Facial Asymmetry Clinical Trial
Official title:
Comparative Study Between Internal and External Distraction Osteogenesis in Lower Face Asymmetry
Distraction osteogenesis is a powerful technique for creating new bone during significant
lengthening of the mandible without the need for bone grafting and associated donor site
morbidity.
The idea of distraction osteogenesis was largely abandoned by many until the 1950s. Ilizarov
minimized complications by performing a corticotomy with minimal disruption of the
surrounding blood supply and using a system of tension ring fixators to control the
distraction in multiple planes. Through a series of experimental studies and clinical
applications, Ilizarov established the foundation of distraction osteogenesis and its role in
orthopedic management.
Applications in craniofacial surgery were first seen in 1973, when Synder et al applied the
approach to mandibular lengthening in a canine animal model. Almost another 20 years passed
before McCarthy and colleagues published, in 1992, the first report of mandibular lengthening
in 4 children with congenital mandibular deficiency, 3 with hemifacial microsomia, and 1 with
Nager syndrome. Thereafter, its role rapidly expanded to the midface and nearly all classic
approaches to craniofacial reconstruction.
In general, mandibular distraction can be performed in the ramus for ramus lengthening, in
the mandibular angle for downward and forward advancement, or in the mandibular body. Ramus
or gonial angle distraction are mainly used to treat facial asymmetries as in hemifacial
macrosomia.
Severe mandibular retrognathia can be classified as congenital or acquired. Congenital
abnormalities that are associated with severe mandibular retrognathia or micrognathia include
craniofacial syndromes such as hemifacial microsomia, Pierre-Robin syndrome, Treacher-Collins
syndrome, and Nager syndrome. Adult patients with craniofacial syndromes may have undergone
previous surgery at an earlier age, but unfavorable postsurgical growth or skeletal relapse
may have occurred.
Severe mandibular retrognathia also can develop following maxillofacial trauma and mandibular
fractures, which may have occurred in an adult or as a child Condylar fractures occurring at
an early age can result in subsequent bony and/or fibrous temporomandibular joint ankylosis
and/or deficient mandibular growth, also adult patients with complications from previous
mandibular tumor resection and reconstruction can also present with acquired severe
mandibular retrognathia that may require distraction osteogenesis as well.
Despite the advantages of extra-oral distraction devices in the hands of clinicians
(application for very small children, simplicity of attachment, ease of manipulation,
bidirectional and multidirectional dis- traction), patients are apprehensive about wearing
bulky external appliances because of the social inconvenience and the potential of permanent
facial scars, these disadvantages and limitations were the primary force driving the
evolution of mandibular lengthening and widening toward the development of intra-oral
devices.
However nowadays both internal and external distractors are used in a variety of indications
in these cases each of the two types of distractor devices has its own advantages and
disadvantages.
Aim of the work:
The aim of this study is to compare external and internal distraction devices for mandibular
lengthening in terms of bone lengthening, patient comfort, and complications.
The study will be conducted on 30 patients who are suffering mandibular problems either
congenital acquired or post tumor mandibular resection that requires lengthening of the
mandible, attending the outpatient clinic of Plastic Surgery Department in Ain Shams
University Hospital & Assiut University Hospital.
Preoperative assessment:
- Informed consent will be obtained from all patients before their inclusion in the study.
- Photographs will be taken for the patient in lateral, antro-posterior and oblique
positions preoperative.
- Lateral cephalometric radiographs or computed tomography (CT) or cone beam CT scans will
be done for each patient pre-operatively.
- The decision to perform internal or external device will be based on preoperative and
intraoperative considerations, such as anatomical bony characteristics affecting the
possibility to place internal devices and patient cooperation.
Principles of the operation:
- anaesthesia: general anesthesia.
- Intraoperative consideration of internal versus external distractor is decided depending
on the availability of bone stock.
- Osteotomy will be done according to each case individually making sure that it suits the
vector of distraction required for each case.
- The approach for the external devices will be intraoral between the mental nerve
anteriorly and gonial area posteriorly on both sides of the mandible.
- The approach for internal devices will be intraoral. While preserving the mandibular
branch of the facial nerve.
- After 3-5 days of latency period for callus organization, gradual lengthening of the
mandible will be performed at a rate of 0.5 mm twice a day for a total of 1 mm per day
until achieving desired length.
Postoperative management and assessment:
- The patient will take broad spectrum and anaerobic antibiotics, anti-edematous,
analgesic in addition to supportive treatment.
- After 3-5 days of latency period for callus organization according to patient age and
condition, gradual lengthening of the mandible was performed at a rate of 0.5 mm twice a
day for a total of 1 mm per day until achieving desired length.
- Following distraction phase there will be consolidation phase that will not be less than
8 weeks.
- Removing of internal or external distractor device and start retention phase if required
with assistance of orthodontic appliances to avoid relapse.
- The patients will be evaluated with lateral cephalograms and head CT to assess the
changes and amount of new bone formation following distraction.
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