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1. Influence of Early through Late Fusion on Pancreas Segmentation from Imperfectly Registered Multimodal MRI

Author

Remedios, Lucas W., Liu, Han, Remedios, Samuel W., Zuo, Lianrui, Saunders, Adam M., Bao, Shunxing, Huo, Yuankai, Powers, Alvin C., Virostko, John, and Landman, Bennett A.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Multimodal fusion promises better pancreas segmentation. However, where to perform fusion in models is still an open question. It is unclear if there is a best location to fuse information when analyzing pairs of imperfectly aligned images. Two main alignment challenges in this pancreas segmentation study are 1) the pancreas is deformable and 2) breathing deforms the abdomen. Even after image registration, relevant deformations are often not corrected. We examine how early through late fusion impacts pancreas segmentation. We used 353 pairs of T2-weighted (T2w) and T1-weighted (T1w) abdominal MR images from 163 subjects with accompanying pancreas labels. We used image registration (deeds) to align the image pairs. We trained a collection of basic UNets with different fusion points, spanning from early to late, to assess how early through late fusion influenced segmentation performance on imperfectly aligned images. We assessed generalization of fusion points on nnUNet. The single-modality T2w baseline using a basic UNet model had a Dice score of 0.73, while the same baseline on the nnUNet model achieved 0.80. For the basic UNet, the best fusion approach occurred in the middle of the encoder (early/mid fusion), which led to a statistically significant improvement of 0.0125 on Dice score compared to the baseline. For the nnUNet, the best fusion approach was na\"ive image concatenation before the model (early fusion), which resulted in a statistically significant Dice score increase of 0.0021 compared to baseline. Fusion in specific blocks can improve performance, but the best blocks for fusion are model specific, and the gains are small. In imperfectly registered datasets, fusion is a nuanced problem, with the art of design remaining vital for uncovering potential insights. Future innovation is needed to better address fusion in cases of imperfect alignment of abdominal image pairs., Comment: 13.5 pages of manuscript content

Published
2024

4. An untrained deep learning method for reconstructing dynamic magnetic resonance images from accelerated model-based data

Author

Slavkova, Kalina P., DiCarlo, Julie C., Wadhwa, Viraj, Wu, Chengyue, Virostko, John, Kumar, Sidharth, Yankeelov, Thomas E., and Tamir, Jonathan I.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

The purpose of this work is to implement physics-based regularization as a stopping condition in tuning an untrained deep neural network for reconstructing MR images from accelerated data. The ConvDecoder neural network was trained with a physics-based regularization term incorporating the spoiled gradient echo equation that describes variable-flip angle (VFA) data. Fully-sampled VFA k-space data were retrospectively accelerated by factors of R={8,12,18,36} and reconstructed with ConvDecoder (CD), ConvDecoder with the proposed regularization (CD+r), locally low-rank (LR) reconstruction, and compressed sensing with L1-wavelet regularization (L1). Final images from CD+r training were evaluated at the \emph{argmin} of the regularization loss; whereas the CD, LR, and L1 reconstructions were chosen optimally based on ground truth data. The performance measures used were the normalized root-mean square error, the concordance correlation coefficient (CCC), and the structural similarity index (SSIM). The CD+r reconstructions, chosen using the stopping condition, yielded SSIMs that were similar to the CD (p=0.47) and LR SSIMs (p=0.95) across R and that were significantly higher than the L1 SSIMs (p=0.04). The CCC values for the CD+r T1 maps across all R and subjects were greater than those corresponding to the L1 (p=0.15) and LR (p=0.13) T1 maps, respectively. For R > 12 (<4.2 minutes scan time), L1 and LR T1 maps exhibit a loss of spatially refined details compared to CD+r. We conclude that the use of an untrained neural network together with a physics-based regularization loss shows promise as a measure for determining the optimal stopping point in training without relying on fully-sampled ground truth data., Comment: 45 pages, 7 figures, 2 Tables, supplementary material included (10 figures, 4 tables)

Published
2022
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13. Longitudinal Assessment of Pancreas Volume by MRI Predicts Progression to Stage 3 Type 1 Diabetes

Author

Virostko, John, primary, J Wright, Jordan, primary, M Williams, Jonathan, primary, A Hilmes, Melissa, primary, M Triolo, Taylor, primary, Broncucia, Hali, primary, Du, Liping, primary, Kang, Hakmook, primary, Nallaparaju, Shreya, primary, Galvez Valencia, Leah, primary, Reyes, Demetra, primary, Hammel, Brenna, primary, E Russell, William, primary, H Philipson, Louis, primary, Waibel, Michaela, primary, W H Kay, Thomas, primary, E Thomas, Helen, primary, Atma W Greeley, Siri, primary, K Steck, Andrea, primary, C Powers, Alvin, primary, and J Moore, Daniel, primary

Published
2023
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14. The ISMRM Open Science Initiative for Perfusion Imaging (OSIPI): Results from the OSIPI–Dynamic Contrast‐Enhanced challenge

Author

Shalom, Eve S., primary, Kim, Harrison, additional, van der Heijden, Rianne A., additional, Ahmed, Zaki, additional, Patel, Reyna, additional, Hormuth, David A., additional, DiCarlo, Julie C., additional, Yankeelov, Thomas E., additional, Sisco, Nicholas J., additional, Dortch, Richard D., additional, Stokes, Ashley M., additional, Inglese, Marianna, additional, Grech‐Sollars, Matthew, additional, Toschi, Nicola, additional, Sahoo, Prativa, additional, Singh, Anup, additional, Verma, Sanjay K., additional, Rathore, Divya K., additional, Kazerouni, Anum S., additional, Partridge, Savannah C., additional, LoCastro, Eve, additional, Paudyal, Ramesh, additional, Wolansky, Ivan A., additional, Shukla‐Dave, Amita, additional, Schouten, Pepijn, additional, Gurney‐Champion, Oliver J., additional, Jiřík, Radovan, additional, Macíček, Ondřej, additional, Bartoš, Michal, additional, Vitouš, Jiří, additional, Das, Ayesha Bharadwaj, additional, Kim, S. Gene, additional, Bokacheva, Louisa, additional, Mikheev, Artem, additional, Rusinek, Henry, additional, Berks, Michael, additional, Hubbard Cristinacce, Penny L., additional, Little, Ross A., additional, Cheung, Susan, additional, O'Connor, James P. B., additional, Parker, Geoff J. M., additional, Moloney, Brendan, additional, LaViolette, Peter S., additional, Bobholz, Samuel, additional, Duenweg, Savannah, additional, Virostko, John, additional, Laue, Hendrik O., additional, Sung, Kyunghyun, additional, Nabavizadeh, Ali, additional, Saligheh Rad, Hamidreza, additional, Hu, Leland S., additional, Sourbron, Steven, additional, Bell, Laura C., additional, and Fathi Kazerooni, Anahita, additional

Published
2023
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17. Ectonucleoside Triphosphate Diphosphohydrolase-3 Antibody Targets Adult Human Pancreatic β Cells for In Vitro and In Vivo Analysis

Author

Saunders, Diane C., Brissova, Marcela, Phillips, Neil, Shrestha, Shristi, Walker, John T., Aramandla, Radhika, Poffenberger, Greg, Flaherty, David K., Weller, Kevin P., Pelletier, Julie, Cooper, Tracy, Goff, Matt T., Virostko, John, Shostak, Alena, Dean, E. Danielle, Greiner, Dale L., Shultz, Leonard D., Prasad, Nripesh, Levy, Shawn E., Carnahan, Robert H., Dai, Chunhua, Sévigny, Jean, and Powers, Alvin C.

Published
2019
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18. Longitudinal Assessment of Pancreas Volume by MRI Predicts Progression to Stage 3 Type 1 Diabetes.

Author

Virostko, John, Wright, Jordan J., Williams, Jonathan M., Hilmes, Melissa A., Triolo, Taylor M., Broncucia, Hali, Du, Liping, Kang, Hakmook, Nallaparaju, Shreya, Valencia, Leah Galvez, Reyes, Demetra, Hammel, Brenna, Russell, William E., Philipson, Louis H., Waibel, Michaela, Kay, Thomas W.H., Thomas, Helen E., Greeley, Siri Atma W., Steck, Andrea K., and Powers, Alvin C.

Subjects
*TYPE 1 diabetes, *PANCREAS, *RECEIVER operating characteristic curves, *DISEASE risk factors, *GLUCOSE tolerance tests
Abstract

OBJECTIVE: This multicenter prospective cohort study compared pancreas volume as assessed by MRI, metabolic scores derived from oral glucose tolerance testing (OGTT), and a combination of pancreas volume and metabolic scores for predicting progression to stage 3 type 1 diabetes (T1D) in individuals with multiple diabetes-related autoantibodies. RESEARCH DESIGN AND METHODS: Pancreas MRI was performed in 65 multiple autoantibody-positive participants enrolled in the Type 1 Diabetes TrialNet Pathway to Prevention study. Prediction of progression to stage 3 T1D was assessed using pancreas volume index (PVI), OGTT-derived Index60 score and Diabetes Prevention Trial–Type 1 Risk Score (DPTRS), and a combination of PVI and DPTRS. RESULTS: PVI, Index60, and DPTRS were all significantly different at study entry in 11 individuals who subsequently experienced progression to stage 3 T1D compared with 54 participants who did not experience progression (P < 0.005). PVI did not correlate with metabolic testing across individual study participants. PVI declined longitudinally in the 11 individuals diagnosed with stage 3 T1D, whereas Index60 and DPTRS increased. The area under the receiver operating characteristic curve for predicting progression to stage 3 from measurements at study entry was 0.76 for PVI, 0.79 for Index60, 0.79 for DPTRS, and 0.91 for PVI plus DPTRS. CONCLUSIONS: These findings suggest that measures of pancreas volume and metabolism reflect distinct components of risk for developing stage 3 type 1 diabetes and that a combination of these measures may provide superior prediction than either alone. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Quantitative imaging using MRI

Author

Hormuth, David A., primary, Virostko, John, additional, Stokes, Ashley, additional, Dula, Adrienne, additional, Sorace, Anna G., additional, Whisenant, Jennifer G., additional, Weis, Jared A., additional, Quarles, C. Chad, additional, Miga, Michael I., additional, and Yankeelov, Thomas E., additional

Published
2019
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23. Data from Molecular Imaging of Therapeutic Response to Epidermal Growth Factor Receptor Blockade in Colorectal Cancer

Author

Manning, H. Charles, primary, Merchant, Nipun B., primary, Foutch, A. Coe, primary, Virostko, John M., primary, Wyatt, Shelby K., primary, Shah, Chirayu, primary, McKinley, Eliot T., primary, Xie, Jingping, primary, Mutic, Nathan J., primary, Washington, M. Kay, primary, LaFleur, Bonnie, primary, Tantawy, Mohammed Noor, primary, Peterson, Todd E., primary, Ansari, M. Sib, primary, Baldwin, Ronald M., primary, Rothenberg, Mace L., primary, Bornhop, Darryl J., primary, Gore, John C., primary, and Coffey, Robert J., primary

Published
2023
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24. Supplementary Figures S1-S4 from Molecular Imaging of Therapeutic Response to Epidermal Growth Factor Receptor Blockade in Colorectal Cancer

Author

Manning, H. Charles, primary, Merchant, Nipun B., primary, Foutch, A. Coe, primary, Virostko, John M., primary, Wyatt, Shelby K., primary, Shah, Chirayu, primary, McKinley, Eliot T., primary, Xie, Jingping, primary, Mutic, Nathan J., primary, Washington, M. Kay, primary, LaFleur, Bonnie, primary, Tantawy, Mohammed Noor, primary, Peterson, Todd E., primary, Ansari, M. Sib, primary, Baldwin, Ronald M., primary, Rothenberg, Mace L., primary, Bornhop, Darryl J., primary, Gore, John C., primary, and Coffey, Robert J., primary

Published
2023
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27. Insulin Deficiency From Insulin Gene Mutation Leads to Smaller Pancreas

Author

Wright, Jordan J., primary, Williams, Jonathan M., additional, Letourneau-Freiberg, Lisa R., additional, Kandasamy, Balamurugan, additional, Reyes, Demetra, additional, Kanegusuku, Anastasia Gant, additional, Philipson, Louis, additional, Greeley, Siri Atma W., additional, Hilmes, Melissa A., additional, Powers, Alvin C., additional, Virostko, John, additional, and Moore, Daniel J., additional

Published
2023
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32. 35-OR: Multicenter MRI Assessment of the Pancreas in Type 1 Diabetes (MAP-T1D) Predicts Progression of Type 1 Diabetes

Author

VIROSTKO, JOHN, primary, WRIGHT, JORDAN J., additional, WILLIAMS, JONATHAN M., additional, HILMES, MELISSA A., additional, TRIOLO, TAYLOR M., additional, BRONCUCIA, HALI C., additional, DU, LIPING, additional, KANG, HAKMOOK, additional, RUSSELL, WILLIAM E., additional, PHILIPSON, LOUIS H., additional, KAY, THOMAS, additional, THOMAS, HELEN E., additional, GREELEY, SIRI ATMA W., additional, STECK, ANDREA, additional, POWERS, ALVIN C., additional, and MOORE, DANIEL J., additional

Published
2022
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33. Integrating mechanism-based modeling with biomedical imaging to build practical digital twins for clinical oncology

Author

Wu, Chengyue, primary, Lorenzo, Guillermo, additional, Hormuth, David A., additional, Lima, Ernesto A. B. F., additional, Slavkova, Kalina P., additional, DiCarlo, Julie C., additional, Virostko, John, additional, Phillips, Caleb M., additional, Patt, Debra, additional, Chung, Caroline, additional, and Yankeelov, Thomas E., additional

Published
2022
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34. An untrained deep learning method for reconstructing dynamic MR images from accelerated model‐based data.

Author

Slavkova, Kalina P., DiCarlo, Julie C., Wadhwa, Viraj, Kumar, Sidharth, Wu, Chengyue, Virostko, John, Yankeelov, Thomas E., and Tamir, Jonathan I.

Subjects
DEEP learning, MAGNETIC resonance imaging, SIGNAL convolution
Abstract

Purpose: To implement physics‐based regularization as a stopping condition in tuning an untrained deep neural network for reconstructing MR images from accelerated data. Methods: The ConvDecoder (CD) neural network was trained with a physics‐based regularization term incorporating the spoiled gradient echo equation that describes variable‐flip angle data. Fully‐sampled variable‐flip angle k‐space data were retrospectively accelerated by factors of R = {8, 12, 18, 36} and reconstructed with CD, CD with the proposed regularization (CD + r), locally low‐rank (LR) reconstruction, and compressed sensing with L1‐wavelet regularization (L1). Final images from CD + r training were evaluated at the "argmin" of the regularization loss; whereas the CD, LR, and L1 reconstructions were chosen optimally based on ground truth data. The performance measures used were the normalized RMS error, the concordance correlation coefficient, and the structural similarity index. Results: The CD + r reconstructions, chosen using the stopping condition, yielded structural similarity indexs that were similar to the CD (p = 0.47) and LR structural similarity indexs (p = 0.95) across R and that were significantly higher than the L1 structural similarity indexs (p = 0.04). The concordance correlation coefficient values for the CD + r T1 maps across all R and subjects were greater than those corresponding to the L1 (p = 0.15) and LR (p = 0.13) T1 maps, respectively. For R ≥ 12 (≤4.2 min scan time), L1 and LR T1 maps exhibit a loss of spatially refined details compared to CD + r. Conclusion: The use of an untrained neural network together with a physics‐based regularization loss shows promise as a measure for determining the optimal stopping point in training without relying on fully‐sampled ground truth data. [ABSTRACT FROM AUTHOR]

Published
2023
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35. Analysis of simplicial complexes to determine when to sample for quantitative DCE MRI of the breast.

Author

DiCarlo, Julie C., Jarrett, Angela M., Kazerouni, Anum S., Virostko, John, Sorace, Anna, Slavkova, Kalina P., Woodard, Stefanie, Avery, Sarah, Patt, Debra, Goodgame, Boone, and Yankeelov, Thomas E.

Subjects
FIX-point estimation, BREAST cancer, CONTRAST media, BREAST exams, MAGNETIC resonance imaging
Abstract

Purpose: A method is presented to select the optimal time points at which to measure DCE‐MRI signal intensities, leaving time in the MR exam for high‐spatial resolution image acquisition. Theory: Simplicial complexes are generated from the Kety‐Tofts model pharmacokinetic parameters Ktrans and ve. A geometric search selects optimal time points for accurate estimation of perfusion parameters. Methods: The DCE‐MRI data acquired in women with invasive breast cancer (N = 27) were used to retrospectively compare parameter maps fit to full and subsampled time courses. Simplicial complexes were generated for a fixed range of Kety‐Tofts model parameters and for the parameter ranges weighted by estimates from the fully sampled data. The largest‐area manifolds determined the optimal three time points for each case. Simulations were performed along with retrospectively subsampled data fits. The agreement was computed between the model parameters fit to three points and those fit to all points. Results: The optimal three‐point sample times were from the data‐informed simplicial complex analysis and determined to be 65, 204, and 393 s after arrival of the contrast agent to breast tissue. In the patient data, tumor‐median parameter values fit using all points and the three selected time points agreed with concordance correlation coefficients of 0.97 for Ktrans and 0.67 for ve. Conclusion: It is possible to accurately estimate pharmacokinetic parameters from three properly selected time points inserted into a clinical DCE‐MRI breast exam. This technique can provide guidance on when to capture images for quantitative data between high‐spatial‐resolution DCE‐MRI images. [ABSTRACT FROM AUTHOR]

Published
2023
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43. Development of a standardized MRI protocol for pancreas assessment in humans

Author

Virostko, John, primary, Craddock, Richard C., additional, Williams, Jonathan M., additional, Triolo, Taylor M., additional, Hilmes, Melissa A., additional, Kang, Hakmook, additional, Du, Liping, additional, Wright, Jordan J., additional, Kinney, Mara, additional, Maki, Jeffrey H., additional, Medved, Milica, additional, Waibel, Michaela, additional, Kay, Thomas W. H., additional, Thomas, Helen E., additional, Greeley, Siri Atma W., additional, Steck, Andrea K., additional, Moore, Daniel J., additional, and Powers, Alvin C., additional

Published
2021
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47. Additional file 2 of Quantitative multiparametric MRI predicts response to neoadjuvant therapy in the community setting

Author

Virostko, John, Sorace, Anna G., Slavkova, Kalina P., Kazerouni, Anum S., Jarrett, Angela M., DiCarlo, Julie C., Woodard, Stefanie, Avery, Sarah, Goodgame, Boone, Patt, Debra, and Yankeelov, Thomas E.

Subjects
sense organs, skin and connective tissue diseases
Abstract

Additional file 2: Figure S1. Receiver operating characteristic curves for each MRI parameter for predicting pCR from the relative change from baseline at each serial MRI.

Published
2021
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