The objective of this interventional with mucosa et saliva samples, monocentric, transversal and pilot study is to extract vibrational, thermal and dielectric markers obtained by Differential Scanning Calorimetry, Thermo-Stimulated Currents and Fourier Transform Infrared spectroscopy on oral mucosa and saliva samples collected from 66 patients divided in two groups (20-40 and 70-90 years old).
Edentulism is prevalent in elderly people and the current care is the use of removable denture based on edentulous jaw regions. Nevertheless, the close and extended contact of denture base with mucosa and the transmission of chewing movement trough the complete denture leads to a weakening of supporting tissues in the medium to long term. This embrittlement may be accompanied by pain, compromising the proper integration of complete denture. In geriatrics, the peculiar weakness of bearing surfaces, connected to physio-pathological conditions as well as the decrease of adaptability and resistance further complicate the biomechanical integration of this kind of prosthesis. It has been shown that chronical ageing induces a decrease of resiliency and hydration of oral mucosa, associated with a decrease of epithelium thickness; nevertheless few studies have been performed at the molecular and supramolecular level to characterize this mucosa. Techniques of material characterization (Fourier transform Infrared spectroscopy, Differential scanning calorimetry (DSC), Thermostimulated currents (TSC), have shown their ability to follow hydric, molecular and structural modification of dermis upon ageing. In accordance with this study, the distribution of thermal, vibrational and dielectric markers of oral mucosa will be extracted in two age groups. The principal hypothesis of the research is the possibility to identify specific markers and to follow molecular and organizational changes induced by ageing (intrinsic ageing or extrinsic ageing due to prostheses wearing). The characterization of saliva by Fourier transform infrared spectroscopy (FTIR) shows promise in quantifying the biochemical components of this biofluid. Some vibrational saliva biomarkers have high diagnostic potential (physiological stress, diabetes, salivary lithiasis, carcinomas, periodontitis).This study is a first step to redefine the specification for the most appropriate biomaterial in removable prostheses.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
OTHER
Masking
NONE
Enrollment
38
one oral mucosa sample and one saliva sample
University hospital of Toulouse
Toulouse, France
Vibrational marker of the oral mucosa: collagen 1 fraction indicator
collagen 1 fraction indicator measured by Fourier-transform infrared spectroscopy. It corresponds to the ratio of the band area 1338 cm-1/1750-1000 cm-1
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Vibrational marker of the oral mucosa : collagen 2 fraction indicator
collagen 2 fraction indicator measured by Fourier-transform infrared spectroscopy. It corresponds to the ratio of the band area 1202 cm-1/1750-1000 cm-1
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Thermal marker of the oral mucosa : percentage of open water
percentage of open water
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Thermal marker of the oral mucosa: percentage of water related
percentage of water related
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Thermal marker of the oral mucosa : percentage of total water
percentage of total water
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Thermal marker of the oral mucosa : maximum denaturation temperature
maximum denaturation temperature
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Thermal marker of the oral mucosa : collagen denaturation enthalpy
collagen denaturation enthalpy (in J/g) determined by differential calorimetric analysis
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Dielectric marker of the oral mucosa : temperature of mode 1 in the hydrated state
temperature of mode 1 in the hydrated state
Time frame: Day 0
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