Koppaka Rahul, Shah Khushali K, Ahmed Nabeel, Echhpal Urvi R
Prosthodontics, Saveetha Dental College and Hospitals, Saveetha Institute of Medical and Technical Sciences, Saveetha University, Chennai, IND.
Cureus. 2024 Jul 6;16(7):e63955. doi: 10.7759/cureus.63955. eCollection 2024 Jul.
Introduction Surface roughness (Ra) significantly impacts the aesthetic and functional qualities of dental prosthetics. Traditional polishing involves pumice, a material routinely used in dental practice. This study introduces Algishine as a potential cost-effective eco-friendly alternative. Materials and methods A 3D design software (Geomagic) created a Standard Tesselation Language (STL) file of 10 mm x 10 mm x 2 mm. 30 STL file outputs were generated. The output was milled in wax. This was then flasked and processed. 30 acrylic resin specimens were fabricated and divided into two groups. Group A was polished using traditional pumice, and Group B was polished using Algishine. The Ra of each sample was measured using surface profilometry, with three readings per sample averaged for each group. Results Kruskal-Wallis test was performed to compare the two groups with the pre-testing samples, which showed p<0.05; indicating that there was a significant difference between the two groups. The average Ra value for unpolished acrylic was 7.105, while the specimens polished with pumice showed an Ra value of 2.218; specimens polished with novel material Algishine showed an Ra value of 1.743. This illustrates that Algishine achieves surface smoothness significantly superior to commonly used polishing agent and pumice. Discussion The results of our study demonstrate that Algishine, a novel polishing material derived from recycled alginate, effectively reduces the Ra of acrylic resin. This finding has significant implications, both clinically and environmentally. The primary clinical benefit of a smoother acrylic resin surface is the enhanced aesthetic appearance and increased patient comfort. A polished surface reduces plaque accumulation, thereby decreasing the risk of oral infections and improving the longevity of the dental prosthesis. The results show that Algishine achieves surface smoothness comparable to or better than pumice indicating that it can maintain, if not enhance, these clinical outcomes. Dental professionals can confidently use Algishine, knowing it meets the high standards required for patient care. Conclusion Algishine effectively reduces the Ra of acrylic resin, suggesting it is a viable, eco-friendly alternative to traditional pumice for dental polishing procedures. This indicates potential benefits in maintaining clinical outcomes while promoting environmental sustainability.
引言 表面粗糙度(Ra)对牙科修复体的美学和功能质量有显著影响。传统抛光使用浮石,这是牙科实践中常用的材料。本研究引入Algishine作为一种潜在的经济高效的环保替代品。
材料和方法 使用三维设计软件(Geomagic)创建一个10毫米×10毫米×2毫米的标准镶嵌语言(STL)文件。生成了30个STL文件输出。将输出结果在蜡中铣削。然后进行包埋和加工。制作了30个丙烯酸树脂标本,并分为两组。A组使用传统浮石进行抛光,B组使用Algishine进行抛光。使用表面轮廓仪测量每个样本的Ra,每组每个样本取三个读数的平均值。
结果 进行Kruskal-Wallis检验以比较两组与预测试样本,结果显示p<0.05;表明两组之间存在显著差异。未抛光丙烯酸树脂的平均Ra值为7.105,而用浮石抛光的标本的Ra值为2.218;用新型材料Algishine抛光的标本的Ra值为1.743。这表明Algishine实现的表面光滑度明显优于常用的抛光剂和浮石。
讨论 我们的研究结果表明,Algishine是一种源自回收藻酸盐的新型抛光材料,能有效降低丙烯酸树脂的Ra。这一发现具有重要的临床和环境意义。丙烯酸树脂表面更光滑的主要临床益处是美观度提高和患者舒适度增加。抛光表面减少牙菌斑积聚,从而降低口腔感染风险并提高牙科修复体的使用寿命。结果表明,Algishine实现的表面光滑度与浮石相当或更好,这表明它即使不能增强也能维持这些临床效果。牙科专业人员可以放心使用Algishine,因为他们知道它符合患者护理所需的高标准。
结论 Algishine能有效降低丙烯酸树脂的Ra,表明它是牙科抛光程序中传统浮石的一种可行的、环保的替代品。这表明在维持临床效果的同时促进环境可持续性方面具有潜在益处。
