T 0955/96 (Microspheres/WEST PHARMACEUTICAL SERVICES) 19-04-2001

1. The appeal is admissible.

2. In support of the proposed amendment concerning the deletion of collagen as one of the materials for the microspheres specified in claim 1, the respondent submitted during the oral proceedings that, in contrast to the situation with the other materials used for the microspheres defined in claim 1, no comparative data were available in the file demonstrating the superiority of collagen microspheres over other sorts of microspheres suggested as drug delivery systems in the state of the art according to (1) and (8), namely DEAE-Sephadex or HSA (human serum albumin) microspheres.

Consequently, the restrictive amendment offered by the respondent can fairly be said to constitute a bona fide attempt at overcoming certain objections to the claimed subject-matter in the patent in suit on the ground of lack of inventive step, which would constitute a ground for opposition specified in Article 100 (a) EPC. It is therefore deemed admissible under the terms of Rule 57a EPC.

Moreover, since the amendment to the respondent's current request was immediately recognisable as an acceptable limitation of the scope of claim 1, the board decided to admit this request into the proceedings for consideration, in spite of its late filing.

3. The current wording of the claims does not give rise to any objections under Articles 84 and 123(2) or (3) EPC. Since this has not been disputed by the appellant, there is no need to expand in detail on this matter.

4. None of the documents available in the present proceedings and citable under Article 54(2) EPC discloses a drug delivery composition comprising microspheres associated with a peptide having a maximum molecular weight of 6000 as the active drug. Consequently, as regards the novelty of the claims under consideration in this appeal, the board has no reason to differ from the reasoning and the conclusion of the opposition division and does not consider further discussion of this issue to be appropriate, since it is apparent from paragraph VI above that the novelty of the claimed subject-matter in the patent in suit was no longer contested by the appellant during the oral proceedings before the board.

5. According to the established jurisprudence of the Boards of Appeal (see "Case Law of the Boards of Appeal of the European Patent Office", 3rd edition 1998, D. 3.1, pages 111 ff), the closest prior art for the purpose of objectively assessing inventive step is generally that which corresponds to an identical or similar use to that described in the claimed invention and, at the same time, requires the minimum of structural and functional modifications to arrive at the claimed subject-matter.

5.1. Both citations (1) and (8) discuss certain experiments designed to create and investigate suitable options for the nasal administration of peptides and proteins. These citations refer in this context, inter alia, broadly to investigations in which microsphere systems made from various materials were administered to the nasal cavity in the absence of any active drug to study the retention time of these microspheres on the nasal mucosa and their clearance properties from the nose, as compared with powders of the same materials and solutions. However, administration of microspheres with an active drug or their use in a complete drug delivery system is disclosed in neither (1) nor (8).

5.2. On the other hand, citation (3) discloses complete drug delivery systems in the form of powdery compositions for nasal administration of physiologically active polypeptides. The compositions described in (3) are free of an enhancer and comprise a physiologically active polypeptide or its derivative as the active drug, such as calcitonin or insulin, associated with a powdery water-absorbing and water-insoluble carrier, to allow said polypeptide, when nasally administered, to be effectively absorbed through the nasal mucosa. Thus, citation (3) already discloses drug delivery systems for the effective nasal administration of peptides having a molecular weight in the range specified in present claim 1.

Moreover, the overall aim of citation (3) is the same as, or at least similar to, the aim of the claimed invention, namely to effectively deliver certain peptides, such as insulin, through the nasal mucosa. Consequently, on the basis of the principles set forth above, the disclosure of (3) comes undoubtedly closer to the claimed subject-matter in the patent in suit than that of (1) or (8).

5.3. In the drug delivery system of (3), at least 90 per cent by weight of the particles of the powdery composition have an effective diameter in the range of 10. to 250 microns (see page 9, lines 22 to 24), which actually includes the range of 10 to 100 microns given for the diameter of the microspheres specified in the patent in suit (see column 3, lines 25 to 26). The water-absorbing and water-insoluble carrier is selected, for instance, from diverse sorts of cellulose materials, eg cellulose as such, crystalline cellulose, sodium carboxymethyl cellulose; but also from water-absorbing and water-insoluble starches such as hydroxypropyl starch, carboxymethyl starch, cross-linked starch; water-absorbing and water-insoluble proteins such as gelatin, casein; water-absorbing and water-insoluble gums such as gum arabic, tragacanth gum; and cross-linked vinylpolymers such as cross-linked polyvinyl pyrrolidone, cross-linked polyvinyl alcohol and polyhydroxyethylmethylmethacrylate (see page 7, lines 22 to 35).

As is the case with the drug delivery systems according to the claimed invention, the powdery compositions forming the drug delivery systems in (3) may have different structures, for example one in which the water-absorbing and water-insoluble carrier and the polypeptide form independent particles, one in which the polypeptide particles adhere to the surface of the water-absorbing and water-insoluble carrier, one in which the polypeptide particles are dispersed in the water-absorbing and water-insoluble carrier particles, forming separate phases of their own, or one in which the polypeptide particles are closely dispered in the water-absorbing and water-insoluble carrier, thus forming a uniform dispersion (see (3), page 10, lines 13 to 26).

5.4. As is demonstrated in Examples 2, 4 and 6 (see also especially Table 1 on page 19) and can clearly be derived from Figures 1 and 2, the drug delivery systems disclosed in (3) show in animal experiments a high and efficient absorption of nasally administered insulin or calcitonin, with a rapid onset of action of the drug after administration. When, for example, insulin is used as the physiologically active polypeptide, the data reported in (3) demonstrate a favourably sharp bioavailability profile with fast and significant decrease of the plasma glucose concentration (see especially Figure 1) on the one hand, and a fast and significant increase of the serum insulin level, on the other (see especially Figure 2), depending on the particular material used for the powder formulations disclosed in (3).

5.5. Notwithstanding the above, in its written submissions and during the oral proceedings the respondent essentially relied in support of inventive step on the allegation that bioadhesive microsphere systems according to the claimed invention, when administered nasally, were capable of enhancing greatly the bioavailability of polar drugs as compared with the powder formulations disclosed in (3). Furthermore, the respondent argued that intranasal administration of the claimed drug delivery systems - as demonstrated in the patent in suit and in the inventor's declarations by formulations comprising insulin as the active drug associated with microspheres made from starch, cross-linked starch, gelatin, or dextran - resulted in animal tests (sheep) in a significantly better absorption of insulin through the nasal mucosa, a more rapid onset of the effect of the active drug administered and, consequently, in an improved bioavailability profile of insulin with a significantly increased reduction in the plasma glucose level, as compared with the administration of powder formulations of insulin disclosed in the closest state of the art according to (3).

5.6. These alleged advantages are said to be proved by the results of the comparative tests submitted in the two declarations by Professor Illum, who is named as the inventor of the patent in suit. The first Illum declaration was originally filed on 9 June 1992 during the examination proceedings (hereinafter referred to as the "first declaration") for the particular purpose of demonstrating the superiority of a first group of lyophilised drug delivery systems containing insulin as the active drug associated with microspheres according to the invention made from cross-linked starch, gelatin or Sephadex (dextran) over a second group including HSA or DEAE-dextran microspheres outside of the present claims.

The results shown for the first group, ie cross-linked starch, gelatin and Sephadex (dextran) microspheres with insulin as the active drug reported in the "first declaration", were used in the present appeal for comparison with the results reported in the second Illum Declaration, which was filed with the respondent's letter dated 17 May 1996 during the first-instance opposition proceedings and which purports to study the intranasal absorption of insulin from a lyophilised powder formulation in accordance with the disclosure in (3) (hereinafter referred to as the "second declaration"). In both declarations, insulin absorption was assessed indirectly by measuring plasma glucose concentrations.

5.7. However, to be relevant, such comparative tests must meet certain criteria. These include in the present case the choice of a microsphere formulation according to the claimed invention and of a comparative powder formulation taken from the closest state of the art; at the same time, the pair being compared should possess maximum similarity with regard to the materials and the drugs used, the structure and the application (see decision T 181/82, OJ EPO, 1984, 401). Moreover, the nature of the comparison with the closest state of the art should be such that any alleged advantages or beneficial effects are convincingly shown to have their origin in the distinguishing feature of the invention vis-à-vis the closest state of the art (see decision T 197/86, OJ EPO, 1989, 371).

5.8. Contrary to the respondent's submissions, the comparative tests presented in the present case are not pertinent, since the criteria set forth above have not been met for a number of reasons, including in particular the following:

Firstly, microsphere formulations according to the invention made from cross-linked starch or gelatin, as described in the "first declaration", were not compared with powder formulations according to (3) made from the same materials, ie cross-linked starch or gelatin, as might have been expected, but with powder formulations made from a structurally entirely different material, namely microcrystalline cellulose, although at least starch, cross-linked starch and gelatin are explicitly disclosed as particularly suitable materials both for the microsphere formulations in the contested patent (see column 3, lines 29 to 31) and likewise for the powder formulations in (3) (see page 7, lines 25 to 27; 29). According to the respondent's own submissions, microcrystalline cellulose is structurally quite distinct from the materials used for the microspheres of the present invention and is functionally quite different as well, in that it does not gel in contact with the mucosal surface.

Secondly, whereas in the tests recorded in the "first declaration" semi-synthetic human Na-insulin was used as the active drug to produce a stock Na-insulin solution with a concentration of 96 IU/ml (3.45 mg/ml) for the preparation of the lyophilised insulin microsphere formulations according to the claimed invention, human zinc insulin was used to produce a zinc insulin stock solution with a concentration of 66.67. IU/ml (2.598 mg/ml) for the preparation of the lyophilised insulin powder formulation according to the state of the art of (3).

The board cannot accept the respondent's argument submitted during oral proceedings that in the "second declaration" zinc insulin was transformed into Na-insulin prior to its use for the preparation of a powdery drug delivery system according to (3), and that accordingly the particular form of the insulin used was in both cases the same. First of all, in the "second declaration" it is clearly indicated under the heading "Loading the administration devices" that "the total theoretical weight of material in the formulation was 623.38 mg comprising 600 IU (23.38 mg) zinc insulin and 600 mg crystalline cellulose;" and further down on the same page under the heading" Measurement of insulin content by HPLC" that "the zinc insulin content of the formulation was determined by HLPC analysis". The fact that, contrary to the respondent's claim the form of the insulin used in the "second declaration" was necessarily different from that used in the "first declaration" is moreover entirely clear from the circumstance that in the "first declaration" a dose weight of 2.0 IU insulin/kg corresponds to 0.071 mg/kg of the particular form of insulin used (see Table 2), while in the "second declaration" a dose of 2.0 IU insulin/kg corresponds to 0.078 mg/kg of an apparently different form of insulin used (see "Loading the administration devices", paragraph 2, line 3).

Thirdly, although the attention of the skilled reader is drawn in (3) (see especially page 9, line 22 to page 10, line 12), as in the patent in suit (see especially column 3, lines 24 to 26), to the particular importance of the particle size of the drug delivery system in nasal deposition and in the effective absorption of the active drug from the nasal mucous membrane, no data are available in the respondent's comparative experiments as to the specific values and the distribution of the particle size either for the powdery composition disclosed in (3) or for the microspheres according to the claimed invention. In the absence of such data, the results given in the comparative experiments are therefore, for this reason too, not exactly comparable.

5.9. The board accepts the respondent's submission that microcrystalline cellulose is referred to in citation (3) as an especially desirable carrier material for the known powdery drug delivery systems (see page 8, lines 2 to 3) and is used as the carrier material in the majority of the examples contained in (3). However, if the respondent regards only the preferred powder formulations from citation (3) as comparable, it is concentrating on the technical progress compared with the most effective formulations disclosed in the state of the art according to (3). But technical progress is not a requirement for a patent under the EPC.

5.10. According to the established case law of the boards of appeal (see "Case Law of the Boards of Appeal of the European Patent Office", 3rd edition 1998, D. 7.7.2, pages 144-145), some beneficial effects or advantageous properties, if appropriately demonstrated by means of exactly comparable results, could in certain circumstances properly form a basis for the definition of the problem the claimed invention sets out to solve and could, in principle, be regarded as an indication of inventive step; the only comparative tests suitable for this are, however, those which are concerned with the structurally closest state of the art to the invention, because it is only here that the factor of unexpectedness is to be sought (see decision T 181/82, loc. cit.). As is entirely clear from the observations in point 5.8 above, these requirements are not met in the present case.

5.11. Consequently, the conclusion must be drawn that the additional advantages referred to by the respondent have not been properly demonstrated. Such alleged but unsupported advantages cannot be taken into consideration for the purpose of determining the problem the invention sets out to solve, or, therefore, in the assessment of inventive step (see decision T 20/81, OJ EPO 1982, 217).

5.12. For this reason, the problem to be solved by the claimed invention vis-à-vis the closest state of the art may only be seen as that of providing an alternative drug delivery system for transmucosal administration of physiologically active polypeptides.

The solution to the problem was the provision of the drug delivery composition according to claim 1, wherein microspheres comprising starch, starch derivatives, gelatin or dextran associated with an active drug were substituted for powder formulations of the same material used for the drug delivery system disclosed in (3). On the basis of the experimental data provided in the examples in the patent in suit (see especially Examples 1 and 2; Figure 1 to 7) and in the "first declaration" as well, and, moreover, in the absence of any evidence to the contrary, the board is satisfied the problem has been plausibly solved. Since this was not contested, it is not necessary to go into further detail on this point.

6. It still remains to be determined whether the requirement of inventive step is met by the claimed subject-matter.

6.1. The skilled practitioner seeking a solution to this problem in the state of the art was undoubtedly aware of the prior art of citations (1) and (8). The author of both these citations refers in them to powder formulations as disclosed in (3) and points the person skilled in the art clearly and unequivocally in the direction of microsphere formulations for nasal administration of physiologically active polypeptides as a particularly suitable and even potentially advantageous alternative to the known powder formulations, by stating:

"We believe that our microsphere systems should provide similar or even better effects [as compared to powder formulations]; their physical properties should also allow for better administration and deposition behaviour since it is possible to prepare such systems in a variety of sizes" (see (1): end of page 209).

Similarly, in the first full text paragraph on page 134, the author of (8), who is the present inventor and incidentally also the author of (1), starts with a reference to various powder formulations for nasal application of active drugs, including insulin, and concludes at the end of this paragraph: "we believe that our microsphere systems should provide similar or even better effects."

6.2. However, citations (1) and (8) both not only provide the skilled reader with a merely abstract and general suggestion that microsphere systems might be a particularly favourable or even superior alternative to powder formulations for the nasal administration of peptides, but the skilled person is also given precise instructions - should he really need them - as to (i) the appropriate materials for preparing microspheres which will ensure a high and efficient absorption of the active drug through the nasal mucosa, (ii) the appropriate size distribution of such microspheres to enhance the bioavailability of the drug administered and (iii) the kind of active drugs to be favourably associated with the microspheres to arrive at a complete and effective drug delivery system for nasally administering physiologically active polypeptides.

6.3. During the oral proceedings before the board, a lengthy discussion focused on the question whether or not the state of the art according to (3) already suggested the use of powder formulations which are capable of forming a gel-like layer in contact with nasal mucosa, or whether the respondent was correct in stating that the teaching of (3) would dissuade those skilled in the art, faced with the stated technical problem, from using microspheres which are adapted so as to gel in contact with the mucosal surface, as required by the present claims.

However, any further discussion on this question is superfluous, since citation (8) (see especially page 133, first paragraph, lines 8 to 10, Table 4) already clearly and unequivocally suggests solving the problem by choosing "microspheres made from materials that are known to swell in contact with water to form a gel-like layer with good bioadhesive properties" and recommends in this context, inter alia, cross-linked starch (starch Spherex) as a suitable gelling material, which is likewise used as a suitable material for the microspheres according to the claimed invention (see claim 1) and also the powder formulations disclosed in (3) (see especially page 7, line 27).

In the context of microsphere delivery systems for nasal administration of peptides, the teaching of citation (1) (see especially end of page 206) makes it likewise clear to a person skilled in the art that "an important requirement for bioadhesive polymer materials is their ability to swell by absorbing water from the mucous layer in the nasal cavity thereby forming a gel like structure in which environment the interpenetration of polymer and glycoprotein chains can take place and the bondings can form rapidly".

6.4. In view of the foregoing observations, the board is unable to accept any of the respondent's repeated assertions, namely (i) that (3) did not disclose at least partly the same materials as used in the claimed invention, (ii) that such materials did not achieve the same effect of gelling when used for the powder formulations disclosed in (3), and that the effect of gelling in contact with nasal mucosa was not even suggested in (3) as being desirable.

Apart from the fact that the respondent was unable to give a technically acceptable explanation in support of its assertion that microsphere formulations made from cross-linked starch, as opposed to powder formulations of such starch, gel in contact with the nasal mucosa, the above-mentioned reference in (8) makes it quite clear that, in sharp contrast to what the respondent sought to suggest, it is indeed the specific choice of the material which is responsible for the capability of a given formulation or composition to form a gel in contact with the nasal mucous, rather than the particular formulation as such of that material as powders or microspheres.

6.5. Citation (8) already recommends the use of microspheres having a diameter of the order of 40 to 60 microns (see page 133, end of the first paragraph), which corresponds exactly to the preferred diameter of the microspheres used for the claimed drug delivery system in the patent in suit (see column 3, line 26).

6.5. Accordingly, the use of microspheres which are adapted so as to gel in contact with the mucosal surface and which have a diameter in the order of 40 to 60 microns, was patently obvious to a person skilled in the art, faced with the stated problem and familiar with the state of the art according to (1) or (8), and can evidently contribute nothing to the inventive step of the proposed solution.

6.6. In line with the conclusions of the opposition division in the impugned decision, the respondent argued during the oral proceedings before the board that it would be justified to acknowledge an inventive step, since the allegedly superior and improved release characteristics of the claimed drug delivery system were the result of choosing the appropriate material from which to prepare the microspheres and of delivering peptides having a maximum molecular wight of 6000. The board cannot agree in essence for the following reasons:

Cross-linked starch is already suggested in (1) and (8) as a particularly suitable material for microspheres which are intended to be used in the nasal administration of peptides. Its choice as a material for the microspheres of the drug delivery system according to the claimed invention was therefore patently obvious to a person skilled in the art. As explained in great detail in points 5.5 to 5.12 above, the allegedly superior and improved release characteristics of the claimed drug delivery system in comparison with the closest state of the art have never been adequately demonstrated.

In this respect it should also be noted that, contrary to what the respondent sought to suggest and what was apparently accepted by the opposition division, the test results presented in the "first declaration" are not pertinent at all to the assessment of inventive step of the claimed invention. In the present case, cross-linked starch, which was already used for the microspheres disclosed in the prior art of (1) and (8), suggested itself to a person skilled in the art, for the reasons stated above, as a particularly suitable material for the microspheres of the claimed drug delivery system. In the absence of any evidence showing that the obvious choice of this particular material from the limited number of three options (albumin, starch-Spherex, DEAE-Sephadex) disclosed in (1) and (8) was unexpectedly associated with a significant improvement or advantage in comparison with the closest state of the art, the acknowledgment of an inventive step cannot be based on the results of certain comparative tests demonstrating that the cited documents (1) and (8) also disclose some other materials for microspheres which possibly exhibit less advantageous properties in certain tests than the one actually taken in an obvious manner from the cited state of the art, as is the case with the comparative experiments presented in the "first declaration". To acknowledge an inventive step on the basis of such comparative tests would be to fundamentally misunderstand the well established criteria in the jurisprudence of the EPO for determining whether or not a selection from the state of the art is inventive for patent purposes.

Finally, apart from the fact that virtually all the examples of peptides mentioned in Table 1 on page 129 of (8) as desirable for nasal absorption have a molecular weight of less than 6000 and, accordingly, render obvious the selection of this particular class of peptides as the active drugs associated with the microspheres of the claimed invention, no evidence has been provided to show that microspheres associated with peptides having a maximum molecular weight of 6000 would entail any unexpected advantages over microspheres associated with peptides having a molecular weight greater than 6000.

6.7. For all these reasons, the board concludes that the claimed subject-matter in the patent in suit results from an obvious combination of the teaching of citation (3) with that of (1) or (8) and is therefore devoid of inventive step contrary to the requirements of Article 52(1) in conjunction with Article 56 EPC.

7. The opposition under Article 100(b) EPC on the grounds of insufficiency (Article 83 EPC), as maintained by the appellant during the oral proceedings before the board (see paragraph VI above), has already been dealt with in points 6.3 and 6.4 above in the context of the board's observations as to the capability of cross-linked starch to gel in contact with the nasal mucous layer. Since, moreover, the patent has to be revoked in any case for other reasons, insufficiency as a ground for opposition is no longer of relevance to the present case.