Executive Editor: Chris Colton

Authors: Peter V Giannoudis, Hans Christoph Pape, Michael Sch├╝tz

Femur shaft 32-B3 CRIF distal shaft

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Glossary

1 Principles top

Principles enlarge

Important module-wide statement

Where appropriate, a “generic” fracture zone will be illustrated and not necessarily the specific fracture morphology under consideration. Where the fracture morphology determines the fixation technique, the specific morphology will be shown.


Principles enlarge

Bridge plating

Bridge plating uses the plate as an extramedullary splint, fixed to the two main fragments, leaving the intermediate fracture zone untouched. Anatomical reduction of intermediate fragments is not necessary. Furthermore, their direct manipulation would risk disturbing their blood supply. If the soft tissue attachments to the fragments are preserved, and the fragments are relatively well aligned, healing is enhanced.

Alignment of the main shaft fragments can be achieved indirectly with the use of traction and the support of indirect reduction tools, or indirectly via the implant.

Mechanical stability, provided by the bridging plate, is adequate for gentle functional rehabilitation and results in satisfactory indirect healing (callus formation). Occasionally, a larger wedge fragment might be approximated to the main fragments with a lag screw.


Principles enlarge

Bridge plate insertion

Bridge plates can be inserted either with an open exposure that respects soft-tissue attachments to the fractures, or through a minimally invasive (MIO) approach that leaves the soft tissues intact above the fracture site. In this case, incisions are made proximally and distally, and the plate is inserted through a submuscular tunnel. This normally requires fluoroscopic intensifier monitoring.


Reduction

It is important to restore axial alignment, length, and rotation.

Reduction can be performed with a single reduction tool (eg, large distractor), or by combining several steps (for example fracture table +/- external fixator, +/- reduction via the implant, etc.) to achieve the final reduction.

The preferred method depends on the fracture and soft-tissue injury pattern, the chosen stabilization device, and the experience and skills of the surgeon.

If a large fragment has separated from the fracture zone and impaled the adjacent muscle, direct reduction may be required.

2 Preoperative planning top

Preoperative planning enlarge

Plate length

Generally speaking, plates for the bridging technique should be longer than for conventional open plating techniques in order to distribute the forces, and to provide relative stability.

The preoperative x-ray planning template is useful in determining the length of the LISS plate and the positions of the screws.

Number of screws

In healthy bone, five well placed monocortical screws are inserted to secure the LISS to the main femoral shaft fragment. As an alternative, three bicortical screws can be chosen, and these are recommended in osteoporosis.

3 Preliminary reduction top

Preliminary reduction enlarge

Reduction by external fixator or distractor

Sometimes, manual traction is not sufficient to achieve and hold preliminary reduction.

If manual traction is not sufficient, the use of an external fixator can facilitate the reduction procedure and can provide temporary alignment and stability for the bridge plating procedure.

Proximal and distal fixator screws should be inserted carefully in order not to conflict with the later plating procedure. For this purpose, safe positions would be anterolateral or anterior on the femur.

If no traction table is used, folded linen bolsters under the fracture zone may facilitate the reduction maneuver.

4 Plate insertion top

Plate insertion enlarge

Assembly of LISS insertion instruments

The two parts of the insertion guide are connected and the fixation bolt is placed in hole A. Then, the insertion guide is placed on the LISS three-point locking mechanism.

The fixation bolt is inserted into the LISS and slightly tightened using the pin wrench. Next, the nut of the fixation bolt is threaded in the direction of the insertion guide and tightened slightly with the pin wrench.

For more stable fixation of the LISS to the insertion guide during insertion, a second stabilization bolt is introduced with the drill sleeve into hole B (and threaded into the LISS).


Plate insertion enlarge

LISS insertion

The assembled insertion guide is used to insert the LISS plate between the vastus lateralis muscle and the periosteum (= extraperiosteal space).

The plate is inserted through the lateral incision.

The LISS plate is advanced proximally under the vastus lateralis muscle, ensuring that its proximal end remains in constant contact with the bone. The distal end of the plate is positioned against the lateral condyle. To identify the correct position, the LISS plate is moved proximally and then back distally until the plate fits the condyle.


Plate insertion enlarge

Proper position check - Position on the distal femur

When the plate lies flat on the lateral surface of the condyle, it has been positioned correctly on the distal femur.


Plate insertion enlarge

From the AP perspective, a K-wire, inserted through the sleeve of the insertion handle, must be parallel to the plane of the tibiofemoral joint (green dashed line). At that point, the preshaped plate is in the right position, presuming normal anatomy. This is beneficial to restoring the correct alignment in complex fracture patterns.

5 Inserting the proximal connecting bolt top

Inserting the proximal connecting bolt enlarge

Stab incision

Through an incision over the most proximal plate hole, a connecting bolt is screwed through the insertion handle into the plate.


Inserting the proximal connecting bolt enlarge

This creates a fixed parallelogram that facilitates further manipulation of the plate.

6 Preliminary LISS fixation top

Preliminary LISS fixation enlarge

Position on the proximal femur

It is very important to confirm the correct plate position proximally. Especially in the minimal invasive technique, this can be challenging. Even the use of an image intensifier does not guarantee an optimal position.

Pearl: palpating plate
To overcome this problem, the proximal incision is enlarged and the correct plate position is palpated with the index finger. The finger is placed on the anterior aspect of the femur, and the upper rim of the plate is brought into contact with the volar aspect of the finger.


Preliminary LISS fixation enlarge

Proximal guide wire insertion

If the length and rotation of the fracture fragments are correct, the proximal guide wire can be inserted after it has been verified that the fixator is on the midlateral aspect of the femur.

It is extremely important to establish correct placement of the guide wire, in order to ensure proper proximal insertion of the monocortical locking-head screws. After the proper length and rotation are assured, and appropriate positioning of the proximal portion of the plate on the midlateral aspect of the femur has been established, a proximal guide wire is inserted through the sleeve. It is still possible at this point to correct the sagittal plane alignment, as noted below. Small corrections of the adduction of the proximal fragment or of the varus/valgus alignment of the distal femoral condyle are possible.

Once the reduction has been successfully completed and the LISS plate has been positioned correctly, the locking-head screws can be inserted.

7 Screw insertion in the distal fragment top

Screw insertion in the distal fragment enlarge

Length of screws

The appropriate screw length can be determined by using a 280 mm long guide wire and an indirect measuring device, or with the help of the preoperative planning template.


Screw insertion in the distal fragment enlarge

Screw insertion

The screws are inserted through the guide sleeves, which are passed through the aiming device, into the plate hole.

For the final locking of the screws, the use of the torque-limited screw driver is necessary.

8 Screw insertion into the proximal fragment top

Screw insertion into the proximal fragment enlarge

Reduction of the proximal femoral shaft with LHS fixation

With the help of the pull reduction instrument, the desired position of the shaft, in relation to the plate, is secured. This is an important step because otherwise some displacement may occur during the insertion of self-drilling / self-tapping screws (note: this instrument has a 4.0 mm diameter which still allows for the insertion of a 5.0 mm locking screw into the same hole later on).

A syringe, filled with saline, can be attached to the drill sleeve to provide cooling during the bone drilling procedure.


Screw insertion into the proximal fragment enlarge

By tightening the bolt of the pull reduction instrument, the shaft is drawn towards the plate.

9 Additional screw insertion top

Additional screw insertion enlarge

Screw placement

Additional locking-head screws (LHS) are subsequently inserted both proximally and distally. In general, a total of five proximal and five distal LHS are placed. In case of severe osteoporosis, six proximal and six distal LHS can be used. Bicortical self-tapping LHS are recommended for shaft fixation in severe osteoporosis.

In simple fracture types (A-type), 2-3 plate holes should be left unused over the fracture zone to avoid high stress concentration of the implant.


Additional screw insertion enlarge

Final screw insertion

After detachment of the insertion device, a final screw can be inserted into the distal fragment through the central hole in the distal portion of the plate.

10 Wound closure top

Wound closure enlarge

All wounds are irrigated copiously. The iliotibial tract is closed using absorbable sutures. The skin and subcutaneous tissue are closed in the routine manner.

v1.0 2007-12-02