is clear that this does not give success on its own; and I am satisfied on the evidence that it has not proved possible to provide a general description of a class having the desired characteristics. As will be apparent when I consider the history of the claimants' development, I do not consider that the work they had done by the priority date nor the later work which they did justify any suggestion that it was a reasonable prediction that the class of claim 1 either as granted or as amended would possess anti-inflammatory properties.
116. The invention of claim 13 must be considered separately. Claim 13 covers "a pharmaceutical composition comprising a therapeutically-effective amount of an anti-inflammatory compound, said compound selected from a compound of Claim 1, or a pharmaceutically-acceptable salt thereof". This is a claim, in effect, to any compound of claim 1 which works. Necessarily, the specification is open to the same objections in respect of the invention specified by this claim as it is in respect of that of claim 1. Claim 20 stands or falls with claim 1 so far as this objection is concerned. I conclude that the unamended specification is insufficient in respect of the invention of claims 1, 13 and 20.
117. So far as the amended specification is concerned, the position is to some extent different. The amendment to claim 1 restricts that claim to compounds in which one of R2 or R3 is a 4-methylsulphonylphenyl group and the other a substituted phenyl group, and in which there is only one substituent X. The experimentally demonstrated fact that it is likely that substitution by a methylsulphonyl or sulphamyl group at the 4 position of a phenyl ring is essential to activity is accordingly accommodated by the amendment. The excessive range of possible X substituents, which includes substituents larger than the rest of the molecule and is unbounded in number is not catered for. As I have found that on the balance of probabilities a large number of these compounds will also be inactive, the specification is still insufficient in respect of the invention specified by the amended claim 1, and so also in relation to that of claims 13 and 20."
Priority Date
"5. – (1) For the purposes of this Act the priority date of an invention to which an application for a patent relates and also of any matter (whether or not the same as the invention) contained in any such application is, except as provided by the following provisions of this Act, the date of filing the application.
(2) If in or in connection with an application for a patent (the application in suit) a declaration is made, whether by the applicant or any predecessor in title of his, complying with the relevant requirements of rules and specifying one or more earlier relevant applications for the purposes of this section made by the applicant or a predecessor in title of his and each having a date of filing during the period of twelve months immediately preceding the date of filing the application in suit, then –
(a) if an invention to which the application in suit relates is supported by matter disclosed in the earlier relevant application or applications, the priority date of that invention shall instead of being the date of filing the application in suit be the date of filing the relevant application in which that matter was disclosed, or, if it was disclosed in more than one relevant application, the earliest of them;
(b) the priority date of any matter contained in the application in suit which was also disclosed in the earlier relevant application or applications shall be the date of filing the relevant application in which that matter was disclosed or, if it was disclosed in more than one relevant application, the earliest of them.
…
(4) The foregoing provisions of this section shall apply for determining the priority date of an invention for which a patent has been granted as they apply for determining the priority date of an invention to which an application for that patent relates."
"In Asahi Kasei Kogyo KK's Application [1991] R.P.C. 485 this House decided that for matter to be capable of supporting an invention within the meaning of section 5(2)(a) it must contain an "enabling disclosure", that is to say, it must disclose the invention in a way which will enable it to be performed by a person skilled in the art. This construction has not been challenged by the appellants before your Lordships' House. It is however important to notice the relationship between the requirement of "support" in section 5(2)(a) and certain other provisions of the Act which share the concept of an enabling disclosure.
The concept of an enabling disclosure is central to the law of patents. For present purposes, it touches the matters in issue at three different points. First, as we have seen, it forms part of the requirement of "support" in section 5(2)(a). Secondly, it is one of the requirements of a valid application in section 14. And thirdly, it is essential to one of the grounds for the revocation of a patent in section 72. I shall start with section 14. Subsection (3) says:
"The specification of an application shall disclose the invention in a manner which is clear enough and complete enough for the invention to be performed by a person skilled in the art."
This is plainly a requirement of an "enabling disclosure". In addition, subsection (5)(c) says that the claim or claims shall be "supported by the description". It was by reference to subsection (3) that Lord Oliver of Aylmerton, who gave the leading speech in Asahi, reasoned at page 536 that a description would not "support" the claims for the purpose of subsection (5)(c) unless it contained sufficient material to enable the specification to constitute the enabling disclosure which subsection (3) required: "the Act can hardly have contemplated a complete application for a patent lacking some of the material necessary to sustain the claims made". By parity of reasoning, he said that "support" must have the same meaning in section 5(2)(a)."
"The need for an enabling disclosure to satisfy the requirements of support under section 5(2)(a), valid application under section 14 and sufficiency under section 72(1)(c) has, I think, been plain and undisputed since the decision in Asahi. What has been less clear is what the concept of an enabling disclosure means. Part of the difficulty has been caused by a misinterpretation of what the Technical Board of Appeal of the E.P.O. said in Genentech I/Polypeptide expression (T 292/85) [1989] O.J. E.P.O. 275. This was a patent for a plasmid suitable for transforming a bacterial host which included an expression control sequence or "regulon" which could enable the expression of foreign DNA as a recoverable polypeptide. The Examining Division was willing to grant a patent only in respect of the plasmids, bacteria and polypeptides known at the date of application. The Technical Board of Appeal allowed the appeal, saying that the Examining Division had taken too narrow a view of the requirement of enabling disclosure:
"What is also important in the present case is the irrelevancy of the particular choice of a variant within the functional terms `bacteria', `regulon' or `plasmid'. It is not just that some result within the range of polypeptides is obtained in each case but it is the same polypeptide which is expressed, independent of the choice of these means. ... Unless variants of components are also embraced in the claims, which are, now or later on, equally suitable to achieve the same effect in a manner which could not have been envisaged without the invention, the protection provided by the patent would be ineffectual ... The character of the invention this time is one of general methodology which is fully applicable with any starting material, and is, as it was already stated, also independent from the known, trivial, or inventive character of the end-products."
In other words, the applicants had invented a general principle for enabling plasmids to control the expression of polypeptides in bacteria and there was no reason to believe that it would not work equally well with any plasmid, bacterium or polypeptide. The patent was therefore granted in general terms.
In Mölnlycke AB v. Procter & Gamble Ltd. [1992] F.S.R. 549, however, Morritt J. interpreted this decision to mean that it was a general rule of European patent law that an invention was sufficiently disclosed if the skilled man could make a single embodiment. This interpretation was followed by Aldous J. in Chiron Corporation v. Organon Teknika Ltd. [1994] F.S.R. 202, although I think I detect in his judgment some surprise that the E.P.O. should have adopted such a mechanistic and impoverished approach to the concept of enabling disclosure. As we shall see, he applied the same rule in the present case.
In fact the Board in Genentech I/Polypeptide expression was doing no more than apply a principle of patent law which has long been established in the United Kingdom, namely, that the specification must enable the invention to be performed to the full extent of the monopoly claimed. If the invention discloses a principle capable of general application, the claims may be in correspondingly general terms. The patentee need not show that he has proved its application in every individual instance. On the other hand, if the claims include a number of discrete methods or products, the patentee must enable the invention to be performed in respect of each of them.
Thus if the patentee has hit upon a new product which has a beneficial effect but cannot demonstrate that there is a common principle by which that effect will be shared by other products of the same class, he will be entitled to a patent for that product but not for the class, even though some may subsequently turn out to have the same beneficial effect: see May & Baker Ltd. v. Boots Pure Drug Co. Ltd. (1950) 67 R.P.C. 23, 50. On the other hand, if he has disclosed a beneficial property which is common to the class, he will be entitled to a patent for all products of that class (assuming them to be new) even though he has not himself made more than one or two of them."
"132. So far as the unamended patent in suit is concerned, on the other hand, at least one methylsulphonyl or sulphamyl substitution, not necessarily on a phenyl ring but on an aryl ring (which includes naphthyl, phenyl substituted with a lower alkyl, and also other two-membered rings, three-membered rings and heteroaryl rings) is a defining feature of the claim. In my judgment, claim 1 of the patent in suit is not entitled to priority for three reasons. First, because there is no disclosure of a sulphamyl substitution in R2 or R3 in the priority document other than in the list of Formula I', and certainly no disclosure of it as a defining feature of the invention. Second, there is no disclosure of a methylsulphonyl substitution in R2 or R3 as a defining feature of the invention, but only as defining a preferred subclass in combination with a 4-fluorophenyl substitution, a subclass which does not include a hydroxy substitution at X. Third, a monopoly defined by one or other of these substitutions as an invariant feature across the whole width of the claim cannot be fairly based on a disclosure which does not hint at their materiality either textually or as a matter of necessary implication but only, at best, as a result of well-informed assessment of probabilities.
133. The amended claim is no longer open to objection on the ground either that it covers a sulphamyl substituent at R2 or R3, or that it covers R2 or R3 substituted with methylsulphonyl other than as 4-methylsulphonylphenyl. The objection that there is no disclosure in the priority document of such a substitution otherwise than in the combination I have already described, and the consequence is the same."
Novelty
"144. The first question is accordingly one o