Tissue lockable connecting structures
First Claim
1. A percutaneous access device configured for implantation into a subject to provide subcutaneous access therethrough, comprising:
- a primary body having opposing top and bottom portions, each with a respective outer surface, and at least one sidewall extending therebetween, wherein in position in a subject, said primary body bottom portion resides within the subject and said bottom portion outer surface faces into the subject; and
an outwardly extending mesh collar attached to said primary body such that said mesh collar is positioned intermediate said top and bottom portions and extends outwardly from said at least one sidewall a first distance, and wherein, in position in the subject said mesh collar is configured to engage with the skin of a subject,wherein said top portion of said primary body includes a plurality of tissue connectors which extend outwardly from the wall of the primary body, wherein in position, at least some of said tissue connectors reside above the natural level of the skin, and wherein said mesh collar is attached to said primary body beneath said plurality of tissue connectors.
1 Assignment
0 Petitions
Accused Products
Abstract
Percutaneous skin access devices include a plurality of locked connecting units mounted to the exterior surface of an implantable medical object which, in position, is configured to penetrate the skin of a subject. The locked connecting units may be mounted directly onto the desired surface of the exterior of the device or may be held on a substrate sheet, which is mounted to the exterior surface of the device. In position, the locked connecting units engage with soft tissue which can include the skin to form a bio-junction layer which includes mechanical and bio-sealing connection between the device body and the soft tissue. The configuration at the bio-junction layer secures the medical object in location in the subject even for long-term indwelling applications in a manner, which inhibits soft tissue infection.
The locked connecting units may be rigid or semi-rigid for longer-term indwelling applications, and semi-rigid and/or resilient for shorter term indwelling applications. The locked connecting units may take on the form of rings, hooks, or loops having aperture or gap width/length sizes of from about 0.2–4 mm. The rings, loops, or hooks may connect with any soft tissue including skin as well subcutaneous tissue. The rings, hooks, or loops may be released from the skin/tissue without requiring surgical cutting procedures.
The locked connecting units may be configured as a semi-rigid mesh collar arranged about the primary body providing access to the subject such that it resides in the subject and engages with the skin (epidermal/dermal layer). The mesh collar can be described as a particular type of ring or loop structure as the mesh defines the gap provided in individual loop configurations. The mesh collar may be used alone, or in combination with the loops, rings, or hooks. A skin stop collar having increased rigidity may be disposed under the mesh collar.
158 Citations
32 Claims
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1. A percutaneous access device configured for implantation into a subject to provide subcutaneous access therethrough, comprising:
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a primary body having opposing top and bottom portions, each with a respective outer surface, and at least one sidewall extending therebetween, wherein in position in a subject, said primary body bottom portion resides within the subject and said bottom portion outer surface faces into the subject; and an outwardly extending mesh collar attached to said primary body such that said mesh collar is positioned intermediate said top and bottom portions and extends outwardly from said at least one sidewall a first distance, and wherein, in position in the subject said mesh collar is configured to engage with the skin of a subject, wherein said top portion of said primary body includes a plurality of tissue connectors which extend outwardly from the wall of the primary body, wherein in position, at least some of said tissue connectors reside above the natural level of the skin, and wherein said mesh collar is attached to said primary body beneath said plurality of tissue connectors.
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2. A percutaneous access device configured for implantation into a subject to provide subcutaneous access therethrough, comprising:
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a primary body having opposing top and bottom portions, each with a respective outer surface, and at least one sidewall extending therebetween, wherein in position in a subject, said primary body bottom portion resides within the subject and said bottom portion outer surface faces into the subject; an outwardly extending mesh collar attached to said primary body such that said mesh collar is positioned intermediate said top and bottom portions and extends outwardly from said at least one sidewall a first distance, and wherein, in position in the subject, said mesh collar is configured to engage with the skin of a subject; and a plurality of tissue connectors positioned about the perimeter of said primary body below said mesh collar, wherein said tissue connectors extend outwardly from the primary body a distance that is less than that of the collar, and wherein the tissue connectors are sufficiently rigid to be able to substantially maintain their shape and outwardly extending configuration external of a subject. - View Dependent Claims (3, 4, 5, 6)
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7. A percutaneous device configured for implantation into a subject to provide subcutaneous access therethrough, comprising:
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a primary body having opposing top and bottom portions, each with a respective outer surface, and at least one sidewall extending therebetween and a perimeter associated therewith, wherein in position in a subject, said primary body bottom portion resides within the subject and said bottom portion outer surface faces into the subject; a mesh collar attached to and extending outwardly from said primary body at a position that is closer to said top portion than said bottom portion, said mesh collar having structural rigidity sufficient to retain a predetermined shape; and a plurality of tissue connectors attached to said primary body and extending outwardly therefrom about a portion of the perimeter thereof, said tissue connectors extending outwardly a smaller distance from the primary body than the mesh collar, wherein, in position, a plurality of the tissue connectors reside below the mesh collar and are adapted to engage with subcutaneous tissue to provide structural attachment for the device, and a plurality of the tissue connectors reside above the mesh collar and are adapted to engage with the skin of the subject to define a bioconnection about a sealing junction defined by the region where the skin meets the perimeter of the primary body. - View Dependent Claims (8, 9, 10, 11)
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12. A percutaneous device configured for implantation into a subject to provide subcutaneous access therethrough, comprising:
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a primary body having opposing top and bottom portions, each with a respective outer surface, and at least one sidewall extending therebetween and a perimeter associated therewith, wherein in position in a subject, said primary body bottom portion resides within the subject and said bottom portion outer surface faces into the subject; and a plurality of tissue connectors attached to said primary body and extending outwardly therefrom about a portion of the perimeter thereof, such that, in position, a plurality of tissue connectors are adapted to engage subcutaneous tissue to provide structural attachment for the device, and a plurality of tissue connectors are adapted to engage the skin of the subject to define a bioconnection about a sealing junction defined by the region where the skin meets the perimeter of the primary body, wherein said tissue connectors are rings with apertures, said apertures having a diameter of about 0.2–
4 mm;wherein, in position, a plurality of said tissue connectors reside above the external surface of the skin.
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13. A method of providing a structurally supported bioconnection for a device, comprising the steps of:
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implanting a device having a perimeter with a plurality of outwardly extending tissue connectors mounted thereon through an opening in biological subject, each tissue connector defining an aperture sized in width at about 0.2–
4 mm, wherein the tissue connectors have sufficient rigidity to be able to retain their shape and outwardly extending configuration in position in situ to thereby lock with local tissue, and wherein the tissue connectors are arranged on the device in a density of between about 10–
200 per cm2; andgrowing proximately located tissue into proximately located tissue connectors such that the tissue connectors engage with the tissue to define a bioconnection which engages the device with localized tissue in a desired location in the subject. - View Dependent Claims (14, 15, 16)
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17. A method of locking a foreign object into a biological subject, the foreign object comprising a plurality of outwardly extending tissue connectors connected to the outer perimeter thereof into a biological subject, each of the tissue connectors having an aperture formed therein, the method comprising the step of:
implanting the object into a biological subject such that localized tissue grows into the apertures in the tissue connectors to provide structural support for the object in the biological subject, wherein the tissue connectors are sufficiently rigid so as to be able to substantially retain their shape and outwardly extending configuration in situ, wherein the apertures of the tissue connectors have an opening gap of between about 0.2 mm–
5 mm, and wherein the object is adapted to reside in the biological subject for at least 6–
12 months.- View Dependent Claims (18, 19)
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20. A method of locking a foreign object into a biological subject, the foreign object comprising a plurality of outwardly extending tissue connectors connected to the outer perimeter thereof into a biological subject, each of the tissue connectors having an aperture formed therein, the method comprising the step of:
implanting the object into a biological subject such that localized tissue grows into the apertures in the tissue connectors to provide structural support for the object in the biological subject, wherein the apertures have an opening gap of between about 0.2 mm–
5 mm, wherein the object is adapted to reside in the biological subject for at least 6–
12 months, and wherein the tissue connectors are arranged on a portion of the perimeter of the object in a quantity of between about 50–
100 per cm2.- View Dependent Claims (21, 22)
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23. A method of locking a foreign object into a biological subject, the foreign object comprising a plurality of outwardly extending tissue connectors connected to the outer perimeter thereof into a biological subject, each of the tissue connectors having an aperture formed therein, the method comprising the step of:
implanting the object into a biological subject such that localized tissue grows into the apertures in the tissue connectors to provide structural support for the object in the biological subject, wherein the apertures have an opening gap of between about 0.2 mm–
5 mm, wherein the object is adapted to reside in the biological subject for at least 6–
12 months, and wherein the object is adapted to deliver insulin subcutaneously.
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24. A method of locking a foreign object into a biological subject, the foreign object comprising a plurality of outwardly extending tissue connectors connected to the outer perimeter thereof into a biological subject, each of the tissue connectors having an aperture formed therein, the method comprising the step of:
implanting the object into a biological subject such that localized tissue grows into the apertures in the tissue connectors to provide structural support for the object in the biological subject, wherein the apertures have an opening gap of between about 0.2 mm–
5 mm, wherein the object is adapted to reside in the biological subject for at least 6–
12 months, and wherein said object provides connections for peritoneal dialysis.
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25. A method of locking a foreign object into a biological subject, the foreign object comprising a plurality of outwardly extending tissue connectors connected to the outer perimeter thereof into a biological subject, each of the tissue connectors having an aperture formed therein, the method comprising the step of:
implanting the object into a biological subject such that localized tissue grows into the apertures in the tissue connectors to provide structural support for the object in the biological subject, wherein the apertures have an opening gap of between about 0.2 mm–
5 mm, wherein the object is adapted to reside in the biological subject for at least 6–
12 months, and wherein the tissue connectors are substantially rigid.
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26. A method of locking a foreign object into a biological subject, the foreign object comprising a plurality of outwardly extending tissue connectors connected to the outer perimeter thereof into a biological subject, each of the tissue connectors having an aperture formed therein, the method comprising the step of:
implanting the object into a biological subject such that localized tissue grows into the apertures in the tissue connectors to provide structural support for the object in the biological subject, wherein the apertures have an opening gap sized between about 0.2 mm–
5 mm, wherein the object is adapted to reside in the biological subject for at least 6–
12 months, and wherein the tissue connectors have sufficient rigidity to substantially retain their shape in situ.
- 27. A percutaneous access device configured for implantation into a subject to provide subcutaneous access therethrough, the device being characterized by a plurality of tissue lockable connecting structures having sufficient rigidity so as to be able to maintain a predetermined shape and orientation when external of the subject and when positioned in situ, at least some of the locked structures being located proximate to at least one selected external surface of the device to provide a skin level interface, the tissue lockable connecting structures defining respective air gap spaces sized from between about 0.2–
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31. A percutaneous access device configured for implantation into a subject to provide subcutaneous access therethrough, the device being characterized by a plurality of locked connecting structures located proximate at least one selected external surface thereof, the locked connecting structures defining an air gap space sized from between about 0.2–
- 4 mm,
wherein the device comprises a primary body with sidewalls defining an access passage therein, and wherein the locked connecting structures are a plurality of loops defining the gap spaces and extending outwardly from the primary body of the device.
- 4 mm,
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32. A percutaneous access device configured for implantation into a subject to provide subcutaneous access therethrough, the device being characterized by
a plurality of locked connecting structures located proximate to at least one selected external surface thereof, the locked connecting structures defining an air gap space sized from between about 0.2– - 4 mm,
wherein the device comprises a primary body with sidewalk defining an access passage therein, and wherein the locked connecting structures are a plurality of hooks defining the gap spaces and extending outwardly from the primary body of the device.
- 4 mm,
Specification