Abstract
To characterize the properties of cutaneous defects created by energy-based devices using optical coherence tomography. Radiofrequency (RF) microneedling and non-ablative fractional laser (NAFL) treatment were performed in vivo with various parameters. Following treatment, optical coherence tomography (OCT) was used to image and measure cutaneous defects at multiple time points over a 24 h period. Channel-like cutaneous defects were visible with OCT following bipolar RF microneedling and NAFL treatment. Using a double pulse technique with RF microneedling yielded a greater number of defects visible with OCT, as well as defects that were deeper and more durable over time. Following treatment with 1927 nm thulium fiber laser, the average diameter of the defects was greater when the energy level was 20 mJ as compared to 10 mJ (0.33 mm vs. 0.27 mm, p < 0.01). Cutaneous defects were observed following both RF microneedling and NAFL treatment. Properties of the cutaneous defects varied based on device, treatment setting, and technique, which may be useful in guiding further study of device-assisted drug delivery.
Published Version
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