Treatment of Hypertrophic Scars Using Fractional CO2 Laser Alone in Comparison With Adding Botulinum Toxin Either Through Intralesional Injection or Assisted Drug Delivery

Overview

The current study aimed to evaluate the effectiveness of fractional laser treatment alone and fractional laser combined with botulinum toxin A, delivered either through injections or topical application fractional laser-assisted drug delivery (FLADD) in hypertrophic burn scar

Burn injuries represent a major global health concern, often resulting in long term physical, psychological, and social consequences. Among the most challenging sequelae are hypertrophic scars, which arise from abnormal wound healing characterized by fibroblast hyperactivity, excessive collagen deposition and impaired extracellular matrix remodeling. These scars not only compromise skin pliability and aesthetics but also restrict mobility, leading to functional disability and reduced quality of life. Traditional management strategies including surgical excision, corticosteroid injections, silicone gel, pressure therapy, and radiation have shown variable efficacy, with high recurrence rates and limited patient satisfaction. In recent years, minimally invasive modalities such as fractional CO2 laser therapy have gained prominence for their ability to remodel scar tissue and improve texture. Concurrently, botulinum toxin type A (BTXA) has emerged as a promising antifibrotic agent, exerting its effects by reducing wound tension, modulating fibroblast activity, and regulating collagen synthesis. The integration of fractional CO2 laser with BTXA, delivered either intralesionally or via laser assisted drug delivery, offers a novel therapeutic approach aimed at enhancing scar pliability, contour and patient comfort. This study investigates the comparative efficacy of these modalities in the treatment of post burn hypertrophic scars, providing evidence to guide optimized clinical practice.

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Eligibility

Locations (1)

Outcomes