Management of High-energy Avulsive Ballistic Facial Injury: A Review of the Literature and Algorithmic Approach

Management of Avulsive Soft Tissue Ballistic Facial Injuries

Ballistic facial injuries are rare yet challenging cases for plastic surgeons that often comprise of avulsive tissue loss. They require in-depth assessment and staged reconstruction after patient stabilization. Each anatomic region of the face holds specific considerations that should be prioritized during reconstruction. Soft tissue repair techniques of facial gunshot wounds are widely variable and range from primary closure to multistage free flaps. Large, devastating facial defects after ballistic trauma previously posed significant challenges for reconstruction; however, advances in composite tissue transplant and allografts have expanded plastic surgeons' reconstructive arsenals. The goal of this review is to focus on the fundamentals of soft tissue management and reconstruction after ballistic facial injury. Through sound surgical principles, patients may achieve optimal aesthetic and functional outcomes despite experiencing highly morbid facial ballistic injuries.

Simultaneous Coronoid Bone Grafting in Ballistic Facial Trauma Patients Undergoing Coronoidectomy

Ballistic facial trauma can cause complex fractures and overlying soft tissue damage, with a zone of injury that extends beyond the bullet tract. Early skeletal fixation is indicated, and previous large case series describe the use of debrided bone fragments as 'spare part' grafts. This series presents the indications and techniques for simultaneous coronoid bone grafting in 2 patients who sustained a gunshot wound to the right midface and required coronoidectomy. The coronoid process was used as (1) an interposition graft in the lateral buttress of the right maxilla for stability, and (2) an onlay graft on the right inferior orbital rim for contour. Both patients did not have graft infection, extrusion, or malposition at the 1-month clinic follow-up. The coronoid process of the mandible is a viable, safe spare-part option, despite the possible location of the coronoid process within the zone of injury in the reconstruction of complex ballistic facial trauma.

Ballistic Facial Trauma Reconstruction: Incidence and Practice Patterns in the Civilian Population

BACKGROUND

Management of nonfatal ballistic facial trauma is well described in the literature for wounds secondary to military combat. However, there is little literature describing such management in civilian practice. We aimed to describe nonmilitary patients with recent nonfatal facial injuries from ballistic trauma using the California Office of Statewide Health Planning and Development patient database.

METHODS

A retrospective study was performed using the California Office of Statewide Health Planning and Development Ambulatory Surgery and Inpatient datasets. All adults with the International Classification of Diseases, 10th Revision codes of severe nonfatal facial trauma from firearms requiring emergent surgery during 2016-2018 were included. Outcomes assessed include number and type of facial procedures performed, hospital length of stay, number of admissions, timing of definitive management, and lifetime hospitalization costs.

RESULTS

A total of 331 traceable patients were identified over this 3-year period. The average age was 35.4 years (SD, 15.2), and 87% were male. The median index admission length of stay was 8 days (interquartile range, 3-15 days). Subsequent readmission was required for 123 (37.2%) patients with 10% mortality in the index admission. Total median charges per patient for all admissions were $257,804 (interquartile range, $105,601-$531,916). A total of 215 patients (65%) had at least 1 facial repair performed. Of all 331 patients, 64.3% underwent musculoskeletal repair (n = 213), 31.4% underwent digestive system repair (n = 104), and 29.6% underwent respiratory system repair (n = 98). The average number of repairs per patient was 2.52 (SD, 3.38), with 35% not having any of the specified International Classification of Diseases, 10th Revision repair codes. A total of 27% of patients had 1 procedure performed, whereas 38% received 2 or more, for an average of 3.87 (SD, 3.5) repairs over the study duration.

DISCUSSION

To our knowledge, this is the first assessment of civilian characteristics of nonfatal ballistic facial trauma in California. Nonfatal facial ballistic trauma results in complex injuries to multiple body systems, requiring long admissions, costly hospital stays, and coordination of care across several surgical specialties. Many patients require a variety of procedures over multiple admissions, highlighting the overall morbidity of these injuries. Future studies will look at how care for these patients differs between various hospitals and geographic regions and whether current civilian management aligns with well-defined military reconstructive protocols for facial ballistic injuries.

Patterns of Maxillofacial Injures Caused by Motorcycle Accidents

Introduction  Motorcycles are used as a common means of transportation, and motorcycle accidents are responsible for a major portion of trauma injuries. Objectives  The purpose of this study was to analyze the patterns of facial injuries in motorcyclists, to evaluate the types of injuries, and to investigate if the accident-related factors had any impact on the characteristics of the injuries. Methods  This retrospective observational study included 74 patients with maxillofacial injuries following motorcycle-related accidents. Investigated data were divided into four main categories: sociodemographic, accident-related, injury-related, and treatment-related. Results  All the patients were males with a mean age (±SD) of 25.03 (±9.986) years. Most accidents ( n  = 44, 59.4%) occurred in the evening. Most of the patients ( n  = 40, 54%) were traveling on motorcycle models that had maximum speed of over 120 km/h. Furthermore, 15 patients (18.9%) were under the influence of alcohol during the crashes and only one patient was wearing a helmet. Fractures of the maxillofacial bones were observed in 50 (67.5%) crash victims; 24 of them (48%) had middle third fractures, 11 (22%) had mandibular fractures, and 15 patients (30%) presented with a combination of lower, middle, and upper third fractures. Conclusion  Almost all patients were not wearing helmets at the moment of the crash. The most common fractured site was the maxilla. The majority of the patients received surgical treatment. Increased enforcement of safety measures for riders and raising awareness about the dangers of motorcycle crashes are required measures to improve traffic safety and, ultimately, population health.

The Role of Plastic Surgeons in Addressing Firearm Morbidity and Mortality

Firearm injuries are now the leading cause of pediatric mortality in the United States. With the number of firearm injuries increasing at an alarming rate, the American Medical Association (AMA) declared firearm violence a public health crisis. In response to this emerging public health issue, the American College of Surgeons (ACS) developed the STOP THE BLEED training to educate laypersons on how to mitigate acute hemorrhage following gunshot wounds (GSWs) and other ballistic injuries. Stabilization of patients following GSWs is often handled by a multidisciplinary team of trauma and reconstructive surgeons. Here, we describe the history and ongoing role of reconstructive surgeons in preventing and addressing firearm morbidity and mortality. Hand surgeons are uniquely positioned to counsel patients on firearm safety, e.g., educating patients on proper firearm storage away from minors in the home, in an effort to mitigate accidental firearm injury to the upper extremity. As the evolving climate of firearm violence continues to rise, plastic and reconstructive surgeons will continue to play a critical role in restoring form and function among patients afflicted with GSWs.

Same-Admission Microvascular Maxillofacial Ballistic Trauma Reconstruction Using Virtual Surgical Planning: A Case Series and Systematic Review

Study Design

Retrospective case series; systematic review.

Objective

It is unknown whether the use of virtual surgical planning (VSP) to facilitate same-admission microsurgical reconstruction of the mandible following acute maxillofacial ballistic trauma (MBT) is sufficient to achieve definitive reconstruction and functional occlusion.

Methods

A single-center retrospective analysis was conducted for patients who underwent microsurgical reconstruction of the mandible using VSP after acute MBT. The PubMed/MEDLINE, Embase, ScienceDirect, and Scopus databases were systematically reviewed using blinded screening. Studies were evaluated via thematic analysis.

Results

Five patients were treated by same-admission and microsurgical reconstruction of the mandible using VSP. We observed an average of 16.4 ± 9.1 days between initial presentation and reconstruction, an average length of stay of 51.6 ± 17.9 days, 6.2 ± 2.8 operations, and 1.6 ± 0.9 free flaps per patient. Four types and 8 total flaps were employed, most commonly the anterior lateral thigh flap (37.5%). Care yielded complete flap survival. Each patient experienced at least 1 minor complication. All patients achieved centric occlusion, oral nutrition, and an approximation of their baseline facial aesthetic. Follow up was 191.0 ± 183.9 weeks. Systematic review produced 8 articles that adhered to inclusion criteria. Consensus themes in the literature were found for clinical goal and function of VSP when practicing MBT reconstruction, yet disagreement was found surrounding optimal treatment timeline.

Conclusions

Same-admission microsurgical reconstruction after MBT is safe and effective to re-establish mandibular form and function. VSP did not delay reconstruction, given the need for preparation prior to definitive reconstruction.

Comprehensive Treatment and Reconstructive Algorithm for Functional Restoration after Ballistic Facial Injury

Background:

Ballistic facial injuries are rare, with most trauma centers reporting 1–20 cases annually. These patients present significant management challenges to reconstructive surgeons, not only due to their rarity but also due to the complex decision-making process that is involved. The aim of this study was to review our experience with the application of craniofacial microsurgery in management of facial gunshot wounds.

Methods:

A retrospective review of a single-surgeon experience at a level I trauma center from 2011 to 2020 for patients sustaining self-inflicted gunshot wounds to the face requiring microsurgical reconstruction was performed. Outcomes included reconstructive techniques, free flap type and indication, airway evolution, feeding modality, respective timing of interventions, and complications.

Results:

Between 2012 and 2021, 13 patients presented for microsurgical reconstruction at our institution for gunshot wounds to the face. The majority (90%) of patients were men, and the average age at time of injury was 26. The median from the time of injury to first free flap was 93 days. Thirteen patients represented 23 free flaps. On average, patients underwent a total of two free flaps. The most common microsurgical flap was the fibula flap (14) followed by the radial forearm flap (6).

Conclusions:

Based on our findings, we describe a novel algorithm for function restoration and aesthetic revisions based on injury location. Underlying principles include avoiding early use of reconstruction plates, establishing occlusion early, and aligning bony segments using external fixation. An algorithmic approach to these injuries can improve outcomes.

Dental Management of Maxillofacial Ballistic Trauma

Maxillofacial ballistic trauma represents a devastating functional and aesthetic trauma. The extensive damage to soft and hard tissue is unpredictable, and because of the diversity and the complexity of these traumas, a systematic algorithm is essential. This study attempts to define the best management of maxillofacial ballistic injuries and to describe a standardized, surgical and prosthetic rehabilitation protocol from the first emergency stage up until the complete aesthetic and functional rehabilitation. In low-velocity ballistic injuries (bullet speed <600 m/s), the wound is usually less severe and not-fatal, and the management should be based on early and definitive surgery associated with reconstruction, followed by oral rehabilitation. High-velocity ballistic injuries (bullet speed >600 m/s) are associated with an extensive hard and soft tissue disruption, and the management should be based on a three-stage reconstructive algorithm: debridement and fixation, reconstruction, and final revision. Rehabilitating a patient with ballistic trauma is a multi-step challenging treatment procedure that requires a long time and a multidisciplinary team to ensure successful results. The prosthodontic treatment outcome is one of the most important parameters by which a patient measures the restoration of aesthetic, functional, and psychological deficits. This study is a retrospective review: twenty-two patients diagnosed with outcomes of ballistic traumas were identified from the department database, and eleven patients met the inclusion criteria and were enrolled.

Notch signaling enhances bone regeneration in the zebrafish mandible

Loss or damage to the mandible caused by trauma, treatment of oral malignancies, and other diseases is treated using bone-grafting techniques that suffer from numerous shortcomings and contraindications. Zebrafish naturally heal large injuries to mandibular bone, offering an opportunity to understand how to boost intrinsic healing potential. Using a novel her6:mCherry Notch reporter, we show that canonical Notch signaling is induced during the initial stages of cartilage callus formation in both mesenchymal cells and chondrocytes following surgical mandibulectomy. We also show that modulation of Notch signaling during the initial post-operative period results in lasting changes to regenerate bone quantity one month later. Pharmacological inhibition of Notch signaling reduces the size of the cartilage callus and delays its conversion into bone, resulting in non-union. Conversely, conditional transgenic activation of Notch signaling accelerates conversion of the cartilage callus into bone, improving bone healing. Given the conserved functions of this pathway in bone repair across vertebrates, we propose that targeted activation of Notch signaling during the early phases of bone healing in mammals may both augment the size of the initial callus and boost its ossification into reparative bone.

Management of Traumatic Soft Tissue Injuries of the Face

Facial soft tissue injuries encompass a broad spectrum of presentations and often present significant challenges to the craniofacial surgeon. A thorough and systematic approach to these patients is critical to ensure that the patient is stabilized, other injuries identified, and the full extent of the injuries are assessed. Initial management focuses on wound cleaning with irrigation, hemostasis, and debridement of nonviable tissue. Definitive management is dependent on the region of the face involved with special considerations for critical structures such as the globe, lacrimal apparatus, facial nerve, and parotid duct. Following sound surgical principles, these injuries can be managed to maximize both functional and aesthetic outcomes while minimizing complications.

Anatomic Subunit Approach to Composite Reconstruction of Facial Gunshot Wounds

ABSTRACT

With a rise in gun violence in the United States, surgeons are tasked with effectively managing penetrating facial trauma. The purpose of this study is to assess methods used for successful composite reconstruction of each anatomical facial subunit following penetrating trauma. A retrospective chart review was performed in subjects undergoing craniofacial reconstruction following penetrating trauma. Reconstructive methods were analyzed through operative reports. Subjects were categorized by anatomical subunit reconstructed (mandible, maxilla (malar complex and roof/palate), orbit, and cranium) and method of reconstruction (open reduction internal fixation only, bone graft, free flap, implant, and tissue expansion). Thirty-six subjects underwent reconstruction for penetrating facial trauma. Involved subunits include 24 mandible, 11 malar complex, 13 palate, 18 orbit, and 11 cranium. Predominate reconstruction method was open reduction internal fixation only for mandible (45.8%), bone grafting for malar complex (81.8%), implant for orbit (66.7%) and cranium (63.6%), and local tissue rearrangement for palate (84.6%). The predominate bone graft donor site was iliac for mandible (42.9%), rib for malar complex (36.3%) and orbit (40.0%), and frontal bone for cranium (42.8%). The predominate free flap was osteocutaneous for all mandible, orbit, and cranium and 7 of 10 (70.0%) palate reconstructions. Tissue expansion was used in all subunits except cranium. In conclusion, bone grafting, implants, free tissue transfer, and tissue expansion are all viable reconstruction options for penetrating trauma. There is no single approach to use, and decisions regarding definitive reconstruction method should be based upon anatomical subunit involved and the size/area of defects.

Current opinion in the assessment and management of ballistic trauma to the craniomaxillofacial region

PURPOSE OF REVIEW

Ballistic trauma represents a small proportion of injuries to the craniomaxillofacial (CMF) region, even in societies where the availability of firearms is more prevalent. The aim of this article is to review current opinion in the assessment and management of ballistic injuries sequentially from primary survey to definitive reconstruction.

RECENT FINDINGS

For mandibular fractures because of ballistic trauma, load-bearing fixation remains the mainstay in the treatment. The use of load sharing fixation is rarely advised, even if the fracture pattern radiologically appears to fulfil the traditional indications for its use. Clinicians must be aware of specific situations in early internal fixation is contraindicated, particularly in those unstable patients requiring short damage control surgical procedures, avulsive soft and hard tissue defects and those injuries at increased risk of infection.

SUMMARY

Staged surgery for complex injuries is increasingly becoming accepted, by which injuries are temporarily stabilized by means of maxillary--mandibular fixation (MMF) or an external fixation. Patients are subsequently repeat CT-scanned, and definitive internal fixation performed a few days later. Increased access to virtual surgical planning (VSP) and three-dimensional plates has revolutionized fracture reconstruction.