载纳米氢氧化钙的温敏性凝胶作为一种新型根管内药物。
Calcium hydroxide-loaded nanoparticles dispersed in thermosensitive gel as a novel intracanal medicament.
机构信息
Department of Pharmacy, Pharmaceutical Technology and Physical Chemistry, Faculty of Pharmacy and Food Sciences, University of Barcelona, Barcelona, Spain.
Department of Clinical Sciences, College of Dentistry, Ajman University, Ajman, United Arab Emirates.
出版信息
Int Endod J. 2024 Jul;57(7):907-921. doi: 10.1111/iej.14041. Epub 2024 Feb 19.
AIM
Design, produce and assess the viability of a novel nanotechnological antibacterial thermo-sensible intracanal medicament This involves encapsulating calcium hydroxide (Ca(OH)) within polylactic-co-glycolic acid (PLGA) nanoparticles (NPs) and dispersing them in a thermosensitive gel (Ca(OH)-NPs-gel). In addition, perform in vitro and ex vivo assessments to evaluate tissue irritation and penetration capacity into dentinal tubules in comparison to free Ca(OH).
METHODOLOGY
Reproducibility of Ca(OH)₂-NPs was confirmed by obtaining the average size of the NPs, their polydispersity index, zeta potential and entrapment efficiency. Moreover, rheological studies of Ca(OH)-NPs-gel were carried out with a rheometer, studying the oscillatory stress sweep, the mean viscosity value, frequency and temperature sweeps. Tolerance was assessed using the membrane of an embryonated chicken egg. In vitro Ca(OH) release was studied by direct dialysis in an aqueous media monitoring the amount of Ca(OH) released. Six extracted human teeth were used to study the depth of penetration of fluorescently labelled Ca(OH)-NPs-gel into the dentinal tubules and significant differences against free Ca(OH) were calculated using one-way anova.
RESULTS
Ca(OH)-NPs-gel demonstrated to be highly reproducible with an average size below 200 nm, a homogeneous NPs population, negative surface charge and high entrapment efficiency. The analysis of the thermosensitive gel allowed us to determine its rheological characteristics, showing that at 10°C gels owned a fluid-like behaviour meanwhile at 37°C they owned an elastic-like behaviour. Ca(OH)-NPs-gel showed a prolonged drug release and the depth of penetration inside the dentinal tubules increased in the most apical areas. In addition, it was found that this drug did not produce irritation when applied to tissues such as eggs' chorialantoidonic membrane.
CONCLUSION
Calcium hydroxide-loaded PLGA NPs dispersed in a thermosensitive gel may constitute a suitable alternative as an intracanal antibacterial medicament.
目的
设计、生产并评估一种新型纳米抗菌热敏性根管内药物的可行性。这涉及将氢氧化钙(Ca(OH)₂)封装在聚乳酸-共-羟基乙酸(PLGA)纳米颗粒(NPs)内,并将其分散在热敏凝胶(Ca(OH)₂-NPs-凝胶)中。此外,进行体外和离体评估,以比较游离 Ca(OH)₂的组织刺激性和进入牙本质小管的穿透能力。
方法
通过获得 NPs 的平均粒径、多分散指数、Zeta 电位和包封效率,来确认 Ca(OH)₂-NPs 的重现性。此外,使用流变仪对 Ca(OH)-NPs-凝胶进行流变学研究,研究振荡应力扫描、平均粘度值、频率和温度扫描。使用鸡胚卵膜评估耐受性。通过在水性介质中直接透析研究 Ca(OH)₂的体外释放,监测释放的 Ca(OH)₂量。使用 6 颗提取的人牙研究荧光标记的 Ca(OH)₂-NPs-凝胶进入牙本质小管的深度,并使用单向方差分析计算与游离 Ca(OH)₂相比的显著性差异。
结果
Ca(OH)-NPs-凝胶表现出高度的重现性,平均粒径低于 200nm,具有均匀的 NPs 群体,负表面电荷和高包封效率。热敏凝胶的分析允许我们确定其流变学特性,表明在 10°C 时凝胶具有类似流体的行为,而在 37°C 时具有类似弹性的行为。Ca(OH)-NPs-凝胶显示出延长的药物释放,并且在牙本质小管内的穿透深度在最根尖区域增加。此外,发现当将这种药物应用于鸡卵的绒毛状膜等组织时,不会产生刺激性。
结论
负载 Ca(OH)₂的 PLGA NPs 分散在热敏凝胶中可能构成一种合适的替代根管内抗菌药物。
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