Bryan C. Mendelson scite author profile

In principle, to achieve the most natural and harmonious rejuvenation of the face, all changes that result from the aging process should be corrected. Traditionally, soft tissue lifting and redraping have constituted the cornerstone of most facial rejuvenation procedures. Changes in the facial skeleton that occur with aging and their impact on facial appearance have not been well appreciated. Accordingly, failure to address changes in the skeletal foundation of the face may limit the potential benefit of any rejuvenation procedure. Correction of the skeletal framework is increasingly viewed as the new frontier in facial rejuvenation. It currently is clear that certain areas of the facial skeleton undergo resorption with aging. Areas with a strong predisposition to resorption include the midface skeleton, particularly the maxilla including the pyriform region of the nose, the superomedial and inferolateral aspects of the orbital rim, and the prejowl area of the mandible. These areas resorb in a specific and predictable manner with aging. The resultant deficiencies of the skeletal foundation contribute to the stigmata of the aging face. In patients with a congenitally weak skeletal structure, the skeleton may be the primary cause for the manifestations of premature aging. These areas should be specifically examined in patients undergoing facial rejuvenation and addressed to obtain superior aesthetic results.Level of Evidence IVThis journal requires that authors assign a level of evidence to each article. For a full description of these Evidence-Based Medicine ratings, please refer to the Table of Contents or the online Instructions to Authors www.springer.com/00266.Electronic supplementary materialThe online version of this article (doi:10.1007/s00266-012-9904-3) contains supplementary material, which is available to authorized users.

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Surgical Anatomy of the Ligamentous Attachments of the Lower Lid and Lateral Canthus

Muzaffar¹,

Mendelson²,

Adams³

2002

Plastic and Reconstructive Surgery

246

119

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Description of the surgical anatomy of the superficial fascia of the face must include its deep attachments. These attachments have been mapped out for the forehead, temple, and cheek as retaining ligaments. The deep attachments of the orbicularis oculi of the lower lid and lateral canthus have long been recognized in canthopexy surgery but have yet to be properly defined. Six fresh cadavers were dissected with histologic support, and the results were correlated with surgical observations. The fascia of the deep aspect of the orbicularis is attached to the periosteum of the orbital rim by an orbicularis retaining ligament. This attachment is weakest centrally and tightest over the inferolateral orbital rim. The retaining ligament fuses with an expanded fibrous attachment beyond the lateral canthus, the lateral orbital thickening, which extends over the lateral orbital rim onto the adjacent deep temporal fascia. Aging changes are associated with attenuation of the ligamentous support provided by the orbital thickening and the orbicularis retaining ligament, which then allows inferior displacement of the lower boundary of the lid and contributes to the typical effects of age in this region. The superficial fascia of the lateral orbital region has a continuous connective tissue structure linking the temporoparietal fascia and orbicularis fascia to the lateral canthal tendon by means of the tarsal plate connection. Release of the deep ligamentous attachments (lateral orbital thickening and orbicularis retaining ligament) of the orbicularis fascia is important in some canthopexy and in rejuvenation procedures. The release allows effective redraping and upward mobilization of the orbicularis of the lower lid and the premalar soft tissues.

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Surgical Anatomy of the Midcheek and Malar Mounds

Mendelson

Muzaffar

Adams

2002

Plastic and Reconstructive Surgery

255

115

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The anatomy of the midcheek has not been satisfactorily described to adequately explain midcheek aging and malar mounds, nor has it suggested a logical approach to their correction or provided sufficient detail for safe surgery in this area. This cadaver study, which was complemented by many operative dissections, located a missing link: a glide plane space overlying the body of the zygoma. The space functions to allow mobility of the orbicularis oculi, where it overlies the zygoma and the origins of the elevator muscles to the upper lip. The space is a cleft between the sub-orbicularis oculi fat and the preperiosteal fat and is lined by a fine membrane. The anatomic boundaries are clearly defined by retaining ligaments, which correlate with the triangularity of the space. Several anatomic features provide the functional characteristics of the prezygomatic space, including the (1) absence of direct attachments between the orbicularis in the roof to the floor, (2) more rigid inferior boundary formed by the zygomatic ligaments, and (3) more mobile upper ligamentous boundary formed by the orbicularis retaining ligament (separating from the preseptal space of the lower lid). These components determine the characteristic aging changes that occur in this region and explain much about malar mounds. An appreciation of this anatomy has several surgical implications. The prezygomatic space is a junction area that can be approached from the temple, lower lid, and cheek. The zygomatic branches of the facial nerve to the orbicularis do not cross the space; rather, they course in the walls and in the sub-orbicularis fat within the roof of the space.

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