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The Roles of the Skeleton and Phosphorus in the CKD Mineral Bone Disorder
Keith A. Hruska
, Suresh Mathew
Institute of Clinical and Translational Sciences (ICTS)
Division of Nephrology, Hypertension & Apheresis
Research output
:
Contribution to journal
›
Review article
›
peer-review
35
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Scopus citations
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Keyphrases
Phosphorus
100%
CKD-MBD
100%
Fibroblast Growth Factor 23 (FGF23)
100%
Hyperphosphatemia
50%
Atherosclerotic Plaque
33%
Cardiovascular Morbidity
33%
Osteoblast
16%
Cardiovascular Risk
16%
Kidney
16%
Kidney Function
16%
Reduced Kidney Function
16%
Major Components
16%
Bone Resorption
16%
Transcriptome
16%
Vascular Smooth muscle Cells
16%
Cardiovascular Mortality
16%
Multiple Organ Failure
16%
Hyperparathyroidism
16%
Osteocalcin
16%
Osteocyte
16%
Osteoblastic
16%
Extracellular Matrix Deposition
16%
Phosphorus Excretion
16%
Cardiovascular Events
16%
Neointima
16%
Mineral Deposition
16%
Matrix Mineralization
16%
New Discovery
16%
Hypertrophic Cartilage
16%
Organ Communication
16%
Medicine and Dentistry
Skeleton
100%
Fibroblast Growth Factor 23
100%
Bone Disease
100%
Hyperphosphatemia
50%
Secretion (Process)
33%
Cardiovascular System
33%
Kidney Function
33%
Mineralization
33%
Atherosclerotic Plaque
33%
Extracellular Matrix
16%
Osteolysis
16%
Cardiovascular Mortality
16%
Cardiovascular Risk
16%
Vascular Smooth Muscle Cell
16%
Osteoblast
16%
Hyperparathyroidism
16%
Neointima
16%
Osteocyte
16%
Transcriptome
16%
Osteocalcin
16%
Phosphate Excretion
16%
Multiorgan System Failure
16%