Your search keyword '"Sanchez, Jessica I."' showing total 14 results

1. Dimensionality Reduction and Nearest Neighbors for Improving Out-of-Distribution Detection in Medical Image Segmentation

Author

Woodland, McKell, Patel, Nihil, Castelo, Austin, Taie, Mais Al, Eltaher, Mohamed, Yung, Joshua P., Netherton, Tucker J., Calderone, Tiffany L., Sanchez, Jessica I., Cleere, Darrel W., Elsaiey, Ahmed, Gupta, Nakul, Victor, David, Beretta, Laura, Patel, Ankit B., and Brock, Kristy K.

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning

Abstract

Clinically deployed deep learning-based segmentation models are known to fail on data outside of their training distributions. While clinicians review the segmentations, these models tend to perform well in most instances, which could exacerbate automation bias. Therefore, detecting out-of-distribution images at inference is critical to warn the clinicians that the model likely failed. This work applied the Mahalanobis distance (MD) post hoc to the bottleneck features of four Swin UNETR and nnU-net models that segmented the liver on T1-weighted magnetic resonance imaging and computed tomography. By reducing the dimensions of the bottleneck features with either principal component analysis or uniform manifold approximation and projection, images the models failed on were detected with high performance and minimal computational load. In addition, this work explored a non-parametric alternative to the MD, a k-th nearest neighbors distance (KNN). KNN drastically improved scalability and performance over MD when both were applied to raw and average-pooled bottleneck features., Comment: Accepted for publication at the Journal of Machine Learning for Biomedical Imaging (MELBA) https://melba-journal.org/2024:020. Expansion of "Dimensionality Reduction for Improving Out-of-Distribution Detection in Medical Image Segmentation" arXiv:2308.03723. Code available at https://github.com/mckellwoodland/dimen_reduce_mahal (https://zenodo.org/records/13881989)

Published

2024

2. Training robust T1-weighted magnetic resonance imaging liver segmentation models using ensembles of datasets with different contrast protocols and liver disease etiologies

Author

Patel, Nihil, Celaya, Adrian, Eltaher, Mohamed, Glenn, Rachel, Savannah, Kari Brewer, Brock, Kristy K., Sanchez, Jessica I., Calderone, Tiffany L., Cleere, Darrel, Elsaiey, Ahmed, Cagley, Matthew, Gupta, Nakul, Victor, David, Beretta, Laura, Koay, Eugene J., Netherton, Tucker J., and Fuentes, David T.

Published

2024

3. Metabolomics biomarkers of hepatocellular carcinoma in a prospective cohort of patients with cirrhosis

Author

Sanchez, Jessica I., Fontillas, Antoine C., Kwan, Suet-Ying, Sanchez, Caren I., Calderone, Tiffany L., Lee, Jana L., Elsaiey, Ahmed, Cleere, Darrel W., Wei, Peng, Vierling, John M., Victor, David W., and Beretta, Laura

Published

2024

4. Heterogeneity in intrahepatic macrophage populations and druggable target expression in patients with steatotic liver disease-related fibrosis

Author

Saldarriaga, Omar A., Wanninger, Timothy G., Arroyave, Esteban, Gosnell, Joseph, Krishnan, Santhoshi, Oneka, Morgan, Bao, Daniel, Millian, Daniel E., Kueht, Michael L., Moghe, Akshata, Jiao, Jingjing, Sanchez, Jessica I., Spratt, Heidi, Beretta, Laura, Rao, Arvind, Burks, Jared K., and Stevenson, Heather L.

Published

2024

5. Cellular and Molecular Mechanisms of Liver Fibrosis in Patients with NAFLD

Author

Sanchez, Jessica I., primary, Parra, Edwin R., additional, Jiao, Jingjing, additional, Solis Soto, Luisa M., additional, Ledesma, Debora A., additional, Saldarriaga, Omar A., additional, Stevenson, Heather L., additional, and Beretta, Laura, additional

Published

2023

6. Data from Lipidomic Profiles of Plasma Exosomes Identify Candidate Biomarkers for Early Detection of Hepatocellular Carcinoma in Patients with Cirrhosis

Author

Sanchez, Jessica I., primary, Jiao, Jingjing, primary, Kwan, Suet-Ying, primary, Veillon, Lucas, primary, Warmoes, Marc O., primary, Tan, Lin, primary, Odewole, Mobolaji, primary, Rich, Nicole E., primary, Wei, Peng, primary, Lorenzi, Philip L., primary, Singal, Amit G., primary, and Beretta, Laura, primary

Published

2023

7. Supplementary Tables S1-S2 from Lipidomic Profiles of Plasma Exosomes Identify Candidate Biomarkers for Early Detection of Hepatocellular Carcinoma in Patients with Cirrhosis

Author

Sanchez, Jessica I., primary, Jiao, Jingjing, primary, Kwan, Suet-Ying, primary, Veillon, Lucas, primary, Warmoes, Marc O., primary, Tan, Lin, primary, Odewole, Mobolaji, primary, Rich, Nicole E., primary, Wei, Peng, primary, Lorenzi, Philip L., primary, Singal, Amit G., primary, and Beretta, Laura, primary

Published

2023

8. Patients with fibrosis from non-alcoholic steatohepatitis have heterogeneous intrahepatic macrophages and therapeutic targets

Author

Saldarriaga, Omar A., Krishnan, Santhoshi, Wanninger, Timothy G., Oneka, Morgan, Rao, Arvind, Bao, Daniel, Arroyave, Esteban, Gosnell, Joseph, Kueht, Michael, Moghe, Akshata, Millian, Daniel, Jiao, Jingjing, Sanchez, Jessica I., Spratt, Heidi, Beretta, Laura, and Stevenson, Heather L.

Subjects

Article

Abstract

Background and AimsIn clinical trials for reducing fibrosis in NASH patients, therapeutics that target macrophages have had variable results. We evaluated intrahepatic macrophages in patients with non-alcoholic steatohepatitis to determine if fibrosis influenced phenotypes and expression of CCR2 and Galectin-3.Approach & ResultsWe used nCounter to analyze liver biopsies from well-matched patients with minimal (n=12) or advanced (n=12) fibrosis to determine which macrophage-related genes would be significantly different. Known therapy targets (e.g., CCR2 and Galectin-3) were significantly increased in patients with cirrhosis.However, several genes (e.g., CD68, CD16, and CD14) did not show significant differences, and CD163, a marker of pro-fibrotic macrophages was significantly decreased with cirrhosis. Next, we analyzed patients with minimal (n=6) or advanced fibrosis (n=5) using approaches that preserved hepatic architecture by multiplex-staining with anti-CD68, Mac387, CD163, CD14, and CD16. Spectral data were analyzed using deep learning/artificial intelligence to determine percentages and spatial relationships. This approach showed patients with advanced fibrosis had increased CD68+, CD16+, Mac387+, CD163+, and CD16+CD163+ populations. Interaction of CD68+ and Mac387+ populations was significantly increased in patients with cirrhosis and enrichment of these same phenotypes in individuals with minimal fibrosis correlated with poor outcomes. Evaluation of a final set of patients (n=4) also showed heterogenous expression of CD163, CCR2, Galectin-3, and Mac387, and significant differences were not dependent on fibrosis stage or NAFLD activity.ConclusionsApproaches that leave hepatic architecture intact, like multispectral imaging, may be paramount to developing effective treatments for NASH. In addition, understanding individual differences in patients may be required for optimal responses to macrophage-targeting therapies.

Published

2023

9. Patients with fibrosis from non-alcoholic steatohepatitis have heterogeneous intrahepatic macrophages and therapeutic targets

Author

Saldarriaga, Omar A., primary, Krishnan, Santhoshi, additional, Wanninger, Timothy G., additional, Oneka, Morgan, additional, Rao, Arvind, additional, Bao, Daniel, additional, Arroyave, Esteban, additional, Gosnell, Joseph, additional, Kueht, Michael, additional, Moghe, Akshata, additional, Millian, Daniel, additional, Jiao, Jingjing, additional, Sanchez, Jessica I., additional, Spratt, Heidi, additional, Beretta, Laura, additional, and Stevenson, Heather L., additional

Published

2023

10. Spatial molecular and cellular determinants of STAT3 activation in liver fibrosis progression in non-alcoholic fatty liver disease

Author

Jiao, Jingjing, primary, Sanchez, Jessica I., additional, Saldarriaga, Omar A., additional, Solis, Luisa M., additional, Tweardy, David J., additional, Maru, Dipen M., additional, Stevenson, Heather L., additional, and Beretta, Laura, additional

Published

2023

11. Lipidomic Profiles of Plasma Exosomes Identify Candidate Biomarkers for Early Detection of Hepatocellular Carcinoma in Patients with Cirrhosis

Author

Sanchez, Jessica I., primary, Jiao, Jingjing, additional, Kwan, Suet-Ying, additional, Veillon, Lucas, additional, Warmoes, Marc O., additional, Tan, Lin, additional, Odewole, Mobolaji, additional, Rich, Nicole E., additional, Wei, Peng, additional, Lorenzi, Philip L., additional, Singal, Amit G., additional, and Beretta, Laura, additional

Published

2021

12. Somatic Mutations in Circulating Cell-Free DNA and Risk for Hepatocellular Carcinoma in Hispanics

Author

Jiao, Jingjing, primary, Sanchez, Jessica I., additional, Thompson, Erika J., additional, Mao, Xizeng, additional, McCormick, Joseph B., additional, Fisher-Hoch, Susan P., additional, Futreal, P. Andrew, additional, Zhang, Jianhua, additional, and Beretta, Laura, additional

Published

2021

13. La opcion y la ley 130 de 1967.

Author

Ortiz Sanchez, Jessica I.

Subjects

Obligations (Law) -- Laws, regulations and rules, Contracts -- Laws, regulations and rules, Options (Finance) -- Laws, regulations and rules, Government regulation

Published

2002

14. Spatial molecular and cellular determinants of STAT3 activation in liver fibrosis progression in non-alcoholic fatty liver disease.

Author

Jiao J, Sanchez JI, Saldarriaga OA, Solis LM, Tweardy DJ, Maru DM, Stevenson HL, and Beretta L

Abstract

Background & Aims: The prevalence of non-alcoholic fatty liver disease (NAFLD) and its severe form, non-alcoholic steatohepatitis (NASH), is increasing. Individuals with NASH often develop liver fibrosis and advanced liver fibrosis is the main determinant of mortality in individuals with NASH. We and others have reported that STAT3 contributes to liver fibrosis and hepatocellular carcinoma in mice., Methods: Here, we explored whether STAT3 activation in hepatocyte and non-hepatocyte areas, measured by phospho-STAT3 (pSTAT3), is associated with liver fibrosis progression in 133 patients with NAFLD. We further characterized the molecular and cellular determinants of STAT3 activation by integrating spatial distribution and transcriptomic changes in fibrotic NAFLD livers.Results: pSTAT3 scores in non-hepatocyte areas progressively increased with fibrosis severity (r = 0.53, p <0.001). Correlation analyses between pSTAT3 scores and expression of 1,540 immune- and cancer-associated genes revealed a large effect of STAT3 activation on gene expression changes in non-hepatocyte areas and confirmed a major role for STAT3 activation in fibrogenesis. Digital spatial transcriptomic profiling was also performed on 13 regions selected in hepatocyte and non-hepatocyte areas from four NAFLD liver biopsies with advanced fibrosis, using a customized panel of markers including pSTAT3, PanCK+CK8/18, and CD45. The regions were further segmented based on positive or negative pSTAT3 staining. Cell deconvolution analysis revealed that activated STAT3 was enriched in hepatic progenitor cells (HPCs) and sinusoidal endothelial cells. Regression of liver fibrosis upon STAT3 inhibition in mice with NASH resulted in a reduction of HPCs, demonstrating a direct role for STAT3 in HPC expansion., Conclusion: Increased understanding of the spatial dependence of STAT3 signaling in NASH and liver fibrosis progression could lead to novel targeted treatment approaches., Impact and Implications: Advanced liver fibrosis is the main determinant of mortality in patients with NASH. This study showed using liver biopsies from 133 patients with NAFLD, that STAT3 activation in non-hepatocyte areas is strongly associated with fibrosis severity, inflammation, and progression to NASH. STAT3 activation was enriched in hepatic progenitor cells (HPCs) and sinusoidal endothelial cells (SECs), as determined by innovative technologies interrogating the spatial distribution of pSTAT3. Finally, STAT3 inhibition in mice resulted in reduced liver fibrosis and depletion of HPCs, suggesting that STAT3 activation in HPCs contributes to their expansion and fibrogenesis in NAFLD., Competing Interests: The authors declare no conflicts of interest that pertain to this work. Please refer to the accompanying ICMJE disclosure forms for further details., (© 2022 The Author(s).)

Published

2022