L
L. Jack Windsor
Researcher at Indiana University – Purdue University Indianapolis
Publications - 60
Citations - 1922
L. Jack Windsor is an academic researcher from Indiana University – Purdue University Indianapolis. The author has contributed to research in topics: Matrix metalloproteinase & Porphyromonas gingivalis. The author has an hindex of 23, co-authored 60 publications receiving 1741 citations. Previous affiliations of L. Jack Windsor include University of Alabama at Birmingham & National Institutes of Health.
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Journal ArticleDOI
Analysis of pulpal reactions to restorative procedures, materials, pulp capping, and future therapies.
TL;DR: This review will examine pulp injury and healing reactions to different restorative variables, and the avoidance of post-operative complications with conventional therapies requires attention to numerous aspects of treatment highlighted in this review.
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VEGF-induced paracellular permeability in cultured endothelial cells involves urokinase and its receptor
TL;DR: VEGF induces a sustained paracellular permeability in capillary endothelial cells that is mediated by activation of the uPA/uPAR system.
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Overexpression of matrix metalloproteinase-10 and matrix metalloproteinase-3 in human diabetic corneas: A possible mechanism of basement membrane and integrin alterations
Mehrnoosh Saghizadeh,Donald J. Brown,Raquel Castellon,Marilyn Chwa,Gang H. Huang,Julia Y. Ljubimova,Shari Rosenberg,K S Spirin,Raisa B. Stolitenko,Wakako Adachi,Shigeru Kinoshita,Gillian Murphy,L. Jack Windsor,M. Cristina Kenney,Alexander V. Ljubimov +14 more
TL;DR: The data suggest that alterations of laminins, nidogen-1/entactin, and epithelial integrin in DR corneas may occur because of an increased proteolytic degradation.
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Effects of Calendula officinalis on human gingival fibroblasts
Pragtipal Saini,Nouf Al-Shibani,Jun Sun,Weiping Zhang,Fengyu Song,Karen S. Gregson,L. Jack Windsor +6 more
TL;DR: Calendula inhibited HGF-mediated collagen degradation and MMP-2 activity more than the same correlated concentration of pure quercetin, which may be attributed to additional components in Calendula other than quercETin.
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A novel three‐dimensional scaffold for regenerative endodontics: materials and biological characterizations
Marco C. Bottino,Ghaeth H. Yassen,Jeffrey A. Platt,Nawaf Labban,L. Jack Windsor,Kenneth J. Spolnik,Ana Helena A. Bressiani +6 more
TL;DR: Quantitative proliferation assay performed with human dental pulp‐derived cells as a function of nanotubes concentration indicated that the HNTs exhibit a high level of biocompatibility, rendering them good candidates for the potential encapsulation of distinct bioactive molecules.