Laser resurfacing today and the 'cook book' approach: a recipe for disaster?

Background  Laser ablative skin resurfacing achieves skin rejuvenation by precise ablation of photoaged skin and subsequent re‐epithelialisation and dermal remodelling. Carbon dioxide (CO2) and Erbium:YAG (Er:YAG) lasers are the established choice. A wide range and many sets of parameters have been...

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Published inJournal of cosmetic dermatology Vol. 3; no. 4; pp. 237 - 241
Main Author Trelles, M A
Format Journal Article
LanguageEnglish
Published Oxford, UK Blackwell Science Ltd 01.12.2004
Subjects
CO2 laser
Er: YAG laser
laser parameters
laser skin resurfacing
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Abstract Background  Laser ablative skin resurfacing achieves skin rejuvenation by precise ablation of photoaged skin and subsequent re‐epithelialisation and dermal remodelling. Carbon dioxide (CO2) and Erbium:YAG (Er:YAG) lasers are the established choice. A wide range and many sets of parameters have been proposed as the gold standard for each system but results have varied. Aims  To show that this single system ‘cook book’ approach must be rejected in favour of a more comprehensive approach. Subjects and methods  The author has experience of ablative skin resurfacing in over 1200 patients and has used both systems. A more flexible approach, using a combined wavelength system, is presented. It comprises precise ablation of the epidermal with the Er: YAG (to create an epidermal window), followed instantaneously with subablative heating of the exposed dermis with the CO2 laser. Results  Since adopting the dual wavelength/dual modality approach, more than 600 patients have been treated, with excellent results and a very high patient satisfaction index, currently around 90%, obtained from the sum of the very satisfied and satisfied patients using a five‐grade scale. Possible resurfacing‐related complications have included prolonged erythema, hyper or hypopigmentation, scarring and viral infections, which were more common with single system resurfacing. The author's complication rate remains under 1%, without any prophylactic use of antiviral agents. Conclusions  The cook book approach, whereby a particular set of fixed laser resurfacing parameters for a specific single laser system are adopted and rigidly applied in all patients, will not achieve the best treatment effects and may even produce a bad result and dissatisfied patients. The dual modality approach allows a combination of the favourable elements of each of the two wavelengths with excellent and consistent results.
AbstractList Background  Laser ablative skin resurfacing achieves skin rejuvenation by precise ablation of photoaged skin and subsequent re‐epithelialisation and dermal remodelling. Carbon dioxide (CO2) and Erbium:YAG (Er:YAG) lasers are the established choice. A wide range and many sets of parameters have been proposed as the gold standard for each system but results have varied. Aims  To show that this single system ‘cook book’ approach must be rejected in favour of a more comprehensive approach. Subjects and methods  The author has experience of ablative skin resurfacing in over 1200 patients and has used both systems. A more flexible approach, using a combined wavelength system, is presented. It comprises precise ablation of the epidermal with the Er: YAG (to create an epidermal window), followed instantaneously with subablative heating of the exposed dermis with the CO2 laser. Results  Since adopting the dual wavelength/dual modality approach, more than 600 patients have been treated, with excellent results and a very high patient satisfaction index, currently around 90%, obtained from the sum of the very satisfied and satisfied patients using a five‐grade scale. Possible resurfacing‐related complications have included prolonged erythema, hyper or hypopigmentation, scarring and viral infections, which were more common with single system resurfacing. The author's complication rate remains under 1%, without any prophylactic use of antiviral agents. Conclusions  The cook book approach, whereby a particular set of fixed laser resurfacing parameters for a specific single laser system are adopted and rigidly applied in all patients, will not achieve the best treatment effects and may even produce a bad result and dissatisfied patients. The dual modality approach allows a combination of the favourable elements of each of the two wavelengths with excellent and consistent results.
Laser ablative skin resurfacing achieves skin rejuvenation by precise ablation of photoaged skin and subsequent re-epithelialisation and dermal remodelling. Carbon dioxide (CO(2)) and Erbium:YAG (Er:YAG) lasers are the established choice. A wide range and many sets of parameters have been proposed as the gold standard for each system but results have varied.BACKGROUNDLaser ablative skin resurfacing achieves skin rejuvenation by precise ablation of photoaged skin and subsequent re-epithelialisation and dermal remodelling. Carbon dioxide (CO(2)) and Erbium:YAG (Er:YAG) lasers are the established choice. A wide range and many sets of parameters have been proposed as the gold standard for each system but results have varied.To show that this single system 'cook book' approach must be rejected in favour of a more comprehensive approach.AIMSTo show that this single system 'cook book' approach must be rejected in favour of a more comprehensive approach.The author has experience of ablative skin resurfacing in over 1200 patients and has used both systems. A more flexible approach, using a combined wavelength system, is presented. It comprises precise ablation of the epidermal with the Er: YAG (to create an epidermal window), followed instantaneously with subablative heating of the exposed dermis with the CO(2) laser.SUBJECTS AND METHODSThe author has experience of ablative skin resurfacing in over 1200 patients and has used both systems. A more flexible approach, using a combined wavelength system, is presented. It comprises precise ablation of the epidermal with the Er: YAG (to create an epidermal window), followed instantaneously with subablative heating of the exposed dermis with the CO(2) laser.Since adopting the dual wavelength/dual modality approach, more than 600 patients have been treated, with excellent results and a very high patient satisfaction index, currently around 90%, obtained from the sum of the very satisfied and satisfied patients using a five-grade scale. Possible resurfacing-related complications have included prolonged erythema, hyper or hypopigmentation, scarring and viral infections, which were more common with single system resurfacing. The author's complication rate remains under 1%, without any prophylactic use of antiviral agents.RESULTSSince adopting the dual wavelength/dual modality approach, more than 600 patients have been treated, with excellent results and a very high patient satisfaction index, currently around 90%, obtained from the sum of the very satisfied and satisfied patients using a five-grade scale. Possible resurfacing-related complications have included prolonged erythema, hyper or hypopigmentation, scarring and viral infections, which were more common with single system resurfacing. The author's complication rate remains under 1%, without any prophylactic use of antiviral agents.The cook book approach, whereby a particular set of fixed laser resurfacing parameters for a specific single laser system are adopted and rigidly applied in all patients, will not achieve the best treatment effects and may even produce a bad result and dissatisfied patients. The dual modality approach allows a combination of the favourable elements of each of the two wavelengths with excellent and consistent results.CONCLUSIONSThe cook book approach, whereby a particular set of fixed laser resurfacing parameters for a specific single laser system are adopted and rigidly applied in all patients, will not achieve the best treatment effects and may even produce a bad result and dissatisfied patients. The dual modality approach allows a combination of the favourable elements of each of the two wavelengths with excellent and consistent results.
Laser ablative skin resurfacing achieves skin rejuvenation by precise ablation of photoaged skin and subsequent re-epithelialisation and dermal remodelling. Carbon dioxide (CO(2)) and Erbium:YAG (Er:YAG) lasers are the established choice. A wide range and many sets of parameters have been proposed as the gold standard for each system but results have varied. To show that this single system 'cook book' approach must be rejected in favour of a more comprehensive approach. The author has experience of ablative skin resurfacing in over 1200 patients and has used both systems. A more flexible approach, using a combined wavelength system, is presented. It comprises precise ablation of the epidermal with the Er: YAG (to create an epidermal window), followed instantaneously with subablative heating of the exposed dermis with the CO(2) laser. Since adopting the dual wavelength/dual modality approach, more than 600 patients have been treated, with excellent results and a very high patient satisfaction index, currently around 90%, obtained from the sum of the very satisfied and satisfied patients using a five-grade scale. Possible resurfacing-related complications have included prolonged erythema, hyper or hypopigmentation, scarring and viral infections, which were more common with single system resurfacing. The author's complication rate remains under 1%, without any prophylactic use of antiviral agents. The cook book approach, whereby a particular set of fixed laser resurfacing parameters for a specific single laser system are adopted and rigidly applied in all patients, will not achieve the best treatment effects and may even produce a bad result and dissatisfied patients. The dual modality approach allows a combination of the favourable elements of each of the two wavelengths with excellent and consistent results.
Background  Laser ablative skin resurfacing achieves skin rejuvenation by precise ablation of photoaged skin and subsequent re‐epithelialisation and dermal remodelling. Carbon dioxide (CO 2 ) and Erbium:YAG (Er:YAG) lasers are the established choice. A wide range and many sets of parameters have been proposed as the gold standard for each system but results have varied. Aims  To show that this single system ‘cook book’ approach must be rejected in favour of a more comprehensive approach. Subjects and methods  The author has experience of ablative skin resurfacing in over 1200 patients and has used both systems. A more flexible approach, using a combined wavelength system, is presented. It comprises precise ablation of the epidermal with the Er: YAG (to create an epidermal window), followed instantaneously with subablative heating of the exposed dermis with the CO 2 laser. Results  Since adopting the dual wavelength/dual modality approach, more than 600 patients have been treated, with excellent results and a very high patient satisfaction index, currently around 90%, obtained from the sum of the very satisfied and satisfied patients using a five‐grade scale. Possible resurfacing‐related complications have included prolonged erythema, hyper or hypopigmentation, scarring and viral infections, which were more common with single system resurfacing. The author's complication rate remains under 1%, without any prophylactic use of antiviral agents. Conclusions  The cook book approach, whereby a particular set of fixed laser resurfacing parameters for a specific single laser system are adopted and rigidly applied in all patients, will not achieve the best treatment effects and may even produce a bad result and dissatisfied patients. The dual modality approach allows a combination of the favourable elements of each of the two wavelengths with excellent and consistent results.
Author Trelles, M A
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17168879 - J Cosmet Dermatol. 2005 Dec;4(4):298-9; author reply 299-300
References_xml – reference: Ross EV, Naseef GS, McKinlay JR, Barnette DJ, Skrobal M, Grevelink J, Anderson RR. Comparison of carbon dioxide laser, erbium: YAG laser, dermabrasion, and dermatome: a study of thermal damage, wound contraction, and wound healing in a live pig model: implications for skin resurfacing. J Am Acad Dermatol 2000; 42: 92-105.
– reference: Alster TS. Comparison of two high-energy, pulsed carbon dioxide lasers in the treatment of periorbital rhytides. Dermatol Surg 1996; 22: 541-5.
– reference: Trelles MA, Coates J, Trelles OR, Trelles K, Curto M, Clarke A. Histological correlation in laser skin resurfacing. Lasers Med Sci 1995; 10: 279-82.
– reference: Kaufmann R, Hibst R. Pulsed Erbium: YAG laser ablation in cutaneous surgery. Lasers Surg Med 1996; 19: 324-30.
– reference: Bitter PH. Noninvasive rejuvenation of photoaged skin using serial, full-face intense pulsed light treatments. Dermatol Surg 2000; 26: 835-43.
– reference: Stuzin JM, Baker TJ, Gordon HL. Treatment of photoaging. Facial chemical peeling (phenol and trichloroacetic acid) and dermabrasion. Clin Plast Surg 1993; 20: 9.
– reference: Rubach BW, Schoenrock LD. Histological and clinical evaluation of facial resurfacing using a carbon dioxide laser with the computer pattern generator. Arch Otolaryngol Head Neck Surg 1997; 123: 929-34.
– reference: Trelles MA, Rigau J, Mellor TK, García L. A clinical and histological comparison of flashscanning versus pulsed technology in carbon dioxide laser facial skin resurfacing. Dermatol Surg 1998; 24: 43-9.
– reference: Hohenleutner U, Hohenleutner S, Baumler W, Landthaler M. Fast and effective skin ablation with an Er: YAG laser: determination of ablation rates and thermal damage zones. Lasers Surg Med 1997; 20: 242-7.
– reference: David LM, Sarne AJ, Unger WP. Rapid laser scanning for facial resurfacing. Dermatol Surg 1995; 21: 1031-3.
– reference: Bass LS. Erbium: YAG laser skin resurfacing: preliminary clinical evaluation. Ann Plast Surg 1998; 40: 328-34.
– reference: Trelles MA, García-Solana L, Calderhead RG. Skin resurfacing improved with a new dual wavelength Er: YAG / CO2 laser system: a comparative study. J Clin Laser Med Surg 1999; 17: 99-104.
– reference: Lask G, Keller G, Lowe N, Gormley D. Laser skin resurfacing with the SilkTouch flashscanner for facial rhytides. Dermatol Surg 1995; 21: 1021-4.
– reference: Kaufmann R, Hibst R. Pulsed 2.94-microns erbium-YAG laser skin ablation - experimental results and first clinical application. Clin Exp Dermatol 1990; 15: 389-93.
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Snippet Background  Laser ablative skin resurfacing achieves skin rejuvenation by precise ablation of photoaged skin and subsequent re‐epithelialisation and dermal...
Background  Laser ablative skin resurfacing achieves skin rejuvenation by precise ablation of photoaged skin and subsequent re‐epithelialisation and dermal...
Laser ablative skin resurfacing achieves skin rejuvenation by precise ablation of photoaged skin and subsequent re-epithelialisation and dermal remodelling....
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StartPage 237
SubjectTerms CO2 laser
Er: YAG laser
laser parameters
laser skin resurfacing
Title Laser resurfacing today and the 'cook book' approach: a recipe for disaster?
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https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.1473-2130.2004.00090.x
https://www.ncbi.nlm.nih.gov/pubmed/17166113
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