S
Simon Young
Researcher at University of Texas Health Science Center at Houston
Publications - 67
Citations - 4203
Simon Young is an academic researcher from University of Texas Health Science Center at Houston. The author has contributed to research in topics: Bone regeneration & Medicine. The author has an hindex of 23, co-authored 57 publications receiving 3486 citations. Previous affiliations of Simon Young include University of Texas System & Harvard University.
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Journal ArticleDOI
Is Reconstruction of Large Mandibular Defects Using Bioengineering Materials Effective
TL;DR: Although the use of autogenous graft remains the reference standard, the evolving science behind clinical tissue engineering has resulted in an effective treatment modality for complex head and neck defects with less morbidity and graft material equal to that of autogeneous bone.
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Building a Functional Salivary Gland for Cell-Based Therapy: More than Secretory Epithelial Acini
TL;DR: The ability to integrate biomolecular cues in combination with a range of materials opens the door to the design of increasingly complex salivary gland structures, that, once accomplished can lead to breakthroughs in other fields of tissue engineering of epithelial-based exocrine glands or oral tissues.
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An Insight into Acute Pericoronitis and the Need for an Evidence-Based Standard of Care.
TL;DR: The lack of consistency of the responses focusing on the preferred treatment for emergency patients with acute pericoronitis reinforces the need for developing a standard-of-care to train future dental professionals based on well-designed randomized controlled clinical trials and meta-analyses.
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Silicon Oxynitrophosphide Nanoscale Coating Enhances Antioxidant Marker-Induced Angiogenesis During in vivo Cranial Bone-Defect Healing
Felipe Monte,Felipe Monte,Neelam Ahuja,Kamal Awad,Zui Pan,Simon Young,Harry K.W. Kim,Harry K.W. Kim,Pranesh B. Aswath,Marco Brotto,Venu Varanasi +10 more
TL;DR: It is found that SiONPx or SiONx nanoscale‐coated materials enhance antioxidant expression, angiogenic marker expression, and reduce ROS levels needed for accelerating vascular tissue regeneration.
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Tissue response to composite hydrogels for vertical bone augmentation in the rat
Lucas A. Kinard,Rebecca L. Dahlin,Allan M. Henslee,Patrick P. Spicer,Chia Ye Chu,Yasuhiko Tabata,Jeroen J.J.P. van den Beucken,John A. Jansen,Simon Young,Mark E. Wong,F. Kurtis Kasper,Antonios G. Mikos +11 more
TL;DR: A promising bone augmentation model was established in the rat; however, refinement of the hydrogel composites was suggested to optimize the constructs forBone augmentation applications.