18.2.1 Defect Evaluation

For the purposes of planning, evaluation of the primary tumor is essential for determining the likely approach that will be needed for reconstruction. Examination of the tumor’s proximity to the adjacent mandible and tongue is crucial, and bimanual palpation with one hand on the lesion and one in the submental/submandibular region will allow the surgeon to get a better sense of any endophytic component of the disease and the likelihood of needing a resection of the floor of mouth muscular sling to achieve adequate oncologic margins. Imaging with CT can assist in evaluating for bone erosion and to look for pathologic lymphadenopathy, but such images often provide little detail on the soft-tissue extent of the primary tumor, especially when significant dental artifact is present. When needed, MRI can be employed to provide additional soft-tissue detail on invasion into the floor of the mouth and tongue musculature and also can provide information on perineural invasion and mandibular involvement.

Intraoperatively, in determining the appropriate reconstruction following tumor removal of the floor of the mouth, the process starts with a careful analysis of the wound. Defects can range from simple mucosal loss with minimal associated muscle resection to larger composite defects with oral glossectomy and/or segmental mandibulectomy. For the purposes of this chapter, emphasis will be placed on defects limited to the floor of the mouth. In these instances, attention should be paid to look at the amount and location of mucosal surface area lost, the depth of the defect and extent of resection of the underlying floor of mouth musculature, and whether or not there is an associated defect of the adjacent mandible and/or the tongue musculature. Additional factors should include the status of the patient’s dentition, whether or not they had undergone prior surgery or radiation therapy, and if the submandibular duct papilla is affected (in situations where the gland is preserved).

As mentioned earlier, one of the critical factors to assess in floor of mouth reconstruction is the integrity of the underlying muscular sling. The mylohyoid muscle and hyoglossus muscles not only serve to suspend the larynx and support tongue movement, but, in the context of a floor of mouth resection, also can serve as a barrier, separating the oral cavity from the underlying neck dissection wound. In defects where this muscular layer has been removed, particular emphasis must be placed on achieving a watertight closure of the floor of the mouth, resuspending the tongue and/or hyoid bone, and providing adequate bulk to obliterate the created submental dead space. In addition, the surgical approach to the resection also must be taken into account. For example, for individuals undergoing a lingual release to allow for their resection, the detached musculature of the anterior floor of the mouth may need to be resuspended to the mandible to minimize posterior tongue displacement and to optimize postoperative function.

18.2.2 Donor Site Evaluation

Of all of the potential reconstructive approaches for lesions limited to the floor of the mouth, only the radial forearm free flap (RFFF) requires special preoperative evaluation. In such instances, typically the nondominant arm is assessed utilizing the modified Allen’s test. ¹ Using this approach, both the radial and ulnar arteries are occluded with digital pressure and the hand is pumped multiple times to remove blood from the hand and fingers. The ulnar pressure is then released and the hand is assessed for refill of blood to the thumb and index finger over the next 15 seconds. Inadequate filling signifies an incomplete palmar arch circulation and is termed a “positive Allen test.” In such individuals, an alternative donor site should be found. For equivocal or delayed filling, the palmar arch can be formally assessed with Doppler testing ^{2 , 3} or pulse oximetry ⁴ to further assess the safety of graft harvest.

When considering patients for an anterolateral thigh (ALT) flap, outside of inquiring about prior hip surgery or vascular surgery of the lower extremity, the other primary consideration is the patient’s body habitus and fat distribution. For floor of mouth repair, it is ideal to have minimal subcutaneous fat to allow for a more supple flap and less restriction of motion of the adjacent tongue.

18.4.1 Management of the Sublingual and Submandibular Glands

The floor of the mouth, as previously discussed, contains the paired sublingual glands that empty either into the adjacent submandibular duct or through a network of smaller ducts directly to the surface above. In instances of floor of mouth resection, when possible, care should be made to minimize burying of sublingual salivary tissue in an attempt to avoid ranula formation. This may require removal of portions of the gland that have been unroofed.

Management of the submandibular ducts, when the associated gland has not been removed, requires reimplantation of the ducts by way of a sialodochoplasty. To accomplish this, the duct is ideally cannulated with a lacrimal probe to identify its tract. Once the mucosal resection is completed, the duct can be marsupialized with fine scissors or a scalpel. An initial absorbable anchoring suture is placed through the apex of the superficial aspect of the proximal portion of the duct to the adjacent mucosal edge, with additional sutures being placed to tack the other portions of the wall open to maximize patency. If needed, an angiocatheter can be placed for 1 to 2 weeks as a stent. ▶ Fig. 18.2 demonstrates a well-healed result of a bilateral submandibular duct sialodochoplasty following resection of an anterior floor of mouth carcinoma in situ.

18.4.2 Goals of Reconstruction and Development of a Reconstructive Algorithm

The primary goals of floor of mouth repair include the following:

• Create a watertight closure of the floor of the mouth.

• Replace missing mucosal areas with an epithelial-lined surface to allow for redundancy.

• Provide adequate bulk and support for the adjacent tongue musculature.

To accomplish these goals, methods can range from simple to complex. Very limited surface defects with no communication with the neck can be closed primarily or left open to heal by secondary intention. For more significant resections, options include split-thickness skin grafts, local tissue rearrangement, regional rotational flaps, and free tissue transfer. For all graft inset and intraoral closure, absorbable sutures are typically employed using 3-0 vicryl sutures in either a simple or a horizontal mattress fashion. In situations where there is adequate cuff of mobile floor of mouth mucosa to allow for repair, the fixed gingiva on the lingual surface of the mandible can be resected to allow for circumdental sutures (dentulous patients) or repair to the fixed gingiva on the top of the alveolar ridge. This allows for more robust tissue to support the stitch and also prevents the suture line from being in the gravity-dependent sulcus of the floor of the mouth.

18.4.3 Reconstructive Techniques

Skin Graft Closure

For larger mucosal defects that lack significant bone exposure or communication with the neck wound, a split-thickness skin graft can be employed. The purpose of the graft is to create an epithelial surface to minimize associated contracture and limitations in tongue mobility. In these instances, the graft is typically harvested as a split-thickness autograft from the thigh using a dermatome with the depth of harvest being between 0.015 and 0.0175 inches. The graft is then conservatively pie crusted to avoid fluid accumulating deep to the graft and interfering with the initial imbibition phase of healing. In all instances, it is critical to harvest a graft of adequate size to allow for significant redundancy. Once secured in place with absorbable sutures, a bolster should be secured to apply pressure to the graft, keeping it flush with the underlying muscular wound bed. The bolster can then be removed in the office on postoperative day 7. When needed, a sialodochoplasty can also be performed, placing the duct at the periphery of the graft or through a hole created within it. ▶ Fig. 18.3 shows a floor of mouth defect that was repaired with a split-thickness skin graft.

Regional Flap Closure

Locoregional flaps (LrFs) have regained popularity for closure of head and neck defects. There are multiple options for LrFs, each with their own benefits and disadvantages. LrFs are often touted as an equivalent replacement for a free flap. However, although LrFs offer the ability to close large defects with robust, vascularized tissue, without the need for microvascular expertise, they still suffer from a few shortcomings and lack the adaptability that is offered by free flaps. Specifically, they can be limited by the length and degree of rotation of their vascular pedicle and may be affected by defect size and location. The benefits of LrF over free flaps include quicker harvest, less operative time, ^{5 – 7} shorter hospital stay, and decreased health care costs. ⁸

Submental Island Flap

The submental island flap is a commonly used regional flap for reconstruction of the oral cavity. Its vascular supply is the submental artery that branches off the facial artery. The skin can easily be rotated into the oral cavity to fill defects. ⁹ One of the main critiques of the submental island flap for reconstruction after oral cavity cancer is risk of leaving pathological nodal disease in level I of the neck. However, if level I is shown to be clinically negative for disease, the submental island flap can still be used and the harvest of the flap allows for an appropriate level Ia and Ib neck dissection without compromising the flap pedicle. ¹⁰ A retrospective study by Howard et al showed that patients undergoing a submental island flap after oral cancer resection did not have an increased risk of locoregional recurrence. ¹¹

The submental island flap can provide a large skin paddle of up to 11 × 11 cm ⁹ and the pedicle length is 5 cm, but it can be longer if the facial artery and vein are ligated distal to the takeoff of the submental vessels. ¹² The boundaries of the skin that can be harvested include the lower border of the mandible to the hyoid and from angle to angle of the mandible. Although variations in harvest technique are described, the general steps are as follows: ^{9 , 11 , 12}

• The skin paddle is designed to fit the necessary defect.

• The skin incision through the inferior edge of flap is performed and subplatysmal flaps are elevated.

• The marginal mandibular nerve is found and preserved.

• The facial artery is found as it traces over the mandible and then the submental arteries are identified branching off the facial and are traced to the anterior belly of the digastric.

• The level I neck dissection can be completed, preserving the facial and submental vessels.

• The anterior flap incision can be made and the mandibular attachment of the anterior belly of the digastric can be divided to help protect the pedicle. The depth of the flap dissection is to the mylohyoid muscle with branches of the submental artery supplying the mylohyoid needing to be ligated.

• Once the flap is elevated, if necessary, any remaining nodal contents can be cleared carefully from the adjacent pedicle before being rotated into oral cavity for inset.

• The donor site can be closed primarily.

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4. 16 Reconstruction of the Oral Tongue
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