Acne Scars Clinical Trial
Official title:
Comparison of Fractional Erbium-Doped 1,550-nm Laser and a Bipolar Fractional Radiofrequency Microneedle Device for the Treatment of Atrophic Acne Scars in Ethnic Skin: A Randomized Split-Face Controlled Pilot Study
The primary objective of this randomized, split-face, controlled study is to compare the
efficacy and safety of a erbium-doped 1,550-nm non-ablative fractional laser and a bipolar
fractional radiofrequency microneedle device for the treatment of atrophic facial acne scars
in ethnic skin (Fitzpatrick Skin Phototypes III-VI).
The hypothesis of this study is that both erbium-doped 1,550-nm non-ablative fractional laser
and the bipolar fractional radiofrequency microneedle device are equally effective for the
treatment of atrophic acne scars in ethnic skin (SPT III-VI). However, the bipolar fractional
radiofrequency microneedle device has less adverse effects than erbium-doped 1,550-nm
non-ablative fractional laser due to the absence of scattering and the absence of
chromophore-specific targets - predominantly melanin - traditionally needed with laser
treatments; hence the fractional radiofrequency microneedle device will have a higher safety
profile in darker skin types .
Acne is a highly prevalent disease and post-acne scaring has shown to have detrimental
effects on a person's physical, mental, and social well-being. Acne scars can be divided in
general categories of hypertrophic or keloid scars, atrophic scars (icepick, rolling,
boxcar), and pigmentation alterations (redness, hypo and hyper-pigmentation). This study will
focus on treatment of moderate to severe grades of atrophic acne scarring. Our aim is to
compare the efficacy and safety of a erbium-doped 1,550-nm non-ablative fractional laser and
a bipolar fractional radiofrequency microneedle device for the treatment of atrophic acne
scars in ethnic skin (Fitzpatrick Skin Phototypes III-VI) by performing a split-face
randomized controlled trial.
Both devices in this study are already FDA approved treatment modalities for acne scarring.
History of erbium-doped 1,550-nm non-ablative fractional laser (Fraxel® Restore Laser System,
Solta Medical, Inc., Hayward, CA):
Non-ablative fractional lasers work via the theory of fractional photothermolysis, which
creates hundreds to thousands of microscopic thermal zones (MTZs), or columns of thermally
injured skin, while sparing the surrounding tissue. The pixilated nature of treatment and the
functionally unimpaired stratum corneum allow for rapid tissue healing and allows for safer
treatments of our patients. Mechanistically, fractional photothermolysis allows controlled
amounts of high energy to be delivered deep within the dermis resulting in collagenolysis and
neocollagenesis, which smoothes the textural abnormalities of acne scarring.
Multiple published studies have demonstrated that erbium-doped 1,550-nm non-ablative
fractional laser ("NAFL") can be successfully utilized in the treatment of all forms of
atrophic acne scarring - ice-pick, boxcar, and rolling scars - with a very favorable safety
profile in all skin types, and thus, has been cleared by Food and Drug Administration (FDA)
for that particular indication. According to the manufacture manual (reference attached in
the "Attachments" section), NAFL is indicated for "use in skin resurfacing procedures as well
as treatment of acne scars, surgical scars, lentigos (age spots), solar lentigos (sun spots),
actinic keratosis, and melasma."
History of the fractional radiofrequency microneedle device (Fractora; Invasix Ltd./InMode MD
Ltd., Israel):
Fractional radiofrequency is not a laser. Instead, these devices use an array of electrodes
that allows for zones of thermal wounds to be created between areas of unaffected zones, thus
stimulating dermal remodeling and allowing for a supply of reservoir cells to promote
healing. Variations of fractional radiofrequency exist that employ microneedles to deliver
electrical current to a particular depth within the dermis that decreases damage to the
epidermis. These fractional radiofrequency microneedle devices provide an alternative to
conventional methods of acne-scar treatment (such as NAFL). Great interest has been
culminating over the recent years for the use of such devices in acne scars due to the
absence of light scattering and the absence of chromophore-specific targets traditionally
needed with laser treatments. As melanin is not a target, it is felt to have a higher safety
profile in darker skin phototypes.
A recent study investigated the safety and efficacy of a specific bipolar fractional
radiofrequency microneedle device (Fractora; Invasix Ltd./InMode MD Ltd., Israel) for acne
and acne scarring. In this study, 8 patients with acne scars were reported and it was noted
that all patients (regardless of their skin phototypes) had improvement in their active acne
and acne scars after 4 treatments and a 1 month, on average follow-up period. The treatment
was well tolerated without any side-effects. Skin biopsies from this study showed reduction
in scar depth and new collagen formation with an increase in elastic fibers and adnexal
structures noted. A follow-up report showed that 4 out of 8 patients who were in the original
study returned for a long term follow-up from 1 to 2 years, that showed ongoing clinical
improvements in these patients. This specific bipolar fractional radiofrequency microneedle
("FRM") device has been FDA-approved for acne scars and skin rejuvenation.
To this date the efficacy and safety of 1,550-nm fractionated photothermolysis system has not
been compared to a fractional radiofrequency microneedle device for atrophic acne scars in
ethnic skin in a randomized split-face controlled trial. A major advantage of a split-face
self-controlled design would be to minimize any confounding factors. Laser resurfacing has
been well studied and is widely used in individuals with fair skin - Fitzpatrick skin
phototypes (SPT) I to II. However, there is a paucity of published studies involving
individuals with darker skin types (SPT III-VI)—a population that has a higher risk of
laser-associated dyspigmentation.
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