Description

The study investigates three therapeutic approaches for managing the erosive form of oral lichen planus, a chronic inflammatory disorder of the oral mucosa characterized by persistent mucosal damage, pain, and the risk of recurrent symptoms. The erosive phenotype is clinically significant because it often leads to functional limitations, such as difficulty eating, impaired tolerance of removable prostheses, and reduced quality of life. Standard therapy relies primarily on potent topical corticosteroids, yet this approach is frequently limited by incomplete remission, recurrence after withdrawal, and the potential for local adverse effects, including mucosal atrophy and secondary candidiasis. For these reasons, alternative treatment modalities have gained increasing clinical interest, particularly those based on light-based therapies capable of modulating cellular processes or removing pathologic tissue with minimal collateral injury. Photobiomodulation and Er:YAG laser therapy represent two distinct applications of light energy. Photobiomodulation delivers low energy laser light that supports biological repair mechanisms, reduces inflammatory mediator activity, and enhances tissue regeneration without inducing thermal damage. Er:YAG laser treatment uses pulsed light at a wavelength strongly absorbed by water, which allows precise removal or gentle ablation of superficial diseased epithelium with limited thermal diffusion. This contributes to clean tissue surfaces and rapid re-epithelialization while preserving adjacent healthy mucosa. Although each method has been investigated in smaller clinical series, direct comparisons among photobiomodulation, Er:YAG laser therapy, and topical corticosteroids remain limited, especially when applied to the erosive variant of oral lichen planus. The study follows a parallel group design with allocation governed by block randomization to maintain balanced group sizes. Participants undergo diagnostic workup before allocation to ensure accurate confirmation of the disease subtype and to exclude other mucosal disorders with overlapping features. Autofluorescence imaging is used as part of the diagnostic process to support precise selection of biopsy site and to assist in distinguishing inflammation from dysplasia or other pathology. Only patients with disease confined to the oral mucosa and without evidence of systemic illness that could influence healing potential proceed to treatment. Interventions are performed using standardized protocols that reflect current best practices for each modality. Photobiomodulation is delivered with a diode laser operating under controlled parameters designed to stimulate repair pathways. The Er:YAG laser intervention uses short pulses with active cooling to ensure controlled ablation or superficial vaporization of the affected mucosa. The control arm uses a topical corticosteroid formulation routinely employed in dental medicine for erosive lesions, with instructions provided to support maximal mucosal contact time. During the treatment period, clinicians document changes in lesion characteristics using standardized measurement tools that allow objective quantification of mucosal surface area and morphological alterations. Photographic records supplement clinical scoring to ensure consistency across follow up visits. Pain severity and functional disturbances are captured with validated numeric scales, supporting a comprehensive evaluation that includes both clinical and patient centered components. Follow up assessments take place after treatment completion to examine the durability of mucosal healing. Given that erosive oral lichen planus often recurs, these visits are critical to understanding whether any modality provides sustained remission. Monitoring includes microbiological evaluation to detect any changes in colonization patterns, such as the emergence of yeast species that may influence treatment response or cause secondary symptoms. Safety oversight focuses on identifying adverse reactions such as erythema, mucosal irritation, delayed healing, dyschromia, or any unexpected tissue responses. Light based methods are generally regarded as safe when applied within established energy ranges, yet ongoing surveillance helps detect rare events or individual sensitivities. The protocol outlines criteria for early discontinuation when significant symptom exacerbation or other concerning findings emerge. This study is structured to deliver high quality comparative data that can guide clinical decision making when standard therapy is insufficient, poorly tolerated, or contraindicated. By evaluating three therapeutically relevant modalities, the study seeks to determine which approach most effectively promotes epithelial recovery, reduces symptom burden, and supports functional comfort. Its focus on recurrence patterns adds an important dimension, as durable improvement is often challenging to achieve in erosive oral lichen planus. The results may clarify the advantages of low level laser applications, the tissue conserving qualities of Er:YAG laser therapy, and the role of corticosteroids as a benchmark comparator. Photobiomodulation may demonstrate benefits related to noninvasiveness and absence of steroid related adverse effects. Er:YAG laser therapy may emerge as a precise alternative capable of controlling symptoms and accelerating healing while preserving nearby tissues. The study's methodology and extended observation window aim to support evidence based refinements to clinical protocols and promote therapeutic strategies aligned with patient comfort, safety, and long term disease control. The broader significance of the project lies in its potential to improve management of a chronic condition that has meaningful impact on daily activities and overall well being. By integrating structured clinical measurements, patient reported data, and advanced imaging methods, the study seeks to produce a comprehensive dataset that reflects contemporary standards in oral medicine research. The findings may pave the way for future work exploring predictors of treatment success, optimal energy settings for Er:YAG laser therapy, and potential combination approaches that incorporate both photobiomodulation and laser assisted tissue management.