Retrospective study maxillofacial fractures epidemiology and treatment plans in Southeast of Iran.

BACKGROUND: The epidemiology of facial injuries varies in different countries and geographic zones. Population concentration, lifestyle, cultural background, and socioeconomic status can affect the prevalence of maxillofacial injuries. Therefore, in this study, we evaluated the maxillofacial fractures epidemiology and treatment plans in hospitalized patients (2012-2014) which would be useful for better policy making strategies.
MATERIAL AND METHODS: In this retrospective study, the medical records of 386 hospitalized patients were evaluated from the department of maxillofacial surgery at Bahonar Hospital of Kerman, Iran. The type and cause of fractures and treatment plans were recorded in a checklist. For data analysis, ANOVA, t-test, Chi-square, and Fisher's exact test were performed, using SPSS version 21.
RESULTS: The majority of patients were male (76.5%). Most subjects were within the age range of 20-30 years. Fractures were mostly caused by accidents, particularly motorcycle accidents (MCAs), and the most common site of involvement was the mandible (parasymphysis). There was a significant association between the type of treatment and age. In fact, the age group of 16-59 years under went open reduction internal fixation (ORIF) more than other age groups (P=0.02). Also, a significant association was observed between gender and the occurrence of fractures (P=0.01).
CONCLUSIONS: Considering the geographic and cultural indices of the evaluated population, it can be concluded that patients age and gender and trauma causes significantly affect the prevalence of maxillofacial traumas and fracture kinds and treatment plans.

Introduction

Traumas arising from physical injuries are the most common type of trauma and may occur due to various reasons. Considering the prevalence of physical traumas and their deleterious effects on individuals, these injuries are among the major health concerns, worldwide (1). In fact, in the United States, accidents are the third cause of death in all age groups (2,3).

Disregard for safety while driving, working, and performing daily activities can result in physical traumas. Moreover, treatment and rehabilitation are associated with psychological problems, severe morbidities, disabilities, and mental damages. In addition, these traumas impose a significant financial burden on individuals and societies (4,5).

Facial soft and hard tissue injuries may be caused by occupational injuries, falls, motor vehicle accidents (MVAs), sports injuries, and interpersonal violence (6). The epidemiology of facial injuries varies in different countries and cities and geographic zones. Population concentration, lifestyle, cultural background, and socioeconomic status can affect the prevalence of maxillofacial injuries (7).

Several studies have investigated the epidemiology of facial injuries in different countries and populations (8-13). However, there is still limited data regarding the epidemiology and treatment of facial injuries in developing countries, especially in Iran. Some researchers have studied the prevalence of maxillofacial fractures in different provinces and regions of Iran (14-16). However, there is still insufficient information available about the etiology and outcomes of these injuries especially in Kerman province.

In Iran, MVAs are the most common cause of maxillofacial fractures, and the rate of these accidents is following a rising trend (17,18). Maxillofacial fractures are classified as serious injuries, given the specific anatomic features of jaw and face; these injuries are also more common among men and 20-30-year-old individuals (19).

Facial fractures are of grave importance, considering the adverse socioeconomic and psychological consequences for patients. Therefore, in this study, with the aim to expand the available statistical data in Iran, we evaluated the incidence of maxillofacial fractures in hospitalized patients, based on age and gender and type and treatment plan in the Oral and Maxillofacial Surgery Department of Bahonar Hospital of Kerman, located in south east of Iran during 2012-2014.

Material and Methods

- Patients

In this retrospective cross-sectional study, census sampling was applied. All patients were completed Informed consent form before including in the study. Patients, admitted to the Oral and Maxillofacial Surgery Department at Bahonar Hospital of Kerman during 2012-2014, were included in the study. The sample size was calculated at 386 subjects. The exclusion criteria were as follows: 1) the immediate treatment of outpatients without hospitalization; 2) patients with only dentoalveolar fractures which were redacted by arch bar without hospitalization; 3)non-completed or incomplete medical records; 4)undergoing other procedures such as opening of the arch bar or removal of a plate in patients whom underwent maxillofacial surgeries before; 5)patients with only soft tissue injuries who were treated in emergency room without hospitalization; and 6) unavailability of their cords of patients referring to the otolaryngology department (4,1,20). After excluding these cases, only 221 patients were remained to analysis.

- Methods

All demographic data (e.g., patients age and gender) were collected, and the patients’ medical records were reviewed to extract information related to the date of referral, cause of trauma, patients’ complaints, involved injured bones, concomitant fractures and injuries of soft tissues and other organs, the exact mandibular status, facial examinations, and radiographic images. Data collection tools included observation and census sampling of medical records and documents. Also, we used the archived oral and maxillofacial radiology reports at the surgery department of the hospital.

Maxillofacial fractures were treated using the following methods in our department: 1) closed reduction (CR); 2) open surgical treatment or open reduction & internal fixation (ORIF); 3) follow-up and reevaluation of the status of suspected fractures (without any specific treatments).

- Ethical considerations

Ethical considerations were taken into account throughout the study, and the patients’ names and medical information remained completely confidential. The subjects’ medical history was used solely for the purposes of the current study. The research proposal was approved by the ethics committee of Kerman University of Medical Sciences with the 289.93.k code.

- Statistical analysis

We used descriptive statistics such as distribution and continuity (mean and standard deviation) for representing the obtained data. For data analysis, t-test was performed to compare the variables between females and males. ANOVA test was used for the comparison of variables in more than two groups, based on the cause, location, and year of the accident. Moreover; Chi-square was performed to assess the association between qualitative and quantitative variables. In this study, the significance.

Level was considered at 0.05, and SPSS version 21 was used for statistical analysis.

Results

Of 221 patients, 169 cases (76.5%) were male and 52 subjects (23.5%) were female. The mean age of subjects was 26.9±12 years (age range: 1-71 years). As it can be seen in Table 1, the majority ofsubjects were within the age range of 20-30 years. The highest rate of fractures occurred in summer (31.22%). In fact, the highest rates were reported in September and October (13.12% each), followed by April (11.76%). In total, 121 and 100 cases were selected in 2013 and 2014, respectively.

Table 1

Frequency of maxillofacial fractures in different age groups

MCAs accounted for the majority of traumas (57.5%) followed by CA (13.6%), and occupational injuries had the minimum prevalence (2.3%). In 221 patients, 384 anatomic and bone fractures were reported, and in total, 488 cases of fracture lines were found. We also determined the anatomical location of maxillofacial fractures. It should be noted that the total percentage of fractures in anatomic locations was higher than 100%, given the possibility of having fractures in several locations. Mandibular fractures had the highest frequency (47.1%), followed by nasal bone (43.9%), Zygomaticomaxillary complex (ZMC) fractures (32.1%) ( Table 2).

Table 2

Frequency and percentage of the anatomical location of maxillofacial fractures.

We examined the frequency and distribution of maxillofacial fracture lines in anatomical locations; the findings showed that bilateral fractures were the most common form in the mandible (50%), followed by left-side injuries (27.9%).The most common fracture sides were the left ZMC, zygomatic arch, and the orbit.

The location and anatomical position of fractures were determined in the mandible; 186 lines were detected in 104 fractured mandibles, which was due to variations in mandibular fractures in each patient. The most common anatomical location of mandible fractures was the parasymphysis (25.2%), followed by subcondylar region (18.8%). The lowest number of fractures was recorded in the coronoid area (0.5%) ( Table 3).

Table 3

The frequency of the anatomical location of mandibular fractures.

Based on Peterson’s classification (20), if parasymphysis was considered as a portion of symphysis, fracture frequency was estimated at 31.3%. If the head and neck of condyle and subcondylar regions were considered as a single component, the overall incidence of condylar fractures was 30%.

A total of 58 fracture lines were reported in 36 patients with fractured maxilla, and the most commonly reported site was Le Fort1 (the palate is separated from the maxilla) with 29% prevalence followed by Le Fort2 (the maxilla separates from the face ) and Le Fort 3(craniofacial dysjunction is present (24.4% and 24%, respectively) (21) (Fig. 1).

Figure 1

Le Fort classification of maxillary fractures.

Soft tissue traumas were reported in 146 patients (66.1%). Lip injuries were the most prevalent soft tissue traumas, reported in 34.2% of cases, followed by chin, forehead, and eyelid injuries (30.8%, 29.4%, and 21.2%, respectively). Moreover, simultaneous injuries were reported in 97 patients (43.9%). The most common associated injury was orthopedic damage, reported in 47.42% of the patients followed by cranial fractures with 21.64%.

In these cases, the most frequent treatment was CR (64.3%), followed by ORIF (49.3%). It was possible to perform both CR and ORIF for several fractures in one patient simultaneously.

In zygomatic arch fractures, CR accounted for 92.5% of treatments; also, this type of treatment was performed in 92.8% of nasal fractures. However, open treatment was more common in ZMC and orbit fractures (93% and 79.2%, respectively). In condylar fractures of the mandible, CR was performed in 83% of cases. Also, CR was performed in 64.5% of non-condylar fractures including the mandibular symphysis, body, and angular regions.

Considering the categorization of fractures, 108 cases (48.8%) had single fractures and 113 subjects (51.2%) had multiple injuries ( Table 4).

Table 4

Association between the cause of maxillofacial fractures, gender, and type of fracture.

The prevalence of fractures in males was 3.25 times higher than females (P=0.01). The mean age of subjects during the accidents was 26.5±10.7 years in men and 28.2±15.8 years in women; there was no significant difference between years in males and females (P=0.6, t- test). A significant association was observed between gender and the cause of fractures, with an exception of falling down cases (P=0.03). Males were more prone to MVAs, occupational injuries, and assault, compared to females ( Table 4, Table 5).

Table 5

Hospitalization frequency and percentage of traffic accidents and all other etiological agents according to gender.

In cases of assaults, falling downs and occupational injuries, the fracture types were simple and isolated, while in car accidents, especially motorcycle accidents, most fractures were multiple. Incidents involving firearm bullets included 4.5% of all trauma cases. In this regard, Chi-square test showed a significant association between the type of fractures and cause of trauma (P=0.005) ( Table 4).

The findings showed that most maxillofacial treatment plan were closed reduction (CR) (64.30%) followed open reduction (29.30%) and no treatment and follow up (6.40%). Also, in the age group of <15 years, most maxillofacial treatment plan were CR (73.7%); CR was also reported in the age group of>60 years (82%). In the age group of 16-59 years, open reduction (ORIF) was the predominant treatment method (54.6%). Fisher‘s exact test showed a significant difference between the type of treatment and age; in fact, the age group of 16-59 years under went ORIF more than other age groups (P=0.02).

Discussion

Kerman is the largest, most developed and most important city in Southeast Iran (population of about 3000000 (22). Also, Oral and Maxillofacial Surgery Department at Bahonar Hospital of Kerman is most equipped, most advanced and most developed Maxillofacial Surgery Department in South-East Iran.

In Kerman, there are some laws against drinking and driving, laws that require the use of seat belts and speed limits for the roads traffic (60 and 80 km/h) (23).

During 3 years, from January 2012 to December 2014, 221 patients were treated by oral and maxillofacial surgery specialists, and the analysis of this sample may provide knowledge about the current distribution of facial fractures in Southeast Iran, as well as help to build a database that may improve medical and dental programs to prevent facial trauma.

Not only maxillofacial traumas can be life-threatening, given the severe bleeding and airway compromising, but facial disfigurement and loss of function are two major consequences of maxillofacial injuries; these injuries may be also followed by blindness or difficulty in jaw function. Therefore, it is of high significance to identify the etiology and epidemiology of maxillofacial traumas. As we showed, the incidence rate of fractures in men was higher than women. This finding was in agreement with several previously conducted studies (1,8,13,14,16,24-30); this shows the alignment of the current research with the mentioned studies.

Bakardjiev and Lee in retrospective studies investigated the prevalence of maxillofacial fractures in southern Bulgaria and Jeju in Korea, respectively (31,32). Correspondingly, they reported a higher number of injuries in males, compared to females.

Male are generally more socially active and more involved in life-threatening activities, sports, and violence.

The highest number of injuries was reported in the age range of 20-30 years, in agreement with other studies (8,13,28,32-35). Iida et al. reported that the most frequent age group was the 11-20 groups, because they are more exposed to all the etiological agents assessed than any other age group (27). Due to their wish to enjoy the pleasures of modern life, these subjects are potentially more likely to exceed speed limits, and even get involved in physical conflicts as a result of their increased physical energy.

Also, in this study, the highest number of traumas was recorded in October, which was consistent with the findings by other studies (13,36-38). This result can be explained by this fact that in the summer and autumn in Iran, people tend to be more exposed to risk situations, for example, by engaging more frequently in physical activities, taking part in social reunions, and road trips. All these factors certainly contribute to increase the incidence of major causes of trauma, namely traffic accidents, falls, and aggressions.

The maximum number of fractures was reported in the mandible. There was a significant association between the cause of fractures and gender. In fact, males were more affected by MVAs, violence, and occupational injuries (except falling down) than females. Also, we found a significant association between age and type of treatment.

In our study, the ratio of patient to year was higher than that reported in other investigations such as studies by Mesgarzadeh and Arangio, who assessed the prevalence of maxillofacial fractures in west of Iran and Italy, respectively (39,40).

This study showed that MCAs were the most common cause of fractures (57.5%). This finding was aligned with the results of studies by Van Hout, Momeni, and Mohajerani (17,41,42). However, cultural differences, sports activities, daily activities, and occupational status might affect the etiology of maxillofacial traumas and lead to discrepancies between different studies.

Review of literature showed that the most common cause of facial fractures is associated with traffic accidents (8,27,34,37,43,44), but others have demonstrated that assault is the most frequent etiological agent (44,45). According to the research work by Taher (32), fractures caused by firearm bullets are the most common in Iran. Our results showed a high incidence of fractures caused by traffic accidents, particularly those that involve cars, which is particularly significant among individuals 21-30 years of age. However, this and other etiological agents recorded in this study directly depend on the age and gender of the patient and determine the frequency at which a certain region of the facial skeleton sustains a fracture.

As a result of this research work, it is showed that traffic accidents were the cause of 71% of the cases. Iida et al. (27) conducted a retrospective study with 1502 patients with facial fractures and found that traffic accidents accounted for 52% of the cases. The explanation for the high incidence of traffic accidents found in both the study by Iida et al. (27) and our study lies in the type of hospital where both studies were carried out, namely, local reference centers for the treatment of trauma.

In the present research work, it is found that assault is the second most frequent etiological agent (12.2%), a finding that is in agreement with other studies (1,37,46). Most patients treated at our hospital in addition to other social and economic problems had a low socioeconomic status. The increase in urban violence observed in Kerman is strongly associated with social/economic conflicts to which many people, especially youngsters, are subjected. Taking into consideration this complex scenario and the current tendency of urban violence and social conflicts to increase, we believe that a potential reduction in interpersonal violence as a major cause of trauma seems to be much more difficult and unlikely than a reduction in facial trauma caused by traffic accidents.

Our findings showed that the mandible was the most involved bone (47.1%) followed by nasal bone fractures(43.9%), results that are in agreement with those reported by other authors (8,13,16,27,34,47,48). Zandi et al, Hussain et al., showed that nasal bone fractures were the most prevalent type of trauma (3,18,45) which were the second most prevalent maxillofacial fracture in our study. Some other studies (26,49) found that facial fractures in the zygomatic complex were more frequent. Minor differences in the frequency of fractures can be caused by variations in the etiology of fractures in various studies.

Motamedi showed that condylar and parasymphysis regions accounted for the highest number of fractures (14); this finding is in agreement with our obtained results.

The increasing in use of motorbikes has led to a greater number of accidents and, consequently, facial fractures (28). According to Huelke and Compton (43), although car accidents are more frequent, motorbike accidents are usually more serious. Despite the speed limits enforced and respected in, for example, Thailand, accidents result from the difficulty in accepting to wear helmets because of the hot weather (50) High speeds, together with the disrespect for traffic laws, and a frequent disregard for the need to wear a helmet are two problems in Kerman, either due to hot weather or discomfort, which leads to serious, often fatal accidents. According to Subhashraj et al. (28), motorbike accidents are more frequent in India due to socioeconomic conditions, speeding, disrespect for traffic laws, poor road conservation, and not wearing a helmet or safety equipment.

From all of injures, facial fractures causes by firearm bullet wounds was determined about 4.5% that is similar to Paes et al. (1). Taher (32) reported that 69.04% of the cases were caused by firearm bullets, whereas 24.44% were due to traffic accidents. Ugboko et al. (36) reported that firearm bullets are the main reason for 2.7% of the fractures.

Some studies have also reported cranial injuries as the most common associated trauma (19,38,51). This relatively conforms with the current findings, which showed that cranial injuries were the second most prevalent type.

The prevalent method of treatment in our study was based on closed reduction (64.3%), which was relative to other results (14,15,51). No complications concerning occlusion and mouth opening were encountered in these patients.

For treatment of mandibular fracture, several methods of closed reduction were used for example the Ehrich’s arch bar, other interdental wirings and splints. In developing countries closed reduction are preferred by the people against the open reduction (52).

In the past 15 years, plate osteosynthesis has become popular in the management of facial fractures and in the treatment of mandibular fractures (53). Surgeons prefer it because it offers stable and precise anatomical reduction of fragments, allows immediate recovery of function as it has no IMF, shortens the period of bone healing and decreases the recovery period. Despite the obvious advantages, it has not become popular in many developing countries mainly because of cost factors. However, 35.7% of all maxillofacial fractures in our series were treated with open reduction and internal fixation. Patients treated with ORIF were routinely placed in inter maxillary fixation only intra-operatively. IMF was then released in all except for the cases which had concomitant condylar fractures, planned to treat conservatively with arch bars and IMF.

In our institute, open reduction and internal fixation using miniplates are the most preferred treatment plans for maxillofacial fractures. The technical and functional advantages of miniplate osteosynthesis over maxillomandibular fixation including the ease of use, precise anatomical reduction, limited or complete avoidance of maxillomandibular fixation, functional stability and improved mouth opening have made it more preferable (51).

Finally, the epidemiological study of facial trauma makes it possible to outline the risk situations, as well as the characteristics of individuals susceptible to this type of trauma. Moreover in the planning how to manage their patients, the evaluation of treatment effectiveness and the understanding of complications may provide a more realistic and consistent interpretation. It should be mentioned that besides to this fact that trauma should not only be seen exclusively as a medical condition, but also as a social and economic problem. Healthcare costs to treat victims, damage to property involved in the traumatic event, losses in wages, and permanent or transient disability often lead to difficulties in the reintegration and rehabilitation of victims into society and their return to work (1).

Conclusions

Considering the geographic and cultural indices of the evaluated population, it can be concluded that the patients age and gender and trauma causes, significantly affect the prevalence of maxillofacial traumas and fracture types and so the best treatment plans. This would be useful for appropriate health care policy and management set up in every society.