CA2686932A1 - Reinforced intramedullary nail - Google Patents

Abstract

An orthopedic implant assembly (10) is disclosed for the treatment of fracture or other trauma to a long bone (12). The implant assembly includes an intramedullary nail (14, 150, 180, 210, 240, 270, 300, 340, 360) and a lag screw (16) that extends through a transverse bore (28, 166, 184, 214, 244, 274, 304, 344, 364) of the intramedullary nail (14). The intramedullary nail (14) includes an elongated body (38, 182, 212, 242, 272, 302, 342, 362) and one ore more enlarged portions (88, 152, 192, 220, 250, 282, 312, 350, 374) positioned adjacent to the transverse bore (28) to reinforce the intramedullary nail (14).

Description

REINFORCED INTRAMEDULLARY NAIL
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims the benefit under Title 35 U.S.C. 119(e) of U.S.
Provisional Patent Application Serial No. 60/931,783, entitled REINFORCED
INTRAMEDULLARY NAIL, filed on May 25, 2007, the entire disclosure of which is expressly incorporated by reference herein.

BACKGROUND
1. Field of the Invention.

[0002] The present invention relates to orthopedic components, and, particularly, to intramedullary nails.

2. Brief Description of the Related Art.

[0003] Intramedullary nails may be used to align and stabilize fractures of a long bone. For example, in a fractured femur, an intramedullary nail may be inserted into the intramedullary canal of the femur and positioned to extend across the fracture line of the femur. Then, screws or other securement devices may be inserted within bores formed in the intramedullary nail to secure the opposing portions of the fractured femur together.

[0004] If the head of a long bone, such as the head of a femur, has fractured, lag screws may be inserted into transverse bores formed in an intramedullary nail to extend into the head of the long bone to compress the opposing portions of the fractured bone together.
In this arrangement, the lag screw extends through a lag screw hole in the intramedullary nail and applies torque to the intramedullary nail. Because of the lag screw hole, the applied torque creates higher stress concentrations in the intramedullary nail near the lag screw hole.

[0005] United States Patent Application Publication No. US 2005/0149024 to Ferrante et al. describes an intramedullary nail that attempts to reduce stress in the intramedullary nail by increasing the size of a portion of the nail. As described in Ferrante et al., additional material is provided on a lateral side of the intramedullary nail. As shown in Fig. 1 of Ferrante et al., this additional material extends from a location distal of the lag screw hole to a proximal end of the intramedullary nail. During preparation of the femur to receive this intramedullary nail, a surgeon must remove additional bone along a substantial extent of the intramedullary canal to accommodate the additional material. Further, the surgeon must prepare a non-circular bore in the femur to receive the intramedullary nail of Ferrante et al.

SUMMARY

[0006] The present invention provides an intramedullary nail having a body with a transverse bore extending through the body. The transverse bore may be configured for receiving a lag screw or other securement device therein. The intramedullary nail also includes a strengthened area adjacent to the transverse bore. To strengthen the intramedullary nail in the areas around the transverse bore, additional material may be added to create an enlarged portion or area. By adding additional material to the areas around the transverse bore, the overall dimensions, e.g., the radius, of the body of the intramedullary rod may be lessened to preserve bone during preparation of the intramedullary canal of the long bone.
The present invention also provides a surgical method for implanting an intramedullary nail having a strengthened area.

[0007] According to one aspect of the present invention, an intramedullary nail configured for receipt in a long bone is provided. The intramedullary nail comprises an elongated body having a transverse bore extending therethrough and configured to receive a transverse member extending from the transverse bore. The elongated body includes an enlarged portion positioned adjacent to the transverse bore.

[0008] According to another aspect of the present invention, an intramedullary nail is provided that is configured for receipt in a long bone. The intramedullary nail comprises an elongated body having a transverse bore extending therethrough and configured to receive a transverse member extending from the transverse bore. The elongated body includes a first segment extending from a distal extent of the transverse bore to a proximal extent of the transverse bore, a second segment immediately proximal to the transverse bore, and a third segment immediately distal to the transverse bore. The first segment includes a bulge positioned adjacent to the transverse bore.

[0009] According to another aspect of the present invention, an intramedullary nail is provided that is configured for receipt in a long bone. The intramedullary nail comprises an elongated body having a segment including a transverse bore extending therethrough and configured to receive a transverse member extending from the transverse bore.
The elongated body includes means for reinforcing the segment.

[0010] According to another aspect of the present invention, a method of treating a long bone is provided. The method comprises the steps of implanting an intramedullary nail into a long bone. The intramedullary nail includes an elongated body having a transverse bore and an enlarged portion positioned adjacent to the transverse bore. The method further includes positioning a transverse member into the transverse bore.

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] The above-mentioned and other features and advantages of this invention, and the manner of attaining them, will become more apparent and the invention itself will be better understood by reference to the following description of an embodiment of the invention taken in conjunction with the accompanying drawings, wherein:

[0012] Fig. 1 is a view of a femur (in phantom) and an orthopedic assembly implanted in the femur showing the assembly including an intramedullary nail, a lag screw extending through the femoral head, and a pair of fixation screws extending through the femoral shaft;

[0013] Fig. 2 is a fragmentary perspective view the intramedullary nail of Fig. 1 showing the intramedullary nail including an elongated body, a transverse bore for receiving the lag screw, and enlarged portions positioned adjacent to the transverse bore;

[0014] Fig. 3 is a top plan view of the intramedullary nail of Fig. 1;

[0015] Fig. 4 is a view showing a pair of forging dies and an intramedullary nail blank positioned between the forging dies;

[0016] Fig. 5 is a fragmentary perspective view of the nail blank after being forged by the forging dies of Fig. 4;

[0017] Fig. 6 is a fragmentary perspective view of the nail blank shown in Fig. 5 showing a transverse bore drilled into the forged nail blank;

[0018] Fig. 7 is a fragmentary elevational view of an alternative embodiment intramedullary nail showing the intramedullary nail including an enlarged portion extending between lateral and medial openings of a lag screw transverse bore;

[0019] Fig. 8 is a fragmentary elevational view of the intramedullary nail of Fig. 7 along the transverse bore showing enlarged portions positioned on the anterior and posterior sides of the intramedullary nail;

[0020] Fig. 9 is a fragmentary perspective view of an alternative embodiment intramedullary nail showing the intramedullary nail including an enlarged portion positioned adjacent to a lateral opening of a lag screw transverse bore and including a cut out;

[0021] Fig. 10 is a fragmentary elevational view of an alternative embodiment intramedullary nail showing the intramedullary nail including enlarged portions extending around the circumference of the intramedullary nail adjacent to a lateral opening of a lag screw transverse bore and including a cut out;

[0022] Fig. 11 is a fragmentary perspective view of an alternative embodiment intramedullary nail showing the nail including an elongated body and a pair of enlarged portions positioned adjacent to a medial opening to a lag screw transverse bore and an enlarged portion positioned adjacent a lateral opening to the lag screw transverse bore;

[0023] Fig. 12 is a fragmentary perspective view of an alternative embodiment intramedullary nail showing the intramedullary nail including an elongated body and an enlarged portion positioned adjacent to a lateral opening to a lag screw transverse bore;

[0024] Fig. 13 is a fragmentary elevational view of the intramedullary nail of Fig. 12 showing another enlarged portion positioned adjacent to the lateral opening;

[0025] Fig. 14 is a top plan view of the intramedullary nail of Fig. 12;

[0026] Fig. 15 is a fragmentary perspective view an alternative embodiment intramedullary nail showing a trapezoidal lag screw transverse bore and a pair of enlarged portions positioned adjacent to proximal corners of the transverse bore; and [0027] Fig. 16 is a fragmentary perspective view of an alternative embodiment intramedullary nail showing a lag screw transverse bore having a cylindrical portion and two slots and a pair of enlarged portions positioned adjacent to the transverse bore.

[0028] Corresponding reference characters indicate corresponding parts throughout the several views. The exemplification set out herein illustrates at least one preferred embodiment of the invention, in one form, and such exemplification is not to be construed as limiting the scope of the invention in any manner.

DETAILED DESCRIPTION

[0029] Referring to Fig. 1, a view of orthopedic assembly 10 is shown implanted into femur 12. Orthopedic assembly 10 includes intramedullary nail 14, transverse member or lag screw 16, and fixation screws 17. During surgery, intramedullary nail 14 is implanted into prepared intramedullary canal 18. To prevent rotation and removal of intramedullary nail 14, fixation screws 17 are implanted into femoral shaft 20 through transverse bores 22 in intramedullary nail 14. In cases of a fracture or other trauma to femoral head 24, a surgeon implants lag screw 16 into prepared cana126 and inserts lag screw 16 into transverse bore 28 of intramedullary nail 14. Intramedullary nail 14 may also be used in other long bones, such as the tibia, fibula, radius, ulna, clavicle, and other long bones.

[0030] During walking and other movement, some of the patients' weight is transferred to lag screw 16. As a result, lag screw 16 applies torque and force to intramedullary nail 14. Lag screw 16 applies a portion of this force to intramedullary nail 14 at locations 30 adjacent to lateral opening 32 and locations 34 adjacent to medial opening 36.

[0031] To reinforce intramedullary nail 14 at location 30, elongated body 38 of intramedullary nail 14 includes reinforcing means 40 positioned at locations 30 as shown in Fig. 2. Reinforcing means 40 reduce the notch effect created by transverse bore 28.
Reinforcing means 40 of Fig. 2 is discussed below in greater detail and is only one embodiment of the disclosed reinforcing means. Figs. 6-13 also illustrate other reinforcing means that are discussed in greater detail below.

[0032] Intramedullary nail 14 is preferable made of a titanium alloy, such as Ti6A14V, but may be made of other orthopedic materials. Intramedullary nail 14 includes elongated body 38 having transverse bore 28 and longitudinal bore 42 extending along longitudinal axis 44. According to the preferred embodiment, transverse bore 28 has diameter 46 of 10.5 mm (0.41 inches) at angle 48 (see Fig. 1) of 31-41 from longitudinal axis 44. Except for a proximal portion of longitudinal bore 42, diameter 50 of longitudinal bore 42 is 4.7 mm (0.19 inches).

[0033] Elongated body 38 includes proximal portion 52, intermediate portion 54, and distal portion 56. According to a preferred embodiment, proximal portion 52 is substantially cylindrical and has diameter 58 of 15 mm (0.59 inches) and length 60 of 55.6 mm (2.19 inches). Distal portion 56 is substantially cylindrical from intermediate portion 54 to tip portion 62 and has diameter 64 ranging from 10 mm (0.39 inches) to 14.5 mm (0.57 inches) depending on the patient anatomy and length 66 of 128.4 mm (5.06 inches).
Intermediate portion 54 is substantially conical and transitions from diameter 68 of 15 mm (0.59 inches) to diameter 70 of 10 mm (0.39 inches) to 14.5 mm (0.57 inches) and length 72 of 31 mm (1.22 inches). Additional features of elongated body 38 are shown in greater detail in U.S.
Provisional Patent Application Serial No. 60/931,783, which is incorporated by reference herein.

[0034] As shown in Fig. 2, reinforcing means 40 is positioned in proximal portion 52 of elongated body 38 adjacent to lateral opening 32. Proximal portion 52 of elongated body 38 includes first or intermediate segment 74 through which transverse bore 28 extends, second or proximal segment 76 positioned proximal to intermediate segment 74, and third or distal segment 78 positioned distal to intermediate segment 74. Intermediate segment 74 extends from proximal extent 80 of transverse bore 28 to distal extent 81 of transverse bore 28. Proximal segment 76 and distal segment 78 have circular exterior profiles 82, 84 that are smaller than exterior profiles 86 of intermediate segment 74 that include reinforcement means 40 such that exterior profiles 82, 84 will fit within exterior profiles 86.

[0035] As shown in Fig. 2, reinforcing means 40 includes bulges or enlarged portions 88. According to one embodiment, reinforcing means 40 includes a single enlarged portion or bulge. Enlarged portions 88 are symmetric about lateral opening 32 and meet each other above lateral opening 32. Lateral opening 32 includes distal half 90 and proximal half 92 and a majority of enlarged portions 88 are positioned adjacent to proximal half 92 with a minority positioned adjacent to distal half 90.

[0036] Enlarged portions 88 extend radially outward from cylindrical portion 94 of elongated body 38 and include apex 96 and slopes 98 that extend radially inward toward cylindrical portion 94. Apex 96 is a portion of ridge 99 that extends from apex 96 to cylindrical portion 94 in direction 100 substantially parallel to longitudinal axis 102 of transverse bore 28. In a preferred embodiment, distance 104 from longitudinal axis 44 to a maximum radial extent of apex 96 is 8.8 mm (0.35 inches), whereas distance 105 from longitudinal axis 44 to a maximum radial extent of cylindrical portion 94 is 7.5 mm (0.30 inches). As a result, slopes 98 extend radially inwardly about 1.3 mm (0.06 inches). As shown in Fig. 2, slopes 98 also extend in distal and proximal longitudinal directions 106, 108 and in transverse direction 100.

[0037] Elongated body 38 includes first or lateral edge 112 that defines lateral opening 32 and medial or second edge 114 that defines medial opening 36.
Lateral edge 112 includes distal-most portion 116 and proximal-most portion 118 positioned at first and second longitudinal positions 120, 122, respectively. Apex 96 is positioned at third longitudinal position 124 that is longitudinally positioned between first and second longitudinal positions 120, 122.

[0038] According to computer models, intramedullary nail 14 has lower stress concentrations and a higher safety margin than a similar larger intramedullary nail (not shown) without enlarged portions 88. In one specific computer-based example, intramedullary nail 14 was compared to an intramedullary nail without enlarged portions 88 and having diameter 58 of 16.5 mm (0.65 inches) in proximal portion 52. The maximum stress concentrations of intramedullary nail 14 near lateral opening 32 was about 25% lower and the safety margin was about 34% higher than the larger nail. Thus, smaller overall intramedullary nail 14 has lower stress concentrations and a higher safety factor than the larger overall intramedullary nail according to the computer models. In the computer models, the collodiaphyseal angle (CCD) was 125 .

[0039] According to one surgical technique, a surgeon reams, bores, or otherwise forms prepared intramedullary canal 18 in the cancellous bone tissue. Prepared intramedullary canal 18 is preferably circular in cross section and the same size or slightly larger than intramedullary nail 14, except for enlarged portions 88. For example, proximal portion 126 (see Fig. 1) of prepared intramedullary canal 18 is substantially cylindrical, but does not include a prepared recesses to receive enlarged portions 88. During implanting of intramedullary nail 14 into prepared intramedullary canal 18, enlarged portions 88 expand or push out the spongy cancellous bone tissue. After enlarged portions 88 pass the expanded cancellous bone tissue, the tissue collapses back to its prepared shape. As a result, portions of prepared intramedullary canal 18 proximal to implanted enlarged portions 88 have a diameter less than a width of intramedullary nail 14 at the location of enlarged portions 88.
Because prepared intramedullary canal 18 can be smaller, less cancellous material needs to be removed and it is less likely that cortical bone will be removed during forming of prepared intramedullary canal 18.

[0040] Figs. 4-6 illustrate a method of manufacturing intramedullary nail 150 with enlarged portions 152 that are similar to enlarged portions 88. Initially, nail blank 154 is provided that includes cylindrical portions 156 and bulb portion 158. Nail blank 154 is positioned between upper forging die 160 and lower forging die 162. Upper forging die 160 includes a recess (not shown) matching the cylindrical profile of cylindrical portions 156.
Lower die 162 includes recess 164 that matches a desired contour of enlarged portions 152.
After nail blank 154 is positioned between upper and lower forging dies 160, 162, upper and lower dies 160, 162 are brought together to forge nail blank 154, resulting in forged nail blank 165 shown in Fig. 5. Next, a drill (not shown) is used to drill out transverse bore 166.

[0041] According to another method, a Swiss lathe (not shown) is used to form enlarged portions 152 as shown in Fig. 5. After being turned on the lathe, a drill (not shown) is used to drill out transverse bore 166.

[0042] An alternative embodiment intramedullary nail 180 is shown in Figs. 7 and 8.
Intramedullary nail 180 includes elongated body 182 having transverse bore 184 and reinforcing means 186 positioned adjacent to medial opening 188 and lateral opening 190.
Reinforcing means 186 includes one or more elongated bulges or enlarged portions including ridges 192 that extending around substantially cylindrical portion 194 of elongated body 182.
Ridges 192 extend parallel to longitudinal axis 196 of transverse bore 184.
Ridges 192 include apexes 198 that extend along the substantial length of ridges 192 and slopes 200 that extends longitudinally and radially inward. Intramedullary nail 180 further includes raised lips 202 surrounding medial opening 188 and lateral opening 190. Other features of intramedullary nail 180 are the same as or similar to intramedullary nail 14 discussed above.

[0043] Another alternative embodiment intramedullary nai1210 is shown in Fig.
9.
Intramedullary nai1210 includes elongated body 212 having transverse bore 214 and reinforcing means 216 positioned adjacent to lateral opening 218. Reinforcing means 216 includes one or more bulges or enlarged portions 220 having substantially flat apexes 222 and slopes 224 that extends longitudinally and radially inward. Intramedullary nai1210 may further include a small cut out around lateral opening 218. A larger such cut out is shown in Fig. 10 as described below. Other features of intramedullary nai1210 are the same as or similar to intramedullary nail 14 discussed above.

[0044] Another alternative embodiment intramedullary nai1240 is shown in Fig.
10.
Intramedullary nai1240 includes elongated body 242 having transverse bore 244 and reinforcing means 246 positioned adjacent to lateral opening 248. Reinforcing means 246 includes one or more bulges or enlarged portions 250 that extend around substantially cylindrical portion 252 of elongated body 242. Enlarged portions 250 include ridges 254 that extend circumferentially. Ridges 254 include apexes 256 that extend along the substantial length of ridges 254 and slopes 258 that extends longitudinally and radially inward.
Intramedullary nai1210 further includes cut out 260 that surrounds lateral opening 248.

Other features of intramedullary nai1240 are the same as or similar to intramedullary nail 14 discussed above.

[0045] Another alternative embodiment intramedullary nai1270 is shown in Fig.
11.
Intramedullary nai1270 includes elongated body 272 having transverse bore 274 and reinforcing means 276 positioned adjacent to medial opening 278 and lateral opening 280.
Reinforcing means 276 includes four bulges or enlarged portions 282. Enlarged portions 282 include apexes 284 and slopes 286. Some of slopes 286 extends longitudinally and radially inward. Other slopes 286 extending transversely and radially inward. Other features of intramedullary nai1270 are the same as or similar to intramedullary nail 14 discussed above.

[0046] Another alternative embodiment intramedullary nai1300 is shown in Figs.

14. Intramedullary nai1300 includes elongated body 302 having transverse bore 304 and reinforcing means 306 positioned adjacent to medial opening 308 and lateral opening 310.
Reinforcing means 306 includes four bulges or enlarged portions 312. Enlarged portions 312 include longitudinally extending ridges 314 having apexes 316 and slopes 318, 320. Slopes 318 extends longitudinally and radially inward. Slopes 320 extending transversely and radially inward. Other features of intramedullary nai1300 are the same as or similar to intramedullary nail 14 discussed above.

[0047] Another alternative embodiment intramedullary nai1340 is shown in Fig.
15.
Intramedullary nai1340 includes elongated body 342 having trapezoidal transverse bore 344 sized to receive a lag screw (not shown) having a trapezoidal cross section.
Elongated body 342 further includes reinforcing means 346 positioned adjacent to lateral opening 348.
Reinforcing means 346 includes bulges or enlarged portions 350 substantially similar to enlarged portions 88 shown in Fig. 2. Other features of intramedullary nai1340 are the same as or similar to intramedullary nail 14 discussed above.

[0048] Another alternative embodiment intramedullary nai1360 is shown in Fig.
16.
Intramedullary nai1360 includes elongated body 362 having transverse bore 364 and reinforcing means 366 positioned adjacent to lateral opening 368. Transverse bore 364 includes substantially cylindrical portion 370 and slots 372. Reinforcing means 366 includes bulges or enlarged portions 374 substantially similar to enlarged portions 88 shown in Fig. 2.
Other features of intramedullary nai1340 are the same as or similar to intramedullary nail 14 discussed above.

[0049] Intramedullary nail 14 may also be configured and utilized in accordance with the teachings of U.S. Patent No. 5,034,013, entitled INTRAMEDULLARY NAIL, issued July 23, 1991; U.S. Patent No. 5,122,141, entitled MODULAR INTRAMEDULLARY
NAIL, issued June 16, 1992; U.S. Patent No. 5,645,545, entitled SELF-REAMING
INTRAMEDULLARY NAIL AND METHOD OF USING THE SAME, issued July 8, 1997;
U.S. Patent No. 4,275,717, entitled INTRAMEDULLARY FIXATION DEVICE FOR
FRACTURED TUBULAR BONES, issued June 30, 1981; U.S. Patent No. 4,781,181, entitled BORE SENSOR FOR INTRAMEDULLARY NAIL AND CORRESPONDING
INTRAMEDULLARY NAIL, issued November 1, 1988; U.S. Patent No. 4,969,889, entitled INSTRUMENT FOR LOCATING A HOLE, issued November 13, 1990; U.S. Patent No. 7,144,399, entitled INSTRUMENTATION GUIDE FOR ORTHOPEDIC SURGERY, issued December 5, 2006; and U.S. Patent Application No. 10/682,745, entitled BONE
FIXING SYSTEM, filed October 9, 2003, the entire disclosures of which are hereby expressly incorporated by reference herein. Further, intramedullary nail 14 may also be configured and utilized in accordance with the teachings of the surgical techniques and product descriptions set forth in attached Exhibit B, i.e., Zimmer ITSTrM
Intertrochanteric/Subtrochanteric Fixation IM Nail System; Zimmer ITSTrM
Intertrochanteric/Subtrochanteric Fixation IM Nail System; M/DN
Intramedullary Fixation; M/DN Femoral Interlocking & Recon Nail Intramedullary Fixation Surgical Technique; M/DN Femoral Retrograde Intramedullary Fixation Surgical Technique;
M/DN MISTM Intramedullary Femoral Fixation Surgical Technique; M/DN Tibial and Humeral Intramedullary Fixation Surgical Technique; M/DN Tibial Intramedullary Nail Utilizing the MISTM Tibial Guide Surgical Technique; Zimmer Sirus Intramedullary Nail System; Sirus Intramedullary Femur Nail System Surgical Technique; and Sirus Intramedullary Tibia Nail System Surgical Technique, copies of which are provided in U.S.
Patent Application Serial No. 60/931,783, which is hereby expressly incorporated by reference herein.

[0050] While this invention has been described as having a preferred design, the present invention can be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the invention using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this invention pertains and which fall within the limits of the appended claims.

Claims (22)

1. An intramedullary nail (14, 150, 180, 210, 240, 270, 300, 340, 360) configured for receipt in a long bone (12), comprising:
an elongated body (38, 182, 212, 242, 272, 302, 342, 362) having a transverse bore (28, 166, 184, 214, 244, 274, 304, 344, 364) extending therethrough and configured to receive a transverse member (16) extending from the transverse bore, wherein the elongated body includes an enlarged portion (88, 152, 192, 220, 250, 282, 312, 350, 374) positioned adjacent to the transverse bore.

2. The intramedullary nail of Claim 1, wherein the elongated body includes an opening (32) to the transverse bore, the opening has a distal half (90) and a proximal half (92), and the enlarged portion is positioned adjacent to the proximal half.

3. The intramedullary nail of Claim 1, wherein the elongated body includes a first segment (74) extending from a distal extent (81) of the transverse bore to a proximal extent (80) of the transverse bore and including the enlarged portion, a second segment (76) immediately proximal to the transverse bore, and a third segment (78) immediately distal to the transverse bore, the first segment has an exterior profile (86) larger than the exterior profiles (82, 84) of the second and third segments.

4. The intramedullary nail of Claim 3, wherein the exterior profiles of the second and third segments are substantially circular.

5. The intramedullary nail of Claim 1, wherein the transverse bore includes a longitudinal axis and the enlarged portion includes a ridge (99, 192, 254, 314) extending substantially parallel to the longitudinal axis.

6. The intramedullary nail of Claim 1, wherein the elongated body includes another enlarged portion (88, 152, 192, 220, 250, 282, 312, 350, 374) positioned adjacent to the transverse bore.

7. The intramedullary nail of Claim 6, wherein the elongated body includes a substantially cylindrical portion (94, 156, 194) and the enlarged portions are positioned adjacent to the substantially cylindrical portion.

8. The intramedullary nail of Claim 7, wherein the elongated body includes a longitudinal axis (44) and each enlarged portion include a radial apex (96, 198, 222, 256, 284, 316) and at least one slope (98, 200, 224, 258, 286, 318, 320) extending in a longitudinal and radially inward direction.

9. An intramedullary nail (14, 150, 180, 210, 240, 270, 300, 340, 360) configured for receipt in a long bone (12), comprising:

an elongated body (38, 182, 212, 242, 272, 302, 342, 362) having a transverse bore (28, 166, 184, 214, 244, 274, 304, 344, 364) extending therethrough and configured to receive a transverse member (16) extending from the transverse bore, wherein the elongated body includes a first segment (74) extending from a distal extent (81) of the transverse bore to a proximal extent (80) of the transverse bore, a second segment (76) immediately proximal to the transverse bore, and a third segment (78) immediately distal to the transverse bore, the first segment includes a bulge (88, 152, 192, 220, 250, 282, 312, 350, 374) positioned adjacent to the transverse bore.

10. The intramedullary nail of Claim 9, wherein the second and third segments are substantially cylindrical.

11. The intramedullary nail of Claim 9, wherein the first segment has a maximum outer profile (86) and the second and third segments have maximum outer profiles (82, 84) that fit within the maximum outer profile of the first segment.

12. The intramedullary nail of Claim 9, wherein the first segment includes a longitudinal axis (44) and a plane including in the longitudinal axis that divides the first segment into a medial portion and a lateral portion, and the bulge extends to the plane.

13. The intramedullary nail of Claim 12, wherein the bulge includes an apex (96, 198, 222, 256, 284, 316) and a longitudinally and radially inwardly extending slope (98, 200, 224, 258, 286, 318, 320).

14. An intramedullary nail (14, 150, 180, 210, 240, 270, 300, 340, 360) configured for receipt in a long bone (12), comprising:
an elongated body (38, 182, 212, 242, 272, 302, 342, 362) having a segment including a transverse bore (28, 166, 184, 214, 244, 274, 304, 344, 364) extending therethrough and configured to receive a transverse member (16) extending from the transverse bore, wherein the elongated body includes means (40, 186, 216, 246, 276, 306, 346, 366) for reinforcing the segment.

15. The intramedullary nail of Claim 14, wherein the reinforcing means includes an apex (96, 198, 222, 256, 284, 316) and a longitudinally and radially inwardly extending slope (98, 200, 224, 258, 286, 318, 320).

16. The intramedullary nail of Claim 15, wherein the elongated body includes a first edge (112) defining a lateral opening (32) into the transverse bore and a second edge (114) defining a medial opening (36) into the transverse bore, the first edge includes a distal-most portion (116) positioned at a first longitudinal (120) position and a proximal-most portion (118) positioned at a second longitudinal position (122), and the apex is positioned longitudinally between the first longitudinal position and the second longitudinal position.

17. The intramedullary nail of Claim 14, wherein the elongated body includes a longitudinal axis (44) and the reinforcing means includes a ridge (99, 192, 254, 314) extending at least partially in a transverse direction.

18. The intramedullary nail of Claim 17, wherein the ridge extends at least partially in a longitudinal direction.

19. The intramedullary nail of Claim 14, wherein the elongated body includes a longitudinal axis (44) and the reinforcing means includes a ridge (99, 192, 254, 314) extending at least partially in a longitudinal direction.

20. A method of treating a long bone (12), comprising the steps of implanting an intramedullary nail (14, 150, 180, 210, 240, 270, 300, 340, 360) into a long bone, the intramedullary nail including an elongated body (38, 182, 212, 242, 272, 302, 342, 362) having a transverse bore (28, 166, 184, 214, 244, 274, 304, 344, 364) and an enlarged portion (88, 152, 192, 220, 250, 282, 312, 350, 374) positioned adjacent to the transverse bore; and positioning a transverse member (16) into the transverse bore.

21. The method of Claim 20, wherein the enlarged portion includes an apex (96, 198, 222, 256, 284, 316) and a longitudinally and radially inwardly extending slope (98, 200, 224, 258, 286, 318, 320) extending between the elongated body and the apex.

22. The method of Claim 20, further comprising the step of providing the long bone with a prepared passage (18) to receive the intramedullary nail during the implanting step, wherein the enlarged portion and the body cooperate to define a nail width and the prepared passage includes a passage width proximal of the enlarged portion that is less than the nail width.