P
Ping Chang Lin
Researcher at Georgia Regents University
Publications - 34
Citations - 1575
Ping Chang Lin is an academic researcher from Georgia Regents University. The author has contributed to research in topics: Cartilage & Oxygen transport. The author has an hindex of 19, co-authored 32 publications receiving 1329 citations. Previous affiliations of Ping Chang Lin include University of California, Davis & University of Washington.
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Journal ArticleDOI
Techniques for physicochemical characterization of nanomaterials
TL;DR: This review summarizes the techniques that are commonly used to study the size, shape, surface properties, composition, purity and stability of nanomaterials, along with their advantages and disadvantages.
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Cockayne syndrome group B protein prevents the accumulation of damaged mitochondria by promoting mitochondrial autophagy
Morten Scheibye-Knudsen,Mahesh Ramamoorthy,Peter Sykora,Scott Maynard,Ping Chang Lin,Robin K. Minor,David M. Wilson,Marcus P. Cooper,Richard G. Spencer,Rafael de Cabo,Deborah L. Croteau,Vilhelm A. Bohr,Vilhelm A. Bohr +12 more
TL;DR: Cells from Cockayne syndrome patients and a mouse model of the disease show increased metabolism as a result of impaired autophagy-mediated removal of damaged mitochondria.
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Multicomponent T2 relaxation analysis in cartilage.
TL;DR: The potential of multiexponential T2 analysis to increase the specificity of MR characterization of cartilage is demonstrated and the expected experimental accuracy of measured T2s and associated weights was within 2% and 4% respectively, with precision within 1% and 3%.
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Predicting early symptomatic osteoarthritis in the human knee using machine learning classification of magnetic resonance images from the osteoarthritis initiative
Beth G. Ashinsky,Mustapha Bouhrara,Christopher E. Coletta,Benoit Lehallier,Kenneth L. Urish,Ping Chang Lin,Ilya G. Goldberg,Richard G. Spencer +7 more
TL;DR: Evaluated machine learning algorithms applied to T2 maps have the potential to provide important prognostic information for the development of osteoarthritis.
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Myoglobin translational diffusion in rat myocardium and its implication on intracellular oxygen transport.
TL;DR: Pulsed‐field gradient NMR methods have followed gradient‐dependent changes in the distinct 1H NMR γ CH3 Val E11 signal of MbO2 in perfused rat myocardium to obtain the endogenous Mb translational diffusion coefficient (DMb), which matches precisely the value predicted by in vivo NMR rotational diffusion measurements of Mb and shows no orientation preference.