1 Principles topenlarge
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.
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
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.
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 topenlarge
Choice of implant
As bridge plating will span a section of the bone, the length of the implant has to be chosen accordingly. Usually a broad large fragment plate is chosen.
A locking plate is a good option, especially in osteoporotic bone and for fractures with a short end segment. Such a locking plate need not be contoured to fit the bone precisely since it functions as an internal fixator. Attaching it to the bone does not alter fracture alignment, since the screws do not pull the main bone fragments to the implant.
Regardless of plate type used, the preferred dimension to stabilize femoral midshaft fractures is the 4.5 broad dynamic compression plate (DCP) / limited contact - dynamic compression plate (LC-DCP), or the 4.5 broad locking compression plate (LCP), straight or curved.
Plate length and number of screws
Depending on the extent of the zone of fracture comminution and the underlying bone stock (osteoporosis), the appropriate plate length is chosen. Sufficient bicortical screws (a minimum of three, up to six) should be inserted into each main fracture fragment. Relative stability results from leaving plate holes empty over the fracture zone.
3 Preliminary reduction topenlarge
Reduction by using a traction table / manual traction
Even in the open procedure, a traction table can be useful to achieve preliminary reduction. Traction applied to the leg restores bone length, realigns the axis and restores tension in the soft tissues. Rotation must be checked carefully.
Reduction by external fixator or distractor
Particularly with multifragmentary fractures, the use of an external fixator, or distractor, can provide alignment and stability for bridge plating, without disturbing the soft tissues at the fracture site.
Proximal and distal pins should be inserted carefully in order not to conflict with the later plating procedure. For this purpose, safe positions are anterolaterally or anteriorly on the femur.
If no traction table is used, folded linen bolsters under the fracture zone may facilitate reduction.
Remember that alignment of comminuted fragments does NOT need to be anatomical, and that efforts directly to manipulate them may decrease their blood supply.
Generally, soft-tissue attachments will bring these fragments into appropriate positions with adequate traction and rotation of the leg (see previous step).
Occasionally, a lag screw may be used through the plate to capture a large fracture fragment and improve its reduction.
4 Contouring of the plate topenlarge
Contouring of the plate over the fracture site is normally not necessary. However, it is necessary to contour the ends of a conventional plate to address the anatomy of the proximal and distal femur.
A locking plate does not have to be contoured at all, but to avoid soft tissue irritations, slight contouring may be necessary.
Contouring is easier when performed after provisional reduction has been achieved. For provisional reduction, traction, or a large distractor / external fixator, can be applied.
In the open technique a malleable template is helpful for matching the contours of the proximal and distal segments.
5 Final reduction topenlarge
If the preliminary reduction - using for example a traction table - is already optimal with respect to axis, length and rotation, the main fragments are fixed in this position, choosing the optimal screw positions for a bridging technique.
For an optimal outcome, the preliminary reduction frequently needs some final fine adjustment. In those cases, the final fine reduction will be performed, either using the implant, or open reduction techniques.
Nevertheless, even in an open procedure, the stepwise reduction of the fracture towards the implant can be achieved as described in the closed reduction, but in a less challenging open manner.
Next, the open procedure is described using direct reduction techniques.
After exposure of the lateral aspect of the femur, the appropriate contoured plate is held onto the main fragments using Verbrugge forceps.
The longer a fracture zone, the more difficult the evaluation of the correct reduction becomes. In such cases (especially C3-type fractures), indirect indicators must be used to assess reduction, especially to check rotation.
To assess rotation, the shape of the lesser trochanter is compared with the contralateral side (lesser trochanter shape sign). The contralateral leg is then rotated so that its lesser trochanteric profile matches the injured side.
By rotating the injured leg, either with the traction table or through manual traction, the distal fragment only is rotated until the patella orientation is similar to that on the uninjured contralateral side. The position of the lesser trochanter must not be changed and so this must bust be done without the plate clamped to the distal fragment.
6 Screw placement topenlarge
The plate should be fixed to each main fragment with at least three bicortical screws (six cortical holds).
Alternative: use of an internal fixator
Alternatively, if a locking plate (internal fixator) is used, four locking-head screws are inserted into each main fragment. The advantage of an internal fixator is that the plate does not need to be anatomically contoured.