扫描电子显微镜研究血液和人工唾液污染对用作倒充填材料的三氧化矿物凝聚体边缘适应性的影响:一项研究。
A Scanning Electron Microscopic Study on Effect of Blood and Artificial Salivary Contamination on Marginal Adaptation of Mineral Trioxide Aggregate, When Used as a Retrograde Filling Material: An Study.
作者信息
Mody Anuja, Arora Ruchi, Chauhan Prabhav, Gautam Kompal, Taneja Pratibha, Marya C M
机构信息
Department of Pediatric and Preventive Dentistry, Private Practice, Prabhadevi, Worli, Mumbai, Maharashtra, India.
Department of Pediatric and Preventive Dentistry, Darshan Dayal Dental College and Hospital, Loyara, Udaipur, Rajasthan, India.
出版信息
Int J Clin Pediatr Dent. 2021 Sep-Oct;14(5):674-680. doi: 10.5005/jp-journals-10005-2012.
AIM AND OBJECTIVE
The present study was conducted to evaluate the marginal adaptability of mineral trioxide aggregate (MTA) as a root-end filling material when manipulated using two different IV fluids intended for pediatric usage; in the presence of blood and salivary contamination.
MATERIALS AND METHODS
Sixty single-rooted teeth were selected. Conventional endodontic root canal preparation was performed on all specimens followed by root-end resection and retrograde cavity preparation. The roots were randomly divided into two groups ( = 30). In the specimens of group I, fresh blood was used as a contaminant and in group II artificial saliva was used as a contaminant. In both groups, MTA (e-MTA, Kids-e-Dental®) manipulated using either Ringer's lactate IV fluid ( = 15) or Tetraspan IV fluid ( = 15) was used for root-end filling in blood or artificial saliva-coated retrocavities. Furthermore, these roots were placed in beakers pooled with fresh phlebotomized blood or artificial saliva. After incubating for 48 hours, the roots were divided longitudinally to expose the retrofilled cavities and were then sputter-coated with gold-platinum dust. To assess the marginal adaptation of MTA to radicular dentin "maximum gap width" and "gap perimeter" were measured in images obtained from scanning electron microscopy of root specimens. SPSS 21 was employed for statistical analysis at ( < 0.05). Mann-Whitney test and ANOVA were used for analyzing the data obtained.
RESULTS
The gap width was more among samples exposed to blood ( < 0.05) than artificial saliva. No significant difference was reported in the gap perimeter when cavities were filled with MTA mixed with either IV fluids ( > 0.05).
CONCLUSION
Exposure to blood during setting had a negative effect on gap width when retrocavities were filled with MTA using Tetraspan. No effect was seen on the arch perimeter in retrocavities filled with MTA mixed with Ringer's lactate or Tetraspan.
CLINICAL SIGNIFICANCE
For avoiding failure, it is critical to select a biocompatible root-end filling material with high sealing ability. Hence, by doing the same, the clinical situation can be simulated.
HOW TO CITE THIS ARTICLE
Mody A, Arora R, Chauhan P, A Scanning Electron Microscopic Study on Effect of Blood and Artificial Salivary Contamination on Marginal Adaptation of Mineral Trioxide Aggregate, When Used as a Retrograde Filling Material: An Study. Int J Clin Pediatr Dent 2021;14(5):674-680.
目的
本研究旨在评估当使用两种不同的儿科用静脉输液来调配时,三氧化矿物凝聚体(MTA)作为根尖倒充填材料在有血液和唾液污染情况下的边缘适应性。
材料与方法
选取60颗单根牙。对所有标本进行常规牙髓根管预备,随后进行根尖切除术和倒凹洞制备。将牙根随机分为两组(每组n = 30)。在第一组标本中,使用新鲜血液作为污染物,在第二组中,使用人工唾液作为污染物。在两组中,使用用乳酸林格氏静脉输液(每组n = 15)或Tetraspan静脉输液(每组n = 15)调配的MTA(e - MTA,Kids - e - Dental®)对涂有血液或人工唾液的倒凹洞进行根尖倒充填。此外,将这些牙根置于装有新鲜静脉血或人工唾液的烧杯中。孵育48小时后,将牙根纵向切开以暴露倒充填的洞,然后用金 - 铂粉尘进行溅射镀膜。为评估MTA与牙根牙本质的边缘适应性,在牙根标本扫描电子显微镜图像中测量“最大间隙宽度”和“间隙周长”。采用SPSS 21进行统计学分析(P < 0.05)。使用Mann - Whitney U检验和方差分析来分析所获得的数据。
结果
暴露于血液中的样本的间隙宽度比暴露于人工唾液中的样本更大(P < 0.05)。当用两种静脉输液之一调配的MTA充填洞时,间隙周长无显著差异(P > 0.05)。
结论
当使用Tetraspan调配MTA进行根尖倒充填时,凝固过程中暴露于血液对间隙宽度有负面影响。用乳酸林格氏液或Tetraspan调配的MTA充填倒凹洞时,对洞周长无影响。
临床意义
为避免失败,选择具有高封闭能力的生物相容性根尖倒充填材料至关重要。因此,通过这样做,可以模拟临床情况。
如何引用本文
Mody A, Arora R, Chauhan P, 血液和人工唾液污染对三氧化矿物凝聚体作为倒充填材料时边缘适应性影响的扫描电子显微镜研究:一项体外研究。国际临床儿科牙科学杂志2021;14(5):674 - 680。
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