Executive Editor: Edward Ellis III, Kazuo Shimozato General Editor: Daniel Buchbinder

Authors: Carl-Peter Cornelius, Nils Gellrich, Søren Hillerup, Kenji Kusumoto, Warren Schubert

Midface - Le Fort I, unilateral comminution - ORIF

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1 Principles top

Le Fort I enlarge

General considerations

Considerations related to dental occlusion render nasotracheal intubation necessary. If that is not feasible, primary submental/submandibular intubation should be considered. Depending on the patient’s general condition, a tracheostomy might also be considered.

The aim of successful reconstruction of midface fractures is reestablishing the midfacial vertical buttresses. These pillars can serve an even more important role in patients who lack dentition (partial or completely edentulous patients).

A principle in all Le Fort fractures is to reestablish the premorbid dental occlusion. Portions of the pterygoid plates and associated musculature are still attached to the posterior portion of the maxilla, so passive mobilization of the fracture can be difficult. Without passive mobilization, Class III tendency often occurs in the postoperative period. The reason for this is that when patients are placed into MMF during surgery, soft-tissue tension from the attached musculature distalizes the mandibular condyles in the glenoid fossae. When the MMF is removed, the condyles re-seat themselves into their normal position, bringing the mandibular dentition forward, creating a Class III malocclusion. In order to properly achieve a passive position of the maxilla, the maxilla requires strong mobilization forces using varied instrumentation: Rowe’s disimpaction forceps, “Stromeyer” hook, Tessier retromaxillary mobilizers, etc.

The goal is to achieve an anatomical correct repositioning by means of 3-D reconstruction. If available, dental cast, stereolithographic models, and/or premorbid photographs may be useful guides for treatment.

As a general principle, all facial fractures should be exposed and reduced before plating.

Choice of implant

It is difficult to give absolute guidelines as to the strength of the plates that would be used at the bony interfaces for a Le Fort I fracture. The following however should be considered:

  1. A plate that is placed for the fixation of the fracture at the zygomaticomaxillary buttress is generally a larger plate because it is the point that will provide most stability to the Le Fort I fracture. The highest forces of mastication would be in this area. Depending on the fracture pattern an L-, T-, Y-plate or a straight plate may be used.
  2. Another plate can also be applied at the piriform rim.

There is considerable variation in different cases as to how unstable or comminuted the fractures may be. Furthermore, the majority of Le Fort I fractures are also associated with a multitude of other midface fractures. This has further impact on deciding the size and strength of the plate that must be used. Finally, in many cases of Le Fort I fracture with other panfacial trauma, many surgeons may choose to leave the patient in MMF for a period of time postoperatively. This has a further impact in deciding whether a larger or smaller plate is adequate.

Click here for a description of implant options.

Teaching video

AO Teaching video on fixation of a complex midface fracture

2 Approach top

Principles enlarge

For this procedure, standard approaches to the maxilla are used. However, if present, lacerations can be used to directly access fracture site for fracture managment.

3 Reduction top

Le Fort I enlarge

Arch bars

First, arch bars are secured to the dentition. Click here for a detailed description of mandibulomaxillary fixation.

Le Fort I enlarge


After exposure of the fracture segments through a maxillary vestibular approach, the fracture has to be mobilized to enable reduction and fixation.

Le Fort I enlarge

Reduction instruments

Rowe disimpaction forceps

The Rowe disimpaction forces are side specific. They allow the application of great amounts of force to disimpact and reposition the maxilla and midface.

Note: Special attention has to be given to the patient individual fracture pattern so that the use of these instruments does not result in significant shearing at the skull base or orbit. Otherwise, severe complications such as blindness can occur.


Le Fort I enlarge

Special attention has to be paid regarding the correct placement of the Rowe disimpaction forceps so that the upper anterior dentition is not harmed.

The maxillary fracture is completely mobilized and an attempt should be made to make the fragment as passive as possible. This may require an up-down and side-to-side movement of the forceps.

Le Fort I enlarge

Bone hooks

According to regional preferences and various schools of teaching, different bone hooks are used for fracture reduction.

  • Reduction hook (Stromeyer hook)

The Stromeyer hook (Georg Friederich Louis Stromeyer, Hannover, Germany, 1804-1876) is very versatile for transoral reduction of Le Fort fractures.

In selected cases the Stromeyer hook can also be used for manipulating the Le Fort complex by hooking the tip of the instrument inside the piriform aperture and pulling downwards and anteriorly. This technique is called downfracture procedure in Le Fort osteotomies.

Le Fort I enlarge

Placing the patient into MMF

After the fracture has been adequately mobilized, the patient is placed into MMF. Click here for a detailed description of various MMF techniques.

Note: In case of concomitant mandibular fractures, the integrity of the mandible should be restored as a first measure.

Le Fort I enlarge

Reducing the maxilla

Ensuring that the condyles are properly seated within the glenoid  fossae (1), the maxillomandibular complex is rotated superiorly until the point where maximum bone contact occurs at the fracture site (2).

4 Fixation (comminution without defect) top

Le Fort I enlarge

Apply plates to the linear fracture side

Fix the noncomminuted side by applying two plates along the vertical buttresses. Choose and contour the plates. Make sure that the screws placed below the fracture line avoid the tooth roots.

Insert at least two screws on each side of the fracture line in each plate.

Le Fort I enlarge

Apply plates to the comminuted fracture side

Fix two plates to the comminuted side. It is advisable to start with the lateral plate (1).

Insert at least two screws on each side of the fracture in each plate.

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Secure fracture fragments to the plate

After the two plates are properly fixed, further screws can be inserted in order to fix fracture fragments to the plates.

Le Fort I enlarge

Pearl: predrilling of comminuted fragments
Fixation of comminuted fragments to the plate is a demanding procedure which can be facilitated by predrilling the bony fragment outside the operational field. Therefore:

  • Mark (or remember) the plate hole position on the surface of the fragment
  • Remove the bony fragment
  • Drill a pilot hole into the bony fragment

Le Fort I enlarge
  • Reposition the bony fragment using a forceps
  • Fix the fragment with a screw.

Note: self-retaining screw drivers can be a disadvantage when dealing with thin bony fragments. It is advised to use non-self-retaining screw drivers.

Note: Using a screw with small diameter and low pitch allows for better retention.

5 Fixation (comminution with defect) top

Le Fort I enlarge

Apply plates to the linear fracture side

Fix the noncomminuted side by applying two plates along the vertical buttresses. Choose and contour the plates. Make sure that the screws placed below the fracture line avoid the tooth roots.

Insert at least two screws on each side of the fracture line in each plate.

Le Fort I enlarge

Buttressing of the defect side

Bone graft is used to fill the defect and the buttresses are restored by plates.

The lateral buttress is plated first, followed by the medial buttresses. The lateral segment is repaired in the following order:

  • Contour the plate to the buttress area.
  • Insert the bone graft.
  • Position the plate.
  • Fix the bone graft to the plate while the surgeon or an assistant keeps the graft in place.


Indications for bone grafting

Indication (bone grafting)

  • Loss of bone volume and loss of buttressing

Contraindications (bone grafting)

  • Inability to stabilize bone graft and maxilla
  • Inability to obtain soft-tissue closure over graft

Advantages (bone grafting)

  • Support for facial soft tissues
  • Restoration of bony buttresses
  • Prevention of loss of facial height

Disadvantage (bone grafting)

  • Donor site required for bone graft harvesting

Le Fort I enlarge

  • Fix the plate to the main fracture fragments (at least two screws in each fragment).

Le Fort I enlarge

The medial plate is applied second. The bone graft is fixed to the plate while an assistant holds the bone graft with a forceps.

Le Fort I enlarge

After the plate has been fixed to the bone graft, the plate is fixed to each main fracture fragment with at least two screws.

Le Fort I enlarge

Shaping the bone graft

If the bone graft is prominent, trimming with a diamond burr may be necessary. This is particularly important along the piriform aperture in order not to impinge on the nasal soft tissues.

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Illustration shows the completed osteosynthesis.

6 Check of occlusion top

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After internal fixation has been completed, MMF is released and the occlusion checked.

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Pitfall: malocclusion
If an open bite and/or Class III tendency occurs when checking the occlusion, one or both mandibular condyles were malposed in posterior and/or inferior direction. In such cases, it is necessary to remove the bone plates, reapply MMF, and passively reposition the maxillomandibular complex again, assuring the condyles are properly seated. Bone plates are again applied and the occlusion verified.

The reason for a malocclusion may be the fact that the condylar heads were not positioned correctly in their respective glenoid fossae when securing MMF (as illustrated).

Le Fort I enlarge

Illustration shows the subsequent malocclusion.

v1.0 2009-12-03