Luis Crohare scite author profile

Luis Crohare

3Publications

22Citation Statements Received

32Citation Statements Given

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Universidad Nacional de Córdoba

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Microscopic Study of Surface Microtopographic Characteristics of Dental Implants

Sezín

Crohare

Ibañez

2016

TODENTJ

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Objective:To determine and compare the micro topographic characteristics of dental implants submitted to different surface treatments, using scanning electron microscopy (SEM).Materials and Methods:Implants were divided into 7 groups of 3 specimens each, according to the surface treatment used: group 1: Osseotite, BIOMET 3i; group 2: SLA surface, Institut Straumann AG; group 3: Oxalife surface, Tree-Oss implant; group 4: B&W implant surface; group 5: Q-implant surface; group 6: ML implant surface; group 7: RBM surface, Rosterdent implant. The surfaces were examined under SEM (Carl Zeiss FE-SEM-SIGMA). Image Proplus software was used to determine the number and mean diameter of pores per area unit (mm). The data obtained were analyzed with the Mann-Whitney test. A confocal laser microscope (LEXT-OLS4100 Olympus) was used to conduct the comparative study of surface roughness (Ra). Data were analyzed using Tukey's HSD test. Results:The largest average pore diameter calculated in microns was found in group 5 (3.45 µm+/-1.91) while the smallest in group 7 (1.47µm+/-1.29). Significant differences were observed among each one of the groups studied (p<0.05). The largest number of pores/mm2 was found in group 2 (229343) and the smallest number in group 4 (10937). Group 2 showed significant differences regarding the other groups (p<0.05). The greatest roughness (Ra) was observed in group 2 (0.975µm+/-0.115) and the smallest in group 4 (0.304µm+/-0.063). Group 2 was significantly different from the other groups (p<0.05).Conclusion:The micro topography observed in the different groups presented dissimilar and specific features, depending on the chemical treatment used for the surfaces..

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Measuring color change of tooth enamel by in vitro remineralization of white spot lesion.

2015

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Objective colour determination is based on calculating the colorimetric distance (ΔE) within a colour space. So far, the most used colour space in dentistry is CIE L*a*b (Comission Internationale de l´Éclairage). CIE L*C*h* has been recently developed, showing a better correlation with the perception of the human eye. Objective: To determine the ability of an in vitro remineralisation substance to blend the colour of white spot lesions (WSL) with sound enamel, determining ΔE by using the CIE L*C*h* colour space. Methods: In vitro WSL was generated by immersing 10 samples obtained from human third molars in a demineralization solution for 72h. Amorphous calcium phosphate stabilized by casein phosphopeptide (CPP-ACP) was then applied for 60 days while maintaining the samples in artificial saliva at 37ºC. To evaluate the colour of enamel, images were taken from the samples placed in specifically designed silicone moulds after generating the WSL (pre-stage) and after remineralisation by scanning, applying the colorimetric distance equation (ΔE*CMC) according to the Colour Measurement Committee. Results: Treatment with CPP-ACP caused a significant ΔE decrease with respect to the pre-stage (p<0.001), while the analysis of parameters that make up the colour showed a reduction in the difference of hue (ΔH) (p<0.001) and brightness (ΔL) (p<0.01) after applying CPP-ACP. Discussion: CPP-ACP penetrated to the depth of the white spot lesion, making its appearance similar to that of the sound enamel, probably because of the formation of different mineral phases than that of the original structure, although pores were not completely filled.

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Pérdidas porcentuales de calcio y fósforo en esmalte y dentina por la acción desmineralizante de adhesivos autoacondicionadores.

Sezín

Crohare

Mirotti³

et al. 2017

RevFacOdonto

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Luis Crohare

Microscopic Study of Surface Microtopographic Characteristics of Dental Implants

Measuring color change of tooth enamel by in vitro remineralization of white spot lesion.

Pérdidas porcentuales de calcio y fósforo en esmalte y dentina por la acción desmineralizante de adhesivos autoacondicionadores.

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