147147

Closed reduction in the treatment of neglected mandibular 
fractures at the Department of Oral and Maxillofacial Surgery, 
Universitas Airlangga

Olivia Jennifer Gunardi, Riska Diana, David Buntoro Kamadjaja and Ni Putu Mira Sumarta 

Department of Oral and Maxillofacial Surgery,
Faculty of Dental Medicine, Universitas Airlangga,
Surabaya – Indonesia

ABSTRACT
Background: The mandible is one of the bones most affected by facial fractures commonly resulting from trauma to the face. The 
ultimate goal of treatment is to re-establish the pre-injury dental occlusion (bite), mandibular anatomy and jaw function of the patient. 
Treatment approaches range from conservative non-invasive management by ’closed’ reduction and immobilization using intermaxillary 
fixation (IMF) to the more invasive surgery-based ’open’ reduction incorporating an internal fixation approach. Purpose: The purpose 
of this case series was to describe the close reduction method as a form of treatment in cases of neglected mandibular fracture. Cases: 
Four cases of single or multiple mandibular fracture were presented. Case management: All of the cases were managed using a closed 
reduction method and IMF. Conclusion: A closed reduction method in this case series produced encouraging results and could be 
considered an alternative in the treatment of neglected mandibular fractures with displacement.

Keywords: closed reduction; mandibular fracture; neglected mandibular fracture  

Correspondence: Ni Putu Mira Sumarta, Department of Oral and Maxillofacial Surgery, Faculty of Dental Medicine, Universitas 
Airlangga, Jl. Mayjend. Prof. Dr. Moestopo no. 47, Surabaya 60132, Indonesia. E-mail address: niputu.mira@fkg.unair.ac.id

Dental Journal
(Majalah Kedokteran Gigi)
2019 September; 52(3): 147–153

Case Report

INTRODUCTION

The mandible, despite being the largest and strongest 
facial bone, is one of the most affected by fractures with 
an incidence rate of 36-70%. These occur most frequently 
to males in their thirties as a result of a facial trauma.1–3 
Assault constitutes the most common cause of mandibular 
(jaw) fractures at 48-65%, followed by motor vehicle 
accidents, falls and gunshot wounds.1,4 This high rate of 
fractures can be explained by the unique characteristics of 
the mandible such as its prominence, unprotected facial 
position, mobility and limited bone support when compared 
to other facial bones.3,5,6 The mandible is the only mobile 
facial bone and in cases of injury to the maxillofacial region 
it is more vulnerable than the mid-face to fractures.7

Depending on the direction and force of the trauma, 
fractures of the mandible frequently occur at different sites.7 
The most commonly fractured areas are the body (29%), 
followed by the condyle (26%), angle (25%), and symphysis 

(17%), while the ramus (4%) and coronoid process (1%) 
are rarely fractured. The most common causes of fractures 
to the condyle, symphysis and angle include car accidents, 
motorcycle accidents, and physical assault respectively.8 
Mandible fractures can be complete or incomplete, open 
or closed, single, double, or comminuted and the result of 
direct or indirect mechanisms.4 Depending on the location 
of the fracture, the patient can present with pain exacerbated 
by jaw movement, trismus, dental malocclusion, swelling, 
bleeding, external and intraoral tenderness, dysphagia, and 
step deformity at the fracture site.2,8 Damage to the inferior 
alveolar nerve may induce anesthesia in the lower lip.8 
Furthermore, mandibular fractures can cause a variety of 
impairments, including temporomandibular joint syndrome, 
poor mastication, malocclusion, and chronic pain.6

The ultimate goal of treatment is to re-establish the 
preinjury dental occlusion (bite), mandibular anatomy 
and jaw function of the patient.2,9 Reduction techniques in 
mandibular fracture treatment may be classified as open 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v52.i3.p147–153

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148 Gunardi, et al./Dent. J. (Majalah Kedokteran Gigi) 2019 September; 52(3): 147–153

or closed depending on the presence or absence of direct 
visual access to the fracture site. Closed reduction allows 
manipulation of the fracture segments taking advantage 
of dental occlusion without direct visual access, whereas 
open reduction involves direct visual access to the fracture 
site through a surgical incision. Closed reduction and 
maxillomandibular fixation may be performed using splints 
in the form of bonded orthodontic brackets, arch bars, direct 
wires or eyelet wires. Open reduction and internal fixation 
involves the use of wires, plates and other hard-wares 
placed directly across the fractured site by means of surgical 
access.10 Treatment of mandible fractures with a closed 
reduction method is referred to as non-surgical treatment, 
while the fracture treatment performed without surgical 
procedures by manual repositioning of the fragment, 
gradual repositioning of the teeth and immobilization of 
the jaw using intermaxillary fixation (IMF), is commonly 
termed maxillomandibular fixation (MMF).11

In order to achieve optimum results, the management 
of neglected mandible fractures with large displacement is 
ideally performed using open reduction internal fixation 
(ORIF). However, if the patient refuses to be treated with 
the ORIF method due, for example, to socio-economic 
reasons, or limitations on general anesthesia facilities 
exist, then the close reduction method could represent an 
alternative treatment option. Conservative treatment, when 
properly indicated, allows for appropriate patient recovery, 
while reducing both surgery-related morbidity and the cost 
of resources.3 This case series aims to provide information 
on successful treatment involving the use of the close 
reduction method in four cases of neglected mandibular 
fracture. 

CASES

Case 1: a 13-year-old male attended the Dental Hospital of 
the Faculty of Dental Medicine at Universitas Airlangga 
complaining chiefly of difficulty in chewing and closing 
his mouth as the result of a traffic accident 11 days earlier. 
The patient had been thrown off a moving motorcycle, his 
chin subsequently making hard contact with the asphalt. 
The patient was examined in hospital shortly after the 
accident without any treatment having been initiated. The 
individual in question had a history of fainting during the 

incident, although this was not accompanied by resulting 
nausea or vomiting. Moreover, he had no history of diabetes 
or drug allergies.

Extraoral examination confirmed facial asymmetry and 
swelling of the mandibular region, right superior palpebral 
hematoma and the right maxillary region, mandibular 
retrusion, limited mouth opening, step-off deformities 
and tenderness on palpation in the right mandibular 
parasymphysis region (Figure 1). Intraoral examination 
confirmed ecchymosis in the anterior region of the 
mandible, malocclusion, anterior and posterior open bite, 
right posterior scissor bite, displacement in the 41 and 42 
regions, 10 mm overlapping, tooth mobility in the 41 region 
and tenderness on palpation in the mandibular symphysis 
region (Figure 2). A panoramic radiograph indicateded a 
vertical fracture line to the inferior border of the mandible 
between regions 41 and 42. Symphysis appeared separate 
and there was overlap of teeth 41, 31 with teeth 42, 43 
(Figure 3). On the basis of the clinical and radiological 
examination, this case was diagnosed as a mandibular 
symphysis fracture with displacement.

Case 2: A 15-year-old male attended the Dental Hospital 
in the Faculty of Dental Medicine of Universitas Airlangga 
complaining chiefly of difficulty in closing his mouth for 
the previous three days due to being hit on his left cheek in 
a school fight. No history of fainting, nausea or vomiting 
was reported. 

Extraoral clinical examination showed facial asymmetry, 
minimal swelling in the left buccal region and crepitation 
and tenderness in the left mandibular condyle region (Figure 
4). Intraoral clinical examination showed limited mouth 
opening, malocclusion, anterior open bite, redness and 
minimal swelling, instability in the posterior mandibular 
region and step off deformity in the angle of the mandible 
region. A panoramic radiograph showed a fracture line in 
the left posterior mandible region distally from tooth 38 and 

  

 

 

 

 

 

Figure 1. Extraoral clinical examination showing facial 
asymmetry.

 

 

 

 
Figure 2. Intraoral clinical examination demonstrating anterior 

and posterior open bite, in addition to fracture 
with displacement in regions 41 and 42 and two 
overlapping mandibular incisors (blue arrow).

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v52.i3.p147–153

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149Gunardi, et al./Dent. J. (Majalah Kedokteran Gigi) 2019 September; 52(3): 147–153

 

 

 

 

 

Figure 3. Panoramic radiograph indicating vertical fracture line (blue arrow).

 

 

 

 

 

 

 

Figure 4. Extraoral clinical examination showing minimal facial 
asymmetry and submental swelling.

 

 

 

 

 

 

 

 

Figure 5. Intraoral clinical examination showed laceration 
on the anterior left lower gingival mucosa (white 
arrow), right edge-to-edge occlusion, laceration with 
displacement in the 31 and 33 regions and step off 
deformity ± 3 mm inferiorly (white arrow).

 

 

 

 

 

 

 

Figure 6. Panoramic radiograph showed fracture line in the left parasymphyseal mandible region mesial to tooth 33, and in the 
ascending ramus of the left mandible region to the left of the mandibular coronoid process (blue arrow).

in the left mandibular condyle region. Following clinical 
and radiological examination, this case was diagnosed as 
fractures to the left mandibular angle and condyle.

Case 3: A 41-year-old male came to dental hospital of 
the Faculty of Dental Medicine at Universitas Airlangga 
with the chief complaints of difficulty in closing the mouth 
and gingival injury due to being hit on his chin and cheek by 
a stranger since three days prior to attending the hospital.

Extraoral clinical examination showed facial asymmetry, 
swelling in the left parasymphysis and mandibular ramus 
region, deviation of the mandible to the right during mouth 
opening, as well as step off deformity in the parasymphysis 
and left mandibular ramus region with tenderness on 
palpation (Figure 5). Intraoral clinical examination 
confirmed limited mouth opening, laceration to the gingival 
mucosa of the anterior labial mandible, malocclusion, 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v52.i3.p147–153

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150 Gunardi, et al./Dent. J. (Majalah Kedokteran Gigi) 2019 September; 52(3): 147–153

   

 

 

 

Figure 10. Extraoral clinical examination on 86th day showed no 
facial asymmetry.

 

 

 

 

 

 

 

 

 

 

 

Figure 11. Intraoral clinical examination on 86th day showed 
normal occlusion without anterior and posterior open 
bite.

 

 

 

 

 

 

Figure 7. Extraoral clinical examination indicating minimal 
facial asymmetry, laceration on and swelling in the 
submental region.

 

 

 

 

 

 

 

 

 

 

Figure 8. Intraoral clinical examination indicating laceration 
to the anterior lower gingival mucosa and ± 1 mm 
inferior displacement in the 32 region, malocclusion, 
anterior and posterior open bite.

 

 

 

 

 

 

Figure 9. Panoramic radiograph showed oblique fracture line in the left parasymphysis mandible region to the distal tooth 31 region, 
and left condyle region (blue arrow).

anterior and posterior open bite, fracture with displacement 
in the 31 and 33 regions, step off deformity of ±3 mm, 
and instability in the left posterior mandibular region. A 
panoramic radiograph showed a fracture line stretching 
mesially in the left parasymphysis mandible from tooth 
33, and in the region of the ascending ramus of the left 
mandible to the left mandibular coronoid process (Figure 
6). Following clinical and radiological examination, this 
case was diagnosed as left parasymphysis and ascending 
ramus of the mandible fracture.

Case 4: A 23-year-old male presented the chief 
complaint of difficulty in chewing and closing the mouth 
due to a motorcycle accident six days prior to attending 
the hospital. Extraoral examination revealed laceration 
to the right anterior mandible region (Figure 7). Intraoral 
examination confirmed discontinuity in the symphysis 
region and malocclusion (Figure 8). A panoramic radiograph 
indicated the presence of a fracture line in the symphysis 
region, an anterior comminuted mandible fracture, and a 
left subcondylar fracture (Figure 9). On the basis of clinical 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v52.i3.p147–153

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151Gunardi, et al./Dent. J. (Majalah Kedokteran Gigi) 2019 September; 52(3): 147–153

 

 

 

 

 

 

Figure 12. Panoramic radiograph after treatment showed union of symphysis mandible without fracture line.

 

 

 

 

 

 

 

 

 

 

Figure 13. Intraoral clinical examination on 6th week showed 
normal occlusion without anterior and posterior open 
bite.

 

 

 

 

 

 

 

 

 

 

 

Figure 14. Intraoral clinical examination on 12th week showed 
normal occlusion without anterior and posterior open 
bite, and no step off deformity in the 33 region.

 

 

 

 

 

 

 

 

 

Figure 15. Panoramic radiograph after treatment showed no fracture line in the parasymphysis and left ascending ramus of the mandible 
region.

and radiological examination, this case was diagnosed as 
one of mandibular symphysis fracture, comminuted anterior 
mandible fracture, and left subcondylar fracture.

CASE MANAGEMENT

Case 1: closed reduction was performed using an arch bar 
in the teeth 15 to 26, 35 to 41 and 42 to 45 regions, while 
elastic bands were employed to reposition bone fragment. 

During the first three days, elastic band application 
was performed laterally to reposition two separate bone 
fragments. During the subsequent three days, the traction 
direction was changed first to anterior and then to medial 
until the 20th day. The IMF was subsequently changed 
using wire in the anterior and posterior region up to the 
34th day, which was then replaced by elastic bands up to 
the 48th day. At that point, the IMF was removed, and the 
patient instructed to perform mouth opening and closing 
exercises in addition to following a soft diet for the ensuing 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
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152 Gunardi, et al./Dent. J. (Majalah Kedokteran Gigi) 2019 September; 52(3): 147–153

two weeks. On the 86th day, the subject presented no facial 
asymmetry (Figure 10) and normal occlusion (Figure 11 
and 12).

Case 2: closed reduction was performed using an 
arch bar on the teeth 16 to 26 and 37 to 46. After direct 
repositioning, fracture fragment stabilization was performed 
with IMF by means of elastic bands. Facial asymmetry 
was corrected on the third day, there was no open bite on 
the tenth day, centric occlusion was achieved on the 17th 
day, and step off deformity or crepitation in the angle and 
condyle mandible was absent on the 28th day. Following 
removal of the IMF, the patient was instructed to perform 
mouth opening and closing exercises. On the 45th day, he 
did not report any pain and demonstrated a normal ability 
to close his mouth and masticate (Figure 13).

Case 3: debridement and suturing of wound laceration 
were first performed followed by closed reduction using an 
arch bar in the teeth 17 to 27 region, and 37 to 47 region. 
After direct repositioning, fracture fragment stabilization 
was performed with IMF using elastic bands. Facial 
asymmetry was corrected during the 1st week, while no 
anterior or posterior open bite was evident during the 4th 
week. Following removal of the IMF during the 8th week, 
the patient was instructed to performed mouth opening and 
closing exercises for a period of four weeks. During the 
12th week, he demonstrated the ability to open and close 
his mouth normally (Figure 14). Moreover, a panoramic 
radiograph failed to detect a fracture line (Figure 15).

Case 4: closed reduction by means of an arch bar 
was performed for six weeks and IMF for four weeks. 
A two-week regime of mandible movement exercises 
was prescribed for the patient. The aim of this treatment 
included pain alleviation, accepted occlusion, maximum 
intercuspation (35-40 mm), and facial symmetry. On the 
40th day, no anterior or posterior open bite was observable, 
while the subject demonstrated the ability to open and 
close mouth his normally during the 8th week (Figure 
16). Evaluations conducted over a period of three months 
confirmed no post-treatment complications.

DISCUSSION

Regardless of age, the pre-injury skeletal and dentoalveolar 
anatomy and function have to be re-established by anatomic 
reduction of fractures due to occlusion.12 Treatment 
approaches range from conservative non-invasive 
management by ’closed’ reduction and immobilization 
using intermaxillary fixation (IMF), to the more invasive 
surgical ’open’ reduction with internal fixation approach.2 
Mandibular fracture without displacement and malocclusion 
are managed by close observation, a liquid to soft 
diet, avoidance of physical activities and analgesics.12 
Intermaxillary mandibular fixation (IMF) reestablishes 
the patient’s pre-surgery occlusion and, in certain cases, 
can stabilize the bone sufficiently to enable healing to 
take place. This technique can be performed in cases such 
as those involving favorable fractures, stable occlusion 
with sufficient dentition, and multiple small comminuted 
fractures.13

This case series report discusses complex neglected 
mandible fractures. All four patients agreed to be treated 
with the closed reduction technique, although ideally an 
open reduction method using ORIF was adopted to obtain 
maximum results. In these cases, the closed method was 
suitable as an alternative treatment choice.

In the first and second cases, the mandible fracture 
occurred in adolescence which constitutes an ongoing 
development period. The management of pediatric 
mandibular fractures differs from those occurring in 
adults because of the need to consider ongoing growth 
and developing dentition.13 In children, not every fracture 
needs an open reduction and internal fixation. Moreover, 
the surgeon must contemplate the interplay between fracture 
location and both bony growth and dental development in 
order to chose an intervention that reduces the potential for 
long-term impairment and deformity.14 Growth can support 
the objective of restoring form and function, especially in 
children. Treatment should be designed to support, rather 
than interfere with, this biological process.13 Children  have 
greater osteogenic potential and demonstrate more rapid 
healing rates than adults. Therefore, anatomic reduction 
must be accomplished earlier and immobilization time 
should be shorter (2 weeks versus 4–6 weeks in adults).12 
This is consistent with the opinion of Chrcanovic who 
said that, for many authors, conservative treatment of 
pediatric facial fractures has been the standard care due to 
the high osteogenic potential of facial bones in children. 
The early healing of fractures occurs with significant 
subsequent remodeling under the influence of the forces 
of mastication.15 According to Goodday,13 because of the 
high elasticity of the pediatric mandible, there is typically 
minimal displacement of the fracture fragments, rendering 
the injury amenable to a closed reduction. In contrast to 
adults, many pediatric mandibular fractures can be treated 
with conservative measures such as a soft diet alone.14 

 
Figure 16. Intraoral clinical examination on 8th week showed 

normal occlusion without anterior and posterior open 
bite.

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v52.i3.p147–153

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153Gunardi, et al./Dent. J. (Majalah Kedokteran Gigi) 2019 September; 52(3): 147–153

According to Goth,16 a period of two to three weeks of 
MMF in children younger than 12 years is sufficient. 
After the age of 10, the development of permanent teeth 
provides for safer wire anchors. However, because children 
develop at different rates, the strength of the teeth should 
be carefully evaluated before any type of wire placement 
is installed.

However, according to Der-Martirosian,1 patients 
frequently reject the treatment recommended by the 
clinician, either because they do not view positively the 
benefits of the treatment or because the risk and potential 
harmful side effects are perceived to be more serious 
than anticipated by clinicians. Occasionally, a residual 
facial scar was the most frequently expressed concern 
with regard to surgical treatment as observable in the 
third and fourth cases. Standard treatments that were 
used to repair mandibular fractures in this cases were 
non-surgical and referred to as MMF, and in most adults 
mandibular fractures require 4 to 6 weeks of stabilization 
by means of jaw wiring.1,13 In general, patients with non-
displaced or minimally displaced fractures may be managed 
conservatively through a combination of close observation, 
soft diet, analgesics, and activity precautions.9,17 The 
adoption of a simple method would reduce complications 
related to the treating of mandible fractures because open 
reduction increases the risk of morbidity.

Patients who chose the closed reduction method 
treatment had to be capable of cooperating on the basis 
of a regular follow-up schedule and to evaluate previous 
treatment results to ensure that no unintended movement 
changes occurred. Closed reduction method in this series 
of cases produced encouraging results and it could be 
considered as an alternative to the treatment of neglected 
mandibular fracture with displacement.

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Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v52.i3.p147–153

http://e-journal.unair.ac.id/index.php/MKG
http://dx.doi.org/10.20473/j.djmkg.v52.i3.p147-153