U.S. patent application number 10/144707 was filed with the patent office on 2003-11-20 for fracture fixation system.
Invention is credited to Azar, Carlos A..
Application Number | 20030216738 10/144707 |
Document ID | / |
Family ID | 29418527 |
Filed Date | 2003-11-20 |
United States Patent
Application |
20030216738 |
Kind Code |
A1 |
Azar, Carlos A. |
November 20, 2003 |
FRACTURE FIXATION SYSTEM
Abstract
A nail fixation system and method for the fixation of fractures
of the distal radius. The system has a nail inserter and a
plurality of arcuate nails, each nail having a head end and a
pointed end. Each nail is secured by its head end in the nail
inserter and fed through one of several holes cut into the distal
radius proximal to the fracture. The curvature of each nail and the
angulation of each hole allows each nail to travel through the
medullary canal of the radius and then have its point be positioned
in a specific site internally on the distal epiphysis. Once the
distal radius is fixed the entire wrist is placed in a cast for
several weeks until the radius is healed sufficiently for the
removal of the nails.
Inventors: |
Azar, Carlos A.; (Coral
Gables, FL) |
Correspondence
Address: |
LITTMAN LAW OFFICES, LTD.
P.O. BOX 15035 CRYSTAL CITY STATION
ARLINGTON
VA
22215
US
|
Family ID: |
29418527 |
Appl. No.: |
10/144707 |
Filed: |
May 15, 2002 |
Current U.S.
Class: |
606/326 ;
606/232; 623/13.14 |
Current CPC
Class: |
A61B 17/921 20130101;
A61B 17/7208 20130101 |
Class at
Publication: |
606/72 |
International
Class: |
A61B 017/58 |
Claims
I claim:
1. A bone fixation system, comprising: first, second, third, and
fourth nails, each nail having a headless first end, a pointed
second end, and a shank, the shank having an elongated straight
section extending from the headless first end, a short straight end
section terminating in the pointed second end, and an arcuate
section therebetween, the arcuate section of the first, second,
third and fourth nails each having a radius of curvature, the
radius of curvature progressively increasing from the first nail to
the fourth nail; and a nail inserter having a cylindrical body and
a compression nut, the body having a nail insertion end and a grip
end, and the compression nut being rotatably attachable to the grip
end and thereby being capable of compressing said grip end in order
to clamp the first end of said first, second, third and fourth
nails.
2. A bone fixation system as in claim 1, wherein: the elongated
straight section of said first nail has a length of about 110 mm;
the arcuate section of said first nail has a radius of curvature of
about 20.4 mm and a length of 33 mm; and the short straight end
section of said first nail has a length of about 7 mm, the point
having at least three faces.
3. A bone fixation system as in claim 1, wherein: the elongated
straight section of said second nail has a length of about 91 mm;
the arcuate section of said second nail has a first section with a
radius of curvature of about 92 mm and a second section having a
radius of curvature of about 31.5 mm, and a combined length of
about 49.5 mm; and the short straight end section of said second
nail has a length of about 9.5 mm, the point having at least three
faces.
4. A bone fixation system as in claim 1, wherein: the elongated
straight section of said third nail has a length is of about 98 mm;
the arcuate section of said third nail has a radius of curvature of
about 56 mm and a length of about 35.5 mm; and the short straight
end section of said third nail has a length of about 16.5 mm, the
point having at least three faces.
5. A bone fixation system as in claim 1., wherein: the elongated
straight section of said fourth nail has a length of about 94 mm;
the arcuate section of said fourth nail has a radius of curvature
of about 92 mm and a length of about 30 mm; and the short straight
end section of said fourth nail has a length of about 26 mm, the
point having at least three faces.
6. A fracture fixation system as in claim 1, wherein said first,
second, third and fourth nails are made of stainless steel.
7. A fracture system as in claim 1, wherein: the nail insertion end
of said body has four sections; said compression nut has an inside
and outside, with the outside having a friction inducing surface;
and said grip end has a friction inducing surface.
8. A method of distal radius fracture fixation using the apparatus
described in claim 1 comprising the following steps: (a) creating
an incision in the soft tissue above the distal radius, the
incision running from the radial styloid proximally for a length of
approximately 5 cm; (b) dissecting the soft tissues in the area of
said incision; (c) reducing said fracture; (d) drilling a first
hole in the radial aspect of the radius bone about 2 cm proximal to
the fracture line; (e) inserting said first nail through said first
hole into the 11 medullary cavity of said distal radius with said
point coming to rest in the subcortical area of the tip of the
distal radial styloid process; (f) drilling a second hole in the
radial aspect of the radius bone, said second hole being positioned
approximately 5 mm proximally to said first hole; (g) inserting
said second nail through said second hole into the medullary cavity
of said distal radius with said point coming to rest in the
subcortical area of the distal radial scaphoid facet; (h) drilling
a third hole in the radial aspect of the radius bone, said second
hole being positioned approximately 5 mm proximally to said second
hole; (i) inserting said third nail through said third hole into
the medullary cavity of said distal radius with said point coming
to rest in the subcortical area of the lunate facet of the distal
radius; (j) drilling a fourth hole in the radial aspect of the
radius bone, said second hole being positioned approximately 5 mm
proximally to said third hole; and (k) inserting said fourth nail
through said fourth hole into the medullary cavity of said distal
radius with said point coming to rest in the subcortical area of
the radial aspect of the sigmoid notch.
9. The method of distal radius fracture fixation as described in
claim 8, including the following additional steps: (1) bending each
said nail to an approximately 90 degree angle at each said nail
hole, lightly tapping each said nail into position, and cutting
each said nail thereby leaving approximately 2 to 4 mm of said nail
protruding from each said hole; (m) returning the soft tissues to
their proper positions and closing said incision; (n) securing said
distal radius and the associated forearm with a cast; (o) removing
said cast and said nails after the distal radius has healed.
10. The method as described in claim 8, wherein: said fixation of
said distal radius and the insertion said first, second, third and
fourth nails into the distal radius is performed under image
intensifier x-ray control.
11. The method as described in claim 8, wherein: said reduction of
said fracture requires releasing the brachio radial tendon.
Description
BACKGROUND OF THE INVENTION
[0001] 1. Field of the Invention
[0002] The present invention relates to surgical tools and a method
of use thereof, and more particularly, to arcuate surgical nails
and a method of using said nails to fixate a fracture of the distal
radius.
[0003] 2. Description of the Related Art
[0004] The distal radius joint is an inherently unstable joint due
to its osseous geometry. Due to this instability, fractures of the
distal radius must often be fixed in position after reduction to
insure proper healing. While the related art is replete with a
variety of bone fixation devices none are specifically designed for
the fixation of the distal radius with a minimum of tissue
disturbance and a minimum of periosteal involvement.
[0005] For example, U.S. Pat. No. 3,763,855 to McAtee discloses a
medical device for the fixation of the ulna, in particular fixing
the enlarged end of the ulna, the olecranon, against the forces
generated by the strong pull of the triceps muscle. The device
itself is a long rod which is inserted into the medullary canal of
the ulna. The '855 patent differs from the present invention in
that it consists of only one long nearly straight nail, rather than
a group of smaller arcuate nails.
[0006] U.S. Pats. Nos. 4,055,172 to Ender et al., 4,667,663 to
Miyata and 6,231,576 to Frigg et al., disclose long intra-medullary
nails for correctly resetting fractured long bones such as the
femur, for their immediate reuse. These patents teach inserting
long flexible nails into one end of a long bone, and then through
the medullary canal and into the fracture area. The fracture is
then reduced by rotating the nail. The nail also functions to fix
the fracture. The inventions described above differ from the
present invention in that the present invention uses several
shorter nails that are not capable of traveling from one end of a
long bone to the other. Each nail is uniquely arcuate to be
positioned in a specific position in the distal radius with a
minimum of tissue disturbance.
[0007] U.S. Pat. No. 6,074,392 to Durham discloses a method and
device for use in bone fixation procedures. The invention consists
of a curved guide and associated pin. The guide is used to locate
the pin at the desired entry point on the bone and the pin is
tapped or hammered into place. The pin is then used as a guide for
a reamer which clears space for an inter-medullary rod. The '392
invention differs from the present invention in that the present
invention uses multiple arcuate nails that cooperate to fix a
fracture of the distal radius. The arcuate nails used in the '392
invention function only to guide a reamer.
[0008] U.S. Pat. No. 6,273,892 to Orbay et al. discloses a fracture
fixation system. The system is used for the insertion of a fixation
pin into the medullary canal of a fractured metacarpal, metatarsal,
or phalangeal bone for stable bone fixation. The system has one or
more pins and an instrument for implanting the pins. The '892
invention is distinguishable from the present invention because the
present invention has a number of arcuate pins specifically
designed to fix the distal radius. The nails of the present
invention are also sharp, as opposed to the blunt pins of the '892
invention.
[0009] None of the above inventions and patents, taken either
singly or in combination, is seen to describe the instant invention
as claimed.
SUMMARY OF THE INVENTION
[0010] The present invention is a set of surgical nails, a nail
handler for inserting the nails into the radius, and a method of
using the aforementioned tools to reduce and internally fix a
fracture of the distal radius. Typically there are four nails used
in the procedure. Each nail is made of stainless steel, is circular
in cross section, has a headless first end and a pointed second
end, and is 150 mm in length. Depending on the size of the radius
to be reduced, the nails are either 1.5 mm or 2 mm in thickness.
The shank of each nail is arcuate adjacent the pointed end, with
the amount of curvature varying from nail to nail.
[0011] The nail handler has a body and a compression nut. The body
is cylindrical in shape with two opposing ends. A hole capable of
receiving a nail is defined in one end of the body. The portion of
the body surrounding the hole (nail receiving end) is cut into four
flexible sections and is externally threaded. The balance of the
external surface of the body is knurled to enhance grip. The
compression nut is internally threaded so as to be rotatably
attachable to the threaded nail receiving end of the body.
[0012] The aforementioned instruments are used in conjunction with
a novel method of fixing fractures of the distal radius. The method
involves first making an incision proximally along the radial
styloid of the distal radius and dissecting the soft tissues
therein. The fracture is approached between the compartment of the
abductor pollicis longus and the extensor carpi radialis brevis.
From there the fracture is approached from the radial, and if
needed, the dorsal aspect of the radius.
[0013] The fracture itself is reduced using traction, counter
traction and rotation, all performed under imaging intensified
x-ray control. Once reduced, the fracture is ready for internally
fixation. Four holes are drilled in the radial aspect of the
radius. The holes are aligned so one of the nails may be positioned
in each hole such that the nails travel through the medullary canal
and into the subcortical area of the distal radius.
[0014] Accordingly, it is a principal object of the invention to
provide a set of nails and a nail insertion tool capable of fixing
a fracture of the distal radius.
[0015] It is another object of the invention to provide a surgical
method of distal radius reduction and fixation which creates a
minimum of disturbance to the associated tissues and bone.
[0016] It is a further object of the invention to provide a
surgical method and fixation kit that obviates the risk of tendon
ruptures and reactions and does not compromise the vascularity of
the distal radius.
[0017] Still another object of the invention is to provide a
fracture fixation system and method of using the system for
fixation of a fracture of the distal radius that is easy to
preform, teach and learn.
[0018] It is an object of the invention to provide improved
elements and arrangements thereof in an apparatus for the purposes
described which is dependable and fully effective in accomplishing
its intended purposes.
[0019] These and other objects of the present invention will become
readily apparent upon further review of the following specification
and drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0020] FIG. 1 is an elevation view of a nail and insertion tool of
a fracture fixation system according to the present invention.
[0021] FIG. 2A is an elevation view of a first fixation nail
according to the present invention.
[0022] FIG. 2B is an elevation view of a second fixation nail
according to the present invention.
[0023] FIG. 2C is an elevation view of a third fixation nail
according to the present invention.
[0024] FIG. 2D is an elevation view of a fourth fixation nail
according to the present invention.
[0025] FIG. 2E is an elevation view of a straight nail for
reference purposes.
[0026] FIG. 3 is a partially exploded view of the nail inserter and
compression nut.
[0027] FIG. 4 is a top view of the nail inserter and compression
nut.
[0028] FIG. 5 is an elevation view of a fracture fixation kit
according to the present invention.
[0029] FIG. 6 is a diagrammatic view of an ulna and radius, showing
exemplary locations for drilled nail insertion holes.
[0030] FIG. 7 is a diagrammatic view of the fixation nails inserted
into the distal radius.
[0031] FIG. 8 is a diagrammatic view of the fixation nails inserted
into the distal radius after bending of the nails.
[0032] Similar reference characters denote corresponding features
consistently throughout the attached drawings.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0033] The present invention is a fracture fixation system for
fixation of the reduced fragments of a distal radius fracture. As
shown in FIG. 1, the invention includes a nail insertion tool 10
which is used to insert an arcuate nail 20 into a distal radius.
Several arcuate nails 20, 30, 40, 50, shown in FIGS. 2A-2D, each
having a distinct, predetermined curvature, are required for the
procedure. Each arcuate nail 20, 30, 40, 50 is preferably formed
from a straight 150 mm stainless steel nail 60 (FIG. 2E) having a
sharp point at a second end 62 and a headless first end 64, the
nail being bent to the required degree of curvature. The headless
first end 64 of the nail 60 is formed by a straight crosscut
orthogonal to an axis through the shank of the nail 60. The
thickness of the nails 20-60 may vary between 1.5 and 2 mm
depending on the size of the fractured bone to be fixed. Nail
strength is approximately 410 Brinell (41 Rockwell).
[0034] FIG. 2A illustrates a first nail 20 used in the fracture
fixation system. The nail has a sharp point 22 with 3 to 4 faces.
From the headless first end 24 the nail has a straight section 25
extending for approximately 110 mm. Reference line R is
perpendicular to straight shank section 25. Shank section 25 is
tangent to arcuate nail section 26. Arcuate section 26 has a radius
of curvature of 20.4 mm and a length of 33 mm. End section 28 of
the nail is straight, 7 mm in length and is also tangent to the
arcuate section 26. End section 28 ends at pointed second end 22.
Angle a preferably measures about one degree.
[0035] FIG. 2B illustrates a second nail 30 used in the fracture
fixation system. The nail 30 has a sharp point 32 with 3 or four
faces and a headless first end 34. From the headless end 34 the
nail has a straight shank section 35 extending for approximately 91
mm. Reference line R is perpendicular to shank section 35. Section
35 is tangent to a first arcuate nail section 36. Section 36 has a
radius of curvature of 88 mm and is followed by a second arcuate
section 37 with a radius of curvature of 31.5 mm. The combined
length of arcuate sections 36 and 37 is about 49.5 mm. Arcuate
section 37 is tangent to straight end section 38. Section 38 is 9.5
mm in length and leads to pointed second end 32. Angle .beta. is
preferably about 23 degrees.
[0036] FIG. 2C illustrates a third nail 40 used in the fracture
fixation system. The nail 40 has a sharp point 42 with 3 or four
faces and a headless first end 44. From the headless end 44 the
nail has a straight shank section 45 extending for approximately 98
MM. Reference line R is perpendicular to shank section 45. Section
45 is tangent to arcuate nail section 46. Arcuate section 46 has a
radius of curvature of 56 mm and a length of 35.5 mm. End section
48 of the nail is straight, 16.5 mm in length and is also tangent
to the arcuate section 46. Section 48 ends at point 42. Angle
.gamma. is preferably 56 degrees.
[0037] FIG. 2D illustrates a fourth nail 50 used in the fracture
fixation system. The nail 50 has a sharp point 52 with 3 or four
faces and a headless first end 54. From the headless end 54 the
nail has a straight shank section 55 extending for approximately 94
mm. Reference line R is perpendicular to shank section 55. Section
55 is tangent to arcuate nail section 56. Arcuate section 56 has a
radius of curvature of 92 mm and a length of 30 mm. End section 58
of the nail is straight, 26 mm in length and is also tangent to the
arcuate section 56. Section 58 ends at point 52. Angle .delta. is
preferably about 72 degrees.
[0038] FIG. 3 illustrates an exploded view of the nail insertion
tool 10. The nail inserter 10 has a cylindrical body with a knurled
handle portion 16, a nail holder portion 18 and a circular
compression nut 14. The nail inserter 10 may be made from a
temperature-resistant durable material such as aluminum, nylon 6 or
stainless steel. The nail holder portion 18, as shown in FIG. 4, is
cut into four sections 17 which define a central hole 19. When in
use a nail is captured with the headless first end inserted into
the hole 19. The compression nut 14 is then screwed onto the nail
holder 18, which compresses the four sections 17 of the nail holder
18 towards the center of the hole 19. The compressive forces will
thereby secure the nail in the nail inserter 10.
[0039] Nails 20, 30, 40, 50, combined with the nail inserter 10,
form a surgical kit 66 as illustrated in FIG. 5. The kit is used in
conjunction with a novel surgical method (discussed below) to I
reduce and fix displaced fractures of the distal radius. | The
first step in the surgical method is making an incision in the soft
tissues above the radial aspect of the distal radius from the
radial styloid proximally for a length of approximately 5 cm. The
soft tissues are then dissected and the distal radius styloid and
fracture are approached between the compartment of the abductor
pollicis longus and the extensor carpi radialis brevis. Then the
dissection is carried more proximally, the abductor pollicis longus
is retracted dorsally towards the ulna and then the dissection is
continued between the abductor pollicis longus and the brachial
radialis tendon. The sensory branches of the radial nerve are
retracted and the fracture of the distal radius is approached
through the radial, and if necessary the dorsal aspect. The
fracture is then reduced under imaging intensified x-ray control
using traction, counter traction and rotation.
[0040] If any difficulty is encountered reducing the fracture due
to the deforming processes of the brachio radial tendon, the tendon
is easily accessed and released from the above mentioned incision
location. The approach also allows for easy access to the fracture
itself for the elevation of any impacted fracture or the release of
a fracture callous. Once any fracture complications are taken care
of and the imaging intensifier x-ray shows the proper alignment of
the fracture, the fracture is ready for internal fixation.
[0041] Some fractures of the distal radius, unlike the above
mentioned situation, can be reduced externally and have no
deforming forces that need to be released. These situations require
a substantially smaller surgical approach. The incision is started
just proximally from the fracture line and extends proximally for
about 3.5 cm. Then the dissection is carried out between the
brachial radialis tendon and the abductor pollicis longus tendon.
The distal radius bone is then approached. This approach causes a
minimum of disturbance to the fracture hematoma. The following
steps of nail insertion are the same for both of the aforementioned
fracture situations (deforming and non-deforming).
[0042] The first step of internal fixation is the drilling of one
of several holes into the medullary canal of the distal radius.
Each hole should be large enough to accommodate one of the
aforementioned arcuate nails and be drilled at an inclination which
accounts for the curvature and the final position of the chosen
nail. The nail insertion process is ordinarily done under image
intensifier x-ray control following the curve of the nail. The nail
can inserted by hand or can be kindly tapped or hammered into
position.
[0043] FIG. 6 illustrates the approximate positions of the
aforementioned holes. The first hole 70 should be positioned on the
radial aspect of the radius bone approximately 2 cm proximal to the
fracture line F. Nail 20 is then inserted into the hole 70 with the
assistance of the nail inserter 10. The hole 70 must be angled to
allow the nail 20 to be fed through the medullary canal of the
radius with the point 22 of the nail 20 being positioned in the
subcortical area of the tip of the distal radial styloid process
80. Once the nail 20 is properly positioned, main control of the
fracture is achieved. The nail inserter 10 is removed after a nail
has been finally positioned.
[0044] A second drill hole 72 is then made on the radial aspect of
the distal radius approximately 5 mm proximally to the first nail
hole 70. The second nail 30 is then fed through the hole 72, using
the nail inserter 10, until the nail point is placed in the
subcortical area of the scaphoid facet of the distal radius.
[0045] A third hole 74 is then drilled approximately 5 mm
proximally to hole 72 on the radial aspect of the distal radius.
Then nail 40 is fed through the hole 74, using the nail inserter
10, until the point of the nail 40 is positioned into the
subcortical area of the lunate facet of the distal radius.
[0046] A fourth hole 76 is drilled about 5 mm proximally to nail
hole 74 on the radial aspect of the distal radius. Then nail 50 is
fed through the hole 76, using the nail inserter 10, until the
point of the nail 50 is positioned in the subcortical area of the
sigmoid notch of the distal radius. FIG. 7 shows the nails 20, 30,
40, 50 in the aforementioned positions in a patient's distal
radius.
[0047] Once the nails are in position the stability of the fracture
is tested, under image intensifier x-ray control, by extension,
flexion, pronation, supination, ulnar deviation and radial
deviation. When a nail is introduced the nail may be rotated
(dorsally for a dorsal die punch fracture, or volarly for a volar
die punch fracture) to reach the specific fracture area. Pins may
also be added if the fracture is not stable. In order to lock each
nail into position, as shown in FIG. 8, each nail is bent to a 90
degree angle at each bone hole (70, 72, 74, 76). Each nail is then
lightly tapped into position then cut leaving an approximately 1 cm
length of nail extending from each hole.
[0048] The nails may be left in the subcutaneous tissue or can be
left outside the epidermis with a proper protective device
positioned on the end of the nails. The soft tissues are closed and
the patient is put into a short arm volar splint immobilization
device until the arm is ready for casting. After 4 to 6 weeks the
cast is removed and after two additional weeks the nails are
removed under local anesthetic.
[0049] It is to be understood that the present invention is not
limited to the sole embodiment described above, but encompasses any
and all embodiments within the scope of the following claims.
* * * * *