Ultrasound-Guided Infraorbital Nerve Block
CLINICAL CONSIDERATIONS
Ultrasound-guided infraorbital nerve block is useful in the diagnosis and treatment of a variety of painful conditions in areas subserved by the infraorbital nerve, including infraorbital neuralgia, infraorbital nerve entrapment, and pain secondary to herpes zoster. This technique is also useful in providing surgical anesthesia in the distribution of the infraorbital nerve for lesion removal, cosmetic procedures, and laceration repair (Fig. 12.1). The infraorbital nerve can be blocked via either an extraoral or intraoral approach. The intraoral approach to infraorbital nerve block is especially useful in providing surgical anesthesia in the distribution of the infraorbital nerve for lesion removal and laceration repair when a cosmetic result is desired because this approach avoids distortion of the facial anatomy from local anesthetic infiltration at the surgical site. The intraoral approach is also useful in the pediatric population as the oral mucosa can be anesthetized with topical application of local anesthetic prior to needle placement.
CLINICALLY RELEVANT ANATOMY
The infraorbital nerve is a pure sensory nerve arising from fibers from the maxillary nerve. Entering the orbit via the inferior orbital fissure, the infraorbital nerve passes along the floor of the orbit in the infraorbital groove. Along with the infraorbital artery, the infraorbital nerve exits the orbit via the infraorbital foramen (Fig. 12.2). The nerve then divides into a superior alveolar branch, which provides sensory innervation to the upper incisor, canine, and associated gingiva and a cutaneous branch that fans out to provide sensory innervation to the lower eyelid, lateral naris, and upper lip (Fig. 12.3). In rare instances, the infraorbital nerve may bifurcate within the orbit and exit via separate infraorbital foramen (Fig. 12.4). A patient with five separate infraorbital foramina and nerves has been reported.
ULTRASOUND-GUIDED TECHNIQUES
Extraoral Approach
The patient is placed in a supine position. A total of 2 mL of local anesthetic is drawn up in a 5-mL sterile syringe. When treating conditions involving the infraorbital nerve thought to have an inflammatory component such as infraorbital neuralgia, acute herpes zoster, neuritis, and postherpetic neuralgia, 40 to 80 mg of depot steroid may be added to the local anesthetic.
The basis for the use of ultrasound when performing infraorbital nerve block is its ability to easily identify the discontinuity of the hyperechoic image associated with the infraorbital foramen when imaging the infraorbital ridge. To perform ultrasound-guided infraorbital nerve block, the infraorbital foramen on the affected side is identified by palpation (Fig. 12.5). The foramen can usually be found ˜2.5 to 2.8 cm laterally from the midline. The skin overlying the infraorbital foramen is then prepped with antiseptic solution. Care must be taken to avoid allowing the antiseptic solution to flow into the eye. A high-frequency small linear or hockey stick transducer is then placed in the transverse plane over the previously identified infraorbital notch and slowly moved from a medial to lateral direction until a discontinuity in the infraorbital ridge is identified (Figs. 12.6 and 12.7). Alternatively, a longitudinal view can be utilized. In most patients, color Doppler can be utilized to identify the infraorbital artery, which exits the infraorbital foramen along with the infraorbital nerve (see Fig. 12.8).
Once the nerve and artery are identified, a 22-gauge, 1½-inch needle is inserted under real-time ultrasound imaging utilizing an in-plane approach and advanced toward the nerve with care being taken to avoid entering the foramen. The needle is advanced until it approaches the periosteum of the underlying bone. A paresthesia may be elicited, and the patient should be warned of such. The needle should not enter the infraorbital foramen, and should this occur, the needle should be withdrawn and redirected slightly more medially.
FIGURE 12.1. Squamous cell carcinoma in the sensory distribution of the infraorbital nerve. (Reprinted from Bickley LS. Bate’s Guide to Physical Examination and History Taking. 8th ed. Philadelphia, PA: Lippincott Williams & Wilkins; 2003, with permission.)
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