Ptosis

Ptosis of the soft tissue envelope encompasses one component of midfacial aging. As it descends, the suborbicularis occuli fat (SOOF) falls below the bony infraorbital rim, with concomitant development of a tear-trough deformity. The malar fat pad continues to descend with subsequent production of deeper nasolabial folds, as the relatively thick cheek subunit abuts the thin and muscular perioral area. Later, with advancing age and hormonal changes, the facial retaining ligaments and overlying skin lose elasticity, accelerating midface ptosis and contributing to jowling of the lower face.

Volume Loss

A second distinct component of midfacial aging results from devolumization of the midface structures, including the soft tissue envelope, fat compartments, and the osseous skeleton. Esthetic surgeons have described changes in the facial fat compartments, which have recently been described in studies that show both descent of the tissue mass and overall volume loss. Specifically, Rohrich and Pessa showed, in cadaveric studies, that there are distinct partitions of facial subcutaneous fat. It is the changes that occur in these individual compartments that characterize the aging face. The importance of this work is in the understanding that the face does not age as one “confluent mass.”

Cheek fat compartments are identified as 3 separate entities that lie between the orbital retaining ligaments superiorly and the jowl fat inferiorly. These 3 fat compartments consist of the medial, middle, and lateral temporal cheek fat. There is a described zone of confluence where all 3 fat compartments meet and the zygomaticus major muscle is adherent; this is known as the zygomatic ligament. The importance in understanding that a dense fascial plane exists where the medial and middle cheek fat compartments meet is invaluable in face-lifting surgery. It is these dense fascial systems that can cause poor postoperative midface results if not adequately released.

Facial Skeletal Anatomy

A final consideration in midfacial analysis is relatively independent of patient age: skeletal anatomy, which determines malar projection. In youth, the fullness of the perimalar soft tissues can mask bony hypoplasia. As the attendant soft tissue volume loss and midface ptosis progresses with age, malar structural deficiency becomes apparent and contributes significantly to the aged appearance. In addition, patients with malar hypoplasia and/or a negative vector have premature midfacial descent from a lack of soft tissue support, which can be apparent by age 30. Conversely, patients with strong zygomatico-malar complexes (“high cheekbones”) tend to display midfacial ptosis later in life.

Involution of the facial skeleton does occur with age, but it is the authors’ belief that this is not as significant a contributor to midfacial ptosis as the cheekbone anatomic structure in youth. Shaw and Kahn describe a statistically significant derotation of the maxillary angle of 6.7° into the face when comparing young to middle age groups of patients via 3-dimensional computed tomographic studies. It is the authors’ belief that this degree of change, although statistically significant, matters most in patients who already have weak zygomatic-maxillary structure and likely would have benefited from early malar augmentation. Those with strong skeletal structure in youth are unlikely to need skeletal augmentation in older age, even with derotation of the maxilla.

As a result of the many anatomic components involved in midfacial aging, the authors proposed a classification system based on distinct anatomic factors to direct surgical treatment. In this article, the authors review their retrospective experience of 150 patients who underwent midfacial rejuvenation surgery. Their outcomes were analyzed in terms of midfacial aging classification, surgical approach used, and patient satisfaction with the midface rejuvenation. The techniques used included the following either as a single modality or combined treatments: autologous fat grafting, transtemporal midface lifting, deep plane rhytidectomy with release of zygomatic subcutaneous ligaments, cheek augmentation with implants, and lower eyelid blepharoplasty with fat transposition.

Midface classification

The authors assess midface anatomy and aging by physical examination and preoperative photography. The following 4 variables are used:

• 1.
  

  Volume loss

  
  
• 2.
  

  Midface ptosis

  
  
• 3.
  

  Loss of elasticity

  
  
• 4.
  

  Presence or absence of a negative vector or hypoplastic malar eminence

To determine adequate projection of the malar region, a line perpendicular to the Frankfort horizontal is drawn inferior from the glabella; if the most anterior portion of the midface is obviously posterior to this line, the patient is considered to have deficient midface projection, which is similar to the “negative vector” described for periorbital surgery. For men with a very prominent frontal bar, the nasion is used in place of the glabella.

The authors found that, using this classification scheme, patients fit into 1 of 3 general categories (class I, II, and III) based on severity of midfacial aging ( Table 1 ). Furthermore, patients in each group can be subclassified as having either (1) normal skeletal anatomy; or (2) deficient skeletal projection in the midface ( Fig. 1 ). Finally, it is important to note that people age differently, with genetic and environmental factors contributing uniquely. Strict age-based classifications are thus inadequate. As such, age for each class is presented as a suggested range, although outliers exist in each group.

Table 1

Multifactorial classification scheme for midfacial aging

Midface Classification	Infraorbital or Malar Volume Loss	Midfacial Ptosis	Loss of Elasticity	Negative Vector or Malar Hypoplasia	Age Category, y
IA	+	−	−	−	<40
IB	+	−	−	+	<40
IIA	+	+	+	−	40–55
IIB	+	+	+	+	40–55
IIIA	++	++	++	−	>55
IIIB	++	++	++	+	>55

(−), absent; (+), present; (++), obvious or significant.

( A ) Schematic of the midface classification. A, class I; B, class II; C, class III; D, subclass A (normal midface skeletal projection); E, subclass B (hypoplastic malar eminence or negative vector). ( B ) Details regarding determination of malar projection are given in the “ Age and Midface Classification ” section. NLF, nasolabial fold.

Ptosis

Ptosis of the soft tissue envelope encompasses one component of midfacial aging. As it descends, the suborbicularis occuli fat (SOOF) falls below the bony infraorbital rim, with concomitant development of a tear-trough deformity. The malar fat pad continues to descend with subsequent production of deeper nasolabial folds, as the relatively thick cheek subunit abuts the thin and muscular perioral area. Later, with advancing age and hormonal changes, the facial retaining ligaments and overlying skin lose elasticity, accelerating midface ptosis and contributing to jowling of the lower face.

Volume Loss

A second distinct component of midfacial aging results from devolumization of the midface structures, including the soft tissue envelope, fat compartments, and the osseous skeleton. Esthetic surgeons have described changes in the facial fat compartments, which have recently been described in studies that show both descent of the tissue mass and overall volume loss. Specifically, Rohrich and Pessa showed, in cadaveric studies, that there are distinct partitions of facial subcutaneous fat. It is the changes that occur in these individual compartments that characterize the aging face. The importance of this work is in the understanding that the face does not age as one “confluent mass.”

Cheek fat compartments are identified as 3 separate entities that lie between the orbital retaining ligaments superiorly and the jowl fat inferiorly. These 3 fat compartments consist of the medial, middle, and lateral temporal cheek fat. There is a described zone of confluence where all 3 fat compartments meet and the zygomaticus major muscle is adherent; this is known as the zygomatic ligament. The importance in understanding that a dense fascial plane exists where the medial and middle cheek fat compartments meet is invaluable in face-lifting surgery. It is these dense fascial systems that can cause poor postoperative midface results if not adequately released.

Facial Skeletal Anatomy

A final consideration in midfacial analysis is relatively independent of patient age: skeletal anatomy, which determines malar projection. In youth, the fullness of the perimalar soft tissues can mask bony hypoplasia. As the attendant soft tissue volume loss and midface ptosis progresses with age, malar structural deficiency becomes apparent and contributes significantly to the aged appearance. In addition, patients with malar hypoplasia and/or a negative vector have premature midfacial descent from a lack of soft tissue support, which can be apparent by age 30. Conversely, patients with strong zygomatico-malar complexes (“high cheekbones”) tend to display midfacial ptosis later in life.

Involution of the facial skeleton does occur with age, but it is the authors’ belief that this is not as significant a contributor to midfacial ptosis as the cheekbone anatomic structure in youth. Shaw and Kahn describe a statistically significant derotation of the maxillary angle of 6.7° into the face when comparing young to middle age groups of patients via 3-dimensional computed tomographic studies. It is the authors’ belief that this degree of change, although statistically significant, matters most in patients who already have weak zygomatic-maxillary structure and likely would have benefited from early malar augmentation. Those with strong skeletal structure in youth are unlikely to need skeletal augmentation in older age, even with derotation of the maxilla.

As a result of the many anatomic components involved in midfacial aging, the authors proposed a classification system based on distinct anatomic factors to direct surgical treatment. In this article, the authors review their retrospective experience of 150 patients who underwent midfacial rejuvenation surgery. Their outcomes were analyzed in terms of midfacial aging classification, surgical approach used, and patient satisfaction with the midface rejuvenation. The techniques used included the following either as a single modality or combined treatments: autologous fat grafting, transtemporal midface lifting, deep plane rhytidectomy with release of zygomatic subcutaneous ligaments, cheek augmentation with implants, and lower eyelid blepharoplasty with fat transposition.

Midface classification

The authors assess midface anatomy and aging by physical examination and preoperative photography. The following 4 variables are used:

• 1.
  

  Volume loss

  
  
• 2.
  

  Midface ptosis

  
  
• 3.
  

  Loss of elasticity

  
  
• 4.
  

  Presence or absence of a negative vector or hypoplastic malar eminence

To determine adequate projection of the malar region, a line perpendicular to the Frankfort horizontal is drawn inferior from the glabella; if the most anterior portion of the midface is obviously posterior to this line, the patient is considered to have deficient midface projection, which is similar to the “negative vector” described for periorbital surgery. For men with a very prominent frontal bar, the nasion is used in place of the glabella.

The authors found that, using this classification scheme, patients fit into 1 of 3 general categories (class I, II, and III) based on severity of midfacial aging ( Table 1 ). Furthermore, patients in each group can be subclassified as having either (1) normal skeletal anatomy; or (2) deficient skeletal projection in the midface ( Fig. 1 ). Finally, it is important to note that people age differently, with genetic and environmental factors contributing uniquely. Strict age-based classifications are thus inadequate. As such, age for each class is presented as a suggested range, although outliers exist in each group.

Table 1

Multifactorial classification scheme for midfacial aging

Midface Classification	Infraorbital or Malar Volume Loss	Midfacial Ptosis	Loss of Elasticity	Negative Vector or Malar Hypoplasia	Age Category, y
IA	+	−	−	−	<40
IB	+	−	−	+	<40
IIA	+	+	+	−	40–55
IIB	+	+	+	+	40–55
IIIA	++	++	++	−	>55
IIIB	++	++	++	+	>55

(−), absent; (+), present; (++), obvious or significant.

( A ) Schematic of the midface classification. A, class I; B, class II; C, class III; D, subclass A (normal midface skeletal projection); E, subclass B (hypoplastic malar eminence or negative vector). ( B ) Details regarding determination of malar projection are given in the “ Age and Midface Classification ” section. NLF, nasolabial fold.

Only gold members can continue reading. Log In or Register to continue

Share this:

• Click to share on Twitter (Opens in new window)
• Click to share on Facebook (Opens in new window)

Related

Related posts:

Dark Circles Transconjunctival Lower Lid Blepharoplasty with and Without Fat Repositioning Transcutaneous Lower Blepharoplasty with Fat Transposition The Transeyelid Midface Lift Transtemporal Midface Lifting to Blend the Lower Eyelid-Cheek Junction Autologous Fat Grafting for Midface Rejuvenation

Stay updated, free articles. Join our Telegram channel

Join