Affiliation:
1. Department of Advanced Periodontics & Dental Implant Care A.T. Still University, Missouri School of Dentistry & Oral Health Saint Louis Missouri USA
2. Private Practice Reno Nevada USA
3. Department of Research Support A.T. Still University Kirksville Missouri USA
4. Department of Periodontics Saint Louis University, Center of Advanced Dental Education Saint Louis Missouri USA
Abstract
AbstractBackgroundThe aim of this study is to measure, in vivo, the supracrestal tissue attachment dimensions (STADs) by means of a noninvasive digital method and to investigate the association between STADs and gingival thickness (GT), tooth position, tooth length, tooth width, keratinized tissue width (KTW), buccal bone thickness (BBT), and bone crest (BC) level.MethodsNineteen periodontally healthy subjects who previously received full mouth periodontal charting, cone beam computed tomography, and intraoral scan for the purpose of implant planning were included in the study. A digital imaging software was used for the superimposition of Digital Imaging and Communications in Medicine and stereolithography files, along with hard and soft tissue measurements. Pearson's correlation and ANOVA statistical analyses were used to investigate potential trends between STADs and other dentogingival components.ResultsA total of 203 teeth were assessed, with an average STADs of 2.05 mm (±0.99 mm). STADs were larger in mandibular than maxillary teeth (p‐value <0.001) and decreased from anterior to posterior teeth. STADs exhibited an inverse relationship with BBTs and GTs (p‐value <0.001) and the KTW (p‐value = 0.05). Positive correlations were found between GT and BBT (p‐value <0.001), whereas both were negatively correlated with the distance between the cementoenamel junction and BC (p‐values 0.019 and 0.006, respectively) and positively correlated with KTW (p‐value <0.001).ConclusionsThis study highlighted the dynamic nature of STA relative to tooth position. Additionally, it explored the intricate relationships of STADs with various dentogingival components.Key points
To the best of the authors’ knowledge, this study represents the first application of CBCTs, intraoral scans, and clinical probe depths for noninvasive supracrestal tissue attachment measurements.
This study advocates for a personalized assessment of supracrestal attachments, incorporating tooth position and other dentogingival components.
The study emphasizes the importance for practitioners to consider the specific patient gingival phenotypes during restorative or surgical planning to avoid adverse outcomes.