US20170131626A1

US20170131626A1 - Protective Means For Protecting Imaging Media

Info

Publication number: US20170131626A1
Application number: US15/342,519
Authority: US
Inventors: Jari Taskinen
Original assignee: Palodex Group Oy
Current assignee: KaVo Kerr Group Finland
Priority date: 2008-12-23
Filing date: 2016-11-03
Publication date: 2017-05-11
Also published as: CN102334067B; US20110299796A1; FI20086239A; JP5611229B2; FI20086239A0; EP2382509A1; CN102334067A; CN103505238A; JP2012513273A; US9529248B2; EP2382509B1; WO2010072897A1

Abstract

A protective means has a pouch-like structure, comprising an orifice for inserting X-ray imaging media in the protective means. In connection with the protective means there is also a closing means, which is arranged to close the orifice. Also in connection with the protective means there is a fastening means for fastening a closing means to the pouch-like structure of the protective means so that upon fastening the closing means the fastening means is arranged to be located on both sides of the orifice.

Description

TECHNICAL FIELD

The invention relates to the hygiene concept of imaging media such as medical imaging plates and/or sensors as well as instruments and equipment, such as imaging plate readers, used in conjunction therewith. In particular the present invention relates to a protective means for protecting an intraoral imaging plate and/or sensor, as well as a method for manufacturing a protective means.

BACKGROUND

Imaging media used in modern medical imaging comprise traditional film, reusable imaging plates, and wireless or wired X-ray sensors. If film is used, it is placed in a separate cassette protecting the film against visible light, which cassette may become in touch with the patient and his/her secretions during the imaging process. The imaging plate, too, is shielded by a protective means during the imaging process so that an X-ray image is produced by placing the subject, such as a patient, between the X-ray source and imaging plate enveloped within the protective means. The protective means for the imaging plate may become in touch with the patient and his/her secretions during the imaging process, such as intraoral imaging, for instance, where the imaging plate protected by the protective means is inserted in the patient's mouth.
No matter which one of the above-described imaging media is used, there is the risk that pathogens originating from a patient and/or medical staff are transmitted to other patients and/or members of the medical staff via imaging media. For instance, when using imaging plates, a first risk is associated with the packaging of the imaging plate, where the imaging plate is inserted in a protective cardboard envelope which is then inserted in a protective means, such as a closable hygienic pouch, which becomes in touch with the patient, among others, during the imaging process. The imaging plate may become contaminated before insertion in the protective means for instance if a person involved in the packaging drops it onto the floor or touches it with bare hands or dirty gloves.
Another risk involves protective means, such as protective pouches, which are not completely liquid-proof so that in intraoral imaging, for example, the patient's secretions may find their way inside the protective pouch and, furthermore, contaminate the imaging plate within the protective pouch. Protective pouches which are not liquid-proof also involve the risk that potential pathogens inside the pouch may become transmitted into a patient's mouth during the imaging process.
Another risk is that a nurse, for example, takes the protective pouch from a patient's mouth and then, using the same instruments, touches elsewhere such as reader equipment or structures or even other protective pouches so that pathogens may become transmitted from the nurse to other protective means and, in the case of non-liquid-proof pouches, even onto imaging plates.
Furthermore, there is the risk that pathogens are transmitted from the imaging plate to objects in touch with the imaging plates such as conveyor mechanisms, receiving means or transfer means of the reader equipment or eject slot for the imaging plates or the trough in which imaging plates are returned from the reader equipment and, further, onto other imaging plates or persons or instruments that become in touch therewith.
Solutions are known from the prior art for improving the hygiene of intraoral imaging plates, for instance, and instruments and equipment involved in their use.
Publication FI 92633, for example, discloses a solution for protecting an intraoral image plate with two shielding bags, wherein an image plate is first inserted in an inner bag one end of which is open, and then in an outer bag, the purpose of which is to prevent the patient's saliva from ending up in the readout apparatus along with the inner bag and to protect the patient from any pathogens which may have ended up on the surface of the image plate. The image plate may be first placed inside a cardboard shield and then in an outer shielding bag, for example. Furthermore, publication U.S. Pat. No. 6,315,444 discloses a solution for protecting an imaging plate by means of an envelope, where the imaging plate is inserted in the envelope through one end of the envelope for the duration of the image-taking and removed through the other end of the envelope after the image-taking.
The solutions mentioned above involve, however, some drawbacks such as e.g. uncontrollable tearing of the shielding bag when the bag is opened. The imaging plate inside the shielding bag may then drop onto a floor or some other contaminating surface where pathogens may come into contact with the imaging plate. The envelope disclosed in U.S. Pat. No. 6,315,444 is rather complicated in its structure and manufacture since the insertion point of the imaging plate is different than the point where it is pulled out. Such a structure is considerably susceptible to leaks because it includes a plurality of apertures for the insertion and pulling-out of the imaging plate.
Furthermore, neither of the solutions mentioned above is liquid-proof because in both of them there remains a channel in the folding seam of the foldable flap, which channel allows the flow of a fluid so that a fluid can flow into the plate insertion aperture and further inside the structure and in touch with the imaging plate. Furthermore, the envelope disclosed in U.S. Pat. No. 6,315,444 will have sharp corners when the flap is folded shut. Such sharp corners are not only uncomfortable in the patient's mouth but also are a hygiene risk because a sharp corner may cut the patient's mucous membranes and thereby make it easier for pathogens to be transmitted to/from the patient's system.
Some solutions are also known for the cleaning of contaminated intraoral imaging plates. For example, publication US 2007/0086911 discloses a disinfection system where an image reading apparatus comprises a special disinfection unit which applies disinfection treatment by means of heat treatment, UV treatment, chemical treatment or gas treatment.
However, a problem with the solution disclosed in US 2007/0086911 is that the apparatus disinfects exclusively image plates inserted in the image reading apparatus. If a conventional imaging plate is disinfected through, say, UV radiation, the imaging plate must then be either erased or at least dark-treated before it can be reused, which requires time and resources because, first, there will be at least one step more in the process and, second, the imaging plate will not be readily available for reuse. Additionally, UV radiation may harm the imaging plate and shorten its useful life.

SUMMARY

An object of the invention is to eliminate disadvantages related to the prior art. According to one embodiment of the invention, the invention aims to improve the hygiene of medical imaging media such as imaging plates and associated instruments and equipment, such as imaging plate readers, and thus to minimize the spreading of pathogens between patients and/or medical staff through instruments and/or members of the staff.
Some objects of the invention are achieved through a protective means having a pouch-like structure in accordance with claim 1, and a manufacturing method in accordance with claim 14.
A protective means according to the invention is characterised in that which is expressed in claim 1 directed to a protective means.
Furthermore, a method according to the invention for manufacturing a protective means is characterised in that which is expressed in claim 14 directed to a method for manufacturing a protective means.
Some concepts used in this document have the following meanings, among others:

- A “conveyor mechanism” is a mechanism which conveys or otherwise takes an imaging plate or transfer means (either with or without an imaging plate), which is inserted in a reader apparatus, for at least some distance within the reader apparatus, to be read by the read-out unit in the reader apparatus, for example. The conveyor mechanism may be a mechanism comprised of conveyor belts, mover arm, holder, rollers and/or guides. According to one embodiment, the mover arm or imaging plate holder may be the same as the gripping means used as receiving means, whereby the gripping means is arranged, in addition to receiving the imaging plate or transfer means, to transport the imaging plate or transfer means inside the reader apparatus. In some embodiments the conveyor mechanism is also adapted to transport the imaging plate or transfer means to the plate eject aperture which may be a separate eject aperture or the same as the insertion aperture, depending on the model of the reader apparatus.
- “Receiver means” can be a means in conjunction with the reader apparatus for receiving an imaging plate and/or imaging plate transfer means in the reader apparatus. The receiver means may be an adapter in conjunction with the conveyor means for inserting imaging plates or imaging plate transfer means of various sizes in the reader apparatus. Activation of receiver means may comprise, for example, activation of equipment associated with the insertion aperture of the reader apparatus to enable the insertion of an imaging plate in the insertion aperture either as such or within a transfer means, such as setting the adapter in accordance with the imaging plate or transfer means. According to one embodiment, the adapter can be set in accordance with a transfer means, such as a cassette, so that the transfer means, such as a cassette, remains in the adapter and the imaging media inside the transfer means is taken from the adapter into the reader apparatus to be read, whereby it is possible to disinfect also the part of the transfer means which remains in the adapter as well as the adapter. Activation of receiver means may also comprise entry into a standby state of the gripping means in the reader apparatus, whereby an imaging plate can be placed in the gripping means either as such or within a transfer means. The receiver means may also be a port cover in the reader apparatus which opens up when activated.
- A “transfer means” can be a means in which an imaging plate, which is used in intraoral imaging, for instance, is transferred from one place to another. The imaging plate may also be inserted in the reader apparatus within the transfer means to be conveyed by the conveyor mechanisms in the reader apparatus and further to be read by the reading means in the reader apparatus and further to the imaging plate eject aperture in the reader apparatus. The eject aperture may be a separate eject aperture or it may be the same as the insertion aperture. The transfer means may be an imaging plate tray, adapter or a cassette associated with the imaging media.

According to one embodiment, a protective means comprising a pouch-like structure comprises

- an orifice for the insertion of imaging media in the protective means, and
- a fastening means intended for fastening a closing means to the pouch-like structure of the protective means so that when fastening the closing means, the fastening means is arranged to be located on both sides of the orifice.

According to another embodiment, such a protective means comprising a pouch-like structure can be manufactured using a method in which the protective means comprising a pouch-like structure is provided with

- an orifice for the insertion of imaging media in the protective means, and
- a closing means in connection with the protective means, which closing means is arranged to close the orifice, and
- a fastening means in connection with the protective means, intended for fastening the closing means to the pouch-like structure of the protective means so that when fastening the closing means, the fastening means is arranged to be located on both sides of the orifice.

The above-described protective means comprising a pouch-like structure has clear advantages over the prior art. The structure of the protective means is easy to manufacture, so it offers a more secure tightness than more complicated structures such as those comprising more apertures, for instance.
According to one advantageous embodiment, the fastening means is arranged such that when fastening the closing means the fastening means is adapted to be located on both sides of the orifice so that the orifice remains in between the fastening means and is closed tightly when the closing means is fastened to the fastening means on both sides of the orifice. This facilitates a completely liquid tight protective means which is easy to manufacture and can be easily and quickly closed tightly so that a patient's secretions cannot enter the protective means, especially in an embodiment including a foldable flap where it is possible that for some reason a flow channel could remain in the folding seam of the foldable flap. According to some embodiments of the invention, the fastening means, such as adhesive tape or glue, for example, is arranged to extend over to the folding seam so that there will not remain a flow channel in the folding seam.
A liquid-tight structure also makes it possible to disinfect the protective means housing an imaging plate before insertion in a patient's mouth because the disinfecting solution, for example, cannot enter the protective pouch. Thus it is ensured that staff, for example, will not be spreading pathogens in the patient's mouth, provided that the protective means is handled in a sterile manner from the point of taking it out from the disinfecting solution to the point of inserting it in the patient's mouth.
According to one embodiment, the fastening means used in the protective means may comprise adhesive tape or glue, for example. According to another embodiment, the fastening means may also be one based on heat sealing or a zipper-like structure or a groove-and-lip based fastening means. The fastening means, such as adhesive tape or glue, can be produced on both sides of the orifice already in the manufacturing process. According to one embodiment, the adhesive tape or glue may extend on both sides of the orifice up to the folding seam or even beyond. Furthermore, the adhesive tape or glue may be located in the pouch-like structure or flap-like closing means of the protective means and, further, around the orifice or, alternatively, oppositely to the orifice in the pouch-like structure or flap-like closing means of the protective means but, however, located such that upon closing, the adhesive tape or glue will be placed around the orifice, closing it.
It is also noted that the adhesive tape or glue may be protected by some means, such as thin film or strip of paper, lest the tape or glue adhere before intended, whereby the film or paper is removed just before closing.
In all embodiments, the closing means closes the orifice when being fastened to the fastening means, such as adhesive tape or glue, arranged to be located on both sides of the orifice. In order to make manufacturing simpler, it is possible to make a cut in the adhesive tape or glue at the position of the orifice already during manufacturing, for example, through which cut an imaging plate can be inserted in the protective means.
Additionally, according to one advantageous embodiment, at least one tear line can be arranged in the protective means so that when a closed protective means is opened, the protective means is torn substantially along the tear line. This brings a considerable advantage over known protective pouches, because if the fastening means comprises strong enough glue, for instance, the closing means fastened to the glue will tear uncontrollably, easily allowing secretions remaining on the outer surfaces of the protective pouch to enter the protective pouch and get in touch with the imaging plate, or even causing the imaging plate to drop from the protective pouch onto a contaminated surface.
The tear line may be realized through a pre-cut, for example, which may be arranged to become glued or otherwise tightly shut when the closing means is fastened in such a manner that it closes the orifice. In one embodiment, the tear line may be realized through perforation or other weakening. The tear line may be a straight, curved or arbitrarily shaped line along which the protective means is torn upon opening.
According to one embodiment, a folding corner in the protective means, formed when the closing means is folded around the folding seam, is rounded or, alternatively, arranged to be rounded when the protective means is closed. Rounding can be achieved e.g. by making cuts in conjunction with the folding seam at the outer edges of the protective means.
Furthermore, according to one embodiment, at least part of the protective means or means included in it, such as closing means and fastening means, are coated with antimicrobiological material. According to one embodiment, the protective means or at least part of it may be made of antimicrobiological material. Such an antimicrobiological material may be a material belonging to Self-Assembling Monolayer End (SAME) group of materials, for example.
Further, the protective means disclosed here may be transparent at least in some part. The protective means may also be a pouch-like protective means seamed at the edges using heat sealing, for instance.

BRIEF DESCRIPTION OF THE DRAWINGS

Advantageous embodiments of the invention will be described below a little more closely, referring to the accompanying drawings in which

FIGS. 1A-C show as examples a protective means according to the invention,

FIGS. 2A-C show as examples a second protective means according to the invention,

FIGS. 3A-C show as examples a third protective means according to the invention,

FIGS. 4A-C show as examples a fourth protective means according to the invention,

FIGS. 5A-C show as examples a fifth protective means according to the invention,

FIG. 6 shows as an example a sixth protective means according to the invention,

FIGS. 7A-C show as examples a seventh protective means according to the invention, and

FIG. 8 shows as an example a method according to the invention for manufacturing a protective means.

DETAILED DESCRIPTION OF THE DRAWINGS

FIGS. 1 to 6 show, as examples, some protective means 100, 200, 300, 400, 500, 600 according to the invention comprising a pouch- like structure 102, 202, 302, 402, 502, 602, where the protective means includes an orifice 104, 204, 304, 404, 504, 604 for inserting in the protective means an imaging medium, such as an imaging plate used in intraoral imaging, for instance. In addition the protective means comprises a closing means 106, 206, 306, 406, 506, 606 arranged to be folded around a folding seam 110, 210, 310, 410, 510, 610 in such a manner as to close the orifice, and a fastening means 108, 208, 308, 408, 508, 608. The fastening means is intended for fastening the foldable part of the closing means to the pouch-like structure of the protective means so that when fastening the closing means, the fastening means is located on both sides 108 a/108 b, 208 a/208 b, 308 a/308 b, 408 a/408 b, 508 a/508 b of the orifice.
FIGS. 1A to 1C show, as examples, a first protective means 100 according to the invention before closing (FIG. 1A), closed (FIG. 1B), and opened after having been closed (FIG. 1C). In FIGS. 1A to 1C the pouch-like structure 102 of the protective means extends partly 102 a onto the closing means 106. The pouch-like structure 102 a extending onto the closing means is arranged so as to be folded around the folding seam 110 together with the closing means 106, as shown in FIG. 1B. In the protective means 100 of FIG. 1A the orifice 104 is arranged to be located in the area of the foldable closing means 106, i.e. between the free edge 106 a of the closing means and the folding seam 110 formed by the closing means. Thus also the orifice 104 is folded around the folding seam 110 together with the closing means 106, as shown in FIG. 1B. Such a solution provides a better shielded and tighter protective means.
The protective means 100 also comprises a tear line 112 arranged to extend from the orifice 104 or vicinity thereof towards the folding seam 110 of the closing means (FIG. 1A, for example). When a closed protective means is opened, the closing means will substantially become torn along the tear line 112 a so that an imaging plate can easily be removed through an opening 104 a thus formed in the protective means without any part of the protective means that has been in contact with secretions of the patient touching the imaging plate. Furthermore, when a distance 116 (FIG. 1C) is left between the tear line and the outer edge of the protective means, it can be further ensured that the protective means will not be torn too close to a surface of the protective means, such as the outer surface, for example, which has been in contact with secretions of the patient.
When the protective means is opened, a portion 106 b of the closing means which remains between the tear lines 112 is in one embodiment torn along the tear lines 112 a so that the portion 106 b remains fastened to the fastening means 108, as shown in FIG. 1C.
FIGS. 2A to 2C show, as examples, a second protective means 200 according to the invention before closing (FIG. 2A), closed (FIG. 2B), and opened after having been closed (FIG. 2C). In FIGS. 2A to 2C the orifice 204 is arranged to be located on the other side of the folding seam 210 formed by the closing means 206 than the free edge 206 a of the closing means 206. Thus the closing means 206 is folded over the orifice 204 when the closing means 206 is fastened to the fastening means 208 (FIG. 2B). In the example depicted in FIG. 2, the fastening means 208 such as adhesive tape or glue, for instance, is arranged so as to extend over the orifice up to the folding seam 210, thus minimizing the formation of any kind of a flow channel in the vicinity of the folding seam. A similar arrangement is depicted in FIGS. 3, 5, and 6 but can be implemented also in arrangements according to other embodiments even if not depicted in the Figures.
The protective means 200 also comprises a tear line 212 arranged to extend from the orifice 204 or vicinity thereof towards the folding seam 210 of the closing means (FIG. 2A, for example). The tear line 212 may be arranged to extend at least over the fastening means 208 e.g. in an embodiment in which the fastening means does not extend up to the folding seam. The tear line 212 and fastening means may both be arranged in one embodiment to extend up to the folding seam, as shown in FIG. 2A.
When a closed protective means 200 is opened it will be torn substantially along the tear line 212 a thus forming an opening 204 a. Then, in one embodiment, a portion 202 b of the pouch-like structure 202 of the protective means which remains between the tear lines 212 (including the fastening means portion which remains between the tear lines) is torn along the tear lines 212 a so that the portion 202 b (including the fastening means portion) remains fastened to the closing means 206 and is torn together with the closing means when the latter is opened, as shown in FIG. 2C.
FIGS. 3A to 3C show, as examples, a third protective means 300 according to the invention before closing (FIG. 3A), closed (FIG. 3B), and opened after having been closed (FIG. 3C). The protective means 300 is otherwise substantially similar to that 100 shown in FIG. 1, but in the protective means 300 the pouch-like structure 302 extends 302 a onto the closing means 306 up to the free edge 306 a thereof, so that the closing means 306 in its entirety can be formed of the pouch-like structure 302 of the protective means 300. In some cases this may be a simpler and faster and therefore also more advantageous way to manufacture the protective means than other embodiments.
In the embodiment depicted in FIGS. 3A to 3C the orifice 304 is arranged to be located between the free edge 306 a of the closing means and the folding seam 310 formed by the closing means. Furthermore, in the embodiment depicted in FIGS. 3A to 3C the tear lines 312 are arranged to extend from the orifice 304 or vicinity thereof towards the folding seam 310 of the closing means (FIG. 3A), corresponding to the situation depicted in FIG. 1A. This way, a portion 306 b which remains between the tear lines 312 is torn along the tear lines 312 a so that the portion 306 b remains fastened to the fastening means 308 (FIG. 3C), corresponding to the situation depicted in FIG. 1C.
However, it is obvious to a person skilled in the art, having read this description, that the orifice 304 may also be placed elsewhere in the protective means comprising the pouch-like structure, such as at the point shown in FIGS. 2A to 2C or at the point shown in FIGS. 4A to 4C. In that case it is advantageous to arrange also the tear lines in a corresponding manner.
FIGS. 4A to 4C show, as examples, a fourth protective means 400 according to the invention before closing (FIG. 4A), closed (FIG. 4B), and opened after having been closed (FIG. 4C). In the protective means 400 the pouch-like structure 402 may extend 402 a also onto the closing means 406 up to the free edge 406 a thereof, so that the closing means 406 in its entirety can be formed of the pouch-like structure 402 formed by the protective means 400.
In the protective means depicted in FIGS. 4A to 4C the tear line is arranged to extend from the folding seam 410 towards the free edge 406 a of the closing means (FIG. 4A). According to an embodiment, an additional tear line 412 a may be arranged between the tear lines 412. In one embodiment, the additional tear line 412 b may be located at such a point in the closing means that it will lie directly on top of the orifice 404 when the closing means 406 is fastened.
A portion 406 b of the protective means 400 which remains between the tear lines 412 is torn along the tear lines 412 a so that the portion 406 b remains fastened to the fastening means 408 (FIG. 4C), corresponding to the situation depicted in FIG. 2C.
FIGS. 5A to 5C show, as examples, a fifth protective means 500 according to the invention before closing (FIG. 5A), closed (FIG. 5B), and opened after having been closed (FIG. 5C). To a great extent, the protective means 500 is similar to those depicted in the preceding embodiments, but in this protective means 500 the tear line 512 is arranged to extend over the folding seam onto both the pouch-like part of the protective means and the pouch-like closing means. Thus when opened the protective means 500 may open as shown in FIG. 5C, for instance, and, furthermore, the user can tear the opened part 506 b further along the remaining tear line 512.
FIG. 6 shows as an example a sixth protective means according to the invention, where the tear line 612 has an arbitrary shape. It should be noted that, for clarity, the tear lines shown in FIGS. 1 to 5 are drawn straight, but the invention is by no means limited to straight tear lines but a tear line or at least part thereof may have a shape other than a straight line, such as a curve or an arbitrary shape, for instance.
FIGS. 7A to 7C show, as examples, a seventh protective means 700 according to the invention before closing (FIG. 7A), closed (FIG. 7B), and opened after having been closed (FIG. 7C). The protective means 700 further comprises a protective means 702 formed by a pouch-like structure with an orifice 704 and a tear line 712 extending from the orifice or immediate vicinity thereof towards the edge 706 b of the protective means. In addition, the protective means 700 includes a closing means 706 which in this embodiment is a part which is separate from the protective means 702 having a pouch-like structure.
The closing means 706 is arranged to be placed over the orifice 704 when the closing means 706 is fastened to the fastening means 708 (FIG. 7B). Even though in FIGS. 7A to 7C the fastening means 708 is arranged to extend over the orifice up to the edge 706 b, the invention is not limited to that but the fastening means 708 in another embodiment may comprise a fastening means like the one shown in FIGS. 1A to 1C and 4A to 4C where the fastening means does not extend up to the folding seam. Even though in this embodiment the fastening means 708 is drawn to be located on the protective means 702 having a pouch-like structure, in another embodiment it may also be located on the closing means 706 without departing from the fundamental idea of the invention.
When a closed protective means 700 is opened it will be torn substantially along the tear line 712 a thus forming an opening 704 a. Then, in one embodiment, a portion 702 b of the pouch-like structure 702 of the protective means which remains between the tear lines 712 is torn along the tear lines 712 a so that the portion 702 b remains fastened to the closing means 706 and is torn together with the closing means when the latter is opened, as shown in FIG. 7C. In one embodiment the portion 702 b and closing means may remain attached to the edge 706 b, whereby the protective means, when opened, looks similar to the opened protective means shown in FIG. 2C, for example.
FIG. 8 shows as an example a method 800 according to the invention for manufacturing a protective means, which method comprises a step 802 for producing an orifice in the protective means having a pouch-like structure, a step 804 for producing a closing means such that the closing means will close the orifice, and step 806 for producing a fastening means for fastening the closing means to the pouch-like structure of the protective means so that upon fastening the closing means, the fastening means is located on both sides of the orifice.
Step 806 may also include the placement of the fastening means on both sides of the orifice and possibly also the making of the cut in the fastening means at the position of the orifice, when the fastening means comprises adhesive tape or glue.
In the method 800, the pouch-like structure may be made to extend at least partly onto the closing means and also arranged so as to be folded together with the closing means. In step 802, the orifice may in one embodiment be located in the area between the folding seam and the free edge of the closing means or, alternatively, on the other side of the folding seam than the free edge of the closing means.
The method may also comprise a step 808 for producing a break line in the protective means, such as one of those described above, using a pre-cut, perforation and/or weakening, for example. Furthermore, the method may also comprise a step 810 for making a cut in conjunction with the folding seams of the protective means depicted in FIGS. 1 to 6 so that when the protective means is closed, the folding corner becomes rounded 114, as shown in FIG. 1B, for instance.
Only a few embodiments of the solution according to the invention were described above. The principle according to the invention, as regards e.g. implementation details and field of application, may naturally be modified within the scope of the invention defined by the claims. Especially it should be noted that in cases depicted in FIGS. 1A to 1C and 3A to 3C, for example, the fastening means, such as adhesive tape or glue, can be located around the orifice 104, 304 in the closing means 106, 306 without changing the general idea of the protective means described here. It should also be noted that the adhesive tape or glue may in other embodiments, too, be located in the flap-like closing means 206, 406, 506 in the manner described in FIG. 6, for instance. Further, it should be noted that the tape or glue may in any embodiment extend up to the folding seam, as shown in the examples of FIGS. 2, 3, 5, and 6.
Also it should be noted that the closing means, particularly closing means 706, may in itself comprise a fastening means. According to one embodiment, the closing means, particularly closing means 706, may be entirely comprised of adhesive tape, such as one-sided tape, so that no other fastening means are necessarily needed. When the closing means, such as closing means 706, is entirely comprised of adhesive tape, for example, it is advantageous to leave in the closing means a portion, such as portion 706 c, which is substantially made of a non-fastening material and thus will not be fastened to the pouch-like part of the protective means so that, when opening the protective means, the closing means can be torn open at portion 706 c. A similar portion 706 c may also be included in the closing means depicted in the other Figures even though not shown therein.

Claims

1-24. (canceled)

25. An intraoral protective apparatus for protecting an intraoral imaging medium during medical imaging, comprising:

a pouch-like structure configured to contain imaging media in a liquid-tight manner;

a first opening through the pouch-like structure for the insertion of the imaging media into the pouch-like structure, the first opening having a width less than a width of the pouch-like structure;

a closing structure arranged to close the first opening;

at least one tear line in the pouch-like structure; and

a fastener configured to fasten the closing structure onto the pouch-like structure around the first opening;

wherein upon opening the protective apparatus, the protective apparatus is torn substantially along the at least one tear line to form a second opening through the pouch-like structure for removal of the intraoral imaging medium from the pouch-like structure and wherein at least one corner of the pouch-like structure or the closing structure is rounded.

26. The apparatus of claim 25, wherein the fastening structure comprises an adhesive tape or a glue.

27. The apparatus of claim 25, wherein the closing structure is separate from the pouch-like structure.

28. The apparatus of claim 25, wherein the closing structure is connected to the pouch-like structure and the closing structure is arranged to be folded in such a manner that it closes the first opening through the pouch-like structure.

29. The apparatus of claim 28, wherein a portion of the pouch-like structure extends at least partly into the closing structure and the portion of the pouch-like structure that extends at least partly into the closing structure is arranged to be folded along with the closing structure to close the first opening through the pouch-like structure.

30. The apparatus of claim 29, wherein the first opening is located through the portion of the pouch-like structure between a folding seam about which the closing structure is folded and a free edge of the closing structure.

31. The apparatus of claim 28, wherein the first opening is located through the pouch-like structure at a position across a folding seam about which the closing structure is folded opposite the closing structure.

32. The apparatus of claim 28 wherein the at least one tear line extends from a folding seam about which the closing structure is folded towards a free edge of the closing structure.

33. The apparatus of claim 25, wherein at least a portion of the apparatus is antimicrobial.

34. The apparatus of claim 25, wherein at least a portion of the apparatus is transparent.

35. The apparatus of claim 25, wherein removal of the intraoral imaging medium from the pouch-like structure through the second opening minimizes the spreading of pathogens from an exterior of the apparatus to the intraoral imaging medium.

36. A method of manufacturing an intraoral protective apparatus for protecting an intraoral imaging medium during medical imaging, said intraoral imaging medium being readable when inserted in a reader apparatus, wherein the method comprises:

providing the intraoral protective apparatus comprising a pouch-like structure;

providing a first opening through the pouch-like structure for the insertion of the intraoral imaging medium into the pouch-like structure, a width of the first opening being less than a width of the pouch-like structure;

providing a closing structure connected to pouch-like structure and configured to close the first opening through the pouch-like structure;

providing a fastener configured to fasten the closing structure to the pouch-like structure around the first opening to close the first opening;

providing at least one rounded corner to the intraoral protective apparatus at least when the closing structure closes the first opening; and

providing at least one tear line in the pouch-like structure, wherein upon opening of the intraoral protective apparatus, the intraoral protective apparatus is torn substantially along the at least one tear line to form a second opening through the pouch-like structure arranged to allow for removal of the intraoral imaging medium from the pouch-like structure so as to minimize the spreading of pathogens.

37. The method of claim 36, wherein the fastener comprises an adhesive tape or a glue located on the pouch-like structure about the first opening and the method comprises producing a cut in the fastener at the position of the first opening so that an imaging plate be inserted in the pouch-like structure through the cut in the fastener.

38. The method of claim 36, wherein the closing structure is produced at a manufacturing stage so as to be a separate component from the pouch-like structure of the intraoral protective apparatus.

39. The method of claim 36, wherein the closing structure is produced at a manufacturing stage so as to be integrally connected to the pouch-like structure and where the closing structure is foldable about a folding seam to close the first opening.

40. The method of claim 39, a portion of the pouch-like structure extends at least partly into the closing structure and wherein the portion of the pouch-like structure the pouch-like structure that extends into the closing structure is configured to be folded about the folding seam with the closing structure to close the first opening.

41. The method of claim 39, wherein the at least one tear line is provided to extend from or near the folding seam towards a free edge of the closing structure.

42. The method of claim 36, wherein the tear line is produced by at least one of a pre-cut, a perforation, or a weakening in the pouch-like structure.

43. The method of claim 36, wherein the intraoral protective apparatus is liquid tight.

44. An intraoral protective means for protecting an intraoral imaging medium in medical imaging, wherein the protective means is arranged to have a pouch-like structure and the protective means comprises:

a first opening through the pouch-like structure for the insertion of the imaging media into the pouch-like structure;

a closing means for closing the first opening; and

a fastening means for fastening the closing means to the pouch-like structure of the protective means;

wherein the width of the first opening is less than the width of the pouch-like structure so that upon fastening the closing means the fastening means is arranged to be located around the first opening to close it and upon opening of the protective means, the protective means is torn substantially along a tearline to form a second opening in the protective means, said second opening being arranged to allow for removal of the intraoral imaging medium from the pouch-like structure so as to minimize the spreading of pathogens, and at least one corner or possible folding corner of the protective means is rounded or arranged to be rounded when the protective means is closed.