Open Access. Powered by Scholars. Published by Universities.®
- Keyword
-
- Aneurysm (1)
- Animals (1)
- Aortic aneurysms (1)
- Aortic dissection (1)
- Cardiovascular medicine (1)
-
- Journal technical reviews (1)
- Marfan syndrome (1)
- Molecular biology (1)
- Mouse (1)
- Pathologic features (1)
- Peer reviews (1)
- Replicates (1)
- Reproducibility (1)
- Rigor (1)
- Single-cell analysis (1)
- Smooth muscle cell differentiation (1)
- Statistical analysis (1)
- Statistical reviews (1)
- TGF-β signaling (1)
- Technical review (1)
- Vascular biology (1)
- Β-Aminopropionitrile (1)
Articles 1 - 3 of 3
Full-Text Articles in Medicine and Health Sciences
Key Factors For Improving Rigor And Reproducibility: Guidelines, Peer Reviews, And Journal Technical Reviews, Hong S. Lu, Alan Daugherty
Key Factors For Improving Rigor And Reproducibility: Guidelines, Peer Reviews, And Journal Technical Reviews, Hong S. Lu, Alan Daugherty
Saha Cardiovascular Research Center Faculty Publications
To respond to the NIH's policy for rigor and reproducibility in preclinical research, many journals have implemented guidelines and checklists to guide authors in improving the rigor and reproducibility of their research. Transparency in developing detailed prospective experimental designs and providing raw data are essential premises of rigor and reproducibility. Standard peer reviews and journal-specific technical and statistical reviews are critical factors for enhancing rigor and reproducibility. This brief review also shares some experience from Arteriosclerosis, Thrombosis, and Vascular Biology, an American Heart Association journal, that has implemented several mechanisms to enhance rigor and reproducibility for preclinical research.
Β-Aminopropionitrile-Induced Aortic Aneurysm And Dissection In Mice, Hisashi Sawada, Zachary A. Beckner, Sohei Ito, Alan Daugherty, Hong S. Lu
Β-Aminopropionitrile-Induced Aortic Aneurysm And Dissection In Mice, Hisashi Sawada, Zachary A. Beckner, Sohei Ito, Alan Daugherty, Hong S. Lu
Saha Cardiovascular Research Center Faculty Publications
The mechanistic basis for the formation of aortic aneurysms and dissection needs to be elucidated to facilitate the development of effective medications. β-Aminopropionitrile administration in mice has been used frequently to study the pathologic features and mechanisms of aortic aneurysm and dissection. This mouse model mimics several facets of the pathology of human aortic aneurysms and dissection, although many variables exist in the experimental design and protocols that must be resolved to determine its application to the human disease. In the present brief review, we have introduced the development of this mouse model and provided insights into understanding its pathologic …
Single-Cell Analysis Of Aneurysmal Aortic Tissue In Patients With Marfan Syndrome Reveals Dysfunctional Tgf-Β Signaling, Ashley Dawson, Yanming Li, Yang Li, Pingping Ren, Hernan G. Vasquez, Chen Zhang, Kimberly R. Rebello, Waleed Ageedi, Alon R. Azares, Aladdein Burchett Mattar, Mary Burchett Sheppard, Hong S. Lu, Joseph S. Coselli, Lisa A. Cassis, Alan Daugherty, Ying H. Shen, Scott A. Lemaire
Single-Cell Analysis Of Aneurysmal Aortic Tissue In Patients With Marfan Syndrome Reveals Dysfunctional Tgf-Β Signaling, Ashley Dawson, Yanming Li, Yang Li, Pingping Ren, Hernan G. Vasquez, Chen Zhang, Kimberly R. Rebello, Waleed Ageedi, Alon R. Azares, Aladdein Burchett Mattar, Mary Burchett Sheppard, Hong S. Lu, Joseph S. Coselli, Lisa A. Cassis, Alan Daugherty, Ying H. Shen, Scott A. Lemaire
Saha Cardiovascular Research Center Faculty Publications
The molecular and cellular processes leading to aortic aneurysm development in Marfan syndrome (MFS) remain poorly understood. In this study, we examined the changes of aortic cell populations and gene expression in MFS by performing single-cell RNA sequencing (scRNA seq) on ascending aortic aneurysm tissues from patients with MFS (n = 3) and age-matched non-aneurysmal control tissues from cardiac donors and recipients (n = 4). The expression of key molecules was confirmed by immunostaining. We detected diverse populations of smooth muscle cells (SMCs), fibroblasts, and endothelial cells (ECs) in the aortic wall. Aortic tissues from MFS showed alterations …