Akram Zohaib, Daood Umer, Aati Sultan, Ngo Hein, Fawzy Amr S
UWA Dental School, University of Western Australia, 17 Monash Avenue, Nedlands, WA 6009, Australia.
Division of Clinical Dentistry, School of Dentistry, International Medical University Kuala Lumpur, 126, Jalan Jalil Perkasa 19, Bukit Jalil, 57000 Bukit Jalil, Wilayah Persekutuan Kuala Lumpur, Malaysia.
Mater Sci Eng C Mater Biol Appl. 2021 Mar;122:111894. doi: 10.1016/j.msec.2021.111894. Epub 2021 Jan 23.
We formulated a pH-sensitive chlorhexidine-loaded mesoporous silica nanoparticles (MSN) modified with poly-(lactic-co-glycolic acid) (CHX-loaded/MSN-PLGA) and incorporated into experimental resin-based dentin adhesives at 5 and 10 wt%. Nanocarriers were characterized in terms of morphology, physicochemical features, spectral analyses, drug-release kinetics at varying pH and its effect on dentin-bound proteases was investigated. The modified dentin adhesives were characterized for cytotoxicity, antimicrobial activity, degree of conversion (DC) along with CHX release, micro-tensile bond strength (μTBS) and nano-leakage expression were studied at different pH values and storage time. CHX-loaded/MSN-PLGA nanocarriers exhibited a significant pH-dependent drug release behavior than CHX-loaded/MSN nanocarriers without PLGA modification. The highest percentage of CHX release was seen with 10 wt% CHX-loaded/MSN-PLGA doped adhesive at a pH of 5.0. CHX-loaded/MSN-PLGA modified adhesives exhibited more profound antibiofilm characteristics against S. mutans and more sustained CHX-release which was pH dependent. After 6 months in artificial saliva at varying pH, the 5 wt% CHX-loaded/MSN-PLGA doped adhesive showed excellent bonding under SEM/TEM, higher μTBS, and least nano-leakage expression. The pH-sensitive CHX-loaded/MSN-PLGA could be of crucial advantage for resin-dentin bonding applications especially in reduced pH microenvironment resulting from biofilm formation; and the activation of dentin-bound proteases as a consequence of acid etching and acidic content of bonding resin monomers.
我们制备了一种用聚(乳酸 - 乙醇酸)修饰的pH敏感型载氯己定介孔二氧化硅纳米颗粒(MSN)(载CHX/MSN-PLGA),并以5 wt%和10 wt%的比例掺入实验性树脂基牙本质粘结剂中。对纳米载体进行了形态、物理化学特征、光谱分析等方面的表征,研究了其在不同pH值下的药物释放动力学及其对牙本质结合蛋白酶的影响。对改性牙本质粘结剂的细胞毒性、抗菌活性、转化率(DC)以及CHX释放进行了表征,研究了不同pH值和储存时间下的微拉伸粘结强度(μTBS)和纳米渗漏表达情况。与未修饰PLGA的载CHX/MSN纳米载体相比,载CHX/MSN-PLGA纳米载体表现出显著的pH依赖性药物释放行为。在pH为5.0时,10 wt%载CHX/MSN-PLGA掺杂粘结剂的CHX释放百分比最高。载CHX/MSN-PLGA改性粘结剂对变形链球菌表现出更显著的抗生物膜特性和更持续的pH依赖性CHX释放。在不同pH值的人工唾液中放置6个月后,5 wt%载CHX/MSN-PLGA掺杂粘结剂在扫描电子显微镜/透射电子显微镜下显示出优异的粘结效果、更高的μTBS和最低的纳米渗漏表达。pH敏感型载CHX/MSN-PLGA对于树脂 - 牙本质粘结应用可能具有至关重要的优势,特别是在生物膜形成导致的pH降低微环境中;以及酸蚀和粘结树脂单体酸性成分导致牙本质结合蛋白酶的激活方面。
