Landen W. Saling Source Confirmed

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

Researcher

University of Arkansas at Fayetteville

faculty

4 h-index 10 pubs 82 cited

Research Areas

Cancer-related molecular mechanisms research Muscle Physiology and Disorders Diet and metabolism studies Mitochondrial Function and Pathology Metabolism and Genetic Disorders Health Disparities and Outcomes Genomics and Phylogenetic Studies

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OverviewAI-generated summary

Landen W. Saling's research focuses on the biological sex differences in the development of cancer cachexia, a complex metabolic syndrome characterized by involuntary weight loss and muscle wasting. His work investigates the molecular and physiological alterations that occur during cachexia, with a particular emphasis on skeletal muscle fibrosis, insulin sensitivity, and protein turnover.

Saling has published studies examining changes in mitochondrial quality control markers and the induction of protein turnover regulators between biological sexes in response to cancer cachexia. His research also explores the role of microRNAs, such as miR-16, in regulating muscle function and insulin sensitivity in a sex-dependent manner. Additionally, his work has investigated transcriptomic analyses of soleus muscle in response to sarcopenic obesity.

His publications include collaborations with researchers at the University of Arkansas at Fayetteville, including Tyrone A. Washington, Seongkyun Lim, Eleanor R. Schrems, and Nicholas P. Greene. Saling's scholarship metrics include an h-index of 4, with 10 total publications and 82 total citations.

Metrics

  • h-index: 4
  • Publications: 10
  • Citations: 82

Selected Publications

  • Females display relatively preserved muscle quality compared with males during the onset and early stages of C26-induced cancer cachexia (2023) DOI
  • Development of skeletal muscle fibrosis in a rodent model of cancer cachexia (2023) DOI
  • Biological Sex Differences of Fibrosis During the Development of Cancer Cachexia (2023) DOI
  • Differential Induction Of Regulators Of Protein Turnover During C26-induced Cancer Cachexia Between Biological Sexes (2022) DOI
  • Muscle miR-16 deletion results in impaired insulin sensitivity and contractile function in a sex-dependent manner (2022) DOI
  • Development of metabolic and contractile alterations in development of cancer cachexia in female tumor-bearing mice (2021) DOI

Collaborators

Researchers in the database who share publications

Tyrone A. Washington University of Arkansas at Fayetteville 10 shared publications Seongkyun Lim University of Arkansas at Fayetteville 10 shared publications Eleanor R. Schrems University of Arkansas at Fayetteville 10 shared publications Nicholas P. Greene University of Arkansas at Fayetteville 8 shared publications Francielly Morena da Silva University of Arkansas at Fayetteville 8 shared publications Ana Regina Cabrera University of Arkansas at Fayetteville 7 shared publications Megan E. Rosa‐Caldwell University of Arkansas at Fayetteville 5 shared publications Wesley S. Haynie University of Arkansas at Fayetteville 3 shared publications

Similar Researchers

Based on overlapping research topics

Seongkyun Lim University of Arkansas at Fayetteville
Cancer-related molecular mechanisms research Muscle Physiology and Disorders Diet and metabolism studies
Good match 5 shared topics
Nicholas P. Greene University of Arkansas at Fayetteville
Cancer-related molecular mechanisms research Muscle Physiology and Disorders Diet and metabolism studies
Good match 5 shared topics
Tyrone A. Washington University of Arkansas at Fayetteville
Cancer-related molecular mechanisms research Muscle Physiology and Disorders Diet and metabolism studies
Good match 5 shared topics
Wesley S. Haynie University of Arkansas at Fayetteville
Cancer-related molecular mechanisms research Muscle Physiology and Disorders Diet and metabolism studies
Good match 4 shared topics
Eleanor Schrems University of Arkansas at Fayetteville
Cancer-related molecular mechanisms research Muscle Physiology and Disorders Diet and metabolism studies
Good match 4 shared topics
Francielly Morena da Silva University of Arkansas at Fayetteville
Cancer-related molecular mechanisms research Muscle Physiology and Disorders Diet and metabolism studies
Good match 4 shared topics