CHANCERY DIVISION
PATENTS COURT
Fetter Lane, London, EC4A 1NL |
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B e f o r e :
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NAPP PHARMACEUTICAL HOLDINGS LIMITED |
Claimant |
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- and - |
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DR REDDY'S LABORATORIES (UK) LIMITED SANDOZ LIMITED |
Defendants |
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Michael Silverleaf QC and Benet Brandreth (instructed by Bird & Bird LLP) for the First Defendant
Justin Turner QC and Anna Edwards-Stuart (instructed by Olswang LLP) for the Second Defendant
Hearing dates: 7-9 June 2016
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Crown Copyright ©
MR JUSTICE ARNOLD :
Contents
Topic | Paras |
Introduction | 1-12 |
Witnesses | 13-25 |
Transdermal delivery experts | 14-17 |
Statisticians | 18-22 |
Factual witnesses | 23-25 |
Technical background | 26-40 |
Skin structure and function | 26-27 |
Drug delivery across the skin | 28-29 |
Transdermal delivery systems | 30-32 |
Considerations in TDS design and development | 33-36 |
The manufacture of TDSs | 37-40 |
Hille | 41-53 |
The Patent | 54-76 |
The skilled team | 77-79 |
Common general knowledge | 80-88 |
Skin depots | 82-85 |
Volatility of levulinic acid during drying | 86-88 |
Construction | 89-125 |
The law | 89 |
Numerical ranges | 90-95 |
"About" and similar expressions | 96 |
Example 1 in the Patent | 97-102 |
The skin depot hypothesis | 103 |
Input or outputs? | 104-110 |
The numerical limits | 111 |
General points | 112-125 |
Infringement by Sandoz | 126-200 |
The law | 135 |
The de minimis principle | 136-149 |
Quia timet claims | 150-153 |
The burden of proof for future acts | 154 |
The standard of proof for future acts | 155-167 |
Remedies | 168-170 |
The statistical evidence | 171-200 |
Infringement by Dr Reddy's | 201-222 |
Overall conclusion | 223 |
Confidential Annex A: The Sandoz product | |
Confidential Annex B: The Dr Reddy's product |
Introduction
Witnesses
Transdermal delivery experts
Statisticians
Factual witnesses
Technical background
Skin structure and function
Drug delivery across the skin
Transdermal delivery systems
Considerations in TDS design and development
i) the suitability of the API for transdermal delivery, which depends on its physicochemical properties;ii) the solubility of the drug in the matrix;
iii) the use of excipients such as permeation enhancers, tackifiers, etc;
iv) the amount of drug in the patch; and
v) the area of the patch.
i) the appropriate delivery rate of drug (which depends on both the flux and the appropriate dosing level);ii) adequate wear for the desired dosing interval;
iii) appropriate levels of stability; and
iv) minimum irritation.
i) flux across the stratum corneum does not tend to be heavily influenced by small changes in the local environment (such as the precise composition of the TDS);ii) interpatient variability means that plasma levels from very similar formulations are likely to be indistinguishable.
iii) small changes in excipient content rarely have a major impact on the plasma levels of the API, and if such an impact is identified, then it is likely to render the formulation commercially unsuitable; and
iv) whilst different permeation enhancers may have a major impact on flux rates, small changes in %-wt (percentage weight) of a permeation enhancer or other excipient usually do not.
The manufacture of TDSs
i) lot-to-lot variation in the purity or density of the starting materials;ii) variation in the weights or volumes of the raw materials due to human or equipment limitations in weighing or measuring;
iii) inhomogeneity of the drug adhesive blend;
iv) variation in the thickness or surface energy of the substrate;
v) tolerances in the pressure applied during lamination;
vi) tolerances in the cutting precision from the drug adhesive laminate; and
vii) degradation of components during manufacture or over time.
Hille
"Experiments have shown that dodecanol has a penetration-enhancing effect … Since its melting point is at 24oC, dodecanol is solid at normal room temperature. The provision of dodecanol out of a matrix is made more difficult by the solid physical state. This shortcoming limits the possible uses of dodecanol in polymer matrices, because the delivery rate of a substance out of polymer matrices is greater, the more easily it can diffuse in the matrix. This applies not only to dodecanol, but also to other penetration-enhancing substances which are solid at room temperature. The task of the invention is therefore to improve the delivery of excipients, which are solid at room temperature, out of a matrix."
"1.139 g of a 47.83 w/% polyacrylate solution of a self-crossing acrylate copolymer of 2-ethylhexylacrylate, vinyl acetate, acrylic acid (solvent: ethyl acetate:heptane:iso-propanol:toluene:acetylacetonate in the ratio of 37:26:26:4:1), 100 g levulinic acid, 150 g oleyl oleate, 100 g polyvinylpyrrolidone, 150 g ethanol, 200 g ethyl acetate and 100 g buprenorphine base are homogenised. The mixture is stirred for about 2 hours and checked visually to see if all the solids are dissolved. The evaporation loss is controlled by weighing, and, if necessary, replenishing the loss of solvent with ethyl acetate.
The mixture is then spread onto a 420 mm wide transparent polyester film, so that the surface weight of the dried adhesive layer is 80 g per m˛. The polyester film, which can be removed again with a silicon treatment, serves as a protective layer.
The solvent is removed by drying with heated air which is passed over the damp track. The heat treatment does not only cause the solvents to evaporate, but also melts the levulinic acid. The adhesive film is subsequently covered with a 15 µ polyester film. A 16 cm2 area is punched out with appropriate cutting tools, and the edges remaining between the individual systems are removed."
i) "1.139 g" contains an obvious typographical error and should read "1.139 kg";ii) the description does not specify the drying conditions used, whether in terms of temperature, air speed or duration; and
iii) it can be calculated that the dry weight of the polyacrylate mixture would be approximately 545 g, and thus the dry weight of the drug adhesive blend excluding the solvents would be approximately 995 g. Accordingly, the approximate composition of the drug adhesive blend excluding the solvents would be 10 %-wt buprenorphine, 10 %-wt levulinic acid, 15 %-wt oleyl oleate, 55 %-wt polyacrylate and 10 %-wt polyvinylpyrollidone (PVP).
"The composition of Examples 2-5 are shown in Table 1.
The results of the in vitro penetration tests and the qualitative and quantitative compositions of buprenorphine TTS [trans-dermal therapeutic systems] according to Example 1-5 are shown in Table 1".
i) DAB 10 is an abbreviation for Deutsches Arzneibuch (German Pharmacopeia) 10th edition (1991); andii) DAB 10 states that oleyl oleate is composed of esters of (Z)-9-octadecenoic acid containing a mixture of monounsaturated fatty alcohols, mainly (z)-9-octadeceyl alcohol, obtained from natural products.
"From Column 4 it can be seen that the dissociation constants of the carboxylic acids used are quite similar. If, in each case, the emollient oleyl oleate is used in 10% concentration, however, it is evident from Examples 1 and 3 or 2 and 4 that only the carboxylic acids, which tend to form supercooled melts, cause significant penetration enhancement under in vitro conditions. As can be seen from the dissociation constants, undecenoic and octanoic acid are weaker acids than glutaric acid monomethyl ester or levulinic acid. This was offset by the fact that with 15% the concentration of the two weaker acids is higher than the concentration of the two stronger acids. At the same time, however, it is evident that the dissociation constants are so close together, that the resorption-promoting effect cannot be explained by the dissociation constants. Example 5 indicates that, even with an acid that obviously has little impact on the penetration-promoting effect of buprenorphine base, an increase of resorption can be achieved when a neutral substance, namely dodecanol, which like levulinic acid or glutaric acid monomethyl ester forms supercooled melts, is used. The physical effect of the listed excipients is sufficiently substantiated by the 5 examples."
The Patent
"Another approach to sustained delivery of a therapeutically active agent are transdermal delivery devices, such as trans-dermal patches. Generally, transdermal patches contain a therapeutically active agent (e.g., an opioid analgesic), a reservoir or matrix containing the opioid or other active ingredient(s) and an adhesive which allows the transdermal device to adhere to the skin, allowing for the passage of the active agent from the device through the skin of the patient. Once the active agent has penetrated the skin layer, the drug is absorbed into the blood stream where it can exert a desired pharmacotherapeutic effect, such as analgesia."
"Despite these advances in the art, there remains a need for methods of treating patients with buprenorphine that provide effective analgesic levels of buprenorphine for prolonged periods of time while eliminating or minimizing dependence, tolerance, and side effects, thus providing a safe and effective method of pain management. Further, there remains a need for a transdermal formulation of an opioid analgesic, preferably, buprenorphine, that provides effective analgesic levels of buprenorphine for periods of time beyond that contemplated or practical in the prior art, while eliminating or minimizing dependence, tolerance, and side effects, thus providing a safe and effective method of pain management."
"… provide a method and pharmaceutical formulation (medicament) which allows for reduced plasma concentrations of buprenorphine over a prolonged time period than possible according to prior art methods, while still providing effective pain management."
"Surprisingly, it has been found that it is possible to treat pain according to the present invention by providing a transdermal delivery device containing a sufficient amount of buprenorphine to provide a desired relative release rate for up to 3 days, and after single administration (application) of the transdermal dosage form, leaving the dosage form on the skin for approximately a 5 to 8 day time period, thereby resulting in the flux being maintained over the prolonged period and effective blood plasma levels and pain management being maintained over the prolonged period. Preferably, the desired flux is maintained at least about 5, preferably at least about 8 days after application of the transdermal delivery device. If the transdermal delivery device is removed 3 days after its administration, no analgesia is present a short time after removal (the remaining time period during which analgesia is provided being dependent upon, for example, the amount of drug in a skin depot at the site of the application of the transdermal delivery device). Surprisingly however, if the same transdermal delivery device is maintained in contact with the skin for an about 5 to about 8 day period, analgesia is maintained over the prolonged period of contact, but the patient continues to experience analgesia. In other words, inclusion of the aforementioned overage of buprenorphine provides analgesia for at least about twice the expected 3 day dosing interval."
"In a preferred embodiment, the transdermal delivery device is prepared in accordance with Example 1 appended hereto. In this example, the transdermal delivery device was prepared in accordance with the disclosure of [Hille]. In this device, the buprenorphine transdermal delivery device contains resorption-promoting auxiliary substances. The resorption promoting auxiliary substance forms an undercooled mass. The delivery device contains 10% buprenorphine base, 10-15% acid (such as levulinic acid), about 10% softener (such as oleyloleate); 55-70% polyacrylate; and 0-10% polyvinylpyrollidone (PVP)."
"In accordance with a method of the invention, the above-described transdermal delivery device has been designed to be adhered to the patient for only three days and is expected to release analgetically effective doses of buprenorphine for only about 3 days. Instead, in accordance with the present invention, the transdermal delivery device is maintained in contact with the skin of the patient for a much longer time period, e.g., from about 5 to about 8 days, without any change in the formulation of the transdermal device itself. It has surprisingly been found that analgesia is maintained for this extended period of time (the time beyond the useful life designed for the transdermal formulation)."
"It is hypothesized that there is a skin reservoir which occurs through the use of transdermal buprenorphine delivery devices, including those demonstrated in the Examples. In cases where the transdermal delivery device is reapplied prior to complete depletion of the skin reservoir, it is preferred that the transdermal delivery device be reapplied in the same location on the patient's skin in order to replenish the skin reservoir (or 'depot'). The plasma concentration curves obtained during, e.g., 7-day dosing may be explained by a small amount of buprenorphine still being released from the transdermal delivery device on day 4 through day 7 after initial application of the device onto the patient's skin (which replenishes the skin depot), along with a continued release and continued delivery of buprenorphine from the skin depot. The balance between continued release from the device and continued delivery from the skin depot would (among other things such as distribution) determine the plasma concentration seen in any particular individual. It would also explain why the buprenorphine plasma concentrations don't precipitiously drop on day 4 through, e.g., day 7 as they do when the device is removed from contact with the patient's skin. The skin depot hypothesis set forth herein would also explain why the elimination curve following patch removal is prolonged compared to what one skilled in the art would expect for the drug buprenorphine had the drug been administered intravenously. The skin depot hypothesis is preferred for explanatory purposes only and is not meant to limit the claims in any manner whatsoever."
"[0098] A seven day pharmacokinetic/pharmacodynamic study was conducted on 24 healthy human patients. The subjects were comprised of approximately an equal number of male and female subjects. In this study, the buprenorphine was administered via a transdermal patch which is described in [Hille].[0099] The transdermal patch is prepared in accordance with the disclosure of [Hille] for Example 1 therein as follows:".
"The formulation utilized for Example 1 is substantially the same as that described in Example 3 of [Hille] which is prepared in accordance with Example 1 and is stated therein to include 10% buprenorphine, 10% levulinic acid, 10% polyvinylpyrollidone, 10% oleyloleate, and 60% polyacrylate. "
"[0141] The data presented in Table 18 shows that, surprisingly, plasma levels effective to provide analgesia were present in Example 1 (patch remained on skin for 7 days) even 7 days after application of the patch; whereas in Comparative Example A (patch removed after 3 days), blood levels fell dramatically once the patch was removed, such that plasma levels which would be indicative of ineffective treatment for the dosage of buprenorphine occurred not long after patch removal. …[0143] The results depicted in Table 19 confirm that the method according to the present invention provides effective plasma levels over the 7-day period; whereas if the patch (or patches) containing the same dose is removed after 3 days, the buprenorphine plasma levels fall precipitously over the next 24 hour interval to levels which would be indicative of ineffective treatment for the dosage of buprenorphine. This result is surprising in view of the fact that the patches are designed to provide effective analgetic levels of buprenorphine only for a three day period - these patches are not designed to provide effective plasma levels of buprenorphine over a substantially longer period of time. …"
The claim
"A buprenorphine transdermal delivery device comprising a polymer matrix layer containing buprenorphine or a pharmaceutically acceptable salt thereof, for use in treating pain in humans for a dosing interval of at least 7 days, wherein the transdermal delivery device comprises 10 %-wt buprenorphine base, 10 to 15 %-wt levulinic acid, about 10 %-wt oleyloleate, 55 to 70 %-wt polyacrylate, and 0 to 10 %-wt polyvinylpyrrolidone."
The skilled team
Common general knowledge
Skin depots
"The mechanism of reservoir formation most probably arises simply from the physicochemical nature of drug solubility and diffusion within the stratum corneum. It is not necessary to invoke special pharmacological reactions to explain the effect but simply to realise that the depot is prominent with a certain class of material i.e. those substances with small diffusivities and low solubilities in the stratum corneum. In general those factors that promote percutaneous absorption also potentiate reservoir formation. …. In particular, certain solvents (known as accelerants, promoters, or penetration enhancers) induce superior reservoirs. …"
Moreover Prof Barry states explicitly at 118 that "Substances other than steroids may form reservoirs" and gives some examples.
Volatility of levulinic acid during drying
Construction
The law
"On the numerical boundaries issue, ConvaTec contended that the expression 'between 1% and 25%' did not define precise values but would be seen in terms of whole numbers and so, applying the basic rounding convention, the claim encompassed all concentrations greater than or equal to 0.5% and less than 25.5%. By contrast, Smith & Nephew's primary contention was that the expression meant what it said and that it defined a range of concentrations, with a lower limit of precisely 1% and an upper limit of precisely 25%. But Smith & Nephew also had a fall back position, namely that the 1% and 25% limits would be read in terms of significant figures, and that 0.95% and above would be understood to round up to 1%, and that 25.49% and below would be understood to round down to 25%, and so the claim encompassed all concentrations greater than or equal to 0.95% and less than 25.5%."
"16. I would add the following two principles which are also drawn from Lord Hoffmann's speech and which have a particular bearing on this appeal. First, the reader comes to the specification with the benefit of the common general knowledge and on the assumption that its purpose is to describe and demarcate an invention. Second, the patentee is likely to have chosen the words appearing in the claim with the benefit of skilled advice and, in so far as he has cast his claim in specific rather than general terms, is likely to have done so deliberately.
17. It seems to me that all of these principles are just as applicable to a claim containing a numerical range as they are to a claim containing descriptive words or phrases. In both cases the critical question is what the skilled person would understand the author to have been using the words or numerals appearing in the claim to mean."
"21. … I would endorse the reasoning of Mr Peter Prescott QC, sitting as a deputy judge of the High Court, in Auchincloss v Agricultural & Veterinary Supplies Ltd [1997] RPC 649. He said this at page 664:
'… It is a descriptive word or phrase to which the concept of an immaterial variant applies. In the cited case [Catnic Components v Hill & Smith Ltd [1982] RPC 183 (HL)] the "descriptive" phrase was "extending vertically". If, instead, the claim had said "extending at an angle between 87.0ş and 93.0ş", this would not have been a descriptive phrase, but a specification of a precise range. It would be a unilateral statement in words of the patentee's own choosing informing the reader what he claimed to be an essential feature of his invention. If a product fell outside that range it would not be a question of a "variant" at all, minor or otherwise. It would be a failure to adopt an essential feature. Even if an angle falling somewhere outside that range would work just as well, and this were obvious to all concerned, to hold non-infringement would not be to deny "a fair protection for the patentee" in terms of the Protocol to the Convention; for the range he chose to specify was one which he himself must have considered to be fair at the relevant date. On the contrary, to hold otherwise would be to deny "a reasonable degree of certainty for third parties"…'
23. The deputy judge developed his reasoning at pages 689-690 in these terms:
'… Where the patentee has expressed himself in terms of a descriptive word or phrase there may be room for supposing that he was using language figuratively, and did not intend to restrict himself to the purely literal meaning. But where the patentee has defined an integer of his claim in terms of a range with specified numerical limits at each end, his purpose must be taken to have been to claim thus far and no further. His reason for doing so may not be apparent, but it may exist all the same, for instance it may lie "buried in the prior art". Further, in this case I believe that there are evident reasons of convenience and certainty which would have led him to claim in this way, as I have observed.'"
"As I have said, the approach to be adopted to the interpretation of claims containing a numerical range is no different from that to be adopted in relation to any other claim. But certain points of particular relevance to claims of this kind do emerge from the authorities to which I have referred and which are worth emphasising. First, the scope of any such claim must be exactly the same whether one is considering infringement or validity. Secondly, there can be no justification for using rounding or any other kind of approximation to change the disclosure of the prior art or to modify the alleged infringement. Thirdly, the meaning and scope of a numerical range in a patent claim must be ascertained in light of the common general knowledge and in the context of the specification as a whole. Fourthly, it may be the case that, in light of the common general knowledge and the teaching of the specification, the skilled person would understand that the patentee has chosen to express the numerals in the claim to a particular but limited degree of precision and so intends the claim to include all values which fall within the claimed range when stated with the same degree of precision. Fifthly, whether that is so or not will depend upon all the circumstances including the number of decimal places or significant figures to which the numerals in the claim appear to have been expressed."
"In my judgment there can be no logical basis for preferring the significant numbers approach over the whole number (or zero decimal places) approach in construing the claim in issue. The purpose of expressing numbers to a particular degree of precision may be to convey to the reader the degree of accuracy with which he needs to make a particular measurement or carry out a calculation. In the context of the claimed method, it is to convey to the reader the range of permissible binding agent concentrations and the accuracy with which those concentrations need to be determined. There is no reason to suppose that this can vary depending upon whether the bottom of the range is 1%, 2% or 5%, or whether 10% is at the top or bottom of the range. It seems to me that Professor Kennedy therefore put it entirely correctly in saying as he did in his first expert report that it is not the number of significant figures that is important in this context, and instead it is the precision with which a number is written. I consider that Professor Kennedy was also right to say that the skilled person would understand the 1% and 25% limits to have been expressed to the nearest whole number."
"Terms like 'about' and 'approximately'
Particular attention is required whenever the word 'about' or similar terms such as 'approximately' or 'substantially' are used. Such a word may be applied, for example, to a particular value (e.g. 'about 200°C'), to a range (e.g. 'about x to about y') or to a structural unit of an apparatus (e.g. 'a tray plate with a substantially circular circumference'). In each case, the examiner should use his judgment as to whether the meaning is sufficiently clear in the context of the application read as a whole, and having regard to the meaning a particular technical term qualified by such a word usually has in the field concerned. If such words mean that a certain effect or result can be obtained within a certain tolerance and the skilled person knows how to obtain the tolerance, then the use of such words may be acceptable. If, however, the use of such a word suggests that deviations are included which are larger than those accepted tolerances, then the wording becomes vague and undefined. …"
Example 1 in the Patent
i) Example 1a from Hille quoted in [0099] is not merely a series of manufacturing steps. It is a composition with particular ingredients.ii) [0099] does not say that Example 1 of the Patent is made in accordance with the manufacturing steps of Example 1a of Hille. It says that it is made in accordance with "the disclosure of" of Example 1a of Hille, which includes both manufacturing steps and ingredients.
iii) There would be no point in setting out the entirety of the quotation from Hille in [0099] if all the patentee was concerned with was the manufacturing steps from that example, which are straightforward and not very detailed.
iv) If the patentee had wanted to use the method of Example 1a of Hille with different ingredients, he would have edited the text of Example 1a to insert the different ingredients.
v) On the Defendants' interpretation, the formulation used in Example 1 of the Patent is not "substantially the same" as Example 3 of Hille as stated in [0100], it is the same.
i) This is correct, but this explains why [0099] says that "the patch is prepared in accordance with the disclosure of [Hille] for Example 1 therein", whereas [0100] says that the "formulation utilized for Example 1 is substantially the same as that described in Example 3 of [Hille]".ii) When [0099] says that "the patch is prepared in accordance with the disclosure of [Hille] for Example 1 therein", it is referring to the method of preparation of the patch. Again, the language of [0100] is different.
iii) The passage quoted from Hille is the only part of the specification that tells the reader how to make the patch. No doubt the patentee found it convenient simply to quote it. But this explains the difference in the language of [0100].
iv) Given that the patentee chose to quote from Hille, why would he edit the passage?
v) It is correct that, on the Defendants' interpretation, the formulation used in Example of the Patent is the same as that of Example 3 in Hille, rather than merely substantially the same. But this is to descend into meticulous verbal analysis.
i) The Defendants' interpretation of [0100] is the natural and straightforward one, whereas Napp's interpretation is a strained one. In particular, Napp's interpretation depends on the skilled reader calculating the percentage weights of the components in Example 1a of Hille, and then concluding that [0100] was telling him that 10% buprenorphine, 15% levulinic acid, 10% PVP, 10% oleyl oleate and 55% polyacrylate was substantially the same as 10% buprenorphine, 10% levulinic acid, 10% PVP, 10% oleyl oleate and 60% polyacrylate.ii) The skilled reader would note that Example 3 of Hille gave the best penetration results. By contrast, Hille does not give any test results for Example 1a, and thus the reader has no information as to its relative performance. In those circumstances it makes technical sense for the patentee to have chosen to use the formulation of Example 3.
iii) On Napp's interpretation, the reference to Example 3 of Hille in [0100] serves no apparent purpose (although, as I will explain, Napp relies upon it to support its interpretation of the claim).
The skin depot hypothesis
Input or outputs?
i) There is no difficulty as a matter of language in describing a product by reference to its ingredients. Moreover, in Cephalon Inc v Orchid Europe Ltd [2011] EWHC 1591 (Pat) Floyd J (as he then was) had construed a claim to a "pharmaceutical composition comprising" particles of a certain size as referring to the particle size of the input API.ii) Both Hille and the Patent start by talking about absolute quantities of input ingredients before switching to percentage weights. The skilled reader would think that they were referring to the same thing.
iii) The specification of the Patent recognises that the manufacturer could not precisely control the finished composition, since it refers to "about 5mg" etc of buprenorphine at [0074]. By contrast, the manufacturer could control the inputs with reasonable precision.
iv) It is conventional to describe the composition of TDSs in terms of their input formulation.
v) The skilled person would assume that he was not being set a challenge. On Napp's interpretation, reproducing the patch described in the specification of the Patent would be straightforward, whereas on the Defendants' interpretation it would take trial and error.
vi) Assaying the finished product would be challenging, particularly from a statistical perspective.
vii) TDSs degrade over time when stored.
i) A product can be described by reference to its ingredients and method of manufacture, but that is not how the claim is written. Cephalon is distinguishable because it is concerned a different patent, and in that case there was no common general knowledge method of determining the particle size in the finished product.ii) Although Example 1a of Hille refers to absolute quantities of ingredients, it does not refer to percentage weights. By contrast, all of the Examples in Table 1 of Hille, including Example 1b, are expressed in terms of percentage weights rather than absolute quantities of ingredients. This can be explained by the fact that Example 1a describes the manufacturing process, while the Examples in the Table refer to the manufactured patches. This reading is supported by the way the compositions of the Examples in the Table are described by Hille, as discussed in paragraph 49 above.
iii) Given that [0074] is referring to the amounts of buprenorphine in the finished product, this supports the skilled person's understanding that it is the composition of the finished product that matters. The use of the word "about" simply shows that precision with respect to the absolute quantity of buprenorphine is not necessary to achieve the delivery rates specified.
iv) Although Dr Miller said that it was "routine" to refer to products by reference to their ingredients, this evidence was concerned with development formulations in circumstances where it was assumed that there were no losses during manufacture. The evidence did not establish that there was an accepted convention in 1997 of describing TDSs in this way, particularly in circumstances where the skilled person would appreciate that there could be losses during manufacture.
v) There is no evidence that reproducing the patch described in the Patent would be difficult, or carrying out assays would be difficult. On the contrary, the evidence is that this is routine laboratory work.
vi) There is no difficulty in carrying out appropriate assays or appropriate statistical analysis. Indeed, LTS carried out assays of both the buprenorphine and levulinic acid content of the drug adhesive laminate when developing its process to manufacture Napp's product. The only reason why there are issues with the statistics in the present case is because of Napp's quia timet case, as explained below.
vii) This is immaterial. The Patent is not concerned with storage of the products for long periods of time.
The numerical limits
General points
"10 %-wt buprenorphine"
"10 to 15 %-wt levulinic acid"
"about 10 %-wt oleyloleate"
Infringement by Sandoz
The law
"Unless the contrary intention appears, an enactment by implication imports the principle of legal policy expressed in the maxim de minimis non curat …; so if an enactment is expressed to apply to matters of a certain description it will not apply where the description is satisfied only to a very small extent."
"I doubt whether it is ever possible to define, in quantitative terms, what for the purposes of the application of any principle of law is de minimis. This must be a question for the judge on the facts of the particular case."
"25. Hoechst say that this means that the process must be operated to produce HOAc for a period of time within the required parameters. Fluctuation from outside into the forbidden area is not excluded. Maintained means essentially running a continuous (rather than batch) process. If there is any significant production of HOAc within the specified parameters, there is infringement. So if on one day the parameters are satisfied, there is infringement on that day, even if on other days (even many other days) the parameters are not met. If there were a momentary 'spike' that might not fall within the claim but no one is concerned with that. Even a day's production amounts to 800 tonnes.
26. BP say the words mean that the parameters must be kept within the limits of the claim for a significant period of time in the context of the reaction as a whole. A short term fluctuation into the range will not alter the fact that it is being 'maintained' outside the range. …
27. The patent gives little explicit guidance on the point. …
28. I think there are several difficulties with the BP approach. First, over what period is one to take an 'average'? Suppose the reactor is run for a year with one or two days of excursion. On the BP approach there is no infringement. But suppose those two days are at the beginning of the year. If one looks just at the first two days, all the operation is within the specified parameters so there is infringement. How (and when) can it cease to be an infringement because for a later period there is operation outside the parameters? Second, the approach is close to introducing a subjective element: at what level did the alleged infringer intend to operate? That cannot be a relevant matter. Third I cannot think of any reason why the patentee would want to exclude any significant commercial production within his specified parameters. Doubtless he would not be interested in truly transient 'spikes' but anything as much as a day's production he would surely wish to catch.
29. Accordingly I think Hoechst are right on this point. Since the measurements were taken daily, I propose to approach the question of infringement on the basis that, if, on any particular day, BP were within the parameters, they infringed on that day."
"I should also deal with a de minimis point. The DNA present in the meal, such as it is, is entirely irrelevant to the meal as an animal feedstuff, is present in small, variable, quantities and may not be present at all if processing conditions are changed. It is not in any serious sense genetic material. It is just the remains of the material which was in the soybeans from which the meal was extracted. This, it seems to me, is irrelevant. It may raise a question on damages, that there is no causative relationship between acts of infringement, as opposed to acts which are not infringing by English law, and the loss suffered by Monsanto, but this was not argued. There is, generally, no authority in favour of trace quantities of infringing material being held not to infringe, and some authority against it. In any event, I had no proper estimate of the quantity of DNA in the Podhale meal that survived: Professor Lichtenstein put it at 5 per cent of the DNA in cross-examination but the issue was not properly pleaded.
"Mr. Silverleaf sought to avoid that construction because, necessarily, a single dosage form would be destroyed in testing it for infringement. He suggested it would be more rational to conclude that the skilled reader would be concerned with a batch, which is what the USP acceptance criteria are aimed at. We do not agree. If a single tablet is tested and is shown to be within the claim, it follows that the defendant has infringed. If some of his tablets are outside the claim, experiments can clearly be run to estimate the scale of infringement. Moreover, Mr. Silverleaf's construction also involves destruction of tablets—and perhaps quite a lot of them. So the destruction point is essentially neutral."
"It is arguable that there may come a point where the amount of time that the process is within the range is so small that it can be ignored. Obviously if the time is so short that no 5-cbx is made during that time, then this does not infringe. I did not hear argument on whether there should be a 'de minimis' limit and, if so, what it might be. The point is not free of authority: see the observations of Pumfrey J. in Monsanto Technology LLC v Cargill International SA [2007] EWHC 2257 (Pat), [2008] F.S.R. 7 in connection with a product claim. As I do not think that infringement by any of the processes with which I am concerned really turn on this point, I say no more about it here."
"The principle I derive from these authorities is that the question the court is asking in every case is whether, viewed in all the relevant circumstances, there was a sufficiently strong probability that an injunction would be required to prevent the harm to the claimant to justify bringing the proceedings. In adding the word sufficiently to the word strong … I am seeking to encapsulate the idea that the degree of probability required will vary from case to case depending on all the circumstances but that mere possibilities are never enough. To justify coming to court requires there to be a concrete, strong and tangible risk that an injunction is required in order to do justice in all the circumstances."
The statistical evidence
"On the basis of [the data in Annex 7 to the Sandoz PPD], the probability that a Sandoz Patch would contain more than or equal to 7.5 %-wt levulinic acid is 1/1560 (with 95% confidence). This means that, on average, I would expect 1 out of 1560 Sandoz Patches to contain more than or equal to 7.5 %-wt levulinic acid."
Dr Carroll went on to say that this analysis assumed that each of the data points in Annex 7 was an individual value, and did not take into account the fact that each of the data points was the mean of two samples. Allowing for that, the figure was 1/1280 rather than 1/1560.
"Thus in the three batches [in Annex 7 to the Sandoz PPD], the proportions of patches that will, with 95% confidence, have less than 7.5 %-wt levulinic acid is all but 23 in a trillion. This does not mean that 23 per trillion patches will have a levulinic acid level of 7.5% or more, it means that with 95% confidence, the proportion of patches with less than 7.5 %-wt levulinic acid will be 1 – 2.3x10-11. In lay language, with 95% confidence, all but 23 patches in any given trillion patches will have less than 7.5 %-wt levulinic acid.
Further, the proportion of patches that will, on the balance of probabilities have less than 7.5 %-wt is all but 19 per 1020 (that is 1 followed by 20 zeros). This does not mean that this proportion of patches will have a levulinic acid level of 7.5% levulinic acid or more; it means that, with 95% confidence [sic], all but 19 patches of 1020 patches will have less than 7.5 %-wt levulinic acid."
"Irrespective of what I think of Dr Carroll's Approach, I disagree with the way in which Dr Carroll characterises the probability he is seeking to calculate. For instance in paragraph 27 he writes 'The probability of a Sandoz Patch containing more than or equal to 7.5%-wt levulinic acid has therefore been calculated, with 95% confidence to be 1/1560'. In fact Dr Carroll's calculations represent with 95% confidence the chance that all but one of the 1560 Sandoz patches in any particular sample size fall below the relevant threshold level of levulinic acid (in this case 7.5 %-wt). The chance that the remaining patch is greater than the threshold is only 5%."
Infringement by Dr Reddy's
Overall conclusion