Examining the Physicochemical Composition of Three Bioceramic Putties for Endodontic Use.

IF 1.6 Q3 DENTISTRY, ORAL SURGERY & MEDICINE European Endodontic Journal Pub Date : 2024-08-01 DOI:10.14744/eej.2024.07769

Daniel Chavarria-Bolaños, Takashi Komabayashi, Jose Vega-Baudrit, Esteban Ulate, Reinaldo Pereira-Reyes, Mauricio Montero-Aguilar

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Abstract

Objective: This study aimed to address the lack of comparative analyses of newly developed bioceramic materials by examining the chemical composition, thermodynamic profile, and microscopic surface features of three bioceramic putties: EndoSequence BC Root Repair Material Fast Set Putty (ESRRM-FS), BIO-C Repair (BCR), and Cera Putty (CP).

Methods: Samples of each of the three bioceramic putty obtained directly from manufacturers were prepared for analysis of physicochemical composition and microscopic features by differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), scanning electron microscopy (SEM) imagery, and energy-disper-sive X-ray spectroscopy (EDS). The data obtained was qualitatively and statistically analysed. Statistical signif-icance was determined at p≤0.05.

Results: DSC analysis indicated a standard polymeric vehicle for BCR and CP, coinciding with the polyethene glycol (PEG) thermal profile; the polymeric vehicle in ESRRM-FS remains to be identified. The material with the highest heat capacity was CP (p<0.05), followed by ESRRM-FS and BCR. TGA revealed an inflexion point at 394.12 ºC for ESRRM-FS, which may correspond to the mass loss of dihydroxylation of calcium hydroxide. A more homogenous structure was observed in scanning electron microscopy (SEM) images for ESRRM-FS. EDS analysis indicated BCR had minimal amounts of aluminium (2.06+-0.44%) and a lower percentage of cal-cium than ESRRM-FS (9.11+-1.38% vs. 11.3+-0.87%). CP was composed of aluminium (49.35+-7.01%), carbon (30.65+-5.62%), and oxygen (16.75+-2.44%); no silicon was identified. ESRRM-FS had no aluminium present and the highest calcium percentage (11.3+-0.87%) (p<0.05).

Conclusion: BCR is a Portland cement-derived material with a lower percentage of calcium than ESRRM-FS and minimal amounts of aluminium. CP is a monocalcium aluminate cement, mainly composed of aluminium, carbon, and oxygen. ESRRM-FS is a biphasic material with the highest calcium percentage among all materials studied and no aluminium.

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研究三种牙髓用生物陶瓷粘合剂的理化成分

研究目的本研究旨在通过研究三种生物陶瓷腻子的化学成分、热力学特性和微观表面特征，解决新开发的生物陶瓷材料缺乏比较分析的问题：方法：这三种生物陶瓷腻子分别是EndoSequence BC牙根修复材料快凝腻子（ESRRM-FS）、BIO-C修复材料（BCR）和Cera腻子（CP）：直接从生产商处获得三种生物陶瓷腻子的样品，通过差示扫描量热仪（DSC）、热重分析（TGA）、扫描电子显微镜（SEM）图像和能量色散 X 射线光谱（EDS）分析其理化成分和微观特征。对获得的数据进行了定性和统计分析。统计意义以 p≤0.05 为限：DSC 分析表明，BCR 和 CP 的标准聚合物载体与聚乙二醇 (PEG) 的热曲线相吻合；ESRRM-FS 中的聚合物载体仍有待确定。热容量最大的材料是 CP（pC）：BCR 是一种硅酸盐水泥衍生材料，其钙含量低于 ESRRM-FS，铝含量也极少。CP 是一种铝酸钙水泥，主要成分是铝、碳和氧。ESRRM-FS 是一种双相材料，在所有研究材料中钙含量最高，且不含铝。

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来源期刊

European Endodontic Journal DENTISTRY, ORAL SURGERY & MEDICINE-

CiteScore

3.40

自引率

5.60%

发文量