Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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UNKNOWN
NA
23 participants
INTERVENTIONAL
2013-12-31
2014-11-30
Brief Summary
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Detailed Description
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Acne scars causes impairment of quality of life and has been described as a risk factor for suicide. Furthermore, it has also been linked to poor self esteem, depression, anxiety and lowered academic performance.
The most common type of acne scarring is atrophic, which includes: ice pick, rolling scars and boxcar scars.
Many treatments have been used for atrophic scars, including resurfacing procedures (chemical peels, dermabrasion and laser treatments), excisional procedures (punch excision, elevation by punch and elliptical excision of scars), application of fillers and microneedling, the latter since 2005, with satisfactory results and minimum time recovery.
Previous studies have shown promising results for the treatment of acne scars with non-ablative fractional laser and microneedling. Previous reports have also shown that the latter is associated with rapid healing period, a low complication rate and a low risk of post inflammatory hyperpigmentation.
However, there are no studies comparing the efficacy of microneedling with other techniques of resurfacing.
This study will be a single-blinded randomized clinical trial, comparing the application of non-ablative fractional erbium laser ProDeep 1340 nm and the technique of induction of neocollagenesis by microneedling. The primary objective of this study is to compare the effectiveness of treatment of atrophic acne scars on the face with non-ablative fractional erbium laser and microneedling. The secondary objectives are: assess the degree of satisfaction of participants with both techniques; check tolerability and incidence of adverse effects with both techniques; assess time needed for recovery and number of days absent from work or social activities after the procedures and evaluate the opinion and physical discomfort of each technique.
For each participant, a questionnaire will be filled out with the following information: gender, age, skin type, profession, current or previous history of smoking, use of medications, and presence of active acne. To assess the degree of scarring of the participants, the scale "Quantitative Global Scarring Grading System for Postacne Scarring" will be applied. After this evaluation, patients will be randomly allocated in each study groups (simple randomization). The randomization system was performed with the Microsoft Excel randomization program. Patients in both groups will undergo three sessions of laser treatment or three treatment sessions with microneedling, with an interval of six weeks between them.
Two independent dermatologists, blinded to the group of treatment which each patient belongs to, will apply the Quantitative Global Grading System for Postacne Scarring before treatment, two months and six months after treatment. There are no clinical signs or characteristics that enable the evaluators to identify which group each patient is allocated and patients will be instructed to not provide this information. Six months after completion of treatment, patients will answer a questionnaire to assess their perceptions of the degree of improvement of their scars, pain during treatment and recovery time, assigning values from 0 to 10, where 0 means maximum dissatisfaction and 10, maximum satisfaction.
To detect a difference of one standard deviation in the range between the groups (laser and microneedling), with a power of 90% and an α error ≤ 0.05, 23 patients are required for each group. Data will be inserted in Excel and then exported to SPSS v18.0 for statistical analysis. Quantitative variables will be analyzed by mean and standard deviation and the groups will be compared by Student's t test for independent samples. To compare the variation of the measurements between the groups throughout the sessions the analysis of variance for repeated measures will be used. For the analysis of interobserver agreement the intraclass correlation coefficient and the Bland - Altman method will be used.
This project was approved by the Committee of Research Ethics of our Hospital and all participants will sign an informed consent.
Conditions
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Study Design
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RANDOMIZED
PARALLEL
TREATMENT
SINGLE
Study Groups
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Laser
In each laser session, the non-ablative fractional erbium laser 1340 nm ProDeep (Etheria ® platform/Industra) with tip 100mtz/cm ² will be applied across the face, with a power of 120mJ/mtz time and pulse time of 5ms.
Laser
Patients of this arm will undergo three sessions of laser treatment with an interval of six weeks between them. In each laser session, the non-ablative fractional erbium laser 1340 nm ProDeep (Etheria ® platform/Industra) with tip 100mtz/cm ² will be applied across the face, with a power of 120mJ/mtz time and pulse time of 5ms.
Microneedling
In the microneedling sessions, the instrument contains 192 microneedles with 2 mm depth, which will be applied to the face in four different directions, making up about 20 movements of "coming and going" in each direction.
Microneedling
Patients in this arm will undergo three sessions with microneedling, with an interval of six weeks between them. In the microneedling sessions, the instrument contains 192 microneedles with 2 mm depth, which will be applied to the face in four different directions, making up about 20 movements of "coming and going" in each direction.
Interventions
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Laser
Patients of this arm will undergo three sessions of laser treatment with an interval of six weeks between them. In each laser session, the non-ablative fractional erbium laser 1340 nm ProDeep (Etheria ® platform/Industra) with tip 100mtz/cm ² will be applied across the face, with a power of 120mJ/mtz time and pulse time of 5ms.
Microneedling
Patients in this arm will undergo three sessions with microneedling, with an interval of six weeks between them. In the microneedling sessions, the instrument contains 192 microneedles with 2 mm depth, which will be applied to the face in four different directions, making up about 20 movements of "coming and going" in each direction.
Other Intervention Names
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Eligibility Criteria
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Inclusion Criteria
Exclusion Criteria
* Previous history or presence of post inflammatory hyperpigmentation
* Use of drugs that may induce hyperpigmentation, such as: amiodarone, clofazimine, minocycline or chloroquine
* Presence of only "ice pick" scars
* Pregnancy or lactation
* Use of oral isotretinoin in the last six months
* History of facial treatments with laser or surgery in the last three months
* Herpetic infection, warts or any other active infection of the adjacent skin
* Presence of skin cancer or actinic keratoses
* Coagulopathies or anticoagulating therapy
* Previous history or presence of hypertrophic scars or keloids
* Patients being treated with chemotherapy, radiotherapy or corticosteroids at high doses
* Diabetes mellitus
* Inability to understand the goals and risks of treatment
ALL
No
Sponsors
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Thaís Hofmann Cachafeiro
OTHER
Responsible Party
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Thaís Hofmann Cachafeiro
Dermatologist and student of post-graduation (masters degree)
Principal Investigators
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Thais H Cachafeiro, MD
Role: PRINCIPAL_INVESTIGATOR
Hospital de Clinicas de Porto Alegre
Locations
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Hospital de Clinicas de Porto Alegre
Porto Alegre, Rio Grande do Sul, Brazil
Countries
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Central Contacts
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Facility Contacts
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Thais H Cachafeiro, MD
Role: primary
Gabriela F Escobar, MD
Role: backup
References
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Goodman GJ. Postacne scarring: a review of its pathophysiology and treatment. Dermatol Surg. 2000 Sep;26(9):857-71. doi: 10.1046/j.1524-4725.2000.99232.x.
Grevelink JM, White VR. Concurrent use of laser skin resurfacing and punch excision in the treatment of facial acne scarring. Dermatol Surg. 1998 May;24(5):527-30. doi: 10.1111/j.1524-4725.1998.tb04201.x.
Hu S, Hsiao WC, Chen MC, Huang YL, Chang SL, Shih PY, Gold MH. Ablative fractional erbium-doped yttrium aluminum garnet laser with coagulation mode for the treatment of atrophic acne scars in Asian skin. Dermatol Surg. 2011 Jul;37(7):939-44. doi: 10.1111/j.1524-4725.2011.02009.x. Epub 2011 May 25.
Fernandes D. Minimally invasive percutaneous collagen induction. Oral Maxillofac Surg Clin North Am. 2005 Feb;17(1):51-63, vi. doi: 10.1016/j.coms.2004.09.004.
Fife D. Practical evaluation and management of atrophic acne scars: tips for the general dermatologist. J Clin Aesthet Dermatol. 2011 Aug;4(8):50-7.
Fabbrocini G, Annunziata MC, D'Arco V, De Vita V, Lodi G, Mauriello MC, Pastore F, Monfrecola G. Acne scars: pathogenesis, classification and treatment. Dermatol Res Pract. 2010;2010:893080. doi: 10.1155/2010/893080. Epub 2010 Oct 14.
Sobanko JF, Alster TS. Management of acne scarring, part I: a comparative review of laser surgical approaches. Am J Clin Dermatol. 2012 Oct 1;13(5):319-30. doi: 10.2165/11598910-000000000-00000.
Sardana K, Garg VK, Arora P, Khurana N. Histological validity and clinical evidence for use of fractional lasers for acne scars. J Cutan Aesthet Surg. 2012 Apr;5(2):75-90. doi: 10.4103/0974-2077.99431.
Majid I. Microneedling therapy in atrophic facial scars: an objective assessment. J Cutan Aesthet Surg. 2009 Jan;2(1):26-30. doi: 10.4103/0974-2077.53096.
Goodman GJ, Baron JA. Postacne scarring--a quantitative global scarring grading system. J Cosmet Dermatol. 2006 Mar;5(1):48-52. doi: 10.1111/j.1473-2165.2006.00222.x.
Other Identifiers
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THC 13/14
Identifier Type: -
Identifier Source: org_study_id