Chawan Manaspon scite author profile

Background Direct pulp capping is a vital pulp therapy for a pin-point dental pulp exposure. Applying a pulp capping material leads to the formation of a dentin bridge and protects pulp vitality. The aim of this study was to compare the effects of four dental materials, DyCal®, ProRoot® MTA, Biodentine™, and TheraCal™ LC in vitro. Methods Human dental pulp stem cells (hDPs) were isolated and characterized. Extraction medium was prepared from the different pulp capping materials. The hDP cytotoxicity, proliferation, and migration were examined. The odonto/osteogenic differentiation was determined by alkaline phosphatase, Von Kossa, and alizarin red s staining. Osteogenic marker gene expression was evaluated using real-time polymerase chain reaction. Results ProRoot® MTA and Biodentine™ generated less cytotoxicity than DyCal® and TheraCal™ LC, which were highly toxic. The hDPs proliferated when cultured with the ProRoot® MTA and Biodentine™ extraction media. The ProRoot® MTA and Biodentine™ extraction medium induced greater cell attachment and spreading. Moreover, the hDPs cultured in the ProRoot® MTA or Biodentine™ extraction medium migrated in a similar manner to those in serum-free medium, while a marked reduction in cell migration was observed in the cells cultured in DyCal® and TheraCal™ LC extraction media. Improved mineralization was detected in hDPs maintained in ProRoot® MTA or Biodentine™ extraction medium compared with those in serum-free medium. Conclusion This study demonstrates the favorable in vitro biocompatibility and bioactive properties of ProRoot® MTA and Biodentine™ on hDPs, suggesting their superior regenerative potential compared with DyCal® and TheraCal™.

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Preparation of Folate‐Conjugated Pluronic F127/Chitosan Core‐Shell Nanoparticles Encapsulating Doxorubicin for Breast Cancer Treatment

Manaspon

Viravaidya-Pasuwat

Pimpha

2012

Journal of Nanomaterials

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A targeting drug delivery system using folate-conjugated pluronic F127/chitosan core-shell nanoparticles was developed to deliver doxorubicin (DOX) to the target cancer cells. First, DOX was encapsulated in pluronic F127 micelle cores in the presence of sodium dodecyl sulfate (SDS) by a self-assembly method. To form a shell, a layer of either chitosan or folate-conjugated chitosan was deposited onto the pluronic micelles. The encapsulation efficiency was approximately58.1±4.7%. The average size of the core-shell nanoparticles was37.4±2.0 nm, while the zeta potential was12.9±2.3 mV, indicating the presence of a shell layer and more stable particles. In anin vitroDOX release study, an initial burst release, followed by a sustained release, was observed within 24 hours. In addition, the core-shell nanoparticles showed greater cytotoxicity towards MCF-7 cells than free DOX, suggesting a better therapeutic efficacy in treating cancer.

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Injectable SN-38-loaded Polymeric Depots for Cancer Chemotherapy of Glioblastoma Multiforme

et al. 2016

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Preparation and in vitro characterization of SN-38-loaded, self-forming polymeric depots as an injectable drug delivery system

Manaspon

Hongeng

Boongird

et al. 2012

Journal of Pharmaceutical Sciences

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Chawan Manaspon

Human dental pulp stem cell responses to different dental pulp capping materials

Preparation of Folate‐Conjugated Pluronic F127/Chitosan Core‐Shell Nanoparticles Encapsulating Doxorubicin for Breast Cancer Treatment

Injectable SN-38-loaded Polymeric Depots for Cancer Chemotherapy of Glioblastoma Multiforme

Preparation and in vitro characterization of SN-38-loaded, self-forming polymeric depots as an injectable drug delivery system

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