Open reduction internal fixation

The use of orotracheal intubation makes establishing proper dental occlusion very difficult. Alternatively, nasotracheal or submental/submandibular intubation should be considered. Other possibilities include placement of the endotracheal tube through a gap in the dentition or behind the posterior molars.

Depending on the patient’s general condition, a tracheostomy might also be considered and is the first choice where brain or pulmonary injuries are likely to require prolonged intubation.

Successful reconstruction of midface fractures aims to reestablish the continuity and position of midfacial vertical buttresses. These pillars even serve a critical role in patients who lack dentition (partial or completely edentulous).

A fundamental principle in Le Fort fracture treatment 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 in incomplete or impacted fractures.

To properly achieve a passive maxillary position, the fracture must be completed and the maxilla able to be passively repositioned. An osteotomy is required or strong mobilization forces used to complete the fracture. Rowe’s disimpaction forceps, a “Stromeyer” hook, Tessier retromaxillary mobilizers, etc, can be utilized for this purpose.

The goal is to achieve correct anatomical repositioning, which may be confirmed by dental occlusion when MMF is released. It is possible to displace the mandibular condyles from the glenoid fossae during the application of MMF. When the MMF is released, the condyles re-seat into their normal position in the glenoid fossae, resulting in a malocclusion.

Other methods to confirm proper reduction include intraoperative imaging and 2D or 3D CT evaluation. If available, dental casts, stereolithographic models, dental records, or premorbid photographs may also be helpful guides for treatment planning.

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

A minimum of two plates (four are preferred) are used to provide stability along the vertical buttresses. Additional plates may support comminuted alveolar fragments. If internal fixation devices are not available, interfragment wire fixation and MMF can be used.

It is difficult to give absolute guidelines for the size of the plates used at the bony interfaces. The following parameters should be considered:

1. A plate placed for the fixation of the fracture at the zygomaticomaxillary buttress is generally a sturdy plate because it is the point that will provide strong stability to the Le Fort I fracture reduction. The highest forces of mastication would be in this area. An L-, T-, or Y-plate, or a straight plate may be used depending on the fracture pattern.
2. An additional plate should be used at the piriform aperture on each side resulting in four-point stabilization of the lower midface segment.

Other factors affecting the size and strength of the plate are:

• Grade of instability and comminution of the fractures.
• Association with other midface fractures.
• The decision about whether to temporarily keep the patient in MMF postoperatively should be individualized. Uncooperative patients, and patients with comminuted fractures, multiple Le Fort fracture levels, and combined maxillary and mandibular fractures, especially condylar fractures, would benefit from postoperative MMF.

Click here for a description of implant options.

AO Teaching video on fixation of a complex midface fracture

For this procedure, standard approaches to the maxilla are used. However, if present, lacerations can be used to access the fracture site for direct fracture management. The presence of significant intraoral lacerations may require rethinking and redesigning the incision in order to avoid devascularization of the bone or compromise of the soft tissue.

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

You can choose between traditional arch bars or hybrid arch bars.

Hybrid arch bars use screws to fix the arch bar to the bone, making the procedure faster.

After exposure of the fracture segments through a maxillary vestibular approach, the fracture is mobilized to enable reduction and fixation. In cases where the maxilla mobilization cannot be accomplished using conventional methods, additional osteotomies may be required. Many surgeons prefer completing a Le Fort I level osteotomy resulting in free positioning of the Le Fort I segment rather than creating additional fractures at the Le Fort II or III levels using a device such as Rowe forceps for forced manipulation.

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

It should be noted that in cases of incomplete fracture many surgeons prefer to complete the fracture at the Le Fort I osteotomy level as a safer maneuver than using Rowe forceps for forced disimpaction.

If Rowe forceps are utilized, special attention must be paid to the correct placement of the forceps so that the upper anterior dentition is not harmed.

The maxillary fracture must be completely mobilized to allow for free repositioning.

According to regional preferences and various schools of teaching, different bone hooks may be used for fracture mobilization and reduction. In general, they are all inferior to completion of the fracture with a Le Fort I osteotomy.

The Stromeyer hook is very versatile for the transoral reduction of Le Fort fractures.

In selected cases, the Stromeyer hook can also be used to manipulate the Le Fort complex by hooking the tip of the instrument inside the piriform aperture and pulling it downwards and forwards. This technique is sometimes referred to as the “downfracture procedure” in Le Fort osteotomies.

The Tessier retromaxillary mobilizers are placed behind the maxillary tuberosities to help mobilize a posteriorly displaced and impacted maxilla, facilitating passive repositioning and a normal occlusion. The repositioned maxilla must be passive to ensure that it remains in the correct position.

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

Following reduction and fixation of the mandibular fractures, the MMF is released, allowing the condyles to sit passively in the glenoid fossa, and occlusion confirmed.

Ensuring that the condyles are properly seated within the glenoid fossae (1), the maxillomandibular complex is rotated superiorly until the point of first contact at the maxillary fracture site (2).

First, apply one plate at each zygomaticomaxillary buttress. Choose and contour the plates. Make sure that they fit passively, and the screws below the fracture line avoid the tooth roots.

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

Despite good apparent bone contact, and reasonable fracture stability, placing additional plates adjacent to the piriform aperture is always preferred. These help to provide additional fracture alignment and stability. If only two plates are utilized, the loss of fixation in one plate due to screw loosening will result in unstable fixation and possible malocclusion.

Fix an additional plate to the nasomaxillary buttresses bilaterally.

Insert at least two screws on each side of the fracture line in each plate. The plate should fit passively in order not to displace the fracture and result in change in the occlusion.

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

The occlusion is checked with a patient out of MMF with the operator’s fingers on the mandible seating the condyles in its posterior superior position within the glenoid fossa.

Any malocclusion observed, such as an anterior open bite, requires revision of the reduction.

If an open bite or Class III tendency is noted when checking the occlusion, it is likely that one or both mandibular condyles were malpositioned in the posterior or inferior direction when the reduction and fixation was performed. In such cases, it is necessary to remove the bone plates, reapply MMF, and passively reposition the maxillomandibular complex, ensuring proper seating of the condyles. Plates are then reapplied, and the occlusion is verified after rerelease of the MMF.

The illustration shows the subsequent malocclusion after release of the MMF.

Keeping the patient’s head in an upright position both preoperatively and postoperatively may significantly reduce periorbital edema and pain.

The following medications may be used:

• Analgesia as necessary (no aspirin or nonsteroidal anti-inflammatory drugs (NSAIDs) for seven days)
• In case of an open wound or exposed bone antibiotic coverage is indicated
• Regular perioral and oral wound care should include disinfectant mouth rinse, lip care, etc.

Postoperative imaging should be performed within the first days after surgery. 3D imaging (CT, cone beam) is recommended to assess complex fracture reductions.

In fractures involving the alveolar area, orthopantomograms (OPG) are helpful.

Diet depends on the fracture pattern.

A soft (non-chew) diet can be taken as tolerated until there has been adequate healing (usually 4–6 weeks).

Patients in MMF will remain on a liquid diet until the MMF is released.

Clinical follow-up depends on the complexity of the surgery and whether the patient has any postoperative problems.

Issues to consider with palatal fractures and alveolar ridge fractures include:

• Problems with dentition and dental sensation
• Problems with occlusion
• Problems with the temporomandibular joint (TMJ), such as reduced range of motion and pain

The need for and duration of MMF are very much dependent on:

• Fracture morphology
• Type and stability of fixation (including palatal splints)
• Dentition
• Coexistence of mandibular fractures
• Premorbid occlusion

Patients with arch bars, intraoral incisions, or wounds must be instructed about appropriate oral hygiene procedures. The presence of arch bars or elastics makes oral hygiene more complicated. A soft toothbrush (dipped in warm water to make it softer) should be used to clean the teeth and arch bars. Elastics are removed during oral hygiene procedures. Disinfectant mouth rinses (Chlorhexidine) should be prescribed and used at least three times a day to help sanitize the mouth.

For larger debris, a 1:1 mixture of hydrogen peroxide/Chlorhexidine can be used. The effervescent action of the hydrogen peroxide helps remove debris. A jet irrigator, (eg, Waterpik) is a handy tool to help remove debris from the wires. If used, care should be taken not to directly point the jet stream over intraoral incisions, which may lead to wound dehiscence.