Apposition suture of nerves: It is suitable for patients with neurotmesis and intact proximal and distal nerve ends. The effect is most ideal due to direct apposition suture of nerves.

Nerve transplantation: The nerve transplantation can be performed for patients with defects in neural stumps. Due to increase of cross sections for the nerve to pass by, the effect is greatly affected.

Cross-face nerve transplantation: If the proximal nerve is damaged, and the distal nerve and the facial muscle are intact, the nervous impulses of the proximal end of the branch of the facial nerve at the healthy side are transmitted to the distal end of the branch of the facial nerve at the affected side to restore the muscular tension and expression activities of the affected facial muscles through cross-face nerve transplantation. For the success of cross-face nerve transplantation, the transplantation should be carried out in the early stage of the facial paralysis. To confirm that the distal end of the nerve and the facial muscles at the affected side are intact, the transplanting cultivation of the nerves is performed before the regenerated nerve axons reach to ensure that the facial muscles will not shrink. In this way, the regenerated nerves can be connected with the motor end plates. The hypoglossal nerve can be transposed to the facial nerve for parasitic culture; after the cross-face transplanted nerves grow long enough, the distal facial nerve will be separated with the hypoglossal nerve. Since the regenerated axons of the nerve need to pass through two cross sections, and the nerve regeneration still needs to pass through a distance of more than 15 cm, the recovery time is longer, which will take about more than 1 year. Once the operation is successful, the affected facial muscles can move synchronously with the facial muscles at the healthy side, but the effect is not ideal in most cases.

Neuronal replacement with accessory nerve and hypoglossal nerve transpositions: The proximal end of the hypoglossal nerve or accessory nerve is used to replace the facial nerve and is connected with the distal end of the facial nerve, which is also suitable for the patients with intact distal facial nerve. The surgical method has been widely used for these reasons: the operation is easy and the nerve regeneration passes through only one cross section, and therefore it takes about 4–6 months to restore the activities of the affected side; the disadvantage is that due to damage to the donor site of the hypoglossal nerve or accessory nerve, most of the facial movements at the affected side are the plate-shaped synkinetic movements; in the early postoperative period, when the patient shrugs (accessory nerve transposition) or moves the tongue when chewing (hypoglossal nerve transposition), the affected face will be distorted. The ultimate effect will be determined by the result of long-term training of the patient.

Neural anastomosis: The immediate direct apposition suture of the broken ends of the nerve branch is the repair method with best effect.

Nerve transplantation: When the space between the broken ends of the nerve branch is too large to perform direct suture, the free autologous nerve transplantation can be performed. The great auricular nerve, the cutaneous branch of the cervical plexus, the cutaneous branch of the radial nerve, and the sural nerve are selectively used as the donors for nerve transplantation. Compared with the direct neural anastomosis, the effect is a bit poor.

Cross-face nerve transplantation: The nervous impulses at the healthy side are transmitted to the affected side through nerve transplantation to restore the synchronous movements of bilateral facial muscles; of course, the affected facial muscles must be intact, if the facial muscles have been injured, and it is needed to select other surgical method.

Free muscle transplantation during neurovascular anastomosis: It belongs to the physiological dynamic repairs. The donors of muscles for the first-stage transplantation with relatively positive effects include the latissimus dorsi muscle, gracilis muscle, and rectus femoris muscle, of which, it is more commonly seen that the latissimus dorsi muscle is transplanted to repair the facial paralysis. The surgical method has the advantages that the nerve has only one anastomotic stoma, and the facial recovery is quicker compared to the second-stage muscle transplantation; the disadvantages are that the surgical trauma is big, and the requirements for surgical techniques are demanding; when the nerve localization result is inaccurate, the transplanted muscles may produce false movements. If the nerve branches of the transplanted muscle are dissected mistakenly or the blood vessels are improperly sutured during the operation, the surgical failure will easily occur [11].

Pedicled sternocleidomastoid muscle transposition: It belongs to the nonphysiological dynamic repair. The pedicled sternocleidomastoid muscle at the affected side is transposed to the corner of the mouth at the affected side, and the movements of the corner of the mouth at the affected side are reconstructed. The surgical method has the advantages of positive effect and less trauma and quicker recovery; the disadvantages are that there is a cervical incision scar after surgery, and the smiling face can be recovered only after simple training [12, 13].

Pedicled temporalis muscle transposition: It belongs to the nonphysiological dynamic repair. The temporal muscle attachment points at the affected side are stripped off from the temporoparietal area, and this muscle is turned over downward together with the aponeurosis and periosteum at the top and then passes through the subcutaneous tunnel to be sutured with the corner of the mouth, and the activities of the corner of the mouth are mobilized when the temporal muscles contract. The advantages include positive effect and rapid recovery; the disadvantages are that the temporal depression is obvious, and the smile can only be presented when the patient grinds his or her teeth to mobilize the activities of the corner of the mouth, and the smile is less natural.

Direct suture of facial muscles: For the patients with ruptured facial muscles, the direct suture of facial muscles can receive good results. Especially the ruptured facial muscles at the medial side of the connecting line from the outer canthus to the corner of the mouth may be accompanied by ruptured facial nerve branch. The local nerve branch has been very small, and its exposure is quite difficult, while the suture of the muscle is conducive to the regeneration of nerve branches in the near side of the broken ends of the muscle, and thereby the denervated distal muscle can be innervated to restore the function of the facial muscles.

Surgical design and skin flap harvesting: A skin flap slightly larger than the size and shape of cheek skin defect is harvested, and the latissimus dorsi myocutaneous flap attached under the flap is harvested according to repair needs, and then it is sutured and fixed between the temporal fascia and corner of the mouth for repair of the facial paralysis. The thoracodorsal artery and vein of the skin flap can be anastomosed with the facial artery and vein, and the control nerve can be anastomosed with the ipsilateral facial nerve to restore some activities of the affected face.

The repairing principle and surgical method for the huge facial defect after tumor resection: For patients with huge facial soft tissue defects, the repair of facial paralysis is not the key point, while the latissimus dorsi myocutaneous flap can be used to cover the wound. The huge facial tumors often involve the frontoparietal area to the ipsilateral mandible, and the wound left after debridement can reach up to 25 cm × 15 cm. For such a huge wound, the primary problem is to use the tissue with good blood supply to cover the wound. Because there are exposures of bones and cavities in the wound, the vascularized free myocutaneous flap transplantation is the only option. At present, the myocutaneous flaps in the human body available for selection only include the latissimus dorsi myocutaneous flap. The latissimus dorsi myocutaneous flap has large area, rich blood supply, strong resistance to infection, easy operation, and hidden position, and thus it is most commonly used in the clinic. It is not necessary to consider the repair of the facial paralysis during surgery, and it is feasible to mainly perform the simple covering. Because the myocutaneous flap has a considerable thickness, it is required to properly enlarge the sections around the area covered by the skin flap when the area of the skin flap is designed. The blood vessels of the donor site can use the facial artery and vein and can also use the superior thyroid artery and the lateral superficial cervical vein. The thoracodorsal nerve can be anastomosed with the facial nerve. Since the latissimus dorsi myocutaneous flap is too thick and heavy, the postoperative skin flap is prone to sagging deformation, which requires multiple repair and construction to improve the appearance as far as possible.

Case II: The patient, female, had left facial hemangioma, and the wound had been festering. The left facial defects occurred after extensive resection of the tumor. The latissimus dorsi myocutaneous flap was used to repair the left face, and the wound healed well after surgery (Fig. 11.4). However, because the latissimus dorsi myocutaneous flap is too hypertrophic and heavy, the skin flap is prone to sagging deformation after surgery, which requires multiple repair and construction to improve the appearance.

Surgical design: According to the need to repair the facial paralysis, the sternocleidomastoid muscle flap of appropriate length is prepared and was rotated to the face, and the ends of the muscle flap are fixed to the sites such as the orbicularis oculi muscle and orbicularis oris muscle, respectively, to correct facial paralysis. The innervation depends on the isolated sternocleidomastoid muscle branch of the accessory nerve, or the remaining facial nerve trunk is anastomosed with the sternocleidomastoid muscle branch of the accessory nerve. When the facial skin defects exist, the pedicled sternocleidomastoid muscle flap is used for the first-stage repair of the facial paralysis and facial skin defects.

Case III: The patient, female, had recurrence after resection of parotid carcinoma with right facial paralysis. It was observed during surgery that the facial nerve was invaded and destructed, the tumor was extensively resected, the sternocleidomastoid muscle flap with an appropriate length was prepared according to the repair need and was rotated to the face, and the ends of the muscle flap were fixed to the sites such as the orbicularis oculi muscle and orbicularis oris muscle, respectively. The remaining facial nerve trunk was anastomosed with the sternocleidomastoid muscle branch of the accessory nerve. After completion of radical surgery of parotid carcinoma, the sternocleidomastoid muscle flap with the sternocleidomastoid muscle branch of the accessory nerve was used for the first-stage repair of the facial paralysis (Fig. 11.5).

Surgical design: An appropriate skin flap is designed and harvested according to the size and shape of cheek skin defect and the length of the muscle belly of the sternocleidomastoid muscle, so as to prevent that due to a too close distance of the skin flap from the mastoid process, the radius of the muscle flap after rotation is too small, so that the skin flap cannot cover the cheek wound.

Case IV: The patient, female, had right cheek tissue defects after tumor resection. The sternocleidomastoid myocutaneous flap was designed and harvested, and the sternocleidomastoid myocutaneous flap was used to repair the tissue defects, and the wound healed well after surgery (Fig. 11.6).