System for opening a medical blister package

Abstract

The invention relates to a system for opening a medical blister package which is easy and convenient to open for people of all level of ability and dexterity. Its design allows for selective access to the blisters by following a predetermined opening sequence, therefore minimizing involuntary wrong up taking of medicine due to patient errors as wrong sequential opening is not achievable by involuntary mistakes.

Claims

1. A method of opening a package comprising a carrier sheet with at least two separate depressions adapted to accommodate pharmaceutical compositions and at least two overlapping cover sheets each covering at least one depression of the at least two separate depressions, wherein said at least two overlapping cover sheets are at least partially sealed to the carrier sheet around at least two separate depressions, and said at least two overlapping cover sheets overlap and delimit at least one element such that the access to said at least one element is gained by removal of the preceding overlapping cover sheet and access to further elements is gained by sequential removal of the respectively preceding overlapping cover sheets, said method comprising: accessing at least one element by removing the preceding overlapping cover sheet; and accessing further elements by removing sequentially respectively preceding overlapping cover sheets.

2. The method according to claim 1, wherein said at least one element is a tear-off element.

3. The method according to claim 1, wherein said at least one element is peeloff element.

4. The method according to claim 1, wherein said at least one element is a snip.

5. The method according to claim 1 wherein said at least one element is a strip.

6. The method according to claim 1, wherein said at least one element is a flap which may have a protrusion so as to allow a better grip.

7. The method according to claim 1, wherein said carrier sheet has at least one depression of the at least two separate depressions, the at least one depression adapted to accommodate pharmaceutical compositions on the top and at least one depression adapted to accommodate pharmaceutical compositions on the bottom surface of said carrier sheet.

8. The method according to claim 1, wherein the at least one depression adapted to accommodate pharmaceutical compositions on the top and the at least one depression adapted to accommodate pharmaceutical compositions on the bottom surface of said carrier sheet are located off-set in respect to each other in an intermeshing fashion.

9. The method according to claim 1, wherein said carrier sheet comprises at least two pivotally connected halves each comprising one depression of the at least two separate depressions, the at least one depression adapted to accommodate pharmaceutical compositions, and wherein said at least two halves are made from one single sheet foldable into a folded configuration thereby producing said rigid structure.

10. The method according to claim 1, wherein said carrier sheet has at least one depression of the at least two separate depressions, the at least one depression adapted to accommodate pharmaceutical compositions on the top and at least one depression adapted to accommodate pharmaceutical compositions on the bottom surface of said carrier sheet and wherein the at least one depression on one of said at least two halves of said carrier sheet is located off-set with respect to the at least one depression on the other of said at least two halves so that the depressions intermesh when the two halves are folded into said folded configuration.

11. The method according to claim 1, comprising at least four sections arranged in a row and made from a single sheet, each section being pivotally connected to at least one of the other sections along a fold line in said single sheet.

12. The method according to claim 1, comprising at least four sections arranged in a row and made from a single sheet, each section being pivotally connected to at least one of the other sections along a fold line in said single sheet, and wherein two of the at least four section are middle sections, each of two middle sections of said at least four sections constituting a carrier half containing at least one depression of the at least two separate depressions, the at least one depression adapted to accommodate pharmaceutical compositions, the two carrier halves being pivotally connected to each other.

13. The method according to claim 1, comprising at least four sections arranged in a row and made from a single sheet, each section being pivotally connected to at least one of the other sections along a fold line in said single sheet, and wherein two of the at least four section are middle sections, each of two middle sections of said at least four sections constituting a carrier half containing at least one depression of the at least two separate depression, the at least one depression adapted to accommodate pharmaceutical compositions, the two carrier halves being pivotally connected to each other and wherein two of the at least four section are end sections, each of the two end sections of said at least four sections constituting an outer cover part for at least one of said carrier half, each of the two end sections being pivotally connected the correspondent carrier half.

14. The method according to claim 1, wherein said carrier sheet comprises: at least four sections arranged in a row and made from a single sheet, each section being pivotally connected to at least one of the other sections along a fold line in said single sheet; at least two pivotally connected halves each comprising one depression of the at least two separate depressions, the at least one depression adapted to accommodate pharmaceutical compositions, and wherein said at least two halves are made from one single sheet foldable into a folded configuration thereby producing said rigid structure and wherein said at least four sections can be folded into a folded configuration where said two carrier halves are located adjacent to each other with said depressions intermeshing and with the open sides of said depressions facing away from each other.

15. The method according to claim 1, wherein said carrier sheet comprises at least two pivotally connected halves each comprising one depression of the at least two separate depressions, the at least one depression adapted to accommodate pharmaceutical compositions, and wherein said at least two halves are made from one single sheet foldable into a folded configuration thereby producing said rigid structure and wherein said carrier sheet further comprises at least two rim areas each at least partly surrounding a carrier half, the rims protruding in a direction perpendicular to said cover sheet and being adapted to engage with each other, when said blister package is closed.

16. The method according to claim 1, wherein said at least two overlapping cover sheets are protected by at least one lid.

17. The method according to claim 1, wherein said carrier sheet has multiple depressions and removal of one of said at least two overlapping cover sheets provide simultaneous access to at least two depressions.

18. The method according to claim 1, wherein said carrier sheet has multiple depressions and removal of one of said at least two overlapping cover sheets provide simultaneous access to at least two depressions wherein said carrier sheet has multiple depressions and removal of said cover sheets may be achieved through multiple starting points.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The system according to the invention will now be described in more detail with regard to the accompanying figures. The figures show some way of implementing the present invention and is not to be construed as being limiting to other possible embodiments falling within the scope of the attached claim set.

(2) FIG. 1 shows a side view of a blister package according to one embodiment of the invention.

(3) FIG. 1a shows a side view of a blister package according to one embodiment of the invention after the removal of the first opening element, allowing access to the first depression.

(4) FIG. 2 shows a front view of a blister package according to one embodiment of the invention.

(5) FIG. 2a shows the sequence of opening according to the embodiment of the invention in FIG. 2.

(6) FIGS. 2b, 2c and 2d show other embodiments according to the invention having a different opening sequence.

(7) FIG. 3 shows a front view of a blister package according to another embodiment of the invention.

(8) FIG. 4 shows a side view of a blister package according to another embodiment of the invention.

(9) FIG. 4a shows a side view of a blister package according to one embodiment of the invention after the removal of the first cover sheet, allowing access to the first depression.

(10) FIGS. 5 and 5a show a side view of a blister package according to one embodiment of the invention, where the carrier sheet comprises a rigid structure.

(11) FIGS. 6 and 6a show a side view of a blister package according to one embodiment of the invention, where the carrier sheet comprises a rigid structure and the carrier has at least one depression on the top and at least one depression on the bottom surface of the carrier.

(12) FIG. 7 shows a front view of a blister package according to another embodiment of the invention, comprising a grip flap.

(13) FIGS. 8a, 8b and 8c different shapes of the flap which can be used for a better grip of the cover sheet.

(14) FIGS. 9, 10 show blister packages according to other embodiments of the invention.

(15) FIG. 11a shows schematically a top view of an embodiment of the invention.

(16) FIG. 11b shows different embodiments having different arrangements of the flaps and cavities.

(17) FIGS. 12a and 12b show schematically a top view of an embodiment of the invention where part of the cover sheet is removed during or after the punching process.

(18) FIG. 13a shows schematically a top view of an embodiment of the invention where parts of the cover sheet are left unsealed.

(19) FIG. 13b shows a cross section of the embodiment of the invention of FIG. 13a.

(20) FIG. 14a shows schematically a top view of an embodiment of the invention where the carrier sheet is in an un-folded state.

(21) FIG. 14b shows schematically a 3-D view of the embodiment of the invention of FIG. 14a in its folded state.

(22) FIGS. 15a,b,c,d show an alternative embodiment based on the same principle of folding as in FIGS. 14a and 14b.

(23) FIGS. 16a and 16b show schematically a 3-D view of the embodiment of the invention of FIGS. 15a,b,c,d before and after fastening of a supporting ring respectively.

(24) FIGS. 17a, b, c and FIGS. 18a and 18b show schematically a top view and 3-D view of an embodiment of the invention having a build-in covering lid.

(25) FIGS. 19-23 show examples of packages where the location of the cavities on the surface of the carrier sheet may provide an optimal structure to increase the rigidity of the package and support the sequential opening desired.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

(26) FIG. 1 shows a side view of a blister package according to one embodiment of the invention. The blister package is shown containing a number of 4 depressions in its carrier sheet. This is simply for descriptive reasons and should not be considered as a limitation to the scope of protection. Any commercially practicable number of depressions may be produced into a single blister package.

(27) The blister package is characterized by a carrier sheet 1 in which at least two but preferably a plurality of depression 2-5 of the carrier sheet 1, extending from the plane of the carrier sheet 1 are present to house pharmaceutical compositions in different forms, e.g. capsule, tablets or pills.

(28) The blister package also includes a number of cover sheets 6-9 at least partially sealed to the carrier sheet 1 and around the respective depressions 2-5, with the function of regulating access to the depressions 2-5 housing pharmaceutical compositions.

(29) The cover sheets 6-9 are characterized in that the previous sheet partially overlap the following one so as to provide a predetermined and sequential access to the depressions 2-5 and therefore to the pharmaceutical compositions therein contained.

(30) In some other embodiments (not shown) previous cover sheets fully overlap the following ones.

(31) The carrier sheet 1 may also have one or more recesses 10-13 being adjacent to each respective depression 2-5. In FIG. 1 the first recess 10 is shown as a stepped recess with the function of leaving a small portion of the edge of the cover sheet 6 unsealed. Thus a tab 14 is created.

(32) By gripping the tab 14 of the cover sheet 6 and by peeling or tearing tab 14 off the cover sheet 6 is pulled upwards and back following arrow 18 and therefore removed providing access to the first depression 2 containing a pharmaceutical composition.

(33) Upon removal of the cover sheet 6, as shown in FIG. 1a, depression 2 is open and access to the tab 15, i.e. the overlapping area between cover sheet 6 and 7, for removing cover sheet 7 is obtained. A second recess 11 may be present to allow for gripping of tab 15 so that by peeling or tearing tab 15 off the cover sheet 7 is pulled upwards and back following arrow 19 and cover sheet 7 is removed providing access to depression 3 and so on.

(34) While shown as an indentation into the carrier sheet in this example recess areas may have different shapes and forms.

(35) In another embodiment one or more recesses may be not present so that gripping of cover sheets may be made feasible by leaving a small portion of the cover sheet unsealed around part of the edges of the respective depressions. The small portion may generally correspond to the overlapping area between the cover sheets or to the tab present in the previous cited embodiment.

(36) FIG. 2 shows a blister package according to one embodiment of the invention.

(37) While in this embodiment 16 depressions are shown, this is simply for descriptive reasons and should not be considered as a limitation to the scope of protection. Any commercially practicable number of depressions may be produced into a single blister package. FIG. 2 shows the front view of the package of FIG. 1. The access to the different depressions is gained in a sequence that can be predetermined by providing a specific overlapping of the cover sheets. As shown by FIGS. 1 and 1a the overlapping areas 15-17 between the cover sheets 6-9 determine the sequence of access. FIG. 2 shows also cover sheet 20 and tab 21. Cover sheet 9 hinders access to tab 21, so that to the removal of cover sheet 9 follows the removal of cover sheet 20 allowing access to depression 22. Accordingly cover sheet 23 can be removed by peeling or tearing off tab 24, which can be accessed only following removal of cover sheet 20. In FIG. 2a the sequence of access to the several depressions, following arrow 25 is obtained by using an overlapping between cover sheets and tab as shown in FIG. 2.

(38) Several opening direction may be obtained by predetermined overlapping sequence, e.g. round, zig-zag, up-down, left-right. Two examples are shown in FIG. 2b and FIG. 2c following arrow 26 and 27 respectively. A third example showing multiple staring points, indicated by arrows 28-31 is shown in FIG. 2d.

(39) FIG. 3 shows a blister package according to another embodiment of the invention where the first cover sheet 33 has tab 32 which extends over the edge of the carrier sheet 37 (FIG. 4). This allows for patient grip without the need of a recess.

(40) In another embodiment the patient grip of the first cover sheet of the blister package may be achieved by using a cover sheet which does not extend beyond the carrier sheet edge and by leaving part of the cover sheet partially unsealed along its edge.

(41) Similarly as shown in the previous embodiment, access to depression 34 is obtained by removal of cover sheet 33 by gripping and pulling and therefore peeling of tearing off tab 32. As shown in FIGS. 4 and 4a the removal of the cover sheet 32 provides also access to the following tab 35 for removal of the subsequent cover sheet 36.

(42) In another embodiment of the invention the carrier sheet of the blister package comprises a rigid structure as shown in FIGS. 5, 5a and FIGS. 6, 6a. A rigid structure may be a structure with the characteristic of being firm, having a certain degree of stiffness, unbendability and inflexibility so as to allow for safe handling in transportation, e.g. through normal post avoiding undesired rupture. Depressions may be produced by different technique, e.g. embossing, injection molding, calendaring, casting and other thermoplastic or pressure treatment and recesses between the depressions may be (FIG. 5) or not be present (FIG. 5a).

(43) In some embodiments according to the second aspect of the invention the at least one depression adapted to accommodate pharmaceutical compositions on the top and at least one depression adapted to accommodate pharmaceutical compositions on the bottom surface of the carrier sheet are located off-set in respect to each other in an intermeshing fashion.

(44) In some other embodiments according to the second aspect of the invention the carrier sheet comprises at least two pivotally connected halves each comprising one depression adapted to accommodate pharmaceutical compositions, and wherein the at least two halves are made from one single sheet foldable into a folded configuration thereby producing the rigid structure.

(45) In some embodiments the at least one depression on one of the at least two halves of said carrier sheet is located off-set with respect to the at least one depression on the other of the at least two halves so that the depressions intermesh when the two halves are folded into the folded configuration.

(46) In other embodiments the rigid structure is a solid block of material, e.g. the structure in between the depression is not hollow. For example in FIG. 5 carrier sheet 48 may be a block of material, i.e. a hard and solid piece of material.

(47) In some other embodiments the carrier sheet has at least one depression on the top and at least one depression on the bottom surface of its surface as shown in FIG. 6.

(48) In some embodiments the rigid structure is or comprises an internal hollow structure. In some embodiments the rigid hollow structure may be internally filled with air or other gases, e.g. inert gases. For example in FIG. 6 carrier sheet 49 is a hollow rigid structure, i.e. no material is present between the depressions of the carrier. When the structure is hollow supporting means may be present to provide rigidity, e.g. supporting elements 50-57 in FIG. 6a.

(49) In some embodiments, the at least two cover sheets are protected by at least one lid. Herein lid is defined as a removable film, foil, rigid sheet, panel or a hollow body which protects the cover sheet from undesired rupture.

(50) In some other embodiments the lid may also contain a leaflet with information of interest to the patient, e.g. instructions on how to use the pharmaceutical compositions contained, or commercial for related medicaments.

(51) In some other embodiments these information of interest for the patient may be printed, embossed, carved, stamped or etched on the internal or external surface of the at least one lid.

(52) The at least one lid may be made of plastic, plastic laminates, plastic/paper laminates or plastic/metal foil laminates or metal. Non-limiting exemplary suitable plastics for the carrier sheet are laminates containing PVC, polyamides, polyolefins, polyesters, polycarbonates, teflon and combinations thereof. The at least one lid may be also made of material which is at least partially transparent in visible range of light as to allow for visual inspection pharmaceutical composition contained in the cavities of the carrier sheet.

(53) In some embodiments the at least one lid is fully removable. In other embodiments the at least one lid may be opened through a rotation of the lid along at least one rotational joint located on the carrier sheet.

(54) In some other embodiments the at least one lid is or comprise at least one adhesive element, such as a long thin piece of plastic, cloth or paper with binding capabilities, e.g. a piece of tape. In those embodiments access to the cover and carrier sheet can be obtained through a rotation of the lid along one of the edges of the carrier sheet.

(55) The several cover sheets leading to the access of the depressions according to the opening system of the invention for the packages shown in FIGS. 6 and 6a are not shown only for simplicity reasons in these figures.

(56) In some embodiments the carrier sheet further comprises at least two rims areas each at least partly surrounding a carrier half, the rims protruding in a direction perpendicular to the cover sheet and adapted to engage with each other, when the blister package is closed.

(57) In some other embodiments an outer foil is attached to areas adjacent the rims at a surface of the carrier sheet being the outer surface of the package when the package is closed.

(58) In some embodiments the rigid structure can e.g. be obtained by a carrier 210 as shown in FIGS. 14a and 14b. The carrier 210 may be produced in a single foil in which two halves 211,212 each comprising cavities 207 arranged in rows may be identified. FIG. 14a and FIG. 14b show the carrier 210 in un-folded and folded state, respectively. The two halves 211,212 are adapted to be folded in such a way that the cavities 207 intermesh and thereby provide both stiffness and compactness to the carrier 210. The carrier 210 is preferably folded along two fold lines 213 so that the closed end of the cavities 207 lies on the opposite half, i.e. the closed end cavities 207 of half 211 lies on half 212 and vice versa, as shown in FIG. 14a following arrows 230. Such a design results in a carrier 210 where the pharmaceutical compositions are to be accessed from both sides of the carrier 210. The cavities 207 are covered by a cover sheet 208 as described above; preferably the same cover sheet covers both halves 211,212; it could also be that two separate cover sheets covers each half 211,212. The cover sheet 208 is preferably sealed to the carrier 210 before folding, but it can in principle also be attached after folding the carrier 210. In FIGS. 14a and 14b, the cavities 207 are honeycomb-shaped and arranged in two rows on each half 211,212 of the carrier 210. This configuration provides extra rigidity to a flexible blister structure once folded. In general in the folded state, the closed bottom part of the cavities 207 of the half 212 may support a correspondent area on half 211 and vice versa. Any other shape of intermeshing cavities which in the folded state can support the carrier sheet and provide rigidity to the final structure may be envisaged. Furthermore, rigidity and thereby protection of the pharmaceutical composition arranged in the cavities 207 is provided by the edge parts 214 being formed to provide barriers and support for the carrier sheet along the edges of the carrier 210 when folded. Other shapes and arrangements fulfilling the same purpose are also covered by the scope of the present invention. The fact that the two halves 211,212 are made from one folded sheet of material instead of using two separate sheets means that they are kept in a more fixed mutual relationship which adds to the rigidity of the carrier 210. To prevent the carrier 210 from unfolding, the two halves 211,212 of the carrier 210 can be joined e.g. by strings of adhesive 215, such as hot melt adhesive. Such joining will further prevent mutual movement of the two halves 211,212 and thereby also provide further rigidity to the carrier 210.

(59) Furthermore cavities location on the surface of the carrier sheet can be optimized, e.g. by trial and error, so as to provide an optimal structure supporting the rigidity of the package and the sequential opening desired. For example FIGS. 19-23 show examples of packages where the location of the cavities on the surface of the carrier sheet may provide an optimal structure to increase the rigidity of the package and follow the desired sequential opening, e.g. following the numbered cavities. For example in FIG. 19, the different location of the cavities, e.g. 301 and 302, may also be coupled to a different location and design of the snip, e.g. 304 for removing the cover sheet and providing access to the cavity underneath. 303 identifies the glued area connecting top and bottom surface of the carrier sheet carrying blisters, e.g. 301 and 302. FIGS. 20 and 21 show two embodiments of the medical package with cavities and snips having an alternative shape. In FIG. 21 small bulges are 305 present between cavities, e.g. 306 and snip, e.g. 307.

(60) FIGS. 22 and 23 show further embodiments of the medical package with different combination of cavities, e.g. 308 or 310, and snips, e.g. 309. A desired sequential opening may be therefore obtained.

(61) FIGS. 15a,b,c,d show an alternative embodiment based on the same principle of folding as in FIGS. 14a and 14b. FIG. 15a shows the unfolded carrier 210, where the broken lines 216 show the shape of the carrier 210 in FIG. 14a. The embodiment in FIGS. 15a,b,c,d is provided with protruding rims 217 along the edges. The sheet to become the carrier 210 and the rims 217 is typically shaped by thermoforming a plastic sheet. After thermoforming to the shape in FIG. 15a, the sheet is punched along the broken lines 216 around the two halves 211,212 comprising the cavities 207. The two halves 211,212 are folded following arrows 230 as shown in FIG. 14a so as to reach the folded structure as shown in FIG. 15b which would leave the spaces between the rims 217 as holes. To obtain closed outer surfaces of the container, an outer foil material 218, such as a plastic foil, is fastened to the rim areas 217, preferably before the folding. The joining of the outer foil 218 and the rim area 217, and thereby to the carrier 210, is shown in FIG. 15c, and the resulting look is seen from FIGS. 15b and 15d in opened and closed state, respectively. In this way, the carrier 210 and thereby the pharmaceutical compositions will be protected by the sections 219 comprising the rims 217 and the outer foil 218 which will function as lids. If further rigidity and an even more closed design are desired, this can be obtained by adding a further ring 220 on top of each rim 217. This is shown in FIGS. 16a and 16b before and after fastening of the ring, respectively. The ring 220 can be fastened by any suitable means, such as by adhesive or by press fit.

(62) In one embodiment the carrier 210 including the rims 217, following the punching along the broken lines 216, the filling with a pharmaceutical composition and the further covering by foil 218 is folded without separating rims 217 and carrier 210. Upon opening of the blister package the foil 218 sealed to the rims 217 will act as lids and the package opens along the broken lines 216 which have been punched following the thermoforming process. In this way further rigidity of the structure is obtained as the breakage along lines 216 is only achieved after the first use of the package, so as to avoid undesired opening during transportation from the producer to the first user of the package.

(63) A first step in a presently preferred manufacturing method for the embodiment in FIGS. 15a,b,c,d would be to shape the sheet comprising the carriers 210 and the rims 217 to the geometry shown in FIG. 15a. This would typically be done by first thermoforming of a plastic sheet. The cavities 207 are then filled with the pharmaceutical compositions, and the cavities 207 are covered by a cover sheet 208, typically made from aluminium foil. The next step is punching where the carrier halves 211,212 are separated from the rim areas 217. In the same or in a subsequent punching step, flaps 201 can be made as previously described, e.g. in relation to FIGS. 11a,b. Then the outer foil 218 is fastened to the rim areas 217 as shown in FIG. 15c. The outer foil 218 can be sealed and/or fastened e.g. by thermowelding or by gluing. The outer foil 218 can be a continuous foil providing further protection to the cover sheet 208, so that no access to the cover sheet 208 is possible unless outer foil 218 is removed following the opening of the package.

(64) In some embodiments the outer foil 218 may either have the desired shape before fastening to the rim area 217, or it can be fastened as a sheet material covering a large number of containers so that it has to be punched to the desired shape after fastening.

(65) All the steps described up to now can be performed without the need to turn the material which is advantageous from a manufacturing point of view. The following steps are preferably performed after rotating the containers by 180 so that what was before the underside becomes the top side. If desired, adhesive, such as strings of hot-melt adhesive is applied, and if desired, rings 220 of thermoformed plastic are arranged on top of the rims 217. The two halves 211,212 of the carrier 210 are then folded together and joined, and the lids comprising the rims 217 with the outer foil 218 are closed around the carrier 210. If desired, instructions for use of the pharmaceutical compositions can be arranged inside the container; it can e.g. be glued to the inner side of the outer foil 218 before the container is closed.

(66) An alternative medical package having a build-in covering lid will be described in the following with reference to FIGS. 17a,b,c and 18a,b.

(67) The blister package according to one aspect of the invention comprises at least four sections arranged in a row and made from a single sheet, each section being pivotally connected to at least one of the other sections along a fold line in the single sheet.

(68) As single sheet is meant a continuos sheet of, e.g. plastic.

(69) Each of two middle sections of said at least four sections may constitute a carrier half containing at least one depression adapted to accommodate pharmaceutical compositions, the two carrier halves being pivotally connected to each other.

(70) Each of the two end sections of said at least four sections may constitute an outer cover part for at least one of said carrier half, each of the two end sections being pivotally connected the correspondent carrier half.

(71) Correspondent is herein defined as the complementary carrier half according to FIGS. 17a,b,c and 18a and 18b.

(72) The least four sections are adapted to be folded into a folded configuration where the two carrier halves are located adjacent to each other with the depressions intermeshing and with the open sides of said depressions facing away from each other.

(73) In this way each of the outer cover parts is located adjacent a carrier half.

(74) The design is based on the first step being thermoforming a plastic sheet to the shape shown in FIG. 17a. The sheet comprises a carrier sheet comprising two carrier halves 211,212 corresponding to the ones in FIG. 14a. The sheet further comprises at the two distal ends of the carrier halves 211,212 two outer cover parts 221. These parts 221 are an extension of the carrier halves where the thermoforming has been performed so as to produce rims but not cavities for holding pharmaceutical compositions. It may be seen as an advantage that a single foil of plastic material may be thermoformed so as to identify parts having different functions, e.g. for carrying pharmaceutical composition or for providing further protection to the cover sheet protecting the cavities, without having to change its orientation. The plastic sheet is then folded into a container as shown schematically in the side view in FIG. 17b by folding along the fold lines 222 shown in FIG. 17c. In its folded state the blister package shows only the two cover part 221 as shown in FIG. 18a. When ready for use, it is possible to gain access to one side of the carrier 210 only by opening one of the outer cover parts 221 (not shown). FIG. 18b shows the container in a state where both outer cover parts 221 are partly opened. An advantage of this embodiment is that the carriers 210 and the outer cover parts 221 are made from the same sheet of material and no further covering is needed except for the cover sheets for covering the pharmaceutical compositions in the cavities 207.

(75) In some embodiments a medical package with a larger capacity can be obtained by arranging more than two carrier halves in a row, which halves are then folded together and preferably joined by adhesive two-by-two. A double, triple or multiple structures can therefore be achieved where each two carrier halves may be joined two-by-two. In this configuration the two distal ends, i.e. the outer covers provide cover for the most external carrier halves.

(76) In a multiple structure sequential opening may be achieved as in the single structured described. A further advantage may be that a package with increased number of cavities is made available for carrying pharmaceutical compositions.

(77) In some embodiments the unsealed tab, which provides a better grip for peeling off or tearing off the cover sheet and gain access to the depressions, may be a flap, e.g. a strip or a snip. FIG. 7 shows a blister package according to another embodiment of the invention which comprises a flap.

(78) The specific outline of the flap is linked to its function. The flap may have any form and size which allow for human or mechanical gripping by the method described by the invention and for tearing or peeling off. While in this embodiment the element is shown triangular in other embodiments it may assume different forms, e.g. circular or square.

(79) FIGS. 8a, 8b and 8c show different shapes of the grip flap which can be used for a better grip of the cover sheet.

(80) In some embodiments the element, such a flap may be made of non-slippery material, such as rubber or may have a certain degree of roughness so as to provide a better grip and be easier to be gripped and torn or peeled off.

(81) In some other embodiments it may have a user friendly shape, e.g. resembling a pad so as to provide a better user hold upon use.

(82) The flaps in this embodiment are shown on a specific edge of the cover sheet. In other embodiments may be placed in different locations along the edges of the cover sheets.

(83) By placing the flaps in different areas of the cover sheets, different sequence of opening are possible.

(84) In some other embodiments the first flap can have a locking function so that upon removal of the first flap access the following flap and cover sheet is achieved without exposure of the first depression on the carrier sheet.

(85) While the number and form of depressions in the packages is shown with a specific form, i.e. 16 cylindrical depressions, in other embodiments, the package may have less or more depressions and may have other forms, e.g. cubic, pyramidal or spherical.

(86) FIG. 11a shows schematically a top view of an embodiment of the invention where a flap 201 is provided next to each cavity 202. The flaps 201 are obtained by leaving the areas underneath each flap 201 unsealed during manufacturing when the cover sheet is fastened to the carrier. In a, preferably subsequent, process step, the edges 203 of the flaps 201 are separated from the sealed part 204 of the cover sheet, typically by punching. The punching can be either through the cover sheet only or fully or partly through the carrier as well. An advantage of punching through the cover sheet only is that the carrier is left intact and thereby stiffer and less prone to failure. An advantage of allowing the punching to go fully or partly through the carrier is that the tolerances on the punching tools and the punching action can be less strict. FIG. 11b shows different embodiments having different arrangements of the flaps and cavities.

(87) In an alternative embodiment to the one shown in FIGS. 11a and 11b, selected parts of the cover sheet are removed during or after the punching process. An example of such an embodiment is shown schematically in FIGS. 12a and 12b. The part of the cover sheet being removed is marked as 205 in the figures. This process may result in the flaps 201 being easier to grip. As shown in FIG. 12b, the cover sheet may project over the edges of the carrier e.g. by an amount corresponding to the size of the flaps 201 and the parts 205 of the cover sheet being removed. Hereby the flaps 201 may be even easier to grip than when they overlap the carrier.

(88) In still another embodiment shown schematically in FIGS. 13a and 13b, parts of the cover sheet are left unsealed to the carrier as in the embodiment in FIGS. 11a and 11b. The embodiments differ in that in the one shown in FIGS. 13a and 13b, the manufacturing does not include the providing of flaps 201 by punching. Instead there is a recess 206 next to each cavity 207, and to gain access to the content of a cavity, the cover sheet 208 is pressed into the recess 206 and the cover sheet 208 is removed from above the actual cavity 207. This action is typically performed by using a finger 209, but an appropriate tool could also be used. In this embodiment, the cover sheet 208 is preferably sealed to the carrier over the whole area not being a recess 206 or a cavity 207. An advantage of this embodiment is that no punching step is needed in the manufacturing process.

(89) FIG. 9 shows a further embodiment of the invention where the blister package includes four cover sheets 44-47, each providing multiple access to 4 depressions. For example removal of cover sheet 44 by gripping pulling upwards and back flap 38 provides access simultaneously to depressions 39-42. In this way multiple dispensing of the pharmaceutical composition present in the depressions is achieved as by a single removal of the cover sheet, several depressions are accessible. Removal of cover sheet 44 provide also access to flap 43 which in turn allows for removal of cover sheet 45 providing access to the following 4 depressions.

(90) Multiple dispensing may be very convenient for specific disease. For example, this can be particularly advantageous as a convenient, simple and effective way of facilitating the simultaneous administration of storage incompatible substance particularly when said substances are taken as part of a complex sequential daily therapeutic regimen.

(91) FIG. 10 shows another embodiment where removal of the first cover sheet provides simultaneous access to 2 depressions and to the flap for removing the following cover sheet. The advantage is also to facilitate simultaneous administration of prescription and non-prescription substances as part of a complex regimen.

(92) Although the present invention has been described in connection with the specified embodiments, it should not be construed as being in any way limited to the presented examples. For example the carrier has been described as being made by thermoforming a plastic sheet. However, other manufacturing processes, such as thermoplastic moulding, are also covered by the scope of the present invention. The materials may also differ so that parts of the containers can be made e.g. polymer foam, composite materials or from paper-based materials, such as cardboard. Correspondingly, other joining methods than the ones mentioned are covered; such methods will be well known to a person skilled in the art. Any of the embodiments could be provided with closing and opening means as shown in the figures. Other possible designs of closing and opening means will lie within the person skilled in the art.