Effect of different intracanal medicaments combined with chitosan nanoparticles on microhardness and fracture resistance of root dentin – An in vitro study

Q3 Dentistry Saudi Endodontic Journal Pub Date : 2024-05-01 DOI:10.4103/sej.sej_230_23

Rahul S Halkai, Kiran R Halkai, S. Mahveen

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Abstract

Chitosan nanoparticles (CSN) are widely used for endodontic disinfection; however, their combination with other intracanal medicaments is least studied; therefore, this study aims to evaluate the effect of various intracanal medicaments incorporated with 0.2% CSN on root dentin microhardness and fracture resistance. Fifty extracted human single-rooted premolars were cleaned, decoronated, and standardized to 13 mm root length. After access opening and working length determination, specimens were instrumented with ProTaper rotary files till apical size F3 and alternatively irrigated with 5 ml of 2.5% sodium hypochlorite and normal saline (NS). Final irrigation was done with 5 ml of 1% phytic acid. The specimens were allocated randomly into five groups (n = 10), followed by placement of intracanal medicament for 1 week as follows. Group 1 – 0.2% CSN, Group 2 – Calcium hydroxide (Ca[OH] 2) + 0.2% CSN, Group 3 – Triple antibiotic paste (TAP) + 0.2% CSN, Group 4 – Propolis + 0.2% CSN, and Group 5 – Chlorhexidine gluconate (CHX) + 0.2% CSN. The specimens were then rinsed with NS and 3 mm coronal portion of each specimen was horizontally sectioned to create dentin blocks that were further split vertically and tested for Vickers microhardness (n = 10). The remaining root segment of each specimen was then vertically embedded in an acrylic block and evaluated for fracture resistance (n = 10) under a universal testing machine. The data acquired were statistically assessed using one-way ANOVA and posthoc Tukey tests (P < 0.05). Propolis incorporated with 0.2% CSN showed the highest microhardness and fracture resistance values followed by CHX + 0.2% CSN, TAP + 0.2% CSN, Ca(OH)2 + 0.2% CSN, and least in 0.2% CSN alone. Intracanal medicaments incorporated with 0.2% CSN exhibited a synergetic effect on microhardness and fracture resistance of endodontically treated teeth; however, propolis with 0.2% CSN exhibited higher microhardness and fracture resistance of root dentin.

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不同的牙槽内药物与壳聚糖纳米颗粒对牙根牙本质微硬度和抗折断性的影响 - 体外研究

壳聚糖纳米颗粒（CSN）被广泛用于牙髓消毒，但其与其他根管内药物的结合研究却最少，因此，本研究旨在评估各种根管内药物与 0.2% CSN 结合对牙根牙本质微硬度和抗折断性的影响。对 50 颗拔出的人类单根前臼齿进行清洁、装饰和标准化处理，根长为 13 毫米。打开通路并确定工作长度后，使用 ProTaper 旋转锉对标本进行器械加工，直至根尖尺寸 F3，然后用 5 毫升 2.5% 次氯酸钠和生理盐水（NS）交替灌洗。最后用 5 毫升 1%植酸冲洗。将标本随机分为五组（n = 10），然后在龋洞内放置药物一周，具体如下。第 1 组 - 0.2% CSN，第 2 组 - 氢氧化钙 (Ca[OH] 2) + 0.2% CSN，第 3 组 - 三联抗生素糊剂 (TAP) + 0.2% CSN，第 4 组 - 蜂胶 + 0.2% CSN，第 5 组 - 葡萄糖酸氯己定 (CHX) + 0.2% CSN。然后用 NS 冲洗标本，并将每个标本的 3 毫米冠状部分水平切片，形成牙本质块，再将其垂直切片并进行维氏硬度测试（n = 10）。然后将每个试样的剩余根段垂直嵌入丙烯酸块中，在万能试验机下进行抗折性评估（n = 10）。获得的数据通过单向方差分析和事后 Tukey 检验进行统计评估（P < 0.05）。加入 0.2% CSN 的蜂胶显示出最高的显微硬度和抗断裂强度，其次是 CHX + 0.2% CSN、TAP + 0.2% CSN、Ca(OH)2 + 0.2% CSN，而单独加入 0.2% CSN 的蜂胶显示出最低的显微硬度和抗断裂强度。掺入 0.2% CSN 的龈内药物对根管治疗牙齿的显微硬度和抗折断性有协同作用；然而，掺入 0.2% CSN 的蜂胶对牙根牙本质的显微硬度和抗折断性更高。

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来源期刊

Saudi Endodontic Journal Dentistry-Dentistry (all)

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

32 weeks

期刊介绍： Vision SEJ aims to be one of the foremost worldwide periodical on Endodontics, dedicated to the promotion of research, post-graduate training and further education in Endodontics. Mission Statement To serve as a medium for continued Endodontic education and qualitative scientific publications on clinical trials, basic science related to the biological aspects of Endodontics, basic science related to Endodontic techniques as well as dental trauma that will ultimately improve the Endodontic research and patient’s health. Scope In this journal, Endodontists, Endodontic postgraduate students and general dentists, can learn about new concepts in root canal treatment and the latest advances in techniques and instrumentation that help them keep pace with rapid changes in this field. Aims and Objectives To publish cut edge peer-review original articles, case reports, letters to the editor, editorials, review articles, commentaries, and innovations that will impact on Endodontics. To enhance exchange of ideas/information relating to Endodontics and interaction among stakeholders. To encourage networking and partnership between individuals, government and non-governmental organizations for the provision of quality health care. To advocate for training, workshops, seminars, scientific manuscript writing conferences that will advance publishing culture.