Browsing by Author "Liu, Xiaohua"
Now showing items 1-8 of 8
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Jia, Wenkai (2021-07-30)The importance of tissue-specific microenvironments in achieving physiological cell and tissue functions has spurred the advancement of extracellular matrix (ECM) scaffolds for tissue engineering. Unlike defined scaffolds ...
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Ahuja, Neelam (2017-05-04)Regenerative endodontics is one of the most exciting new developments in endodontics. Pulp regeneration can be achieved basically by using a triad of a reliable cell source capable of differentiating, a suitable scaffold, ...
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Filokyprou, Thaleia (2022-04-19)Statement of problem. Additively manufacturing (AM) is gaining popularity in dentistry, including the use for interim implant supported fixed dental prostheses. However, evidence regarding the bonding protocols of AM interim ...
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Chang, Bei (2020-07-15)Regeneration of functional dentin remains challenging in regenerative dentistry since it requires a precise control of odontoblast polarization and differentiation. Both biophysical and biochemical factors have been proposed ...
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Methani, Mohammad Mujtaba (2019-03-29)All-ceramic dental crowns present a higher incidence of fracture and chipping when supported by dental implants as opposed to natural teeth. This study attempted to replicate the graded structural design of a natural tooth ...
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Liu, Xiaohua; Ma, Chi; Qu, Tiejun (United States. Patent and Trademark Office; Texas A&M University. Libraries, 2018-03-13)The present invention relates to a biomimetic matrix for providing structural support and scaffolding that allows for regeneration of dentin, pulp, and periodontal tissues. A method of making the biomimetic matrix provides ...
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Liang, Yongxi (2021-07-12)Periodontal regeneration is still extremely challenging because of the complexity of the anatomy and various conditions of patients. Tissue engineering may provide an approach to reconstruct the tissue structures and ...
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Arora, Akshi (2014-04-28)Specific problem: Our previous study showed that the nanofibrous poly-l-lactic acid (NF-PLLA) microspheres are excellent cell carriers for tissue regeneration. However, these injectable microspheres are not fluorescent ...