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Peer Review

Peer Reviewed

Case Report

Total Reconstruction of Lower Lip and Chin Following Firework Injury Using Composite Bilateral Radial Forearm-Fascia Lata Flaps: A Case Report

Michael M Talanker, BS; Kasra N Fallah, BSA; Cassie A Hartline, MD; Daniel J Freet, MD

January 2023
1937-5719
ePlasty 2023;23:e5

Abstract

Background. Primary explosion injuries with fireworks can lead to devastating and geometrically complex facial traumas that present a challenge to the reconstructive surgeon. Our patient, a woman in her early thirties, was hit directly in her chin by a large artillery shell firework. This caused complete soft tissue loss of the lower lip and chin beyond the oral commissures, complicated further by a comminuted mandible fracture.

Methods. After external fixation, our patient underwent a 2-stage reconstruction with a novel composite flap arrangement. Soft tissue coverage and lip reconstruction were performed with opposing bilateral radial forearm free flaps. The outer flap constituted the soft tissue of the new chin and outer lower lip, whereas the inner flap composed the intraoral lining. In the second stage, portions of the inner upper lip mucosa and superior orbicularis oris muscle were flipped down as a bipedicle, axial pattern “bucket-handle” type flap to the lower lip to reconstruct the vermilion. A graft of fascia lata was attached to the modioli of the orbicularis oris and interpositioned beneath the vermilion flap and the radial forearms to restore static and some dynamic sphincter control. One month later, the mandibular fractures underwent open reduction and internal fixation.

Results. Two months after soft tissue reconstruction with no complications, our patient had satisfactory aesthetic outcomes, oral competence, and speech.

Conclusions. This case has shown that use of bilateral, fascia lata-reinforced radial forearm flaps may be an effective choice for soft tissue reconstruction and oral competence restoration in cases of severe facial explosion trauma.

Introduction

Direct explosion facial injuries create a unique clinical challenge for the reconstructive surgeon as these types of injuries can result in both large, full thickness soft tissue defects, as well as comminuted open fractures. Aesthetic restoration of the face can be challenging when the lip is involved, but greater considerations are necessary to restore oral competence to help give the patient a greater quality of life after injury. The fasciocutaneous radial forearm free flap (RFFF) has become a standard reconstructive option for large, full thickness facial traumatic wounds and postresective defects where local and regional flaps would otherwise result in significant aesthetic and functional deficits (such as microstomia).1-2 In recent years, its usage in composite tendinofasciocutaneous flaps has created avenues for improved oral competence after oral reconstruction.3-6

In this case, we present a 2-stage reconstruction of the lower face following unconventional trauma from a direct hit with a large artillery shell/mortar type firework. Bilateral RFFFs were combined with a fascia lata graft and an axial pattern bipedicle flap of upper lip oral mucosa. These were used to reconstruct and restore functionality of the chin, lip, and oral mucosa. To the authors’ knowledge, the use of bilateral fascia lata to reinforce RFFFs in this manner for a dramatic 2-stage facial reconstruction has not previously been described.

Methods

Our patient is a woman in her early thirties who tripped while igniting a large, professional-level aerial shell firework. As she stumbled, the shell deployed, hitting the patient directly in the chin and detonating, resulting in massive trauma to her lower face. At presentation, the patient was intubated via tracheostomy, her wounds were debrided, and shell fragments were removed. In addition to lacerations across the face and neck, she sustained total loss of soft tissue over the chin, exposing a large portion of the anterior mandible. The mental nerves were lost bilaterally. There was also a full thickness defect in the cutaneous and mucosal portions of the lower lip, well beyond the oral commissures (Figure 1A). Moreover, the patient suffered a comminuted mandibular fracture in the parasymphyseal region (Figure 1C). A section of the anterior alveolar bone of the mandible was lost, which included the lower incisors and right lower cuspid tooth. An external fixator and intermaxillary fixation of the remaining teeth were applied after debridement to maintain reduction of the fracture and to help maintain occlusion of the remaining dentition (Figure 1B). The wounds were cleaned and covered, and the patient underwent her first repair procedure 15 days later.

Figure 1
Figure 1. Tissue defect following debridement. Our patient sustained an unconventional severe primary explosion injury from a municipal-level firework. A) She underwent extensive debridement and management of shrapnel-related lacerations. B) Following debridement, external fixation was performed to reduce her comminuted mandible for later repair. C) Non-contrast–enhanced computed tomography of the head with 3D reconstruction demonstrated extensive comminuted defect of the mandible. Our patient suffered a comminuted displaced fracture of the mandibular body near the symphysis, with a nondisplaced fracture of the left mandibular body involving the left second and third molar teeth sockets. A separate fracture through the maxilla extended through the hard palate and involved the maxillary canines bilaterally, and the left maxillary canine was lost as a result.

Bilateral RFFFs were harvested to achieve soft tissue coverage of the large chin defect while reconstructing the outside skin and inner oral lining of the lower lip. Radial artery, vena comitans, and cephalic veins were dissected and lifted, producing 2 flaps: one approximately 9 cm× 3 cm and another approximately 10 cm × 4 cm. Both facial arteries and veins were dissected free of surrounding soft tissue and underwent end-to-end anastomosis with the radial arteries and cephalic veins of the dissected flaps. The RFFFs were placed in opposition to each other with the underlying tissue sides of the flaps sutured together. The larger flap constituted the outer fasciocutaneous portion of the chin and lower lip. The smaller flap comprised the intraoral lining (Figure 2). The inner flap was sutured to the base of available gingiva, and the overhang from the larger external flap was sutured to periosteum. RFFF donor sites were treated with a collagen dermal substitute and wound vac. The sites were later covered with split thickness skin grafts from the thighs.

Figure 2
Figure 2. Placement of internal and external radial forearm free flaps to reconstruct the external lower lip/chin and intraoral lining. The opposing radial forearm vessels were anastomosed to the main branch of the facial arteries and veins on opposing sides.

One week later, the vermilion zone and mucosa of the lip was reconstructed. A bipedicle “bucket-handle” type flap was constructed from the upper inner lip lining and flipped down to the lower lip. The flap contained a section of the superior aspect of the orbicularis oris muscle and both branches of the superior labial artery and vein. The flap was then lifted and transposed over the raw edge of our laminated RFFF construct, creating the new lower lip vermilion and intraoral mucosa (Figure 3). A free graft of fascia lata was harvested and inserted beneath this flap and between the two RFFFs. The graft was sutured as a tensile sheet to the modioli of the orbicularis oris muscle, creating a sling that would provide additional stiffness and support to the new lower lip. All flaps and grafts, including the internal and external RFFFs, survived and did well postoperatively.

Figure 3
Figure 3. Reconstruction of lower lip vermilion. Completed “bucket handle” flap of upper lip intraoral lining with a portion of the orbicularis oris muscle to create the mucosa of the lower lip and vermilion zone. A graft of fascia lata was inserted as a sheet between the radial forearm free flap and underneath this flap to create a sling to improve oral competency and lip rigidity.

Approximately 1 month after soft tissue reconstruction, the patient underwent open reduction and internal fixation (ORIF) of the mandibular fracture. She was set in good occlusion and placed in intermaxillary fixation via stainless steel wires placed between maxillary and mandibular circumdental Erich arch bars. The flaps were elevated from the external inferior border of the flaps to expose the fractured mandible. Locking reconstruction mini-plates (DePuy Synthes, Raynham, MA) were used to secure the segments of bone, achieving reduction. The wiring was then removed so the patient would not be left in maxillomandibular fixation postoperatively. Following mandibular fracture reduction, the RFFF construct was then resecured to available periosteum with resorbable suture. The skin was closed in a similar manner.

Results

One month after the mandibular ORIF and approximately 3 months after the initial injury, all transferred tissues were surviving well. The RFFFs had integrated well at the periphery with the native tissue, and the new vermilion of the lower lip was aesthetically satisfactory (Figure 4). Previous edema had subsided. Though the lower lip was not animated nor innervated, the patient now had few issues with speech. Oral competence was satisfactory, but she did continue to experience such challenges as some drooling while eating and minor difficulty in producing plosive consonants while speaking. Removal of the internal fixation hardware and placement of dental implants was planned. Implants would likely improve the outward contour of the lower lip and chin when viewed from profile, as well as significantly improve oral competency and speech.

Figure 4
Figure 4. Follow-up several months after soft tissue reconstruction. A) Progress of the flap approximately three months after the initial injury and two months after soft tissue reconstruction was completed. Tracheostomy was removed several days before this photo was taken. Oral competence and speech were satisfactory with some dynamic sphincter control afforded by the combined fascia lata/orbicularis oris reinforcement. B) Non-contrast–enhanced computed tomography shows the healing, fixed mandible approximately 2 months after open reduction and internal fixation.

 

Discussion

The RFFF is well known because of its versatility in a variety of reconstructive applications, and its use in the reconstruction of extensive lower facial injuries has been well documented.2,5 However, large subtotal lower lip defects are most often reconstructed with local flaps, such as the Karapandzic or nasolabial flaps.2 These flaps are more frequently used because they are usually sensate, and they best aesthetically match the original cutaneous tissue. They also do not require a separate surgical site or the use of microsurgery like that needed with free flap. However, full-thickness chin and complete lower lip defects that extend beyond the oral commissures present a challenge when using these local flaps because there is usually insufficient tissue to cover these defects. Moreover, the nature of the Karapandzic technique, for example, necessitates exchanging increasing coverage for a shrinking reconstructed oral stoma.7

The RFFF is far less limited in terms of size, and the shape of the fasciocutaneous islands can be customized to fit the complex geometry necessary in traumatic facial reconstruction. Its thickness and aesthetics are also generally considered a better match for facial reconstruction than other donor sites.8 Additionally, reconstruction of the lower lip in this manner does not reduce the size of the oral stoma. A single, folded RFFF is also a workhorse flap for total lower lip reconstruction, lining both the intraoral mucosa and outer skin with one flap. In our experience, we have found the healing and ultimate contracture of this to result in a funnel-like deformity, eliminating oral competence. We felt that a bilateral, sandwiched flap would eliminate this issue. The use of a RFFF does also significantly impact oral competency if the neolip is not significantly reinforced or suspended, hence the use of the fascia lata interpositional sling in this case. A more common option for lip reinforcement in composite RFFFs is suspension with palmaris longus tendon. The use of this tendon graft in composite RFFFs facial reconstruction is effective and well documented in the literature.3-5 Unfortunately, this tendon may not be available in some patients, as was the case in our patient. A few similar uses of fascia lata graft as an interpositioned sheet under tension, rather than a tube or tendon graft, have demonstrated its effectiveness in restoring oral competency due to its ability to physically integrate into surrounding tissue.9-10 Employment of the fascia lata to recover competency of the oral sphincter can also be performed in both the contexts of local and regional flaps.11

Overall, the outcome of this case was extremely encouraging despite the devastating and uncommon injury that our patient suffered. Although the initial tissue loss extended well beyond the oral commissures, our patient was able to regain both static oral competency with some dynamic sphincter function as well as an aesthetically satisfactory result.

Acknowledgments

Affiliations: Division of Plastic Surgery, Department of Surgery, McGovern Medical School at the University of Texas Health Science Center at Houston, Houston, TX

Correspondence: Daniel J Freet, MDdaniel.j.freet@uth.tmc.edu

Disclosures: The authors declare no conflicts of interest.

References

1.         Daya M, Nair V. Free radial forearm flap lip reconstruction: a clinical series and case reports of technical refinements. Ann Plast Surg. 2009;62(4):361-367. doi:10.1097/SAP.0b013e31818b4515

2.         Langstein HN, Robb GL. Lip and perioral reconstruction. Clin Plast Surg. 2005;32(3):431-viii. doi:10.1016/j.cps.2005.02.007

3.         Cinar C, Arslan H, Ogur S. Reconstruction of massive lower lip defect with the composite radial forearm-palmaris longus free flap. Journal of Craniofacial Surgery. 2007;18(1):237-241. doi: 10.1097/01.scs.0000246738.76848.fe

4.         Rahman H, Ali SF, Azad AK, et al. Total lip reconstruction after excision of cancer with composite radial forearm palmaris Longus Tendon Free Flap. Mymensingh Med J. 2020;29(1):149-155.

5.         Jeng SF, Kuo YR, Wei FC, et al. Total lower lip reconstruction with a composite radial forearm-palmaris longus tendon flap: a clinical series. Plast Reconstr Surg. 2004;113(1):19-23. doi:10.1097/01.PRS.0000090722.16689.9A

6.         Silberstein E, Krieger Y, Shoham Y, et al. Total lip reconstruction with tendinofasciocutaneous radial forearm flap. The Scientific World Journal. 2014;2014:1-6. doi:10.1155/2014/219728

7.         Bai S, Li RW, Xu ZF, et al. Total and near-total lower lip reconstruction: 20 years experience. J Craniomaxillofac Surg. 2015;43(3):367-372. doi:10.1016/j.jcms.2015.01.003

8.         Lubek JE, Ord RA. Lip reconstruction. Oral Maxillofac Surg Clin North Am. 2013;25(2):203-214. doi:10.1016/j.coms.2013.01.001

9.         Sasaki K, Sasaki M, Oshima J, et al. Free-flap reconstruction for full-thickness oral defects involving the oral commissure combined with oral modiolus reconstruction using a fascial sling. Microsurgery. 2020;40(5):553-560. doi:10.1002/micr.30546

10.       Jeng S, Kuo Y, Wei F, et al.  Reconstruction of extensive composite mandibular defects with large lip involvement by using double free flaps and fascia lata grafts for oral sphincters. Plast Reconstr Surg. 2005;115(7):1830-1836. doi:10.1097/01.PRS.0000164688.44223.75

11.       Har-Shai Y, Gil T, Mettanes I, et al. Interposition fascia lata sheet free graft and a composite V-y advancement flap to correct functional incompetence of the oral sphincter. European Journal of Plastic Surgery. 2012;36(4):261-264. doi:10.1007/s00238-012-0801-4

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