Facial rejuvenation is a cosmetic treatment (or series of cosmetic treatments), which aims to restore a youthful appearance to the human face. Facial rejuvenation can be achieved through either surgical and/or non-surgical options. Procedures can vary in invasiveness and depth of treatment. Surgical procedures can restore facial symmetry through targeted procedures and facial restructuring and skin alterations. Non-surgical procedures can target specific depths of facial structures and treat localized facial concerns such as wrinkles, skin laxity, hyperpigmentation and scars.
Surgical (invasive) facial rejuvenation procedures can include a brow lift (forehead lift), eye lift (blepharoplasty), facelift (rhytidectomy), chin lift and neck lift. Non-surgical (non-invasive) facial rejuvenation treatments can include chemical peels, neuromodulator (such as botox), dermal fillers, laser resurfacing, photorejuvenation, radiofrequency and Ultrasound.
Visual appraisal of facial youthfulness
Human visual perception is notable for its sensitivity and accuracy in estimating our perceived age by instant pattern recognition of facial features. Often, human faces with no measurable difference in facial geometry and appearance are perceived as having different ages. This mechanism is not yet entirely understood, but there may be a relation to the subtle changes in facial bone structure related below.[1]
Golden ratio
Facial symmetry has a direct relationship to perceived beauty. A guiding approach to facial rejuvenation and balancing facial symmetry is through an application of the golden ratio.[2] Artists and architects have been using this ratio to create works that are pleasing to the eye for centuries.[3] Aesthetic medicine and facial rejuvenation techniques has adopted this mathematical approach to facial restoration and enhancement.[4]
Influence of changes in bone structure
More recent research has pointed out the influence of changes in the facial skeleton with age on the appearance of aging, especially in the mid-face area and the lower part of the orbits around the nose. Quantitative study with CAT scans of the faces of men and women in several age brackets has revealed that there is an appreciable amount of bone tissue loss in these regions with age, leading to changes in angles, lengths and volumes, and also decreasing the distance between the eyes.[5] It has been hypothesized that skin sagging and wrinkles may occur not only because of loss of soft tissue and fat, but also because bone retraction creates an excess of skin which is no longer flexible. Many of the facial manifestations of aging reflect the combined effects of gravity, progressive bone resorption, decreased tissue elasticity, and redistribution of subcutaneous fullness.[6] Future facial rejuvenation techniques may take into account these findings and restore bone lost by aging processes.[7]
Trends in facial rejuvenation
According to the American Society of Plastic Surgeons, more than 133,000 facelifts and nearly 216,000 eyelid surgeries were performed in the US in 2013, a six per cent increase from 2012. Facial rejuvenation procedures experienced the most growth, as 2013 marked the highest number of botulinum toxin type A injections to date, with 6.3 million injections.[8] A significant upward trend on the number of facial rejuvenation procedures is predicted,[9] and could be due to the following factors:
- Men have also started to perform these procedures at increasing numbers;
- Emphasis on image of youthfulness by the mass media and fashion;
- Increasing numbers of senior people enjoying good health and financial affluence at older ages;
- Decreasing costs of surgery and other cosmetic procedures, making them affordable to all
However, while surgical procedures are still preferred to achieve a more dramatic improvement, the current trend is towards less invasive procedures, such as injectables (Botox, fillers) and laser skin treatments. While these treatments achieve temporary results, they tend to be preferred because of their reduced cost and less intensive recovery period.[10]
Procedures
Facial rejuvenation procedures can include (but are not limited to):
See also
References
- ↑ Wulc, Allan E.; Sharma, Pooja; Czyz, Craig N.; Czyz, Craig N. (2012). "The Anatomic Basis of Midfacial Aging". Midfacial Rejuvenation. pp. 15–28. doi:10.1007/978-1-4614-1007-2_2. ISBN 978-1-4614-1006-5. S2CID 1713289.
- ↑ Pallett PM, Link S, Lee K (2010). "New "golden" ratios for facial beauty". Vision Res. 50 (2): 149–54. doi:10.1016/j.visres.2009.11.003. PMC 2814183. PMID 19896961.
- ↑ "Leonardo da Vinci's Polyhedra".
- ↑ Pessa, Joel E. (August 2000). "An Algorithm of Facial Aging: Verification of Lambros's Theory by Three-Dimensional Stereolithography, with Reference to the Pathogenesis of Midfacial Aging, Scleral Show, and the Lateral Suborbital Trough Deformity". Plastic and Reconstructive Surgery. 106 (2): 479–88, discussion 489–90. doi:10.1097/00006534-200008000-00040. PMID 10946949. S2CID 23822193.
- ↑ Pessa, Joel E. (August 2000). "An Algorithm of Facial Aging: Verification of Lambros's Theory by Three-Dimensional Stereolithography, with Reference to the Pathogenesis of Midfacial Aging, Scleral Show, and the Lateral Suborbital Trough Deformity". Plastic and Reconstructive Surgery. 106 (2): 479–88, discussion 489–90. doi:10.1097/00006534-200008000-00040. PMID 10946949. S2CID 23822193.
- ↑ "The Anatomy of the Aging Face: Volume Loss and Changes in 3-Dimension…". Archived from the original on 19 November 2014.
- ↑ "The Anatomy of the Aging Face: Volume Loss and Changes in 3-Dimensional Topography". Archived from the original on 2014-11-19. Retrieved 2014-11-18.
- ↑ "2013 Plastic Surgery Statistics Report" (PDF). Archived from the original (PDF) on 2015-02-09. Retrieved 2014-11-18.
- ↑ "The Anatomy of the Aging Face: Volume Loss and Changes in 3-Dimension…". Archived from the original on 19 November 2014.
- ↑ "The Anatomy of the Aging Face: Volume Loss and Changes in 3-Dimensional Topography". Archived from the original on 2014-11-19. Retrieved 2014-11-18.
Further reading
- Hartstein, Morris E.; Wulc, Allan E.; Holck, David E.E. (31 Oct 2011). The Anatomic Basis of Midfacial Aging. New York: Springer Science+Business Media. ISBN 978-1-4614-1007-2.
- Pallett, Pamela M.; Link, Stephen; Lee, Kang (2010). "New "Golden" Ratios for Facial Beauty". Vision Research. 50 (2): 149–54. doi:10.1016/j.visres.2009.11.003. PMC 2814183. PMID 19896961.
- Hart, George W. "Leonardo da Vinci's Polyhedra". Retrieved 18 November 2014.
- Pessa M.D., Joel E. (August 2000). "An Algorithm of Facial Aging: Verification of Lambros's Theory by Three-Dimensional Stereolithography, with Reference to the Pathogenesis of Midfacial Aging, Scleral Show, and the Lateral Suborbital Trough Deformity". Plast Reconstr Surg. 106 (2): 479–488. doi:10.1097/00006534-200008000-00040. PMID 10946949. S2CID 23822193.
- Coleman, Sydney R.; Grover, Rajiv (Jan 1, 2006). "The Anatomy of the Aging Face: Volume Loss and Changes in 3-Dimensional Topography". Aesthetic Surgery Journal. 26 (1S): S4–9. doi:10.1016/j.asj.2005.09.012. PMID 19338976.