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Aging of Microstructural Compartments in Human Compact Bone
Ozan Akkus
, Anna Polyakova-Akkus
, Fran Adar
, Mitchell B. Schaffler
Icahn School of Medicine at Mount Sinai
Research output
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Contribution to journal
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Article
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peer-review
240
Scopus citations
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Keyphrases
Aging
100%
Microstructural
100%
Compact Bone
100%
Crystallinity
100%
Mineral Content
100%
Tissue Composition
75%
Lamellar Bone
75%
Aging Process
50%
Tissue Fragments
50%
Organic Matrix
50%
Mineralized Tissue
50%
Chemical Composition
25%
Crystal Growth
25%
Male Subjects
25%
Changes with Age
25%
Bone Tissue
25%
Growth Process
25%
Maturation Stage
25%
Osteon
25%
Primary Bone
25%
Tissue Volume
25%
Continuous Process
25%
Tissue Age
25%
Femoral Cortical Bone
25%
Aging Male
25%
Fracture Susceptibility
25%
Osteochondral Remodeling
25%
Secondary Osteon
25%
Mineral Crystals
25%
Brittle Bone
25%
Carbonate Substitution
25%
Raman Microprobe
25%
Raman Spectral Analysis
25%
Raman Microscopy
25%
Microprobe Analysis
25%
Secondary Mineralization
25%
Immunology and Microbiology
Maturation
100%
Cortical Bone
100%
Mineralization
66%
Bone Tissue
33%
Continuous Process
33%
Susceptibility
33%
Engineering
Crystallinity
100%
Lamellar Bone
75%
Mineralisation
50%
Growth Process
25%
Male Subject
25%
Continuous Process
25%
Age Range
25%
Biochemistry, Genetics and Molecular Biology
Maturation
100%
Mineralization
66%
Continuous Process
33%
Raman Microscopy
33%
Earth and Planetary Sciences
Crystallinity
100%
Mineralized Tissue
50%
Crystal Growth
25%
Raman Spectrometry
25%