Biomedical device for watertight sealing of an opening

Abstract

Disclosed is a biomedical device being introduced by a hollow tube having a longitudinal axis in a subject in a minimally invasive surgery procedure for watertight sealing of an opening including at least two assemblies, each assembly including one flap connected to one arm, the arm having an longitudinal axis; the assemblies including a delivery configuration, a deployed configuration, and a sealed configuration and outwards deployment unit for switching from the delivery configuration to the deployed configuration and inwards deployment unit for switching from the deployed configuration to the sealed configuration. Also disclosed is a kit of parts including an outer hollow tube, an inner hollow tube, and a related biomedical device.

Claims

1. A biomedical device for watertight sealing of an opening in a subject during a minimally invasive surgery procedure, the biomedical device configured for being introduced in said subject by an outer hollow tube and comprising: at least two assemblies, each assembly comprising one flap as a proximal part, and one arm as a distal part; and assembling means connected to the at least two assemblies, said assembling means being configured such that the proximal part of each assembly is located in a plane perpendicular to a reference axis A, wherein, said one arm of each assembly includes a first connection portion and said one flap of each assembly has a second connection portion, the first connection portion and the second connection portion forming a hinge, the hinge connecting the first connection portion of said one arm to the second connection portion of said one flap such that an axis of connection is formed at the hinge with said one arm being rotatably connected to said one flap between a first relative position in which the arm and the flap form an angle of substantially 180 and a second relative position in which the arm and the flap form an angle of substantially 90, the assemblies each having a delivery configuration, a deployed configuration, and a sealed configuration; the assemblies each having i) outwards deployment means for switching from the delivery configuration to the deployed configuration, and ii) inwards deployment means for switching from the deployed configuration to the sealed configuration; wherein: in the delivery configuration, the flap and the arm of each assembly are oriented parallel to the reference axis A, each assembly extends along the direction substantially parallel to the reference axis A, and the at least two assemblies together form a hollow cylinder for receiving an inner hollow tube therethrough; an axis of the inner hollow tube coinciding with the reference axis A, the flap and the arm forming an angle of substantially 180; in the deployed configuration, the flap of each assembly remains parallel to the reference axis A along the inner hollow tube, and the arm of each assembly is deployed outwardly relative to the reference axis A and positioned at substantially 90 relative to the reference axis A, the flap and the arm forming an angle of substantially 90; and in the sealed configuration, the flap of each assembly is deployed inwardly relative to the reference axis A and positioned at substantially 90 relative to the reference axis A, such that the flaps are joined in an edge to edge arrangement thereby closing and sealing said opening in a watertight manner, and the arm of each assembly remains positioned at substantially 900 relative to the reference axis A, the flap and the arm forming an angle of substantially 180.

2. The biomedical device according to claim 1, wherein the assembling means is a membrane, connecting the arm of each assembly, which membrane is stretched out upon deployment of the arms from the delivery configuration to the deployed configuration.

3. The biomedical device according to claim 2, wherein the membrane, the outwards and/or the inwards deployment means are made from a bioabsorbable material.

4. The biomedical device according to claim 3, wherein the bioabsorbable material is polyglactine 910.

5. The biomedical device according to claim 2, wherein the membrane is plain or wherein the membrane is pierced.

6. The biomedical device according to claim 1, comprising 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 or 12 assemblies.

7. The biomedical device according to claim 1, wherein each assembly is made from a bioabsorbable material.

8. The biomedical device according to claim 7, wherein the bioabsorbable material is polydioxanone (PDS).

9. The biomedical device according to claim 1, further comprising a means for maintaining the outwards deployment means deployed, and further comprising a means for maintaining the inwards deployment means deployed, and further comprising an anchoring ring having an outer diameter substantially equal to a length of one assembly in the delivery configuration in the direction of the arms; said anchoring ring comprising the means for maintaining the outwards and inwards deployment means deployed.

10. The biomedical device according to claim 1, wherein the assembling means is selected among at least one membrane, at least one elastic band, at least one thread or at least one ribbon.

11. The biomedical device according to claim 1, wherein the flaps have a triangular shape.

12. The biomedical device according to claim 1, wherein the inward deployment means is configured for being pulled in order to close the flaps.

13. The biomedical device according to claim 1, wherein the first connection portion and the second connection portion have complementary portions that together define the hinge as a tongue and groove connection.

14. The biomedical device according to claim 1, wherein the first connection portion and the second connection portion have complementary portions that together define the hinge as a male and female pivot joint.

15. A biomedical device for watertight sealing of an opening in a subject during a minimally invasive surgery procedure, the biomedical device configured for being introduced in said subject by an outer hollow tube and comprising: at least two assemblies, each assembly comprising one flap as a proximal part, and one arm as a distal part, said one arm being connected to said one flap; and assembling means connected to the at least two assemblies, said assembling means being configured such that the proximal part of each assembly is located in a plane perpendicular to a reference axis A; the assemblies each having a delivery configuration, a deployed configuration, and a sealed configuration; the assemblies each having i) outwards deployment means for switching from the delivery configuration to the deployed configuration, and ii) inwards deployment means for switching from the deployed configuration to the sealed configuration; wherein: in the delivery configuration, the flap and the arm of each assembly are oriented parallel to the reference axis A, each assembly extends along a direction substantially parallel to the reference axis A, and the at least two assemblies together form a hollow cylinder for receiving an inner hollow tube therethrough; an axis of the inner hollow tube coinciding with the reference axis A; in the deployed configuration, the flap of each assembly remains parallel to the reference axis A along the inner hollow tube, and the arm of each assembly is deployed outwardly relative to the reference axis A and positioned at substantially 90 relative to the reference axis A; and in the sealed configuration, the flap of each assembly is deployed inwardly relative to the reference axis A and positioned at substantially 90 relative to the reference axis A, such that the flaps are joined in an edge to edge arrangement thereby closing and sealing said opening in a watertight manner, and the arm of each assembly remains positioned at substantially 90 relative to the reference axis A, wherein at least one flap comprises a first passage extending through the flap from an opening in an outer surface of the flap to an opening in an inner surface of the flap; and wherein at least one arm comprises a first passage extending through the arm from an opening in a proximal outer surface of the arm to an opening in a distal outer surface of the arm.

16. The biomedical device according to claim 15, wherein the outwards deployment means comprises at least one thread fixed at the opening in the proximal outer surface of the arm, passing through the first passage of the arm from the opening in the proximal outer surface of the arm to the opening in the distal outer surface of the arm, passing through the first passage of the flap of a corresponding assembly from the opening in the outer surface of the flap to the opening in the inner surface of the flap and extending out.

17. The biomedical device according to claim 15, wherein the flap of each assembly comprises a connecting passage extending across a part of the flap.

18. The biomedical device according to claim 17, wherein at least one flap comprises a second passage extending through the flap from the connecting passage to an opening in the inner surface of the flap.

19. The biomedical device according to claim 18, wherein the inwards deployment means comprises a thread connecting the flap of each assembly together through its connecting passage, passing through the second passage of one flap from the connecting passage to the opening in the inner surface of said flap and extending out.

20. A biomedical device for watertight sealing of an opening in a subject during a minimally invasive surgery procedure, the biomedical device configured for being introduced in said subject by an outer hollow tube and comprising: at least two assemblies, each assembly comprising one flap as a proximal part, and one arm as a distal part, said one arm being connected to said one flap; and assembling means connected to the at least two assemblies, said assembling means being configured such that the proximal part of each assembly is located in a plane perpendicular to a reference axis A; the assemblies each having a delivery configuration, a deployed configuration, and a sealed configuration; the assemblies each having i) outwards deployment means for switching from the delivery configuration to the deployed configuration, and ii) inwards deployment means for switching from the deployed configuration to the sealed configuration; wherein: in the delivery configuration, the flap and the arm of each assembly are oriented parallel to the reference axis A, each assembly extends along a direction substantially parallel to the reference axis A, and the at least two assemblies together form a hollow cylinder for receiving an inner hollow tube therethrough; an axis of the inner hollow tube coinciding with the reference axis A; in the deployed configuration, the flap of each assembly remains parallel to the reference axis A along the inner hollow tube, and the arm of each assembly is deployed outwardly relative to the reference axis A and positioned at substantially 90 relative to the reference axis A; and in the sealed configuration, the flap of each assembly is deployed inwardly relative to the reference axis A and positioned at substantially 90 relative to the reference axis A, such that the flaps are joined in an edge to edge arrangement thereby closing and sealing said opening in a watertight manner, and the arm of each assembly remains positioned at substantially 90 relative to the reference axis A, wherein the flap of each assembly comprises a connecting passage extending across a distal part of the flap.

21. A biomedical device for watertight sealing of an opening in a subject during a minimally invasive surgery procedure, the biomedical device configured for being introduced in said subject by an outer hollow tube and comprising: at least two assemblies, each assembly comprising one flap as a proximal part, and one arm as a distal part, said one arm being connected to said one flap; and assembling means connected to the at least two assemblies, said assembling means being configured such that the proximal part of each assembly is located in a plane perpendicular to a reference axis A; the assemblies each having a delivery configuration, a deployed configuration, and a sealed configuration; the assemblies each having i) outwards deployment means for switching from the delivery configuration to the deployed configuration, and ii) inwards deployment means for switching from the deployed configuration to the sealed configuration; wherein: in the delivery configuration, the flap and the arm of each assembly are oriented parallel to the reference axis A, each assembly extends along a direction substantially parallel to the reference axis A, and the at least two assemblies together form a hollow cylinder for receiving an inner hollow tube therethrough; an axis of the inner hollow tube coinciding with the reference axis A; in the deployed configuration, the flap of each assembly remains parallel to the reference axis A along the inner hollow tube, and the arm of each assembly is deployed outwardly relative to the reference axis A and positioned at substantially 90 relative to the reference axis A; and in the sealed configuration, the flap of each assembly is deployed inwardly relative to the reference axis A and positioned at substantially 90 relative to the reference axis A, such that the flaps are joined in an edge to edge arrangement thereby closing and sealing said opening in a watertight manner, and the arm of each assembly remains positioned at substantially 90 relative to the reference axis A, further comprising at least one of the group consisting of i) a means for maintaining the outwards deployment means deployed, and ii) a means for maintaining the inwards deployment means deployed.

22. The biomedical device according to claim 21, wherein the biomedical device comprising the means for maintaining the outwards deployment means deployed, the means for maintaining the outwards deployment means deployed is at least a clip or at least a surgical forceps or at least a V-shaped notch configured for keeping at least one thread under tension.

23. The biomedical device according to claim 21, wherein the biomedical devices comprises the means for maintaining the inwards deployment means deployed.

24. The biomedical device according to claim 23, wherein the means for maintaining the inwards deployment means deployed are at least a clip or at least a surgical forceps or at least a V-shaped notch configured for keeping at least one thread under tension.

25. A kit of parts comprising: a biomedical device according to claim 1; said outer hollow tube; said inner hollow tube, wherein said inner hollow tube has a smaller diameter than the outer hollow tube; wherein said biomedical device is configured for being positioned between said inner and outer hollow tubes in said delivery configuration wherein the inner hollow tube and the outer hollow tube are oriented parallel to the reference axis A and are axially moveable along said reference axis A.

26. The kit of parts according to claim 25, wherein the kit of parts further comprises an anchoring ring.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The foregoing summary and detailed description of the invention will be better understood when read in conjunction with the appended drawings. For the purpose of illustrating the invention, there are shown in the drawings, certain embodiment(s) which are presently preferred. It should be understood, however, that the invention is not limited to the precise arrangements and instrumentalities shown.

(2) FIG. 1 is showing a perspective view of the biomedical device in the deployed configuration.

(3) FIG. 2A shows a perspective view of a flap.

(4) FIG. 2B shows a projection view of a flap along the width.

(5) FIG. 2C shows a longitudinal cross section of a flap.

(6) FIG. 2D shows a longitudinal cross section of a flap.

(7) FIG. 3A shows a perspective view of an arm.

(8) FIG. 3B shows a top view of an arm.

(9) FIG. 3C shows a projection view of an arm along the width.

(10) FIG. 3D shows a side view of an arm along the length.

(11) FIG. 3E shows a longitudinal cross section of an arm.

(12) FIG. 4 shows a perspective view of the biomedical device in the delivery configuration.

(13) FIG. 5A shows a perspective view of the biomedical device in the deployed configuration.

(14) FIG. 5B shows the biomedical device in the deployed configuration, view from the body cavity.

(15) FIG. 6 shows the biomedical device in an intermediary step between the deployed configuration and the sealed configuration, view from the body cavity.

(16) FIG. 7 shows the biomedical device in the sealed configuration, view from the body cavity.

(17) FIG. 8 shows a view of the biomedical device comprising a cylindrical anchoring ring.

(18) FIGS. 9A and 9B shows a view of an anchoring ring in the deployed (9A) and sealed configuration (9B).

REFERENCES

(19) A Longitudinal axis of the hollow tube

(20) B Longitudinal axis of the arms

(21) 1 Flap

(22) 1.1 Occluding portion of the flap

(23) 1.11 First free edge of the occluding portion

(24) 1.12 Second free edge of the occluding portion

(25) 1.2 Connecting portion of the flap

(26) 1.21 Inner surface of the connecting portion

(27) 1.22 First lateral edge of the connecting portion

(28) 1.23 Second lateral edge of the connecting portion

(29) 1.24 First groove of the connecting portion

(30) 1.25 Inclined plan of the connecting portion

(31) 1.26 Second grove of the connecting portion

(32) 2 Arm

(33) 2.1 Connecting portion of the arm

(34) 2.11 Tongue of the connecting portion

(35) 2.12 Inclined plan of the connecting portion

(36) 2.2 Pressing portion

(37) 2.21 Inner surface of the pressing portion

(38) 3 Outwards deployment means

(39) 4 Inwards deployment means

(40) 5 Watertight membrane

(41) 6.1 First passage of the flap

(42) 6.2 First passage of the arm

(43) 7 Connecting passage of the flap

(44) 8 Second passage of the flap

(45) 9 Anchoring ring

(46) 9.1 First part of the anchoring ring

(47) 9.2 Second part of the anchoring ring

(48) 10 Outer hollow tube

(49) 11 Inner hollow tube

(50) 12 Thread of the inwards deployment means

(51) 13 Body wall opening

(52) 14 Connecting means of the anchoring ring

(53) 14.1 Tongue

(54) 14.2 Blocking means