Detection of Residual Caries on Class II Cavity Walls in Primary Teeth Following Atraumatic Restorative Treatment (ART)

Overview

The primary aim of this study is to compare the diagnostic agreement and effectiveness of three different methods-Fluorescence-Aided Caries Excavation (FACE), caries detection dye, and clinical observation-in detecting residual caries remaining on cavity walls of primary teeth following Atraumatic Restorative Treatment (ART). Through this comparison, the study seeks to identify the method that provides more reliable and accurate results, thereby contributing to clinical practice by guiding clinicians and supporting the development of strategies to enhance the long-term success of ART.

Effective management of dental caries in primary teeth is of great importance for pain relief, infection prevention, and the maintenance of a child's overall health. Atraumatic Restorative Treatment (ART), which is frequently preferred in pediatric patients and in regions with limited resources, is a minimally invasive approach that involves the selective removal of carious tissue using hand instruments instead of rotary tools, followed by restoration of the cavity with glass ionomer cement. This method aims to preserve tooth structure, enhance patient comfort, and reduce pulpal irritation. However, the primary limitation of ART is that caries removal relies on the clinician's visual and tactile assessment. This subjectivity increases the risk of residual caries remaining on the cavity walls, which can negatively affect the success and long-term durability of the restoration. The presence of a larger pulp chamber and thinner dentin structure in primary teeth further exacerbates this risk. Reliable detection of residual caries is therefore crucial to the success of ART. Nevertheless, traditional methods such as clinical observation and caries detection dyes have notable limitations. Clinical observation is subject to low reproducibility due to its dependence on individual experience and judgment, while caries detection dyes can stain not only infected dentin but also demineralized yet healthy tissue, potentially leading to unnecessary tissue removal and an increased risk of pulp exposure. This outcome contradicts the minimally invasive philosophy of ART. Consequently, the use of more objective and precise techniques, such as Fluorescence-Aided Caries Excavation (FACE), has gained increasing importance for accurate detection of residual caries and improvement of treatment outcomes. Participants in this study will consist of children aged 4 to 9 years who are medically healthy and capable of cooperating during the examination. Each primary molar will be evaluated in six distinct regions: axial wall, gingival floor, enamel-dentin junction, buccal wall, lingual wall, and pulpal wall. The assessment will be conducted sequentially using three different methods: Fluorescence-Aided Caries Excavation (FACE), caries detection dye (Caries Detector, Kuraray, Okayama, Japan), and clinical observation. The FACE method will be performed in a non-contact manner using the D-light Pro GC device (DT mode, GC Europe NV, Leuven, Belgium). The other two methods will involve visual-tactile examination under standard clinical conditions. All evaluations will be carried out under identical conditions by two independent observers, and each cavity wall will be recorded as either "caries present" or "caries absent." The collected data will be transferred to the SPSS software for statistical analysis and coded as 1/0 (present/absent). In addition, participants' age, gender, dmft index, tooth location (maxilla/mandible), and tooth type (first or second primary molar) will be documented. These variables will allow for the statistical evaluation of potential demographic and clinical factors associated with the presence of residual caries. After the application of all three diagnostic methods on the same cavity, if any of the techniques indicated the presence of residual caries, the clinician-at their discretion-performed additional excavation to remove the affected tissue before proceeding to the final restoration. All teeth were subsequently restored using high-viscosity glass ionomer cement, in accordance with the ART protocol.