Your search keyword '"Fridkin, Daniel"' showing total 3 results

1. Automatic fetal fat quantification from MRI

Author

Avisdris, Netanell, Rabinowich, Aviad, Fridkin, Daniel, Zilberman, Ayala, Lazar, Sapir, Herzlich, Jacky, Hananis, Zeev, Link-Sourani, Daphna, Ben-Sira, Liat, Hiersch, Liran, Bashat, Dafna Ben, and Joskowicz, Leo

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Normal fetal adipose tissue (AT) development is essential for perinatal well-being. AT, or simply fat, stores energy in the form of lipids. Malnourishment may result in excessive or depleted adiposity. Although previous studies showed a correlation between the amount of AT and perinatal outcome, prenatal assessment of AT is limited by lacking quantitative methods. Using magnetic resonance imaging (MRI), 3D fat- and water-only images of the entire fetus can be obtained from two point Dixon images to enable AT lipid quantification. This paper is the first to present a methodology for developing a deep learning based method for fetal fat segmentation based on Dixon MRI. It optimizes radiologists' manual fetal fat delineation time to produce annotated training dataset. It consists of two steps: 1) model-based semi-automatic fetal fat segmentations, reviewed and corrected by a radiologist; 2) automatic fetal fat segmentation using DL networks trained on the resulting annotated dataset. Three DL networks were trained. We show a significant improvement in segmentation times (3:38 hours to < 1 hour) and observer variability (Dice of 0.738 to 0.906) compared to manual segmentation. Automatic segmentation of 24 test cases with the 3D Residual U-Net, nn-UNet and SWIN-UNetR transformer networks yields a mean Dice score of 0.863, 0.787 and 0.856, respectively. These results are better than the manual observer variability, and comparable to automatic adult and pediatric fat segmentation. A radiologist reviewed and corrected six new independent cases segmented using the best performing network, resulting in a Dice score of 0.961 and a significantly reduced correction time of 15:20 minutes. Using these novel segmentation methods and short MRI acquisition time, whole body subcutaneous lipids can be quantified for individual fetuses in the clinic and large-cohort research., Comment: 13 pages, 4 Figures, 3 Tables, Accepted to PIPPI/MICCAI 2022

Published

2022

2. Automatic Fetal Fat Quantification from MRI

Author

Avisdris, Netanell, primary, Rabinowich, Aviad, additional, Fridkin, Daniel, additional, Zilberman, Ayala, additional, Lazar, Sapir, additional, Herzlich, Jacky, additional, Hananis, Zeev, additional, Link-Sourani, Daphna, additional, Ben-Sira, Liat, additional, Hiersch, Liran, additional, Ben Bashat, Dafna, additional, and Joskowicz, Leo, additional

Published

2022

3. Evaluating Movement of Patients With Carbapenem-resistant Enterobacteriaceae Infections in the Greater Atlanta Metropolitan Area Using Social Network Analysis.

Author

Bower, Chris W, Fridkin, Daniel W, Wolford, Hannah M, Slayton, Rachel B, Kubes, Julianne N, Jacob, Jesse T, Ray, Susan M, and Fridkin, Scott K

Subjects

*CRITICAL care medicine, *DRUG resistance in microorganisms, *ENTEROBACTERIACEAE, *ESCHERICHIA coli, *HUMAN locomotion, *KLEBSIELLA, *LONG-term health care, *MEDICARE, *NURSING care facilities, *SOCIAL networks, *STATISTICS, *DATA analysis, *ENTEROBACTERIACEAE diseases

Abstract

Background Carbapenem-resistant Enterobacteriaceae (CRE) are an urgent threat with potential for rapid spread. We evaluated the role of Medicare patient movement between facilities to model the spread of CRE within a region. Methods Through population-based CRE surveillance in the 8-county Atlanta (GA) metropolitan area, all Escherichia coli , Enterobacter spp. or Klebsiella spp. resistant to ≥1 carbapenem were reported from residents. CRE was attributed to a facility based on timing of culture and facility exposures. Centrality metrics were calculated from 2016 Medicare data and compared to CRE-transfer derived centrality metrics by Spearman correlation. Results During 2016, 283 incident CRE cases with concurrent or prior year facility stays were identified; cases were attributed mostly to acute care hospitals (ACHs; 141, 50%) and skilled nursing facilities (SNFs; 113, 40%), and less frequently to long-term acute care hospitals (LTACHs; 29, 10%). Attribution was widespread, originating at 17 of 20 ACHs (85%), 7 of 8 (88%) LTACHs, but only 35 of 65 (54%) SNFs. Betweenness of Medicare patient transfers strongly correlated with betweenness of CRE case-transfer data in ACHs (r = 0.75; P <.01) and LTACHs (r = 0.77; P =.03), but not in SNFs (r = 0.02; P = 0.85). We noted 6 SNFs with high CRE-derived betweenness but low Medicare-derived betweenness. Conclusions CRE infections originate from almost all ACHs and half of SNFs. We identified a subset of SNFs central to the CRE transfer network but not the Medicare transfer network; other factors may explain CRE patient movement in these facilities. [ABSTRACT FROM AUTHOR]

Published

2020