J
Jason Muesse Institution-verified
Sourced from institutional research profiles (UAMS TRI or ARA).
Associate Professor
faculty
4 h-index
27 pubs
60 cited
Research Areas
Biography and Research Information
OverviewAI-generated summary
Jason Muesse's research focuses on the molecular mechanisms and treatment of various cancers, including esophageal, lung, and germ cell tumors. He investigates advanced techniques for genomic analysis, such as microdissection and the impact of antigen retrieval on DNA extraction. Muesse also explores the application of genomics, pathomics, and radiomics in understanding rare human tumors, contributing to the field of precision medicine. His work includes developing novel approaches for data science in genomics to improve accuracy and reproducibility. Muesse has published 27 papers, with an h-index of 4 and 58 citations, and has collaborated extensively with researchers at the University of Arkansas for Medical Sciences, including Matthew A. Steliga and Katy Marino.
Metrics
- h-index: 4
- Publications: 27
- Citations: 60
Selected Publications
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Sinking Stones and Fluorescent Undertones: Intraoperative Parathyroid Identification Technique (2025)
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Germ Cell Tumor of the Testis: Lethal Subtypes of a Curable Cancer (2024)
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Liquid biopsy based on circulating tumor DNA for lung cancer: A step toward prevention (2023)
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An advanced molecular medicine case report of a rare human tumor using genomics, pathomics, and radiomics (2023)
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Effect of Antigen Retrieval on Genomic DNA From Immunodissected Samples (2022)
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A Pathway for Esophageal Obstruction is Associated with Decreased Cost and Length-of-Stay (2022)
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Abstract 5038: Applying reproducible genomic data science methods for the analysis of a rare tumor type (2022)
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Microdissection Methods Utilizing Single-Cell Subtype Analysis and the Impact on Precision Medicine (2022)
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P09.07 Integration of Smoking Cessation Services in Mobile Mammography and Mobile COVID Screening to Reach Rural Populations (2021)
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NPARS—A Novel Approach to Address Accuracy and Reproducibility in Genomic Data Science (2021)
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A rare case of chordoma presenting as a Pancoast tumor (2021)
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COVID-19 and spontaneous esophageal perforation: a case report (2021)
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Preoperative nutritional counselling in patients undergoing oesophagectomy (2021)
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Synergizing microdissection with ddPCR to advance precision oncology. (2021)
Collaboration Network
Top Collaborators
Matthew A. Steliga
12 shared publications
In database
- Preoperative nutritional counselling in patients undergoing oesophagectomy
- An advanced molecular medicine case report of a rare human tumor using genomics, pathomics, and radiomics
- NPARS—A Novel Approach to Address Accuracy and Reproducibility in Genomic Data Science
- Effect of Antigen Retrieval on Genomic DNA From Immunodissected Samples
- Microdissection Methods Utilizing Single-Cell Subtype Analysis and the Impact on Precision Medicine
Showing 5 of 12 shared publications
Katy Marino
University of Arkansas for Medical Sciences
11 shared publications
In database
- Preoperative nutritional counselling in patients undergoing oesophagectomy
- An advanced molecular medicine case report of a rare human tumor using genomics, pathomics, and radiomics
- NPARS—A Novel Approach to Address Accuracy and Reproducibility in Genomic Data Science
- Synergizing microdissection with ddPCR to advance precision oncology.
- Abstract 5038: Applying reproducible genomic data science methods for the analysis of a rare tumor type
Showing 5 of 11 shared publications
Donald J. Johann
University of Arkansas for Medical Sciences
8 shared publications
In database
- An advanced molecular medicine case report of a rare human tumor using genomics, pathomics, and radiomics
- NPARS—A Novel Approach to Address Accuracy and Reproducibility in Genomic Data Science
- Effect of Antigen Retrieval on Genomic DNA From Immunodissected Samples
- Microdissection Methods Utilizing Single-Cell Subtype Analysis and the Impact on Precision Medicine
- Synergizing microdissection with ddPCR to advance precision oncology.
Showing 5 of 8 shared publications
Erich A. Peterson
University of Arkansas for Medical Sciences (US)
8 shared publications
- An advanced molecular medicine case report of a rare human tumor using genomics, pathomics, and radiomics
- NPARS—A Novel Approach to Address Accuracy and Reproducibility in Genomic Data Science
- Effect of Antigen Retrieval on Genomic DNA From Immunodissected Samples
- Microdissection Methods Utilizing Single-Cell Subtype Analysis and the Impact on Precision Medicine
- Synergizing microdissection with ddPCR to advance precision oncology.
Showing 5 of 8 shared publications
Ik Jae Shin
Winthrop Rockefeller Foundation (US)
6 shared publications
- An advanced molecular medicine case report of a rare human tumor using genomics, pathomics, and radiomics
- NPARS—A Novel Approach to Address Accuracy and Reproducibility in Genomic Data Science
- Effect of Antigen Retrieval on Genomic DNA From Immunodissected Samples
- Microdissection Methods Utilizing Single-Cell Subtype Analysis and the Impact on Precision Medicine
- Synergizing microdissection with ddPCR to advance precision oncology.
Showing 5 of 6 shared publications
Sarah Laun
Sinai Hospital (US)
4 shared publications
- Effect of Antigen Retrieval on Genomic DNA From Immunodissected Samples
- Microdissection Methods Utilizing Single-Cell Subtype Analysis and the Impact on Precision Medicine
- Synergizing microdissection with ddPCR to advance precision oncology.
- Abstract 373: Advancing precision oncology by synergizing ddPCR with microdissection
Michael R. Emmert‐Buck
Maryland Medical Research Institute (US)
4 shared publications
- Effect of Antigen Retrieval on Genomic DNA From Immunodissected Samples
- Microdissection Methods Utilizing Single-Cell Subtype Analysis and the Impact on Precision Medicine
- Synergizing microdissection with ddPCR to advance precision oncology.
- Abstract 373: Advancing precision oncology by synergizing ddPCR with microdissection
Michael A. Tangrea
Loyola University Maryland (US)
4 shared publications
- Effect of Antigen Retrieval on Genomic DNA From Immunodissected Samples
- Microdissection Methods Utilizing Single-Cell Subtype Analysis and the Impact on Precision Medicine
- Synergizing microdissection with ddPCR to advance precision oncology.
- Abstract 373: Advancing precision oncology by synergizing ddPCR with microdissection
Adam Roberge
Maryland Medical Research Institute (US)
3 shared publications
- Effect of Antigen Retrieval on Genomic DNA From Immunodissected Samples
- Microdissection Methods Utilizing Single-Cell Subtype Analysis and the Impact on Precision Medicine
- Abstract 373: Advancing precision oncology by synergizing ddPCR with microdissection
Valerie Greisman
Sinai Hospital (US)
2 shared publications
- Microdissection Methods Utilizing Single-Cell Subtype Analysis and the Impact on Precision Medicine
- Synergizing microdissection with ddPCR to advance precision oncology.
Kevin W. Sexton
University of Arkansas for Medical Sciences
2 shared publications
In database
- Preoperative nutritional counselling in patients undergoing oesophagectomy
- A Pathway for Esophageal Obstruction is Associated with Decreased Cost and Length-of-Stay
Ikjae Shin
University of Arkansas for Medical Sciences
2 shared publications
In database
- Abstract 5038: Applying reproducible genomic data science methods for the analysis of a rare tumor type
- Abstract 373: Advancing precision oncology by synergizing ddPCR with microdissection
Robert Weigman
Sinai Hospital (US)
2 shared publications
- Microdissection Methods Utilizing Single-Cell Subtype Analysis and the Impact on Precision Medicine
- Abstract 373: Advancing precision oncology by synergizing ddPCR with microdissection
Li Ma
University of Arkansas for Medical Sciences (US)
2 shared publications
- NPARS—A Novel Approach to Address Accuracy and Reproducibility in Genomic Data Science
- Abstract 5038: Applying reproducible genomic data science methods for the analysis of a rare tumor type
Konstantinos Arnaoutakis
Winthrop Rockefeller Foundation
2 shared publications
In database
- An advanced molecular medicine case report of a rare human tumor using genomics, pathomics, and radiomics
- Abstract 5038: Applying reproducible genomic data science methods for the analysis of a rare tumor type
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