Cranial bone flap fixation system and method
A cranial bone and bone flap fixation device, comprising first and second caps between which portions of the cranial bone and bone flap are to be gripped; a mounting post located to allow relative cap movement lengthwise of an axis defined by the post, at least the first cap, which is movable lengthwise of the post, forming peripheral petals that are spaced apart about an axis and radially outwardly of a central body portion of the cap, whereby the petals are individually and resiliently movable relative to the central body portion in directions generally parallel to the axis, and in response to gripping.
This invention relates generally to cranial surgery apparatus and method, and more particularly to implant systems and methods for re-fixation of cranial bone flaps after craniotomy.
Cranial bone flaps after craniotomy are typically fixed in position with wire, suture material or mini plates and screws. In some cases, fixation with wire or suture material is not secure. Shifting of the bone flap may result in dislocation, causing depression or protrusion of the flap relative to the adjacent cranium. This phenomenon occurs more frequently with the progressive shift to smaller craniotomies for minimally invasive surgical procedures.
Fixation of the bone flap using mini plates and screws has improved the attachment of the bone flap. This technique, however, demands a considerable amount of time and added cost. There is need for an improved system for fixation of the bone flap to the cranium, providing for quick and easy application, optimal stability, and reliable fixation of the bone flap to the cranium.
SUMMARY OF THE INVENTIONIt is a major object of the invention to provide improved flap fixation apparatus, system and methods meeting the above needs. Basically, the fixation device of the invention comprises:
a) first and second caps between which portions of the cranial bone and bone flap are to be gripped,
b) a mounting post located to allow relative cap movement lengthwise of an axis defined by the post,
c) at least the first cap forming peripheral petals that are spaced apart about said axis and radially outwardly of a central body portion of the cap, whereby the petals are individually and resiliently movable relative to said central body portion in directions generally parallel to the axis, and in response to such gripping.
Another object includes provision of fixation petals at one or both caps, and having widths which decrease in directions toward the axis, to define flexure zones spaced between said axis and portions of the petals furthest from said axis, whereby cap and petal conformation to gripped flap and cranial elements is enhanced. Typically, such petals may have flexible zones spaced between the axis and portions of the petals furthest from said axis. Further, one cap is typically attached to an end of the post, and the other cap is adjustably movable along the post toward the one cap, the petals of each cap having bone engaging peripheral portions angled toward the space between the caps.
Another object is to provide a post having axially spaced retention shoulders, the other cap having circularly spaced tabs projecting generally toward said axis, and which have ratcheting engagement with such shoulders as the other cap is moved toward the one cap, the shoulders typically blocking retraction of said other cap. Such tabs are typically spaced about the post axis, and are individually resiliently flexible in directions generally parallel to said axis.
A further object is to provide improved tabs having widths less than their lengths, and that define tips that have said ratcheting engagement with post shoulders. The number of such tabs is typically less than the number of petals; and the number of petals is such as to enable between two and four petals to engage the bone flap, and two to four petals to engage the cranial bone.
Yet another object includes a method of use of the device, which includes:
a) relatively displacing the caps toward one another to engage the petals of one cap with at least the bone flap or the adjacent cranial zone, and to conformingly retain the caps including said petals to opposite sides of the bone flap and the cranial bone,
b) and tightening the caps toward one another into a positions wherein relative separation of the caps is blocked, petals are resiliently flexed, and post extent between the caps is tensioned.
An additional object is to provide for cap self centering functionality, as by provision of a cap guide configured to extend into a gap formed between the cranial bone and bone flap, to laterally orient the one cap so that petal portions thereof will overlap the cranial bone and bone flap to approximately equal lateral extents. That guide may have an axially tapering surface or surfaces to project into the gap between edges of said cranial bone and bone flap; and the guide may comprise a cup-shape or tapering tabs, as will be seen. Both caps may incorporate such self-centering functionality.
A further object comprises provision of a cover extending over a cavity formed by the protruding guide, and attached to said one cap.
These and other objects and advantages of the invention, as well as the details of an illustrative embodiment, will be more fully understood from the following specification and drawings, in which:
DRAWING DESCRIPTION
In
Petals 20 and 21 on the caps thereby become resiliently deflected, while individually and locally conforming to the bone surfaces and their curvatures, at the points of petal engagement with such surfaces. The use of such petals allows differential bending deflection of the petals to accommodate to desired conformance to bone surface local geometric variation, at such points of engagement. The post 13 may be serrated as shown at 25 to enable one-way ratcheting relative movement of cap 11 toward cap 12, and also to enable positive locking of cap 11 to the post (i.e. shoulder angularity to block cap 11 retraction) after desired forcible petal edge engagement of both caps with the bone and bone flap 15 and 16, as will be further explained. After such locking, the post is severed at region 13d close to the cap 11. Positive locking of the cap 11 to the post assures positive retention of the caps in engagement with upper and lower sides of the cranial bone and bone flap, and resultant positive positioning of the flap in position relative to cranial bone, during and after replacement of the flap to the skull, promoting healing.
The post is typically attached to the cap 12, at its center. The petals have opposed widthwise spaced edges 20b and 20c, which taper toward center region 27, as shown, increasing petal resilient flexability at the narrowed width, flexure zones.
Petals 35 have opposed and widthwise spaced edges 35b and 35c, which relatively taper toward region 36, increasing petal resilient flexability at the flexure like narrowed width zones.
Cap controlled stiffness is also enhanced by downward deflection of the cap region 12d inwardly of the gaps 40 formed between the petals. Cap 11 also preferably consists of titanium (anodized) or titanium alloy, or other bio-compatible material, and its thickness is typically between 0.010 and 0.015 inches.
Of further importance is the provision of spaced tabs, as at 45, projecting toward and spaced apart about axis 14, so as to have one-way ratcheting engagement of tab narrowed inner edges 45a with the post serrations as the upper cap 11 is displaced along the post relatively toward lower cap 12. The tabs are individually resiliently flexible in directions generally parallel to axis 14, and for that purpose they have narrowed width flexure zones 45b located between edges 45a and the regions 45c of tab jointure with the dished region 49 of the cap. See
a) first and second caps between which portions of the cranial bone and bone flap are to be gripped,
b) a mounting post located to allow relative cap movement lengthwise of an axis defined by the post,
c) one of the caps being attached to an end of the post, the other cap being movable along the post toward said one cap,
d) the post having axially spaced retention shoulders, and the other cap has spaced tabs projecting toward said axis, and which have one-way ratcheting engagement with such shoulders as said other cap is moved toward the one cap.
Also, the method of affixing a bone flap to an adjacent cranial bone includes the steps:
a) providing first and second caps between which portions of the cranial bone and bone flap are to be gripped,
b) providing a mounting post located to allow relative cap movement lengthwise of an axis defined by the post,
c) providing at least the first cap with peripheral petals that are spaced apart about said axis and radially outwardly of a central body portion of the cap, whereby the petals are individually and resiliently movable relative to said central body portion in directions generally parallel to said axis, and in response to said gripping,
d) relatively displacing the caps toward one another to engage the petals of one cap with at least the bone flap or the adjacent cranial bone, and to conformingly retain the caps including said petals to opposite sides of the flap and the cranial zone,
e) tightening the caps relatively toward one another into positions wherein relative separation of the caps is blocked, petals are resiliently flexed, and post extent between the caps is tensioned.
Typically, the lower cap is pulled upwardly, toward the underside of the flap and cranial bone, while the upper cap is lowered, to avoid damage to brain tissue.
In the example shown in
A protruding guide 116 is formed on, or carried on, the upper cap 110 and configured to extend or project into a gap or kerf 117 formed between cranial bone 118 and bone flap 119, at the time of installation. See
The bottom cap 130 also has petals 131 like those of the upper cap, but with up-turned segment edge portions 132, those edge portions having bi-directional curvature, assuring edge gripping of bone tissue. Slots 133 are formed between petals 131, with configurations like slots 112, excepting that the petals and slots face concavely upwardly. An upwardly protruding inverted cup-shaped guide 133, like guide 116, is carried by lower cap 130 to function (with self centering) in the same manner as guide 116. See
Claims
1. A cranial bone and bone flap fixation device, comprising
- a) first and second caps between which portions of the cranial bone and bone flap are to be gripped,
- b) a mounting post located to allow relative cap movement lengthwise of an axis defined by the post,
- c) at least the first cap forming peripheral petals that are spaced apart about said axis and radially outwardly of a central body portion of the cap, whereby the petals are individually and resiliently movable relative to said central body portion in directions generally parallel to said axis, and in response to said gripping, said first cap being movable lengthwise of the post.
2. The device of claim 1 wherein said petals have widths which decrease in directions toward said axis to define flexure zones spaced between said axis and portions of the petals furthest from said axis.
3. The device of claim 1 wherein said petals have flexure zones spaced between said axis and portions of the petals furthest from said axis.
4. The device of claim 1 wherein said petals are one of the following:
- i) metallic
- ii) non-metallic.
5. The device of claim 1 wherein said petals consist essentially of titanium, titanium alloy, or other bio-compatible material.
6. The device of claim 1 wherein each of said first and second caps has peripheral petals as defined in sub-paragraph c) of claim 1.
7. The device of claim 1 wherein one of the caps is attached to an end of the post, and the other cap is adjustably movable along said post toward said one cap, the petals of each cap having peripheral portions angled toward the other cap.
8. The device of claim 7 wherein the post has axially spaced retention shoulders, and the other cap has tabs spaced about and projecting toward said axis, and which have ratcheting engagement with said shoulders as said other cap is moved toward said one cap, said retention shoulders angled to unidirectionally lock to the tabs.
9. The device of claim 8 wherein said tabs are spaced about said axis, and are individually resiliently flexible in directions generally parallel to said axis.
10. The device of claim 8 wherein said tabs have widths less than their lengths, and define tips that have said ratcheting engagement with said shoulders.
11. The device of claim 8 wherein the number of said tabs is less than the number of said petals.
12. A cranial bone and bone flap fixation device, comprising
- a) first and second caps between which portions of the cranial bone and bone flap are to be gripped,
- b) a mounting post located to allow relative cap movement lengthwise of an axis defined by the post,
- c) one of the caps being attached to an end of the post, the other cap being movable along the post toward said one cap,
- d) the post having axially spaced retention shoulders, and the other cap has spaced tabs projecting toward said axis, and which have ratcheting engagement with said shoulders as said other cap is moved toward said one cap, said shoulders configured for blocking retraction of said other cap lengthwise of the post.
13. The device of claim 12 wherein said tabs are spaced about said axis, and are individually resiliently flexible in directions generally parallel to said axis.
14. The device of claim 12 wherein said tabs have widths less than their lengths, and define tips that have said ratcheting engagement with said shoulders.
15. The method of affixing a bone flap to an adjacent cranial zone, that includes
- a) providing first and second caps between which portions of the cranial bone and bone flap are to be gripped,
- b) providing a mounting post located to allow relative cap movement lengthwise of an axis defined by the post,
- c) providing at least the first cap with peripheral petals that are spaced apart about said axis and radially outwardly of a central body portion of the cap, whereby the petals are individually and resiliently movable relative to said central body portion in directions generally parallel to said axis, and in response to said gripping,
- d) relatively displacing the caps toward one another to engage the petals of one cap with at least the bone flap or the adjacent cranial bone, and to conformingly retain the caps including said petals to opposite sides of the flap and the cranial bone,
- e) tightening the caps relatively toward one another into positions wherein relative separation of the caps is blocked, petals are resiliently flexed, and post extent between the caps is tensioned, the lower cap pulled in an upward direction as the upper cap is tightened downwardly.
16. The device of claim 1 including a protruding guide on at least one of said caps and configured to extend into a gap formed between the cranial bone and bone flap, to laterally orient the one cap so that petal portions thereof will lap, to approximately equal lateral extents, adjacent cranial bone and bone flap surfaces.
17. The device of claim 16 wherein said guide has an axially tapering surface to project into the gap between edges of said cranial bone and bone flap.
18. The device of claim 17 including a cover extending over a cavity formed by said protruding guide, and attached to said one cap.
19. The device of claim 16 wherein said guide has cup-shape.
20. The device of claim 16 wherein said protruding guide comprises guide tabs that are bent to protrude into said gap, said tabs spaced about said axis.
21. The device of claim 12 including a protruding guide on at least one of said caps and configured to extend into a gap formed between the cranial bone and bone flap, to laterally orient the one cap so that petal portions thereof will lap to approximately equal lateral extents adjacent cranial bone and bone flap.
22. The device of claim 21 wherein said guide has an axially tapering surface or surfaces to project into the gap between edges of said cranial bone and bone flap.
23. The device of claim 22 including a cover extending over a cavity formed by said protruding guide, and attached to said one cap.
24. The device of claim 21 wherein said protruding guide has cup-shape.
25. The device of claim 21 wherein said protruding guide comprises guide tabs that are bent to protrude into said gap, said tabs spaced about said axis.
26. The method of claim 15 wherein at least one of the caps has a protruding guide thereon, and including the step of causing said guide to orient the cap transversely as the cap petals approach or engage bone flap and cranial bone surfaces.
27. A cranial bone and bone flap fixation device, comprising
- a) first and second caps between which portions of the cranial bone and bone flap are to be gripped,
- b) a mounting post located to allow relative cap movement lengthwise of an axis defined by the post,
- c) and including a protruding guide on one of said caps and configured to extend into a gap formed between the cranial bone and bone flap, to laterally orient the one cap so that an outer portion thereof will lap, to approximately equal lateral extent, adjacent cranial bone and bone flap surfaces.
28. The device of claim 27 wherein said guide has an axially tapering surface to project into the gap between edges of said cranial bone and bone flap.
29. The device of claim 28 including a cover extending over a cavity formed by said protruding guide, and attached to said one cap.
30. The method of affixing a bone flap to an adjacent cranial zone, that includes
- a) providing first and second caps between which portions of the cranial bone and bone flap are to be gripped,
- b) providing a mounting post located to allow relative cap movement lengthwise of an axis defined by the post,
- c) relatively displacing the caps toward one another to first engage one cap with the underside of at least the bone flap or the adjacent cranial bone,
- d) and then tightening the caps relatively toward one another into positions wherein relative separation of the caps is blocked, the lower cap pulled upwardly as the upper cap is tightened downwardly.
31. The method of claim 30 including providing a protruding guide on at least one of said caps and configured to extend into a gap formed between the cranial bone and bone flap, to laterally orient the one cap to have approximately equal lateral extents thereof adjacent cranial bone and bone flap surfaces.
32. The method of claim 31 wherein said guide is provided with an axially tapering surface to project into the gap between edges of said cranial bone and bone flap.
Type: Application
Filed: May 19, 2006
Publication Date: Nov 16, 2006
Inventors: Tadeusz Wellisz (Los Angeles, CA), Cin Abidin (Los Angeles, CA), Dean Gray (Los Angeles, CA)
Application Number: 11/437,490
International Classification: A61B 17/58 (20060101);