REMOVABLE ANCHORED LUNG VOLUME REDUCTION DEVICES

Abstract

A one-way valve device for blocking airflow in a lung passageway. The device includes a frame structure and a frameless membrane. The frame structure includes a hub and anchors. The frameless membrane attaches to the hub section. The anchors and the frameless membrane are at first radial positions in a closed configuration and at second radial positions in an open configuration. The first radial positions is closer to a central longitudinal axis of the device than the second radial positions. The frameless membrane includes a plurality of pedals coupled to the base section. In the open configuration, the pedals curve away from the central longitudinal axis of the one-way valve device. Proximal sections of the pedals overlap proximal sections of adjacent pedals when the one-way valve device is in the open or closed configurations.

Claims

1. A one-way valve device comprising: a frame structure comprising: a hub section at a proximal end; and a plurality of anchors at a distal end; and a frameless membrane component comprising a distal base section configured to be attached to at least a portion of the hub section, wherein the one-way valve device is configured to transition between a closed configuration and an open configuration, wherein the anchors and the frameless membrane component are at first radial positions in the closed configuration and at second radial positions in the open configuration, the first radial positions being closer to a central longitudinal axis of the one-way valve device than the second radial positions.

2. The device of claim 1, wherein the frameless membrane component comprises a flexible, injection molded material.

3. The device of claim 2, wherein the injection molded material comprises a plurality of pedals, the pedals comprising: a base section that extends from the distal base section; and a plurality of pedals coupled to the base section.

4. The device of claim 3, wherein when the one-way valve device is in the open configuration, the pedals curve away from the central longitudinal axis of the one-way valve device from a distal end to a proximal end.

5. The device of claim 4, wherein a proximal section of at least one of the pedals comprises at least one of a material or an amount of material configured to be more flexible than other sections of the at least one pedal.

6. The device of claim 4, wherein proximal sections of the pedals overlap proximal sections of adjacent pedals when the one-way valve device is in the open or closed configurations.

7. The device of claim 4, further comprising a second frameless membrane component comprising: a distal base section; and a plurality of pedals comprising a distal section connected to the distal base section of the second frameless membrane component, wherein a gap exists between adjacent pedals of the first frameless membrane when in the open configuration, wherein a gap exists between adjacent pedals of the second frameless membrane when in the open configuration, wherein the pedals of the second frameless membrane component overlap at least two the pedals of the first frameless membrane component.

8. The device of claim 7, wherein the distal base section of the second frameless membrane component is attached to a more distal portion of the hub section than the distal base section of the first frameless membrane component.

9. The device of claim 1, further comprising a central rod having a distal end attached to an inner surface of the hub section.

10. A one-way valve device comprising: a frame structure comprising: a hub section at a proximal end; and a plurality of anchors at a distal end; a central rod comprising: a longitudinal axis; a proximal end; and a distal end, wherein the central rod being configured to receive the hub section at the proximal end; and a frameless membrane component comprising a distal base section configured to be attached to the distal end of the central rod, wherein the one-way valve device is configured to transition between a closed configuration and an open configuration, wherein the anchors and the frameless membrane component are at first radial positions in the closed configuration and at second radial positions in the open configuration distance, the first radial positions being closer to the longitudinal axis of the central rod than the second radial positions.

11. The device of claim 10, wherein the frameless membrane component comprises a flexible, injection molded material.

12. The device of claim 11, wherein the injection molded material comprises a plurality of pedals, the pedals comprising: a base section that extends from the distal base section; and a plurality of pedals coupled to the base section.

13. The device of claim 12, wherein when the one-way valve device is in the open configuration, the pedals curve away from the central longitudinal axis of the one-way valve device from a distal end to a proximal end.

14. The device of claim 13, wherein a proximal section of at least one of the pedals comprises at least one of a material or an amount of material configured to be more flexible than other sections of the at least one pedal.

15. The device of claim 13, wherein proximal sections of the pedals overlap proximal sections of adjacent pedals when the one-way valve device is in the open or closed configurations.

16. The device of claim 13, further comprising a second frameless membrane component comprising: a distal base section; and a plurality of pedals comprising a distal section connected to the distal base section of the second frameless membrane component, wherein a gap exists between adjacent pedals of the first frameless membrane when in the open configuration, wherein a gap exists between adjacent pedals of the second frameless membrane when in the open configuration, wherein the pedals of the second frameless membrane component overlap at least two the pedals of the first frameless membrane component.

17. The device of claim 16, wherein the distal base section of the second frameless membrane component is attached to a more distal portion of the distal end of the central rod than the distal the base section of the first frameless membrane component.

Description

DRAWINGS

[0017] The drawings described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention. In the drawings:

[0018] FIG. 1 shows a perspective view of a lung valve formed in accordance with an embodiment of the present invention;

[0019] FIG. 2 shows the lung valve of FIG. 1 in an expanded configuration within an airway;

[0020] FIG. 3 is a perspective view of an alternate embodiment of a lung valve formed in accordance with an embodiment of the present invention;

[0021] FIG. 4 is a perspective view of an alternate embodiment of a lung valve formed in accordance with an embodiment of the present invention; and

[0022] FIG. 5 is side view of the lung valve of FIG. 1 in a closed configuration.

DETAILED DESCRIPTION

[0023] As shown in FIG. 1, an exemplary lung valve 10 includes a frame structure 12, a sealing component 14 and a central rod 24. The frame structure 12 includes a hub 28 and one or more anchors 26. The sealing component 14 includes an expandable membrane section 30.

[0024] In one embodiment, the hub 28 and the anchors 26 are formed of a monolithic material, such as an etched hypotube. The anchors 26 extend from a distal end of the hub 28 and may include penetration limiters at the free ends of the anchors 26. The anchors 26 are connected at their proximal ends to a distal end of the hub 28.

[0025] The central rod 24 may be connected to the hub 28 by a weld joint, an adhesive and/or a pressure fitted joint. The central rod 24 extends proximally from the hub 28.

[0026] The membrane section 30 includes a base section 34 and a plurality of flexible membrane pedals 32 that extend from the base section 34. Each of the flexible membrane pedals 32 includes a proximal end having a first width value and a proximal end having a second width value. The first width value is greater than the second width value. The proximal ends of the pedals 32 connect the base section 34. The first width value of the pedals may not all be equal. The second width values of the pedals may not all be equal.

[0027] The pedals 32, when in an expanded configuration, bend away from the central rod 24 in the proximal direction. A proximal end of the central rod 24 is more proximal than the proximal end of the pedals 32 whether in an expanded or compressed configuration. The central rod 24 is used by other tools to position, reposition or remove the lung valve 10.

[0028] In one embodiment, at least a portion of each of the pedals 32 overlaps and makes contact with at least a portion of an adjacent petal 32 when the pedals 32 are in an expanded configuration. The proximal ends of the pedals 32 may have curved corners so that when the pedals 32 are an expanded configuration a small gap exists between the corners of adjacent pedals 32. In one embodiment, a portion of the proximal ends of the pedals 32 are more flexible than the rest of the pedals 32. The more flexible portion may be flexible enough to conform to a lumen wall when placed within a body lumen.

[0029] In one embodiment, the membrane section 30 is formed using an injection molding process. The material of the membrane section 30 and the shape of a die mold used to create the membrane section 30 causes the pedals 32 to be biased in an open or expanded configuration. A diameter between the proximal edges of the pedals 32 is greater than a diameter of the base section 34 when in the expanded configuration. The base section 34 is sized to fit over the hub 28. The base section 34 is pressure fitted over the hub 28 and/or attached to the exterior surface of the hub 28 by an adhesive and/or some latching mechanism. The membrane section 30 is formed of a flexible and strong shape memory material, which provides a seal of airflow in one direction and allows air to pass in the other direction. An example material is silicone, such as liquid silicone rubber (LSR) and high consistency silicone elastomers. Other petal shapes may be used provided they provide similar capabilities/qualities.

[0030] FIG. 2 illustrates a perspective view of the lung valve 10 shown within a cross-sectional view of airway 50. In this image, up is more distal within the airway 50 of the associated lung. When the lung valve 10 is within the airway 50 in the expanded configuration after release from a delivery catheter (not shown), the anchors 26 project radially to penetrate the walls of the lumen 50 distal from the location of the flexible membrane pedals 32. The pedals 32 cause the blockage of air due to inhalation (i.e., up (distal) as shown in FIG. 2). Inhalation air pressure pushes on inner surfaces of the pedals 32 creating a distal or expansion force on the pedals 32. The anchors 26 keep the lung valve 10 in place by combating the experienced forces. Also, any expansion of the pedals 32 as a result of the created distal force would cause the pedals 32 to expand more depending upon the pedals stiffness, thus creating more of a seal with the wall of the lumen 50.

[0031] When the lung valve 10 experiences air pressure due to exhalation, the escaping air that is moving down (proximally) would pass by the anchors 26 and make contact with outer surfaces of the pedals 32. The exhaled air pressure may cause the pedals 32 to contract or compress depending upon petal stiffness, so that air may pass proximally by the pedals 32. Contraction may also allow for mucociliary transport out of the airway in the proximal direction. The pedals 32 may be strengthened in order to limit the amount contraction or expansion during the breathing cycles.

[0032] In one embodiment, FIG. 3, illustrates an exemplary lung valve 100 that includes a proximal set of pedals 106 and a distal set of pedals 108. Each of the set of pedals 106, 108 are created through separate injection molding processes, but could use the same die. The proximal set of pedals 106 include a base section 110 that attaches to and/or is pressure fitted around a proximal portion of the hub 28. The distal set of pedals 108 include a base section 112 that attaches to and/or is pressure fitted around a distal portion of the hub 28. The base section 112 of the distal set of pedals 108 may be attached to and/or pressure fitted around the base section 110 of the proximal set of pedals 106.

[0033] In one embodiment, the pedals 106, 108 are of equal length, however, when positioned on the hub 28, as described above, the proximal ends of the pedals 106 will be more proximal than the proximal ends of the pedals 108. In one embodiment, the pedals 106, 108 are not of equal length, but when the pedals 106, 108 are mounted to the hub 28, as shown in FIG. 3 and described above, the proximal ends of the pedals 106, 108 will be collocated longitudinally.

[0034] The proximal set of pedals 106 include 4 equally spaced pedals and the distal set of pedals 108 also includes 4 equally spaced pedals. When the lung valve 100 is in the expanded configuration, the proximal ends of the pedals of the proximal set of pedals 106 do not overlap with adjacent pedals of the proximal set of pedals 106. Also, when the lung valve 100 is in the expanded configuration, the proximal ends of the pedals of the distal set of pedals 108 do not overlap with adjacent pedals of the proximal set of pedals 108. The pedals of the proximal set of pedals 106 are offset by a predefined angular value from the pedals of the distal set of pedals 108. The predefined angular values may be within any of a number ranges (e.g., 75-105), such that the pedals of the distal set of pedals 108 cover at least gaps created between adjacent pedals of the proximal set of pedals 106. Any number of pedals may be used provided that they provide the proper seal and can be compressed for delivery.

[0035] In one embodiment, FIG. 4 illustrates a lung valve 120 that includes a set of anchors 126 attached to a hub 124 that is proximal from the anchors 126. The hub 124 is attached to or slidably received at or near a proximal end of a central hub 128. A distal end of the central hub 128 receives a base 132 of a set of pedals 130. In a closed configuration, the pedals 130 close closest to the center hub 128 with the anchors 126 located more distant radially from the center hub 128. The pedals 130 may be configured similar to what is shown and/or described above.

[0036] FIG. 5 shows the valve 10 in a closed configuration. In the closed configuration the valve 10 may be loaded in a bronchoscope or a delivery catheter for transporting to a desired location in a lung.

Embodiments

[0037] A. A one-way valve device comprising: a frame structure comprising: a hub section at a proximal end; and a plurality of anchors at a distal end; and a frameless membrane component comprising a distal base section configured to be attached to at least a portion of the hub section, wherein the one-way valve device is configured to transition between a closed configuration and an open configuration, wherein the anchors and the frameless membrane component are at first radial positions in the closed configuration and at second radial positions in the open configuration, the first radial positions being closer to a central longitudinal axis of the one-way valve device than the second radial positions.

[0038] B. The device of A, wherein the frameless membrane component comprises a flexible, injection molded material.

[0039] C. The device of B, wherein the injection molded material comprises a plurality of pedals, the pedals comprising: a base section that extends from the distal base section; and a plurality of pedals coupled to the base section.

[0040] D. The device of any of A-C, wherein when the one-way valve device is in the open configuration, the pedals curve away from the central longitudinal axis of the one-way valve device from a distal end to a proximal end.

[0041] E. The device of D, wherein a proximal section of at least one of the pedals comprises at least one of a material or an amount of material configured to be more flexible than other sections of the at least one pedal.

[0042] F. The device of any of D or E, wherein proximal sections of the pedals overlap proximal sections of adjacent pedals when the one-way valve device is in the open or closed configurations.

[0043] G. The device of any of D or E, further comprising a second frameless membrane component comprising: a distal base section; and a plurality of pedals comprising a distal section connected to the distal base section of the second frameless membrane component, wherein a gap exists between adjacent pedals of the first frameless membrane when in the open configuration, wherein a gap exists between adjacent pedals of the second frameless membrane when in the open configuration, wherein the pedals of the second frameless membrane component overlap at least two the pedals of the first frameless membrane component.

[0044] H. The device of G, wherein the distal base section of the second frameless membrane component is attached to a more distal portion of the hub section than the distal the base section of the first frameless membrane component.

[0045] I. The device of any of A-H, further comprising a central rod having a distal end attached to an inner surface of the hub section.

[0046] J. A one-way valve device comprising: a frame structure comprising: a hub section at a proximal end; and a plurality of anchors at a distal end; a central rod comprising: longitudinal axis; a proximal end; and a distal end, wherein the central rod being configured to receive the hub section at the proximal end; and a frameless membrane component comprising a distal base section configured to be attached to the distal end of the central rod, wherein the one-way valve device is configured to transition between a closed configuration and an open configuration, wherein the anchors and the frameless membrane component are at first radial positions in the closed configuration and at second radial positions in the open configuration distance, the first radial positions being closer to the longitudinal axis of the central rod than the second radial positions.

[0047] K. The device of J, wherein the frameless membrane component comprises a flexible, injection molded material.

[0048] L. The device of K, wherein the injection molded material comprises a plurality of pedals, the pedals comprising: a base section that extends from the distal base section; and a plurality of pedals coupled to the base section.

[0049] M. The device of K, wherein when the one-way valve device is in the open configuration, the pedals curve away from the central longitudinal axis of the one-way valve device from a distal end to a proximal end.

[0050] N. The device of any of L or M, wherein a proximal section of at least one of the pedals comprises at least one of a material or an amount of material configured to be more flexible than other sections of the at least one pedal.

[0051] O. The device of any of L-N, wherein proximal sections of the pedals overlap proximal sections of adjacent pedals when the one-way valve device is in the open or closed configurations.

[0052] P. The device of any of L-N, further comprising a second frameless membrane component comprising: a distal base section; and a plurality of pedals comprising a distal section connected to the distal base section of the second frameless membrane component, wherein a gap exists between adjacent pedals of the first frameless membrane when in the open configuration, wherein a gap exists between adjacent pedals of the second frameless membrane when in the open configuration, wherein the pedals of the second frameless membrane component overlap at least two the pedals of the first frameless membrane component.

[0053] Q. The device of P, wherein the distal base section of the second frameless membrane component is attached to a more distal portion of the distal end of the central rod than the distal base section of the first frameless membrane component.

[0054] The description of the invention is merely exemplary in nature and variations that do not depart from the gist of the invention are intended to be within the scope of the invention. Such variations are not to be regarded as a departure from the spirit and scope of the invention.

[0055] Although the preferable embodiments of the present invention have been described hitherto, the present invention is not limited to these embodiments. Additions, omissions, substitutions, and other modifications can be made without departing from the spirit or scope of the present invention.

[0056] In addition, the invention is not limited by the above description and is limited by only the scope of appended claims.