Medicine and Health Sciences Commons^™

Bioresorbable Composite Polymeric Materials For Tissue Engineering Applications, Sakineh Hajebi, Saeed Mohammadi Nasr, Navid Rabiee, Mojtaba Bagherzadeh, Sepideh Ahmadi, Mohammad Rabiee, Mohammadreza Tahriri, Lobat Tayebi, Michael R. Hamblin

School of Dentistry Faculty Research and Publications

This review covers the development of bioresorbable polymeric composites for applications in tissue engineering. Various commercially available bioresorbable polymers are described, with emphasis on recent bioresorbable composites based on natural and synthetic polymers. Bioresorbable polymers contain hydrolyzable bonds, which are subjected to chemical degradation via either reactive hydrolysis or enzyme-catalyzed active hydrolysis. For synthetic polymers, chemical hydrolysis is the most important mode of degradation. The degradation rate can be controlled by varying the molecular weight and crystallinity. Examples of bioresorbable polymers are: polyurethane, poly(D,L)lactide, poly(lactic-co-glycolic) acid, poly(α-hydroxy acids), cross-linked polyester hydrogels, poly(orthoesters), polyanhydrides and polyethylene glycol.

Clinical Long-Term Success Of Contemporary Nano-Filled Resin Composites In Class I And Ii Restorations Cured By Led Or Halogen Light, Torsten Pflaum, Stefan Kranz, Regina Montag, Arndt Guentsch, Andrea Völpel, Robin Mills, Klaus Jandt, Bernd Sigusch

School of Dentistry Faculty Research and Publications

Objectives

The use of LED light-curing units (LED LCUs) for polymerising resin-based composite restorations has become widespread throughout dentistry. Unfortunately, there is a paucity of clinical longitudinal studies that evaluate the comparative efficacy of LED-based polymerisation in direct posterior composite restorations. The aim of the present study was to investigate the performance of class I and II resin composite restorations for two successful composite restorative materials cured with LED versus halogen LCUs.

Methods

One hundred restorations were placed using the nano-filled composites Grandio® or Filtek™ Supremé. The following test groups were established: LED-Grandio® n = 23 (LG), LED-Filtek™ Supremé n …

Nanomagnetic-Mediated Drug Delivery For The Treatment Of Dental Disease, Yadong Ji, Seung K. Choi, Ahmed S. Sultan, Kong Chuncai, Xiaoying Lin, Erfan Dashtimoghadam, Mary Anne Melo, Michael Weir, Huakun Xu, Lobat Tayebi, Ahihong Nie, Didier A. Depireux, Radi Masri

School of Dentistry Faculty Research and Publications

Maintaining the vitality of the dental pulp, the highly innervated and highly vascular, innermost layer of the tooth, is a critical goal of any dental procedure. Upon injury, targeting the pulp with specific therapies is challenging because it is encased in hard tissues. This project describes a method that can effectively deliver therapeutic agents to the pulp. This method relies on the use of nanoparticles that can be actively steered using magnetic forces to the pulp, traveling through naturally occurring channels in the dentin (the middle layer of the tooth). This method can reduce the inflammation of injured pulp and …

Development Of Chitosan/Gelatin/Keratin Composite Containing Hydrocortisone Sodium Succinate As A Buccal Mucoadhesive Patch To Treat Desquamative Gingivitis, Zahra Davoudi, Mohammad Rabiee, Behzad Houshmand, Niloofar Eslahi, Kimia Khoshroo, Morteza Rasoulianboroujeni, Mohammadreza Tahriri, Lobat Tayebi

School of Dentistry Faculty Research and Publications

The aim of this research was to develop chitosan/gelatin/keratin composite containing hydrocortisone sodium succinate as a buccal mucoadhesive patch to treat desquamative gingivitis, which was fabricated through an environmental friendly process. Mucoadhesive films increase the advantage of higher efficiency and drug localization in the affected region. In this research, mucoadhesive films, for the release of hydrocortisone sodium succinate, were prepared using different ratios of chitosan, gelatin and keratin. In the first step, chitosan and gelatin proportions were optimized after evaluating the mechanical properties, swelling capacity, water uptake, stability, and biodegradation of the films. Then, keratin was added at different percentages …