Ts erika schneider - A synthetic cartilage extracellular matrix model: hyaluronan and collagen hydrogel relaxivity, impact of macromolecular concentration on dGEMRIC

Erika schneider ts A synthetic

A synthetic cartilage extracellular matrix model: hyaluronan and collagen hydrogel relaxivity, impact of macromolecular concentration on dGEMRIC

Erika schneider ts A synthetic

A synthetic cartilage extracellular matrix model: hyaluronan and collagen hydrogel relaxivity, impact of macromolecular concentration on dGEMRIC

Erika schneider ts A synthetic

Erika schneider ts A synthetic

A synthetic cartilage extracellular matrix model: hyaluronan and collagen hydrogel relaxivity, impact of macromolecular concentration on dGEMRIC

Erika schneider ts A synthetic

Erika schneider ts A synthetic

Erika schneider ts A synthetic

A synthetic cartilage extracellular matrix model: hyaluronan and collagen hydrogel relaxivity, impact of macromolecular concentration on dGEMRIC

Erika schneider ts A synthetic

A synthetic cartilage extracellular matrix model: hyaluronan and collagen hydrogel relaxivity, impact of macromolecular concentration on dGEMRIC

Erika schneider ts A synthetic

Erika schneider ts A synthetic

Creation of the gelatin portion of this work was partially funded by a grant from the National Institutes of Health 1-R21-DK077668-01. If the true R1 value is lower than that used in calculations, the tissue Gd-DTPA concentration would be falsely underestimated and interpreted as a higher cartilage or meniscal fixed charge density Schneidedmeaning greater tissue repulsion of the negative contrast agent, which results from higher GAG concentrations. Most studies calculated GAG concentration from fixed schnieder density FCD using pre- and post-contrast T1 values. 783 4.




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