The Preparation, the Physicochemical Assessment, and the Antimicrobial Action of Nanocurcumin‐Loaded Dental Temporary Restorative Material

Khosroshahi, Amir Reza Jamei; Dizaj, Solmaz Maleki; Sharifi, Simin; Torab, Ali; Negahdari, Ramin; Aghbolaghi, Navid; Vahedi, Parviz

doi:10.1155/2022/5339809

Cited by 1 publication

(1 citation statement)

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“…The pattern of rapid release of curcumin in the outer surface of the composites and continuous release in the sixth to 35th days related to the nanoparticles are more internal and may have electrostatic interactions with the gelatin matrix and their release takes time [29]. Other investigators have also reported similar release patterns for curcuminloaded dental materials [30,31]. Indeed, to achieve a slow-release behavior, either the sustained-release polymers are needed or a suitable cross-linker is used [32].…”

Section: Discussionmentioning

confidence: 93%

Gelatin–Curcumin Nanocomposites as a Coating for Implant Healing Abutment: In Vitro Stability Investigation

Dizaj

Torab

Kouhkani

et al. 2023

Clinics and Practice

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Regarding the importance of preventing peri-implantitis in dental implants, the current study aimed to coat a healing abutment with gelatin–curcumin nanocomposites, and the stability of this coating on the healing abutment was evaluated. A cell viability measuring test was used to determine the cytotoxicity of nanocomposites against dental pulp stem cells. To show the pattern of curcumin release from nanocomposites, drug dissolution apparatus two was applied. Then, 16 healing abutments were examined in vitro. Titanium healing abutments were coated with the gelatin–curcumin nanocomposite. The dip coating method was applied for coating and the consistency of coated cases was evaluated at intervals of one, 30, and 60 days after coating inside the simulated body fluid (SBF) solution. A scanning electron microscope (SEM) was used for investigating the microstructure and morphology of coatings, and an energy dispersive X-ray (EDX) was applied for determining the combination of the coating. Moreover, the healings were weighed before and after coating via an accurate digital scale with an accuracy of 0.0001. Finally, the data were analyzed using SPSS software. The prepared nanocomposite was non-cytotoxic against tested cells. The nanocomposite showed a relatively rapid release pattern in the first 10 days for curcumin. The release of curcumin from the nanoparticles continued slowly until the 30th day. The weight changes were statistically significant (p-value < 0.001) during this time. Based on the post hoc test, the weight between two times immediately after coating and 30 days after coating, and also one day after coating and 30 days after coating, was statistically insignificant. The results revealed that the coating of the gelatin–curcumin nanocomposite on the healing was successful and this consistency was kept for at least one month. It is necessary to investigate more evaluations in different fields of physicochemical, mechanical, and antimicrobial aspects for coated healing abutments.

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Section: Discussionmentioning

confidence: 93%