比較其他拉提技術

與激光、RF射頻、手術及其他美容技術不同,非侵入式的Ultherapy™能穿透表層肌膚,在不傷及表皮的條件下將適量的聚焦超聲波能量準確輸送至皮膚內,形成最佳溫度的「熱點」,刺激膠原蛋白增生。Ultherapy™的聚焦超聲波能量可達到表層皮膚下4.5毫米的脂肪及結締組織層(SMAS),媲美拉皮手術的治療深度,帶來極限提拉效果。

compare-table01a

比較其他超聲波拉提療程

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參考資料:
1.
http://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfpmn/pmn.cfm 2. Hayashi K, et al. The effect of thermal heating on the length and histologicalproperties of the glenohumeral joint capsule. Am J Sports Med. 1997;25(1):107–112. 3. White, W.M., et al., Selective transcutaneous delivery of energy to porcine soft tissues using Intense Ultrasound (IUS). Lasers Surg Med, 2008. 40(2):67-75. 4. Gliklich, R.E., et al., Clinical pilot study of intense ultrasound therapy to deep dermal facial skin and subcutaneous tissues. Arch Facial Plast Sug, 2007. 9(2):88-95. 5. Laubach ,H.J., et al., Intense focused ultrasound: evaluation of a new treatment modality for precise microcoagulation within the skin. Dermatol Surg, 2008. 34(5):727-34. 6. Alam, M., et al., Ultrasound tightening of facial and neck skin: a rater-blinded prospective cohort study. J Am Acad Dermatol, 2010. 62(2):262-9. 7. Oni, G., et al., Evaluation of a Microfocused Ultrasound System for Improving Skin Laxity and Tightening in the Lower Face. Aesthetic Journal, 2014. 34(7): 1099-1110. 8. Fabi, Sabrina G., and Mitchel P. Goldman., Retrospective Evaluation of Micro-focused Ultrasound for Lifting and Tightening the Face and Neck. Dermatologic Surgery, 2014. 40(5): 569-575. 9. Internal Document. Data on File.