New insights on collagen structural organization and spatial distribution around dental implants: a comparison between machined and laser-treated surfaces

One of the main factors for the osseointegration of dental implants is the development of an adequate soft tissue barrier, mainly composed by collagen, which protects the implant from bacterial development. The structural features of the peri-implant collagen are influenced by the implant components...

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Bibliographic Details
Published in:Journal of translational medicine 2024-01, Vol.22 (1), p.120-13, Article 120
Main Authors: Belloni, Alessia, Argentieri, Giulio, Orilisi, Giulia, Notarstefano, Valentina, Giorgini, Elisabetta, D'Addazio, Gianmaria, Orsini, Giovanna, Caputi, Sergio, Sinjari, Bruna
Format: Article
Language:English
Subjects:
Biopsy
Care and treatment
Cell adhesion & migration
Collagen
Control
Dental Implants
Dental prosthetics
Diagnosis
Ethanol
Fourier Transform InfraRed Imaging spectroscopy
Fourier transforms
Gingiva - pathology
Gum disease
Healing abutments
Health aspects
Humans
Identification and classification
Implant dentures
Implant surface
Lasers
Microbial mats
Oral hygiene
Osseointegration
Periodontitis
Protein structure
Risk factors
Secondary structure
Spatial distribution
Surface Properties
Surgery
Synthegra
Topography
Wound healing
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Summary:One of the main factors for the osseointegration of dental implants is the development of an adequate soft tissue barrier, mainly composed by collagen, which protects the implant from bacterial development. The structural features of the peri-implant collagen are influenced by the implant components and, in particular, by the type of the surface. In the clinical practice, healing abutments are characterized by smooth surfaces, named machined. Recently, a new laser technique, Synthegra, has been developed to obtain a topography-controlled surface with micrometric regular pores that seems reducing the risk of peri-implantitis. Based on this background, this study aims investigating the structural organization and spatial distribution of collagen surrounding healing abutments characterized by laser-treated and machined surfaces. Gingiva portions surrounding custom-made healing abutments (HA), characterized by alternated laser-treated and machined surfaces, were collected and analyzed by combining Fourier Transform InfraRed Imaging (FTIRI) spectroscopy, a non-invasive and high-resolution bidimensional analytical technique, with histological and multivariate analyses. Masson's trichrome staining, specific for collagen, highlighted a massive presence of collagen in all the analyzed samples, evidencing a surface-related spatial distribution. The nature of collagen, investigated by the FTIRI spectroscopy, appeared more abundant close to the laser-treated surface, with a perpendicular disposition of the bundles respect to the HA; conversely, a parallel distribution was observed around the machined surface. A different secondary structure was also found, with a higher amount of triple helices and a lower quantity of random coils in collagen close to the laser treated surfaces. FTIRI spectroscopy demonstrates that the use of a laser treated transmucosal surface can improve the morphological organization of the peri-implant collagen, which presents a distribution more similar to that of natural teeth. This trial is registered with ClinicalTrials.gov Identifier: (Registration Number: NCT05754970). Registered 06/03/2023, retrospectively registered, https://clinicaltrials.gov/show/NCT05754970 .
ISSN:1479-5876
1479-5876
DOI:10.1186/s12967-024-04906-4