Treatment of Acne With a 1726 nm Laser, Air Cooling, and Real-Time Temperature Monitoring, Software-Assisted Power Adjustment to Achieve a Temperature Endpoint With Selective Sebaceous Gland Photothermolysis.

Objectives: This work highlights the methods used to develop a multi-pulse 1726 nm laser system combined with bulk air-cooling for selective sebaceous gland (SG) photothermolysis using thermal imaging and software algorithms. This approach enables treating to a desired tissue temperature and depth to provide a safe, effective, reproducible, and durable treatment of acne.

Methods: We designed and built a 1726 nm laser system with a 40 W maximum power output, a highly controlled air-cooling device, and a thermal camera in the handpiece, which permits real-time temperature monitoring of the epidermis.

Focal point technology: Controlling treatment depth and pattern of skin injury by a novel highly focused laser.

Background: Selective photothermolysis has limitations in efficacy and safety for dermal targets. We describe a novel concept using scanned focused laser microbeams for precise control of dermal depth and pattern of injury, using a 1550 nm laser that generates an array of conical thermal zones while minimizing injury to the epidermis.

Objective: To characterize the conical thermal zones in vivo and determine safe starting parameters to transition to a second phase to explore potential clinical indications.

Treating pediatric port-wine stains in aesthetics.

A port-wine stain (PWS) is a vascular birthmark present in 0.3% to 0.5% of newborns.

Analysis of port-wine birthmark vascular characteristics by location: Utility of optical coherence tomography mapping.

Introduction: Port-wine birthmarks (PWBs) are congenital capillary malformations that can be located on any area of the body. Vascular features include vessel size, depth, and density, which can greatly differ between patients, individual lesions, and even sites within the same lesion. Previous studies have determined that the location of PWB lesions has impacted their clinical response to laser treatment.

Paired facial treatment with 755nm picosecond laser with diffractive lens array and 1060nm laser lipolysis of the submentum: An open-label prospective trial.

Background: Performing multiple cosmetic treatments in a single session to target different aspects of facial rejuvenation is an effective regimen. Picosecond lasers with a fractionated handpiece can target fine lines, which can supplement submental fat reduction procedures. However, limited data exist on the safety and efficacy of single-session treatment strategies.