Biography and Research Information
OverviewAI-generated summary
J.-R. Chen's research investigates the role of NADPH oxidase 2 in mouse models. Their work examines how the deletion of this enzyme in chondrocytes affects growth plate disruption caused by ethanol exposure. The studies indicate that while NADPH oxidase 2 deletion exacerbates ethanol-mediated disruption, it does not significantly alter bone architecture or gene expression.
Metrics
- h-index: 1
- Publications: 1
- Citations: 2
Selected Publications
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Deletion of <scp>NADPH</scp> oxidase 2 in chondrocytes exacerbates ethanol‐mediated growth plate disruption in mice without major effects on bone architecture or gene expression (2023)
Collaboration Network
Top Collaborators
Kim Brint Pedersen
Louisiana State University Health Sciences Center New Orleans (US)
1 shared publication
- Deletion of <scp>NADPH</scp> oxidase 2 in chondrocytes exacerbates ethanol‐mediated growth plate disruption in mice without major effects on bone architecture or gene expression
James Watt
Louisiana State University Health Sciences Center New Orleans (US)
1 shared publication
- Deletion of <scp>NADPH</scp> oxidase 2 in chondrocytes exacerbates ethanol‐mediated growth plate disruption in mice without major effects on bone architecture or gene expression
C. Maimone
Louisiana State University Health Sciences Center New Orleans (US)
1 shared publication
- Deletion of <scp>NADPH</scp> oxidase 2 in chondrocytes exacerbates ethanol‐mediated growth plate disruption in mice without major effects on bone architecture or gene expression
H. Hang
Louisiana State University Health Sciences Center New Orleans (US)
1 shared publication
- Deletion of <scp>NADPH</scp> oxidase 2 in chondrocytes exacerbates ethanol‐mediated growth plate disruption in mice without major effects on bone architecture or gene expression
A Denys
Louisiana State University Health Sciences Center New Orleans (US)
1 shared publication
- Deletion of <scp>NADPH</scp> oxidase 2 in chondrocytes exacerbates ethanol‐mediated growth plate disruption in mice without major effects on bone architecture or gene expression
Katrin Schröder
Goethe University Frankfurt (DE)
1 shared publication
- Deletion of <scp>NADPH</scp> oxidase 2 in chondrocytes exacerbates ethanol‐mediated growth plate disruption in mice without major effects on bone architecture or gene expression
Larry J. Suva
Texas A&M University (US)
1 shared publication
- Deletion of <scp>NADPH</scp> oxidase 2 in chondrocytes exacerbates ethanol‐mediated growth plate disruption in mice without major effects on bone architecture or gene expression
Martin J. J. Ronis
Louisiana State University Health Sciences Center New Orleans (US)
1 shared publication
- Deletion of <scp>NADPH</scp> oxidase 2 in chondrocytes exacerbates ethanol‐mediated growth plate disruption in mice without major effects on bone architecture or gene expression
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