Applied Facial Anatomy


Introduction

The anatomy of the face is fairly constant. Variant anatomy is seen in the thickness of the soft tissue layers, and in the size and orientation of cartilaginous structures such as the nasal cartilages (nose), tarsal plates (eyelids), and facial bones (maxilla, mandible, zygoma, etc.). The relationships of nerves, vessels, and muscles of the face are fairly uniform. The facial anatomy combines to give the face form and function.

Plastic surgical procedures can significantly affect facial form and function. The vast array of surgical and injectable procedures have expanded in recent years as the want and need to improve facial function and appearance has increased. To successfully perform these procedures, a thorough knowledge of the variant facial anatomy is required.

This chapter will discuss the common anatomical relationship of the face. The layered anatomy of the face will be outlined, as will the typical position of muscles and neurovascular structures. Applied anatomy as related to surgical and injectable procedures will be highlighted.

Layers of the Face

Although a few exceptions exist, the skin, subcutaneous tissues, and superficial and deep fascial layers of the face are consistent in their relationships and can be designated with a common numbering system. These layers can be numbered I to V ( Figs. 2.1 2.2 ). Although the names of the individual layers differ from various regions of the forehead, temple, face, and neck, the relative relationships of these layers remains constant. The muscles, nerves, and vascular structures, however, vary in their position and relationship to the layers.

Figure 2.1, Layers of the temple. FP , Fat Pad.

Figure 2.2, Layers of the face.

The layering system of the facial levels can be seen in Table 2.1 . The various names of each layer within a given facial region are described throughout the chapter, making note of the designated numbering system.

TABLE 2.1
Layers of the Face
I Skin
II Subcutaneous tissue/superficial areolar tissue
III Superficial fascia
IV Loose areolar tissue
V Deep fascia

Layer I: Skin

The skin varies in thickness, pigmentation, dermal appendages, and adherence to the subcutaneous tissues between different areas of the face . The skin is thickest over the mentum and in the region of the forehead and eyebrows, and is thinnest over the eyelids. In the infraorbital region and medial to the midpupillary line, the skin is thin and usually contains no subcutaneous fat. The skin is firmly attached to the underlying muscles of the oral commissure and in the region of the nasal tip, while it is loosely adherent to the underlying soft tissue in the eyelids and at the root of the nose. As the dermis of the skin thins with age, the underlying muscles cause rhytids, which generally are perpendicular to the direction of facial muscle contraction ( Fig. 2.3 ). The amount of skin wrinkling is variable, and relates to the skin thickness and elasticity.

Figure 2.3, Relaxed skin tension lines of the face.

Layer II: Subcutaneous Tissue

The subcutaneous tissue varies in amount in relation to the patient's genetics, ethnicity, and body weight . In a given individual, the thickness of the subcutaneous tissue is different based on the facial region. In the forehead and over the mentum, the fat layer is thick and the over­lying skin is densely adherent. However, in the eyelids, the fat layer is almost nonexistent and the skin is loosely adherent. In the midface, the subcutaneous fat is highly vascularized and compartmentalized by various fibrous septae ( Fig. 2.4 ).

Figure 2.4, (A) Superficial fat compartments of the face. (B) Fibrous septae. Inf., Inferior; Sup. , superior.

Layer III: Superficial Fascia

The superficial fascia of the face is fairly adherent to the overlying skin and subcutaneous tissues of the face in most regions, and therefore must be dissected sharply from the skin in order to surgically separate these tissue planes. This is in contradistinction with the relationship of the superficial fascia with the underlying deep fascia . In most regions, the superficial fascia is loosely attached to the underlying deep fascia. Surgical dissection between the superficial and deep fascia is therefore usually blunt and easily performed.

The superficial fascia has different designations in different regions of the scalp, temple, face, and neck. In the forehead, the superficial fascia is called the galea aponeurosis. This layer envelopes the frontalis muscle in the forehead, and splits to encompass the occipitalis muscle at the posterior aspect of the scalp. In the temple, the superficial fascial layer is termed the temporoparietal fascia (TPF; see Fig. 2.1 ). This layer is a thin, pliable, and vascular layer that is well suited for facial and auricular reconstruction. In the midface, the superficial fascia is the superficial muscular aponeurotic system (SMAS). The SMAS and TPF are contiguous structures, but are discontinuous at the level of the zygomatic arch. In the neck, the superficial fascia provides a fascial sleeve for the platysma muscle ( Fig. 2.5 ).

Figure 2.5, (A) SMAS. (B) SMAS and retaining ligaments of the face. SMAS , Superficial muscular aponeurotic system.

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