Interventional Study to Evaluate the Appearance of Surgical Scars After Laser Therapy

Overview

This study evaluates the effect of a fractionated carbon dioxide laser on surgical scars of the face and neck over 12 months. Anyone with a surgical scar on the face and neck who has not had laser therapy may be eligible to participate. The visits occur every three months for up to 12 months. Subjects will be randomly assigned to receive a higher energy treatment or a lower energy treatment during the study. Subjects and raters will be blinded to which therapy level the patient receives. At each visit, the scars will be photographed and the subject will complete a questionnaire to rate the scar prior to treatment. Three physicians will evaluate the scar at each visit. One rater will evaluate the scars in person during the visit, while the other two raters will evaluate the scars using photographs after each visit. During the first three study visits, subjects will receive their assigned treatment, obtain post-treatment instructions, and a diary to record redness, swelling, pain, itching, or other skin changes after treatment. At the third study visit, subjects will have the option to receive additional treatments or terminate their participation in the study. The fourth visit for those who continue will be a treatment visit for one group and the fifth visit will be for data collection, with no treatment offered.

Full Title of Study: “A Single Center, Double-blinded Randomized Placebo-controlled Trial to Evaluate Surgical Scars After Treatment With Fractional Carbon Dioxide Rejuvenation Laser Therapy”

Study Type

  • Study Type: Interventional
  • Study Design
    • Allocation: Randomized
    • Intervention Model: Crossover Assignment
    • Primary Purpose: Treatment
    • Masking: Triple (Participant, Investigator, Outcomes Assessor)
  • Study Primary Completion Date: December 1, 2020

Detailed Description

In dermatology, the use of Light Amplification by Stimulated Emission of Radiation (laser) has revolutionized the management of various conditions including angiomas, vitiligo, wrinkles, and scars. (Omi, 2014 and Chapas, 2008) Scars result from sub-optimal collagen production during wound healing leading to topographical irregularities. To effectively modify these defects, any treatment must be capable of penetrating the epidermis and eliciting dermal remodeling at a depth of at least 1 mm. The 10,600 nm carbon dioxide (CO2) laser utilizes high energy at short durations to vaporize intra- and extra-cellular water, resulting in tissue ablation causing a substantial thermal injury to the dermis, reducing the likelihood of additional scarring. The CO2 laser can stimulate collagen production and theoretically improve scar thickness, pliability, and texture. This study is a prospective, randomized double-blinded placebo-controlled trial to evaluate the efficacy of fractionated carbon dioxide laser in improving surgical scars on the head and neck over 3-5 study visits for a duration of 12.5 months. Scar assessments will be based on objective changes identified on pictures taken with the Canfield Vectra M3 3D Imaging System and subjective changes identified with the Patient and Observer Scar Assessment Scale (POSAS), a validated scar scale. As a secondary objective, the study will evaluate the tolerability of the laser, by assessing the severity and duration of known side effects of laser therapy such as erythema, edema, burning sensation, post-inflammatory pigment changes, infection, scarring, xerosis, pruritus, bronzing, and any other adverse events that arise following treatment. Subjects will be given a diary after each treatment to document this information.

Interventions

  • Device: Syneron-Candela CO2RE Laser
    • This fractionated ablative laser will administer energy at either a high intensity setting or a low intensity setting to subjects randomized into a particular treatment group. It will be operated by the principle investigator, who has extensive experience with laser therapy.

Arms, Groups and Cohorts

  • Active Comparator: High Energy Treatment Group
    • Subjects in this group will receive at least two Syneron-Candela CO2RE laser treatments set at either the Mid mode or the Deep mode of the laser at visits three months apart. Thereafter, individuals in this group will be offered a third optional treatment at one of these settings.
  • Placebo Comparator: Low Energy Placebo Group
    • Subjects in this group will receive at least two Syneron-Candela CO2RE laser treatments set at the Light mode of the laser at visits three months apart. The Light mode is a low energy setting that superficially cleanses the skin, and would not affect the scar, which is deeper in the skin. Individuals in this group will be offered two optional high energy treatments subsequent to receiving the two light energy treatments.

Clinical Trial Outcome Measures

Primary Measures

  • Change in Vectra Measured Length V1 (Month 0)-V2 (Month 3) for Original Group; Visit 3 (Month 6) to Visit 4 (Month 9) for Crossover Group
    • Time Frame: 3 months (month 0-3 for original randomized group, month 6-9 for crossover group)
    • Utilizing the Vectra microtopographic imaging system, the study team will measure changes in the length of the scar after laser therapy.
  • In Person Blinded Observer POSAS Change V1 (Month 0)-V2 (Month 3) for Original Group; Visit 3 (Month 6) to Visit 4 (Month 9) for Crossover Group
    • Time Frame: 3 months (month 0-3 for original randomized group, month 6-9 for crossover group)
    • Utilizing the Patient and Observer Scar Assessment Scale (POSAS) (a scar assessment scale), the study will evaluate features of color change, thickness, width, the texture of the scar, pain associated with the scar, and itching associated with the scar by blinded clinical evaluators. Scale is scored from 1-10 with higher scores indicating a worse scar. A change in the total score is being reported.
  • Change in Vectra Measured Width V1 (Month 0)-V2 (Month 3) for Original Group; Visit 3 (Month 6) to Visit 4 (Month 9) for Crossover Group
    • Time Frame: 3 months (months 0-3 for the original randomized group, months 6-9 for the crossover group)
    • Utilizing the Vectra microtopographic imaging system, the study team will measure changes in the width of the scar after laser therapy.
  • Change in Vectra Measured Surface Area V1 (Month 0)-V2 (Month 3) for the Original Group; Visit 3 (Month 6) to Visit 4 (Month 9) for Crossover Group
    • Time Frame: 3 months (months 0-3 for the original randomized group, months 6-9 for the crossover group)
    • Utilizing the Vectra microtopographic imaging system, the study team will measure changes in the surface area of the scar after laser therapy.
  • Change in Vectra Measured Length V1 (Month 0)-V3 (Month 6) for the Original Group; Visit 3 (Month 6) to Visit 5 (Month 12) for Crossover Group
    • Time Frame: 6 months (months 0-6 for the original randomized group, months 6-12 for the crossover group)
    • Utilizing the Vectra microtopographic imaging system, the study team will measure changes in the length of the scar after laser therapy.
  • Change in Vectra Measured Width V1 (Month 0)-V3 (Month 6) for the Original Group; Visit 3 (Month 6) to Visit 5 (Month 12) for Crossover Group
    • Time Frame: 6 months (months 0-6 for the original randomized group, months 6-12 for the crossover group)
    • Utilizing the Vectra microtopographic imaging system, the study team will measure changes in the width of the scar after laser therapy.
  • Change in Vectra Measured Surface Area V1 (Month 0)-V3 (Month 6) for the Original Group; Visit 3 (Month 6) to Visit 5 (Month 12) for Crossover Group
    • Time Frame: 6 months (months 0-6 for the original randomized group, months 6-12 for the crossover group)
    • Utilizing the Vectra microtopographic imaging system, the study team will measure changes in the suface area of the scar after laser therapy.
  • In-person Blinded Observer Change POSAS V1 (Month 0)-V3 (Month 6) for the Original Group; Visit 3 (Month 6) to Visit 5 (Month 12) for Crossover Group
    • Time Frame: 6 months (months 0-6 for the original randomized group, months 6-12 for the crossover group)
    • Utilizing the Patient and Observer Scar Assessment Scale (POSAS) (a scar assessment scale), the study will evaluate features of color change, thickness, width, the texture of the scar, pain associated with the scar, and itching associated with the scar by blinded clinical evaluators. Scale is scored from 1-10 with higher scores indicating a worse scar. A change in the total score is being reported.
  • Change in Blinded Photo Observer Score POSAS V1 (Month 0)-V2 (Month 3) for the Original Group; Visit 3 (Month 6) to Visit 4 (Month 9) for Crossover Group
    • Time Frame: 3 months (months 0-3 for the original randomized group, months 6-9 for the crossover group)
    • Utilizing the Patient and Observer Scar Assessment Scale (POSAS) (a scar assessment scale), the study will evaluate features of color change, thickness, width, the texture of the scar, pain associated with the scar, and itching associated with the scar by the blinded clinical evaluators. Scale is scored from 1-10 with higher scores indicating a worse scar. A change in the total score is being reported.
  • Change in Blinded Photo Observer Score on POSAS V1 (Month 0)-V3 (Month 6) for the Original Group; Visit 3 (Month 6) to Visit 5 (Month 12) for Crossover Group
    • Time Frame: 6 months (months 0-6 for the original randomized group, months 6-12 for the crossover group)
    • Utilizing the Patient and Observer Scar Assessment Scale (POSAS) (a scar assessment scale), the study will evaluate features of color change, thickness, width, the texture of the scar, pain associated with the scar, and itching associated with the scar by blinded clinical evaluators. Scale is scored from 1-10 with higher scores indicating a worse scar. A change in the total score is being reported.

Secondary Measures

  • Tolerability Associated With the Laser Treatment at V1 (Month 0) and V2 (Month 3) for the Original Group; Visit 3 (Month 6) and Visit 4 (Month 9) for Crossover Group
    • Time Frame: V1 (month 0) and V2 (month 3) for the original group; visit 3 (month 6) and visit 4 (month 9) for crossover group
    • Participants will be given a diary to record the severity and duration of symptoms for the day of treatment and then daily for seven days after each laser treatment: redness, scaling/flaking, pustules, swelling, pain, itching, burning, color changes (darkening and/or lightning), infection, and any other adverse events that arise following treatment. Subjects score each of the symptom severity on a scale of 0-4 (0=none, 1= mild, 2= moderate, 3= intense, 4= intolerable). The average weekly score for each group is reported below.

Participating in This Clinical Trial

Inclusion Criteria

  • Surgical scar present in the head or neck region for at least 8 weeks. – Capable of providing informed consent – Available for study appointments – Follows directions of post-treatment instructions Exclusion Criteria:

  • Individuals under the age of 18 – Prior laser treatment to the head or neck – History of keloid formation – Isotretinoin use in the last 6 months prior to study enrollment – Allergy to topical lidocaine – Pregnant women

Gender Eligibility: All

Minimum Age: 18 Years

Maximum Age: N/A

Are Healthy Volunteers Accepted: Accepts Healthy Volunteers

Investigator Details

  • Lead Sponsor
    • St. Louis University
  • Provider of Information About this Clinical Study
    • Principal Investigator: Ramona Behshad, MD, Associate Professor, Department of Dermatology – St. Louis University
  • Overall Official(s)
    • Ramona Behshad, MD, Principal Investigator, Saint Louis University, Department of Dermatology

References

Omi T, Numano K. The Role of the CO2 Laser and Fractional CO2 Laser in Dermatology. Laser Ther. 2014 Mar 27;23(1):49-60. doi: 10.5978/islsm.14-RE-01.

Bodendorf MO, Grunewald S, Wetzig T, Simon JC, Paasch U. Fractional laser skin therapy. J Dtsch Dermatol Ges. 2009 Apr;7(4):301-8. doi: 10.1111/j.1610-0387.2008.06845.x. Epub 2008 Aug 28. English, German.

Chapas AM, Brightman L, Sukal S, Hale E, Daniel D, Bernstein LJ, Geronemus RG. Successful treatment of acneiform scarring with CO2 ablative fractional resurfacing. Lasers Surg Med. 2008 Aug;40(6):381-6. doi: 10.1002/lsm.20659.

Majid I, Imran S. Fractional CO2 Laser Resurfacing as Monotherapy in the Treatment of Atrophic Facial Acne Scars. J Cutan Aesthet Surg. 2014 Apr;7(2):87-92. doi: 10.4103/0974-2077.138326.

van der Wal MB, Tuinebreijer WE, Bloemen MC, Verhaegen PD, Middelkoop E, van Zuijlen PP. Rasch analysis of the Patient and Observer Scar Assessment Scale (POSAS) in burn scars. Qual Life Res. 2012 Feb;21(1):13-23. doi: 10.1007/s11136-011-9924-5. Epub 2011 May 20.

Manstein D, Herron GS, Sink RK, Tanner H, Anderson RR. Fractional photothermolysis: a new concept for cutaneous remodeling using microscopic patterns of thermal injury. Lasers Surg Med. 2004;34(5):426-38. doi: 10.1002/lsm.20048.

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