INTERVERTEBRAL DISTRACTOR

Abstract

An interspinous device for arthrodesis, comprising a main body of distraction, inserted between two adjacent spinous processes to provide a relative support; a first and a second pair of lateral stabilizers; support means of each of the pairs of stabilizers slidable with respect to the main body; and a threaded shaft of actuation of the lateral stabilizers, percutaneously operable to determine a rotation and a subsequent translation of the stabilizers with respect to said main body, wherein the overall arrangement is such that each stabilizer is rotatably movable relative to the main body between a first closed configuration and a second open configuration, in which the stabilizers are open wide, and between the second open configuration and a third retaining configuration, in which the open-wide stabilizers of the first pair are longitudinally juxtaposed to respective open-wide stabilizers of the second pair so as to abut a spinous process.

Claims

1. An interspinous distractor device for arthrodesis, comprising: a main distractor body, adapted to be inserted between two adjacent spinous processes to provide a support therebetween; a first and a second pair of lateral stabilizers, which first and second pair are arranged spaced apart along a longitudinal direction of said main distractor body; support elements of each of said first and second pairs of lateral stabilizers, which support elements are slidable with respect to said main distractor body along said longitudinal direction, wherein the lateral stabilizers of each of said first and second pair are rotatably connected to a respective support element of said support elements according to respective axes perpendicular to said longitudinal direction and wherein said lateral stabilizers of each of said first and second pair are slidable integrally to said respective support element; an actuation system of said lateral stabilizers of said first and second pair, percutaneously operable to determine a rotation and a subsequent translation of said lateral stabilizers with respect to said main distractor body, which actuation system comprises a threaded shaft rotatable about an axis extending along said longitudinal direction, which threaded shaft has a first and a second thread, said first and second thread being longitudinally spaced apart one another and opposed one another, each thread of said first and second thread being configured for mating with a respective pair of lateral stabilizers, each of said lateral stabilizers having engagement elements capable of mating with a respective thread of said first and second thread, wherein the interspinous distractor device is configured such that each lateral stabilizer of said first and second pair is rotatably movable with respect to said main distractor body between a first closed configuration, wherein the lateral stabilizers realize a compact configuration which facilitates the percutaneous insertion of the interspinous distractor device, and a second open configuration, wherein the lateral stabilizers are divaricated, and wherein the interspinous distractor device is also configured such that each lateral stabilizer is slidably movable between said second open configuration and a third retaining configuration wherein divaricated lateral stabilizers of the first pair are longitudinally juxtaposed to respective divaricated lateral stabilizers of the second pair so as to abut a spinous process; and control components suitable to determine the passage from said second open configuration to said third retaining configuration, which control components comprise end-of-stroke elements of a movement of divarication of said lateral stabilizers, which end-of-stroke elements are arranged at said support elements.

2. The device according to claim 1, wherein each of said lateral stabilizers is substantially in the form of a fin.

3. The device according to claim 1, wherein said threaded shaft is a nut screw shaft.

4. The device according to claim 3, wherein said threaded shaft is slidable within said main distractor body.

5. The device according to claim 1, wherein each of said lateral stabilizers has engagement means in the form of gear teeth suitable for mating with a respective thread of said first and second thread of said actuation system.

6. The device according to claim 5, wherein each of said lateral stabilizers has an end portion shaped as a toothed wheel sector.

7. The device according to claim 1, wherein said actuation system has a proximal end portion adapted to be coupled with a manipulation tool operable percutaneously.

8. The device according to claim 1, wherein each of said lateral stabilizers has an end portion provided with an engagement element of a spinous process, which end portion is arranged distally with respect to said main distractor body in said second open configuration and saki third retaining configuration.

9. The device according to claim 1, comprising locking elements of said lateral stabilizers in said first closed configuration, second open configuration or said third retaining configuration.

10. The device according to claim 2, wherein said threaded shaft is a nut screw shaft.

11. The device according to claim 10, wherein said threaded shaft is slidable within said main distractor body.

Description

BRIEF DESCRIPTION OF FIGURES

[0033] Reference will be made to the figures of the enclosed drawings, wherein:

[0034] FIG. 1 shows a perspective view of a preferred embodiment of the interspinous distractor device of the invention, in a first configuration of minimum encumbrance designed for insertion into the patient's body, wherein the lateral stabilizers are closed;

[0035] FIGS. 2A and 2B show the device of FIG. 1, respectively a front (distal) view and a longitudinal section thereof;

[0036] FIG. 3 shows a perspective view of the device of FIG. 1, in a different operative configuration wherein the lateral stabilizers are open-wide and longitudinally approached;

[0037] FIGS. 4A and 4B show the device of FIG. 3, respectively a front (distal) view and a longitudinal section thereof;

[0038] FIG. 4C shows an enlarged detail of the view of FIG. 4B; and

[0039] FIGS. 5A, 5B and 5C show a schematic representation of the device of FIG. 1, respectively a first configuration of minimum encumbrance, a second open-wide configuration and the configuration of the longitudinally-approached stabilizers, the latter for retention on inserting over spinous processes.

[0040] The dimensions and the curvatures shown in the figures introduced above are to be understood as purely exemplary, and are generally magnified and not necessarily shown in proportion.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0041] With reference to FIGS. 1 to 4B, an interspinous distractor device according to a preferred embodiment of the invention is designated as a whole with 1.

[0042] The device 1 is adapted to percutaneous insertion and, in the present example, it is specifically suitable for interventions of arthrodesis (bone fusion).

[0043] The device 1 firstly comprises a main body 2, extending in a longitudinal direction L.

[0044] Such direction L also identifies, in the figures, a main axis of the device 1. In the present embodiment, the main body 2 has a central part 201 apt to be placed between two adjacent spinous processes to provide a relative support. From the central part 201 two lateral oblong walls 202 and 203, respectively distal and proximal, branch off from longitudinally opposite parts.

[0045] The main body 2, particularly in its central part 201, is represented with a plurality of openings or windows 204 to permit affixing of material for bone regrowth, in particular autologous/heterologous bone. With reference for example to FIG. 3, the windows 204 are as superior. The other windows shown as “lateral” may be used for the attachment of manoeuvring instrumentation.

[0046] The device 1 then comprises a first pair—defined as distal—of stabilizers, denoted by 31 and 32, and a second pair—proximal—of stabilizers, denoted by 33 and 34. The two pairs of stabilizers are arranged longitudinally spaced along the direction L, on opposite sides of the central part 201 of the main body 2 and each at a respective side part 202, 203 of the main body 2. In addition, the stabilizers 31, 32 and 33, 34 of each pair are positioned on opposite sides with respect to the axis L.

[0047] In the present example, each stabilizer 31-34 presents substantially the form of a fin or a paddle. Since the four stabilizers can be the same, in the following, for brevity, it will be described only the stabilizer denoted by 31, its description being valid also for the other three stabilizers 32, 33 and 34. The fins/paddles may present different arrangement and shape of teeth to avoid that, during the closing of the device which will be discussed shortly, facing teeth can come into contact and fragility the spinous process.

[0048] As best seen for example in FIG. 2B, with respect to the longitudinal axis L of the device, the stabilizer 31 bears a first end portion 311 rotatably connected, and in particular hinged, to the remaining part of the device 1, so as to be rotatable about a transverse axis A orthogonal to the longitudinal direction L. The axes of rotation of the four stabilizers 31-34 are parallel to each other.

[0049] During operation of the device 1, the first portion 311 remains in a substantially proximal position with respect to the longitudinal axis L.

[0050] In correspondence of the first portion 311, the stabilizer 31 is provided with a part shaped as a toothed wheel sector and bearing gear teeth 313, whose function will be shortly explained.

[0051] The stabilizer 31 then comprises a second end portion 312, which, during operation of the device 1 as will be described later, is suitable to assume a distal position with respect to the longitudinal axis L. The end portion 313 bears engagement means of a spinous process. In the present example, such means are in the form of one or more teeth or pins 314, and in general of elements bearing a pointed end. In the embodiment shown, three elements are provided.

[0052] The device 1 further comprises support means of the pairs of stabilizers, which support means is configured to slide in a direction L with respect to the main body 2.

[0053] In the present example, these support means comprises a first support body 41 and a second support body 42, arranged longitudinally spaced along the axis L and each connected to the stabilizers of a respective pair 31, 32 or 33, 34. In particular, the stabilizers of each pair 31, 32 or 33, 34 are rotatably connected to a respective support body 41 or 42.

[0054] The sliding of the stabilizers 31-34 determines an integral sliding of the support means 41, 42.

[0055] The components of the device 1, and in particular the main body 2 and the distal support body 41, concur to define a distal part of the same device bearing a tapered penetration profile 10, in particular a rounded profile.

[0056] The device 1 also comprises actuation means of the stabilizers, operable by an operator to determine a rotation of the stabilizers 31-34 and a subsequent translation of the stabilizers and the support bodies 41 and 42 associated therewith with respect to the main body 2.

[0057] With particular reference to FIG. 4B, in the present embodiment, the actuation means comprises a threaded shaft, or a screw nut shaft, 5 rotatable and translatable around/along the longitudinal axis L with respect to the main body 2 and the support bodies 41 and 42. In particular, the threaded shaft 5 is received and movable within such main body 2 and support bodies 41 and 42.

[0058] The threaded shaft 5 has a first and a second thread, respectively 51 and 52, longitudinally spaced and mutually opposite. Each thread 51, 52 is configured for coupling with the gear portion 311 of stabilizers of a respective pair 31, 32 or 33, 34. In particular, in the present example each stabilizer forms with the respective thread of the screw nut shaft a worm screw system—ring gear, preferably of helical profile. The opposed thread of screw nut shaft 5 allows the opening of both pairs of stabilizers with only one direction of rotation of the shaft.

[0059] The threaded shaft 5 has a proximal portion 53 apt to be coupled with a manipulation tool operable percutaneously.

[0060] As better visible even in the detail of FIG. 4C, at each support body 41, 42, for each stabilizer of the respective pair, is provided an abut profile, denoted by 431 for the first support body 41 in the interaction with the stabilizer 33. This profile determines a limit switch in a movement of rotation towards the outside—that is to say away from the longitudinal axis L—of the stabilizer with respect to the respective support body and the main body 2.

[0061] The overall arrangement of parts of the device 1 as described so far is such that the same device is suitable to assume three distinct principal configurations, as shown below. [0062] A first configuration of minimum encumbrance, or closed, is shown in FIGS. 1, 2A, 2B and 5A. In this first configuration, the stabilizers are rotated toward the main body 2 so as to be substantially lying along the direction L. In particular, the io arrangement is such that the free ends of the first stabilizers 31, 33 of the two pairs and the free ends of the second stabilizers 32, 34 of the two pairs are positioned facing and adjacent to the central part 201 of the main body 2. In other words, the pivotal connections of the stabilizers to the supporting bodies are arranged outwardly with respect to the central part 201 of the main body 2. In this configuration, the screw nut shaft 5 is maximally set back in the proximal direction. More specifically, the shaft 5 is rotated in such a way that the supports 41 and 42, are moved away from the central body 201 and the fins 31-34 are closed and arranged substantially lying along the direction L. [0063] In the closed configuration here considered, the distal rounded profile 10 and the lying arrangement of the stabilizers favor the percutaneous insertion of the device into the patient's body. Such insertion can occur by cannula and/or guide wires in accordance with procedures already known to those skilled in the art and on which we will not focus in a specific way. Once the true insertion step is completed, the main body 2 is housed between two adjacent spinous processes, as shown in FIG. 5A. [0064] A second opening or open-wide configuration is shown in FIG. 5B (but appreciable also in FIGS. 3, 4A, 4B, 4C and 5C, which represent a third configuration of evolution of the second configuration herein considered). In this second configuration, the stabilizers are precisely open-wide, that is rotated towards the outside of the main body 2, so that their free ends move away from the main body 2 and the longitudinal axis L. [0065] The transition from the first configuration to the second configuration, that is the rotation of the stabilizers toward the above mentioned direction, is obtained by percutaneously actuating the screw nut shaft 5 by means of an external tool, for example a screwdriver. In particular, by rotating such shaft 5, it moves toward the distal end within the main body 2 and the support bodies 41 and 42. The engagement of the threads 51 and 52 with the respective gear teeth 313 of the four stabilizers precisely determines a rotation of the stabilizers, in opposite directions for the two pairs of stabilizers. This second configuration is obtainable, as well as with a screwdriver, with a special instrumentation which prevents the translation of the bodies 41 and 42 during actuation of the nut screw 5. [0066] The abutment end-of-stroke elements 431 determine the position of maximum opening of the stabilizers. In the present example, in this configuration of maximum opening each stabilizer encloses an angle a of about 45 deg with respect to the direction L. [0067] A third configuration of retention is shown in FIGS. 3, 4A, 4B, 4C and 5C. In this third configuration, the open-wide stabilizers of the first pair 31, 32 are longitudinally juxtaposed to respective open-wide stabilizers 33, 34 of the second pair so as to fit on a spinous process. The transition from the second to the third configuration is obtained by continuing to rotate the screw nut shaft 5 and keeping it stationary with respect to translations. In this way, the rotation of the shaft 5 determines, by virtue of the limit switch of rotation defined by profiles 431, the movement of the stabilizers and the support bodies 41 and 42 attached to them, along the shaft 5 in the direction L. The direction of this motion is opposite for the two pairs of stabilizers, resulting in a mutual approach of them. This translation is stopped when the engagement elements 314 penetrate the cortical bone of the spinous processes between which is arranged the central part 201 of the main body 2. The transition to the third configuration is obtained disconnecting the device from the instrument that blocks the translation.

[0068] It will be appreciated that it is sufficient a single instrument percutaneously operated to run the divergence of both pairs of stabilizers and for their subsequent translation.

[0069] Other embodiments may provide means of engagement between stabilizers and shaft, or actuating means, different from those described above.

[0070] Furthermore, the device of the invention can comprise control means suitable to determine a transition from said second configuration to said third configuration different from the end-of-stroke elements mentioned above.

[0071] Still, a locking system of the supports of translation of the device, or stabilizers, can be provided in the third configuration to prevent the possible distancing of the respective pairs.

[0072] The present invention has hereto been described with reference to preferred embodiments. It is to be understood that there may be other embodiments afferent to the same inventive core, as defined by the scope of protection of the claims set out io below.