E
Eric West Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Associate Professor
faculty
3 h-index
23 pubs
415 cited
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
Eric West's research investigates the molecular mechanisms underlying protein function, with a recent focus on the androgen receptor. His work utilizes advanced techniques such as ion mobility mass spectrometry to elucidate the conformational effects of drug leads on intrinsically disordered protein domains, specifically the N-terminal domain of the androgen receptor. West also explores the relationship between health and societal factors, including the impact of COVID-19 on dietetic education and coordinated programs, and the prevalence of disordered eating habits in collegiate athletes. Additionally, his research has touched upon the mental health outcomes of United States military veterans, examining the connection between combat history, concussion, and suicide ideation. West collaborates with several faculty members at Arkansas State University, including JoAnna Cupp and Tiffany Sterling. He has authored 23 publications, with an h-index of 3 and 413 total citations.
Metrics
- h-index: 3
- Publications: 23
- Citations: 415
Selected Publications
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COVID-19 and Dietetic Education: Examining the Shift to Online Learning and CDR Exam Outcomes (2025)
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The Relationship Between Concussion and Combat History and Mental Health and Suicide Ideation Among United States Military Veterans—A Pilot Study (2025)
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The prevalence of disordered eating habits in female collegiate athletes (2025)
Collaboration Network
Top Collaborators
LaToya Green
3 shared publications
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
Adam Rofe
University of Aberdeen (GB)
3 shared publications
- Ion mobility mass spectrometry unveils conformational effects of drug lead <scp>EPI</scp> ‐001 on the intrinsically disordered <i>N</i> ‐terminal domain of the androgen receptor
- Deciphering the allosteric control of androgen receptor DNA binding by its disordered N-terminal domain
- Ion mobility mass spectrometry unveils conformational effects of drug lead EPI-001 on the intrinsically disordered N-terminal domain of the Androgen Receptor
Iain J. McEwan
University of Aberdeen (GB)
3 shared publications
- Ion mobility mass spectrometry unveils conformational effects of drug lead <scp>EPI</scp> ‐001 on the intrinsically disordered <i>N</i> ‐terminal domain of the androgen receptor
- Deciphering the allosteric control of androgen receptor DNA binding by its disordered N-terminal domain
- Ion mobility mass spectrometry unveils conformational effects of drug lead EPI-001 on the intrinsically disordered N-terminal domain of the Androgen Receptor
Anthony Allen
2 shared publications
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
Shawn Drake
2 shared publications
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
Brendon Aitken
2 shared publications
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
Victoria Chamberlain
2 shared publications
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
Crystal Duru
2 shared publications
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
D. Moore
2 shared publications
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
A.C. Rutter
2 shared publications
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
Lexis Taylor
2 shared publications
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
- Investigating Proximal Strength Effects at the Shoulder Using Blood Flow Restriction Exercise and Myofascial Release
Ikhlas M. M. Ahmed
University of Strathclyde (GB)
2 shared publications
- Ion mobility mass spectrometry unveils conformational effects of drug lead <scp>EPI</scp> ‐001 on the intrinsically disordered <i>N</i> ‐terminal domain of the androgen receptor
- Ion mobility mass spectrometry unveils conformational effects of drug lead EPI-001 on the intrinsically disordered N-terminal domain of the Androgen Receptor
Martyn C. Henry
University of Strathclyde (GB)
2 shared publications
- Ion mobility mass spectrometry unveils conformational effects of drug lead <scp>EPI</scp> ‐001 on the intrinsically disordered <i>N</i> ‐terminal domain of the androgen receptor
- Ion mobility mass spectrometry unveils conformational effects of drug lead EPI-001 on the intrinsically disordered N-terminal domain of the Androgen Receptor
Craig Jamieson
University of Strathclyde (GB)
2 shared publications
- Ion mobility mass spectrometry unveils conformational effects of drug lead <scp>EPI</scp> ‐001 on the intrinsically disordered <i>N</i> ‐terminal domain of the androgen receptor
- Ion mobility mass spectrometry unveils conformational effects of drug lead EPI-001 on the intrinsically disordered N-terminal domain of the Androgen Receptor
Rebecca Beveridge
University of Strathclyde (GB)
2 shared publications
- Ion mobility mass spectrometry unveils conformational effects of drug lead <scp>EPI</scp> ‐001 on the intrinsically disordered <i>N</i> ‐terminal domain of the androgen receptor
- Ion mobility mass spectrometry unveils conformational effects of drug lead EPI-001 on the intrinsically disordered N-terminal domain of the Androgen Receptor
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