Biological arches and changes to the curvilinear form of the aging maxilla.

The facial skeleton can be conceptualized as a series of arches aligned along a vertical axis, with regional differences in shape. Previous work suggested that the maxilla undergoes differential growth with time. Because these arch forms resemble geometric forms, it may be possible to measure changes to their shape with the aging process.

Changes in ocular globe-to-orbital rim position with age: implications for aesthetic blepharoplasty of the lower eyelids.

Changes in the relationship of the anterior globe to the orbital rim, orbital fat, and cheek mass are examined in the present study. Two groups of individuals (N = 28) were studied, young versus old, using three-dimensional computer tomography. A computer-derived soft tissue reformat of the data allowed the anterior-posterior changes to be evaluated at the midpupillary plane.

A technique for three-dimensional cephalometric analysis as an aid in evaluating changes in the craniofacial skeleton.

A technique is presented for creating a standardized view for use in three-dimensional cephalometry. Three-dimensional cephalometric analysis has become a valuable tool in the assessment of skeletal remodeling, contour changes, and changes in proportion that occur with aging. Computer-assisted tomographic data can be used in either coronal or axial sections; the present study was performed with axially acquired data that was processed in several steps to achieve a standardized position of the facial skeleton for further evaluation.

The effect of skeletal remodeling on the nasal profile: considerations for rhinoplasty in the older patient.

The effect of continued differential growth of the adult male craniofacial skeleton on the nasal profile is examined in the present study. Two groups of individuals (N = 20) were compared, young (ages 16-23) and old (49-64). A three-dimensional CT scan was created for each individual in a standardized view.

Concertina effect and facial aging: nonlinear aspects of youthfulness and skeletal remodeling, and why, perhaps, infants have jowls.

The effect of aging on the orbitomaxillary region is evaluated in the present study. The observation was made that infants look like aged individuals in terms of the midface soft-tissue contours of the midface. Because preliminary work has shown that the facial skeleton remodels throughout life, this observation led to the hypothesis that infants and older individuals appear similar because they have comparable skeletal dimensions, specifically in the orbitomaxillary region.