• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to an orthotic insert for alleviating Sever´s Disease. The orthotic insert comprises a shell plate and a wedge. The shell plate has a length corresponding to the length of the user´s foot. The wedge is attached to the top surface of the shell plate, and extends from a back end position on the shell plate corresponding to a position in front of the user´s medial and lateral process of tuberosity, and towards a front end position on the shell plate corresponding to a position of the user´s metatarsus.
    公开号:DK201500277A1
    申请号:DKP201500277
    申请日:2015-05-08
    公开日:2016-11-28
    发明作者:Per Øllgaard
    申请人:Per Øllgaard;
    IPC主号:
    专利说明:

    Orthotic insert for alleviating Sever's Disease
    Technical field of the invention
    The present invention relates to Sever's Disease. More specifically, the invention relates to an orthotic insert for alleviating Sever's Disease.
    Background of the invention
    Active children commonly experience the ache and debilitating effects of posterior heel pain as a result of Sever's Disease (calcaneal apophysitis). This disease in particular affects young athletes. Sever's Disease is a growth plate injury in which the Achille's Tendon puts excessive pressure on the posterior calcaneal apophysis (growth plate), causing inflammation and irritation of the apophysis. This can create great pain for young athletes.
    The Foot, Volume 17, Issue 4, December 2007, Pages 178-183 states that taping the arch can be a very effective method in relieving symptoms in individuals with Sever's Disease. However, taping requires time and expertise that might not be available for young athletes at their athletic venue.
    Summary of the invention
    Hence, one object of the present invention is to provide a method for relieving symptoms in individuals with Sever's Disease.
    One aspect of the invention relates to an orthotic insert (for alleviating Sever's Disease) comprising: - a shell plate, which has a length corresponding to the length of the user's foot; and - a wedge attached to the top surface of the shell plate, and extending from a back end position on the shell plate corresponding to a position in front of the user's medial and lateral process of tuberosity, but in close proximity thereto, and towards a front end position on the shell plate corresponding to a position of the user's metatarsus; wherein the wedge has a front face portion and a rear face portion; wherein the rear face portion inclines upward from the shell plate, and wherein the front face portion declines downward from the front part of the rear face portion towards the shell plate; wherein the front face portion of the wedge is positioned such that a part of the user's foot corresponding to the calcaneal tubercle is resting thereon; and - optionally, an insole covering a part of the top surface of the shell plate, the front face portion, and the rear face portion. A second aspect of the invention relates to an orthotic insert comprising: - a shell plate, which has a length corresponding to the length of the user's foot; and - a wedge attached to the top surface of the shell plate, and extending from a back end position on the shell plate corresponding to a position in front of the user's medial and lateral process of tuberosity, and towards a front end position on the shell plate corresponding to a position of the user's metatarsus; wherein the wedge has a front face portion and a rear face portion; wherein the rear face portion inclines upward from the shell plate, and wherein the front face portion declines downward from the front part of the rear face portion towards the shell plate; wherein the front face portion of the wedge is positioned such that a part of the user's foot corresponding to the calcaneal tubercle is resting thereon; and - optionally, an insole covering a part of the top surface of the shell plate, the front face portion, and the rear face portion. A third aspect of the invention relates to an orthotic insert comprising: - a shell plate, which has a length corresponding to the length of the user's foot; and - a wedge attached to the top surface of the shell plate, and extending from a back end position on the shell plate corresponding to a position in front of the user's medial and lateral process of tuberosity, and towards the front end (distal end) of the shell plate; wherein the wedge has a front face portion and a rear face portion; wherein the rear face portion inclines upward from the shell plate, and wherein the front face portion declines downward from the front part of the rear face portion towards the shell plate; wherein the front face portion of the wedge is positioned such that a part of the user's foot corresponding to the calcaneal tubercle is resting thereon; and - optionally, an insole covering a part of the top surface of the shell plate, the front face portion, and the rear face portion. A fourth aspect of the invention relates to an orthotic insert comprising: - a shell plate, which has a length corresponding to the length of the user's foot; and - a wedge attached to the top surface of the shell plate, and extending from a back end position on the shell plate corresponding to a position in front of the user's medial and lateral process of tuberosity, but in close proximity thereto, and towards the front end (distal end) of the shell plate; wherein the wedge has a front face portion and a rear face portion; wherein the rear face portion inclines upward from the shell plate, and wherein the front face portion declines downward from the front part of the rear face portion towards the shell plate; wherein the front face portion of the wedge is positioned such that a part of the user's foot corresponding to the calcaneal tubercle is resting thereon; and - optionally, an insole covering a part of the top surface of the shell plate, the front face portion, and the rear face portion.
    Orthotic inserts (into a shoe) are used to provide additional support for the user's foot, particularly in circumstances where the wearer requires a degree of bio-mechanical support and control.
    The primary function of the orthotic insert according to the present invention is to relieve the pain in a person's heel as his or her foot strikes the ground during walking or running, and to provide sufficient rest to the apophysis in order to reduce or remove the inflammation therein.
    This is done by raising the distal part of the calcaneus with a wedge. Thereby, the proximal part of the calcaneus, where the apophysis is present, is raised to such an extent that the proximal part of the user's heel only slightly touches the orthotic insert as his or her foot strikes the ground during walking or running. Hence, the impact loads imparted to the heel are in this way mainly transmitted to the distal part of the calcaneus.
    Preferably, the shell plate is formed to the contour of the sole portion of the user's foot. The material from which the shell plate is fabricated may be one of any number of thermoplastics or thermosetting plastics. Polyethylene, polypropylenes, acrylics, polycarbonates, ABS plastics, PVC plastics, polyesters, epoxy resins, and various laminated plastics may be used. A preferred composition for the shell plate is a thermoplastic co-polymer of polypropylene with about 15% polyethylene added. A wedge is attached to the top surface of the shell plate. It extends from a position on the shell plate corresponding to a position in front of the user's medial and lateral process of tuberosity, but in close proximity thereto, and towards a position on the shell plate corresponding to a position of the user's metatarsus. It is crucial that the wedge will not interact with the user's medial and lateral process of tuberosity, since the impact loads imparted to the heel during exercise will otherwise mainly be transmitted to the proximal part of the calcaneus, where the apophysis is present. Preferably, the wedge is formed to the contour of the sole portion of the user's foot.
    In one or more embodiments, the wedge extends from a position on the shell plate corresponding to a position within the range of 1-30 mm in front of the user's medial and/or lateral process of tuberosity, and towards a position on the shell plate corresponding to a position of the user's metatarsus; such as within the range of 2-28 mm, e.g. within the range of 3-26 mm, such as within the range of 4-24 mm, e.g. within the range of 5-22 mm, such as within the range of 6-20 mm, e.g. within the range of 7-18 mm, such as within the range of 8-16 mm, e.g. within the range of 10-15 mm in front of the user's medial and lateral process of tuberosity, and towards a position on the shell plate corresponding to a position of the user's metatarsus.
    In one or more embodiments, the wedge extends from a position on the shell plate corresponding to a position within the range of 1-30 mm in front of the user's medial and/or lateral process of tuberosity, and towards the front end (distal end) of the shell plate; such as within the range of 2-28 mm, e.g. within the range of 3-26 mm, such as within the range of 4-24 mm, e.g. within the range of 5-22 mm, such as within the range of 6-20 mm, e.g. within the range of 7-18 mm, such as within the range of 8-16 mm, e.g. within the range of 10-15 mm in front of the user's medial and lateral process of tuberosity, and towards the front end (distal end) of the shell plate.
    In one or more embodiments, the wedge extends from a position on the shell plate of 35-55 mm from the rear end of the shell plate, and towards a position on the shell plate corresponding to a position of the user's metatarsus, such as within the range of 37-53 mm, e.g. within the range of 39-51 mm, such as within the range of 41-49 mm, e.g. within the range of 43-47 mm, preferably within the range of 40-46 mm from the rear end of the shell plate, and towards a position on the shell plate corresponding to a position of the user's metatarsus.
    In one or more embodiments, the wedge extends from a position on the shell plate of 35-55 mm from the rear end of the shell plate, and towards the front end (distal end) of the shell plate, such as within the range of 37-53 mm, e.g. within the range of 39-51 mm, such as within the range of 41-49 mm, e.g. within the range of 43-47 mm, preferably within the range of 40-46 mm from the rear end of the shell plate, and towards the front end (distal end) of the shell plate.
    The exact front end position of the wedge on the shell plate is of minor relevance, as long as the minimum length is enough to support the portion of the user's foot corresponding to the distal part of the calcaneus.
    In one or more embodiments, the length of the wedge is within the range of 5-25 cm, such as within the range of 7-23 cm, e.g. within the range of 9-21 cm, such as within the range of 11-19 cm, e.g. within the range of 13-17 cm, preferably within the range of 5-15 cm.
    The wedge has a front face portion and a rear face portion, facing the user's foot. The rear face portion inclines upward from the shell plate, and the front face portion declines downward from the front part of the rear face portion towards the shell plate. In one or more embodiments, a part of the front face portion bordering to the rear face portion is horizontal.
    The front face portion of the wedge is positioned such that a part of the user's foot corresponding to the calcaneal tubercle is resting thereon. Hence, the wedge material below the front face portion will direct/transmit the impact loads to the heel during exercise to the distal part of the calcaneus.
    In one or more embodiments, the front face portion of the wedge comprises a plurality of subportions with different angles of declination. In one or more embodiments, a sub-portion of the front face portion positioned closer to the rear face portion than a neighbouring sub-portion has a lower angle of declination than said neighbouring sub-portion. Sub-portions with different angles of declination are present for better alignment with the contour of the sole portion of the user's foot.
    In one or more embodiments, the inclination angle of the rear face portion is within the range of 35-75 degrees, such as within the range of 40-70 degrees, e.g. within the range of 45-65 degrees, such as within the range of 50-60 degrees, preferably within the range of 45-60 degrees.
    In one or more embodiments, the rear face portion inclines in a convex curve upward from the shell plate. The convex curve is present for better alignment with the contour of the sole portion of the user's foot.
    In order to raise the raise the distal part of the calcaneus to such an extent that the proximal part of the user's heel only slightly touches the orthotic insert as his or her foot strikes the ground during walking or running, the minimum thickness of the part of the front face portion bordering to the rear face portion should be of a reasonable thickness.
    In one or more embodiments, the thickness of the part of the front face portion bordering to the rear face portion is within the range of 5-40 mm, e.g. within the range of 7-16 mm, such as within the range of 12-38 mm, e.g. within the range of 14-36 mm, such as within the range of 16-34 mm, e.g. within the range of 18-32 mm, such as within the range of 20-30 mm, e.g. within the range of 22-28 mm, preferably within the range of 12-16 mm.
    The inventor has found that the debilitating effects of posterior heel pain as a result of Sever's Disease heel may be alleviated or even removed when the wedge is made of a compressible material having a Shore A-scale hardness measured according to ASTM D2240-97 within the range of 14-35. This range is surprisingly narrow. If the compressible material has a Shore A-scale hardness measured according to ASTM D2240-97 below 14, the inventor has found that the user will still experience a pain localized to the posterior part of the heel that prevent the user from running. Without being bound by any particular theory, it is thought that the posterior part of the user's heel is forced too deep into the orthotic insert, resulting in the anterior part of the user's heel absorbing much more of the impact loads imparted to the heel when the user is running.
    If the compressible material has a Shore A-scale hardness measured according to ASTM D2240-97 above 35, the user will also experience a pain localized to the posterior heel that prevent the user from running. This is indeed surprising in the hardness area around 36-60 (Shore A-scale), since the material is still relatively soft.
    In one or more embodiments, the wedge is made of a compressible material having a Shore A-scale hardness measured according to ASTM D2240-97 within the range of 14-35, such as within the range of 16-33, e.g. within the range of 18-31, such as within the range of 20-29, e.g. within the range of 22-27, such as within the range of 24-26, preferably within the range of 22-30.
    Examples of material(s) for the wedge can comprise thermoplastic elastomers, polyester, polypropylene, polyethylene, polyurethane, polyurea, cellular urethane, polystyrene, latex, nylon, carbon or glass fibres with thermosetting or thermoplastic resins, plastizote, ethylene vinyl acetate (EVA) foams, expanded vinyl foam, flocked vinyl film, coagulated polyurethane, latex foam on scrim, supported polyurethane foam, polyurethane film, styrene-butadiene-rubber, acrylonitrile-butadiene, acrylonitrile terpolymers and copolymers, styrene-butadienestyrene, acrylonitrile-butadiene-styrene, polyvinyl chloride (PVC), ethylenepropylene rubber, silicone rubber (SiR), silicone elastomer, acrylic rubber (ACM), butadiene rubber (BR), butyl rubber (MR), chlorosulfonated polyethylene (CSM)/hypalonthylene propylene diene monomer (EPM, EPDM), fluoroelastomers (FKM), isoprene rubber (IR), nitrile rubber (NBR), perfluoroelastomer (FFKM), polychloroprene (CR), polysulfide rubber (PSR), styrene butadiene rubber (SBR), or any combination thereof.
    The wedge may comprise a foam, a rubber, or any combination thereof. The foam can comprise an open cell foam, a closed cell foam, or both.
    In one or more embodiments, the wedge is made of an open cell and/or closed cell foam material. Preferably the wedge is made of a closed cell foam material, since moist may enter the open cell foam material, and thereby change its hardness (Shore A).
    In one or more embodiments, wedge is made of a monolithic material.
    It should be noted that embodiments and features described in the context of one of the aspects of the present invention also apply to the other aspects of the invention.
    Brief description of the figures
    Figure 1 shows an orthotic insert in accordance with various embodiments of the invention; and
    Figure 2 shows the calcaneus of a user's right foot (medial view) on top of an orthotic insert in accordance with various embodiments of the invention.
    Detailed description of the invention
    Referring to Figure 1, the general scheme of the invention is shown. Figure 1 shows an orthotic insert 100. The orthotic insert 100 comprises a shell plate 200 and a wedge 300.
    The shell plate 200 has a length corresponding to the length of the user's foot.
    The wedge 300 is attached to the top surface 210 of the shell plate 200. It extends from a back end position 212 on the shell plate 200 corresponding to a position in front of the user's medial and lateral process of tuberosity, and towards a front end position 214 on the shell plate 200 corresponding to a position of the user's metatarsus. The position of the wedge in relation to the calcaneus is shown in Figure 2. It is crucial that the wedge will not interact with the user's medial and lateral process of tuberosity, since the impact loads imparted to the heel during exercise will otherwise mainly be transmitted to the proximal part of the calcaneus, where the apophysis is present.
    The exact back end position 212 on the shell plate 200 varies depending on the size of the user's foot. The children suffering from Sever's disease are normally of the age of 8-14 years, and with EU foot sizes of 32-43. For this group of patients, the back end position 212 of the wedge 300 is situated 35-55 mm from the rear end of the shell plate 200.
    The wedge 300 has a front face portion 310 and a rear face portion 320. The rear face portion 320 inclines upward from the shell plate 200; and the front face portion 320 declines downward from the front part 322 of the rear face portion 320 towards the shell plate 200.
    The front face portion 320 of the wedge 300 is positioned such that a part of the user's foot corresponding to the calcaneal tubercle 410 is resting thereon. In Figure 1, the front face portion 310 of the wedge comprises two sub-portions (311, 312) with different angles of declination.
    Figure 2 shows the calcaneus 400 of a user's right foot (medial view) on top of an orthotic insert 100 in accordance with various embodiments of the invention. The wedge 300 is attached to the top surface 210 of the shell plate 200. It extends from a back end position 212 on the shell plate 200 corresponding to a position in front of the user's medial 420 and lateral (not shown) process of tuberosity, and towards a front end position 214 on the shell plate 200 corresponding to a position of the user's metatarsus. The exact front end position 214 of the wedge 300 on the shell plate 200 is of minor relevance, as long as the minimum length of the wedge 300 is enough to support the portion of the user's foot corresponding to the distal part 440 of the calcaneus 400.
    References 100 Orthotic insert 200 Shell plate 210 Top surface 212 Back end position 214 Front end position 300 Wedge 310 Front face portion 311 Sub-portion of front face portion 312 Sub-portion front face portion 320 Rear face portion 322 Front part of rear face portion 400 Calcaneus 410 Calcaneal tubercle 420 Medial process of tuberosity 430 Proximal part of Calcaneus 440 Distal part of Calcaneus
    权利要求:
    Claims (10)
    [1] 1. An orthotic insert (100) comprising: - a shell plate (200), which has a length corresponding to the length of the user's foot; and - a wedge (300) attached to the top surface (210) of the shell plate (200), and extending from a back end position (212) on the shell plate (200) corresponding to a position in front of the user's medial (420) and lateral process of tuberosity, but in close proximity thereto, and towards a front end position (214) on the shell plate (200) corresponding to a position of the user's metatarsus; wherein the wedge (300) has a front face portion (310) and a rear face portion (320); wherein the rear face portion (320) inclines upward from the shell plate (200), and wherein the front face portion (310) declines downward from the front part (322) of the rear face portion (320) towards the shell plate (200); wherein the front face portion (310) of the wedge (300) is positioned such that a part of the user's foot corresponding to the calcaneal tubercle (410) is resting thereon.
    [2] 2. An orthotic insert (100) according to claim 1, wherein the inclination angle of the rear face portion (320) is within 45-60 degrees.
    [3] 3. An orthotic insert (100) according to any one of the claims 1-2, wherein the rear face portion (320) inclines in a convex curve upward from the shell plate (200).
    [4] 4. An orthotic insert (100) according to any one of the claims 1-3, wherein the thickness of the part of the front face portion bordering to the rear face portion (320) is within the range of 6-30 mm.
    [5] 5. An orthotic insert (100) according to any one of the claims 1-4, wherein the wedge (300) extends from a position on the shell plate of 40-46 mm from the rear end of the shell plate, and towards a position on the shell plate corresponding to a position of the user's metatarsus.
    [6] 6. An orthotic insert (100) according to any one of the claims 1-5, wherein the wedge (300) is made of a compressible material having a Shore A-scale hardness measured according to ASTM D2240-97 within the range of 20-35.
    [7] 7. An orthotic insert (100) according to any one of the claims 1-6, wherein the wedge (300) is made of a closed cell foam material (væske I celler).
    [8] 8. An orthotic insert (100) according to any one of the claims 1-7, wherein the wedge (300) is made of a monolithic material.
    [9] 9. An orthotic insert (100) according to any one of the claims 1-8, wherein the front face portion (310) of the wedge (300) comprises a plurality of sub-portions (311, 312) with different angles of declination.
    [10] 10. An orthotic insert (100) according to claim 9, wherein a sub-portion (312) of the front face portion (310) positioned closer to the rear face portion (320) than a neighbouring sub-portion (311) has a lower angle of declination than said neighbouring sub-portion (311).
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    同族专利:
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    AT387323B|1981-12-01|1989-01-10|Konsumex Kuelkereskedelmi Vall|Orthopedic shoe insert and / or flat foot insert|
    CA2070274C|1992-06-02|1997-02-11|Robert Garfield Burke|Shoe insole for foot rehabilitation|
    US5388351A|1993-03-04|1995-02-14|Mitchell; Jane|Cuboid-navicula navicular support|
    US20110072685A1|2009-09-25|2011-03-31|Bdg, Incorporated|Integral insole with multiple areas of different resiliency and method of making the insole|
    US20130340281A1|2012-06-22|2013-12-26|Laina Michelle Gossman|Flexible midfoot orthotic shoe insert|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DKPA201500277A|DK178717B1|2015-05-08|2015-05-08|Orthotic insert for alleviating Sever´s Disease|DKPA201500277A| DK178717B1|2015-05-08|2015-05-08|Orthotic insert for alleviating Sever´s Disease|
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