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Meghan E Faillace

Showing results (1-10 of 5) with videos related to

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Calcified Tissue International|November 13, 2012
Fourier transform infrared imaging as a tool to chemically and spatially characterize matrix-mineral deposition in osteoblastsMeghan E Faillace, Roger J Phipps, Lisa M Miller
Biointerphases|July 12, 2017
In situ examination of osteoblast biomineralization on sulfonated polystyrene-modified substrates using Fourier transform infrared microspectroscopyYizhi Meng, Meghan E Faillace, Kathryn Dorst, et al.
Calcified Tissue International|August 7, 2012
Deletion of Cx43 from osteocytes results in defective bone material properties but does not decrease extrinsic strength in cortical boneNicoletta Bivi, Mark T Nelson, Meghan E Faillace, et al.
Bone|May 31, 2011
Bisphosphonates do not alter the rate of secondary mineralizationRobyn K Fuchs, Meghan E Faillace, Matt R Allen, et al.
Bone|July 9, 2014
Genetic perturbations that impair functional trait interactions lead to reduced bone strength and increased fragility in miceLauren M Smith, Erin M R Bigelow, Bonnie T Nolan, et al.
Pageof 1

Showing results (1-10 of 5) with videos related to

Sort By:
Pageof 1
Calcified Tissue International|November 13, 2012
Fourier transform infrared imaging as a tool to chemically and spatially characterize matrix-mineral deposition in osteoblastsMeghan E Faillace, Roger J Phipps, Lisa M Miller
Biointerphases|July 12, 2017
In situ examination of osteoblast biomineralization on sulfonated polystyrene-modified substrates using Fourier transform infrared microspectroscopyYizhi Meng, Meghan E Faillace, Kathryn Dorst, et al.
Calcified Tissue International|August 7, 2012
Deletion of Cx43 from osteocytes results in defective bone material properties but does not decrease extrinsic strength in cortical boneNicoletta Bivi, Mark T Nelson, Meghan E Faillace, et al.
Bone|May 31, 2011
Bisphosphonates do not alter the rate of secondary mineralizationRobyn K Fuchs, Meghan E Faillace, Matt R Allen, et al.
Bone|July 9, 2014
Genetic perturbations that impair functional trait interactions lead to reduced bone strength and increased fragility in miceLauren M Smith, Erin M R Bigelow, Bonnie T Nolan, et al.
Pageof 1