Your search keyword '"Sigaras A"' showing total 122 results

1. Advanced XR-Based 6-DOF Catheter Tracking System for Immersive Cardiac Intervention Training

Author

Annabestani, Mohsen, Sriram, Sandhya, Wong, S. Chiu, Sigaras, Alexandros, and Mosadegh, Bobak

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Artificial Intelligence, Computer Science - Graphics, Computer Science - Human-Computer Interaction, Computer Science - Robotics

Abstract

Extended Reality (XR) technologies are gaining traction as effective tools for medical training and procedural guidance, particularly in complex cardiac interventions. This paper presents a novel system for real-time 3D tracking and visualization of intracardiac echocardiography (ICE) catheters, with precise measurement of the roll angle. A custom 3D-printed setup, featuring orthogonal cameras, captures biplane video of the catheter, while a specialized computer vision algorithm reconstructs its 3D trajectory, localizing the tip with sub-millimeter accuracy and tracking the roll angle in real-time. The system's data is integrated into an interactive Unity-based environment, rendered through the Meta Quest 3 XR headset, combining a dynamically tracked catheter with a patient-specific 3D heart model. This immersive environment allows the testing of the importance of 3D depth perception, in comparison to 2D projections, as a form of visualization in XR. Our experimental study, conducted using the ICE catheter with six participants, suggests that 3D visualization is not necessarily beneficial over 2D views offered by the XR system; although all cardiologists saw its utility for pre-operative training, planning, and intra-operative guidance. The proposed system qualitatively shows great promise in transforming catheter-based interventions, particularly ICE procedures, by improving visualization, interactivity, and skill development.

Published

2024

2. High-fidelity pose estimation for real-time extended reality (XR) visualization for cardiac catheterization

Author

Mohsen Annabestani, Sandhya Sriram, Alexandre Caprio, Sepehr Janghorbani, S. Chiu Wong, Alexandros Sigaras, and Bobak Mosadegh

Subjects

Percutaneous cardiac intervention, Extended reality, Mixed reality, Computer vision, 3D visualization, Medicine, Science

Abstract

Abstract Extended reality (XR) technologies are emerging as promising platforms for medical training and procedural guidance, particularly in complex cardiac interventions. This paper presents a high-fidelity methodology to perform real-time 3D catheter tracking and visualization during simulated cardiac interventions. A custom 3D-printed setup with mounted cameras enables biplane video capture of a catheter. A computer vision algorithm processes the biplane images in real-time to reconstruct the 3D catheter trajectory represented by any designated number of points along its length. This method accurately localizes the catheter tip within 1 mm and can reconstruct any arbitrary catheter configuration. The tracked catheter data is integrated into an interactive Unity-based scene rendered on the Meta Quest 3 headset. The visualization seamlessly combines a reconstructed 3D patient-specific heart model with the dynamically tracked catheter, creating an immersive extended reality training environment. Our experimental study, involving six participants, demonstrated that the 3D visualization provided by the proposed XR system significantly outperformed 2D visualization in terms of speed and user experience. This suggests that the XR system has the potential to enhance catheterization training by improving spatial comprehension and procedural skills. The proposed system demonstrates the potential of XR technologies to transform percutaneous cardiac interventions through improved visualization and interactivity.

Published

2024

3. Automatic ploidy prediction and quality assessment of human blastocysts using time-lapse imaging

Author

Suraj Rajendran, Matthew Brendel, Josue Barnes, Qiansheng Zhan, Jonas E. Malmsten, Pantelis Zisimopoulos, Alexandros Sigaras, Kwabena Ofori-Atta, Marcos Meseguer, Kathleen A. Miller, David Hoffman, Zev Rosenwaks, Olivier Elemento, Nikica Zaninovic, and Iman Hajirasouliha

Subjects

Science

Abstract

Abstract Assessing fertilized human embryos is crucial for in vitro fertilization, a task being revolutionized by artificial intelligence. Existing models used for embryo quality assessment and ploidy detection could be significantly improved by effectively utilizing time-lapse imaging to identify critical developmental time points for maximizing prediction accuracy. Addressing this, we develop and compare various embryo ploidy status prediction models across distinct embryo development stages. We present BELA, a state-of-the-art ploidy prediction model that surpasses previous image- and video-based models without necessitating input from embryologists. BELA uses multitask learning to predict quality scores that are thereafter used to predict ploidy status. By achieving an area under the receiver operating characteristic curve of 0.76 for discriminating between euploidy and aneuploidy embryos on the Weill Cornell dataset, BELA matches the performance of models trained on embryologists’ manual scores. While not a replacement for preimplantation genetic testing for aneuploidy, BELA exemplifies how such models can streamline the embryo evaluation process.

Published

2024

4. High-fidelity pose estimation for real-time extended reality (XR) visualization for cardiac catheterization

Author

Annabestani, Mohsen, Sriram, Sandhya, Caprio, Alexandre, Janghorbani, Sepehr, Wong, S. Chiu, Sigaras, Alexandros, and Mosadegh, Bobak

Published

2024

5. Automatic ploidy prediction and quality assessment of human blastocysts using time-lapse imaging

Author

Rajendran, Suraj, Brendel, Matthew, Barnes, Josue, Zhan, Qiansheng, Malmsten, Jonas E., Zisimopoulos, Pantelis, Sigaras, Alexandros, Ofori-Atta, Kwabena, Meseguer, Marcos, Miller, Kathleen A., Hoffman, David, Rosenwaks, Zev, Elemento, Olivier, Zaninovic, Nikica, and Hajirasouliha, Iman

Published

2024

6. Workshop summaries from the 2024 voice AI symposium, presented by the Bridge2AI-voice consortium

Author

Ruth Bahr, James Anibal, Steven Bedrick, Jean-Christophe Bélisle-Pipon, Yael Bensoussan, Nate Blaylock, Joris Castermans, Keith Comito, David Dorr, Greg Hale, Christie Jackson, Andrea Krussel, Kimberly Kuman, Akash Raj Komarlu, Jordan Lerner-Ellis, Maria Powell, Vardit Ravitsky, Anaïs Rameau, Charlie Reavis, Alexandros Sigaras, Samantha Salvi Cruz, Jenny Vojtech, Megan Urbano, Stephanie Watts, Robin Zhao, Jamie Toghranegar, the Bridge2AI-Voice Consortium, Olivier Elemento, Satrajit Ghosh, Jean Christophe Belisle-Pipon, Phillip Payne, Alistair Johnson, Donald Bolser, Frank Rudzicz, Jordan Lerner Ellis, Kathy Jenkins, Shaheen Awan, Micah Boyer, Bill Hersh, Toufeeq Ahmed Syed, Duncan Sutherland, Enrique Diaz-Ocampo, Elizabeth Silberhoz, John Costello, Alexander Gelbard, Kimberly Vinson, Tempestt Neal, Lochana Jayachandran, Evan Ng, Selina Casalino, Yassmeen Abdel-Aty, Karim Hanna, Theresa Zesiewicz, Elijah Moothedan, Emily Evangelista, Mohamed Ebraheem, Karlee Newberry, Iris De Santiago, Ellie Eiseman, JM Rahman, Stacy Jo, and Anna Goldenberg

Subjects

audiomics, voice biomarker, voice biomarkers, artificial intelligence, artificial intelligence—AI, ethical AI, Medicine, Public aspects of medicine, RA1-1270, Electronic computers. Computer science, QA75.5-76.95

Abstract

IntroductionThe 2024 Voice AI Symposium, presented by the Bridge2AI-Voice Consortium, featured deep-dive educational workshops conducted by experts from diverse fields to explore the latest advancements in voice biomarkers and artificial intelligence (AI) applications in healthcare. Through five workshops, attendees learned about topics including international standardization of vocal biomarker data, real-world deployment of AI solutions, assistive technologies for voice disorders, best practices for voice data collection, and deep learning applications in voice analysis. These workshops aimed to foster collaboration between academia, industry, and healthcare to advance the development and implementation of voice-based AI tools.MethodsEach workshop featured a combination of lectures, case studies, and interactive discussions. Transcripts of audio recordings were generated using Whisper (Version 7.13.1) and summarized by ChatGPT (Version 4.0), then reviewed by the authors. The workshops covered various methodologies, from signal processing and machine learning operations (MLOps) to ethical concerns surrounding AI-powered voice data collection. Practical demonstrations of AI-driven tools for voice disorder management and technical discussions on implementing voice AI models in clinical and non-clinical settings provided attendees with hands-on experience.ResultsKey outcomes included the discussion of international standards to unify stakeholders in vocal biomarker research, practical challenges in deploying AI solutions outside the laboratory, review of Bridge2AI-Voice data collection processes, and the potential of AI to empower individuals with voice disorders. Additionally, presenters shared innovations in ethical AI practices, scalable machine learning frameworks, and advanced data collection techniques using diverse voice datasets. The symposium highlighted the successful integration of AI in detecting and analyzing voice signals for various health applications, with significant advancements in standardization, privacy, and clinical validation processes.DiscussionThe symposium underscored the importance of interdisciplinary collaboration to address the technical, ethical, and clinical challenges in the field of voice biomarkers. While AI models have shown promise in analyzing voice data, challenges such as data variability, security, and scalability remain. Future efforts must focus on refining data collection standards, advancing ethical AI practices, and ensuring diverse dataset inclusion to improve model robustness. By fostering collaboration among researchers, clinicians, and technologists, the symposium laid a foundation for future innovations in AI-driven voice analysis for healthcare diagnostics and treatment.

Published

2024

7. A non-invasive artificial intelligence approach for the prediction of human blastocyst ploidy: a retrospective model development and validation study

Author

Barnes, Josue, Brendel, Matthew, Gao, Vianne R, Rajendran, Suraj, Kim, Junbum, Li, Qianzi, Malmsten, Jonas E, Sierra, Jose T, Zisimopoulos, Pantelis, Sigaras, Alexandros, Khosravi, Pegah, Meseguer, Marcos, Zhan, Qiansheng, Rosenwaks, Zev, Elemento, Olivier, Zaninovic, Nikica, and Hajirasouliha, Iman

Published

2023

8. The genomic landscape of metastatic clear cell renal cell carcinoma after systemic therapy

Author

Johannes C. van derMijn, Kenneth W. Eng, Pooja Chandra, Evan Fernandez, Sinan Ramazanoglu, Alexandros Sigaras, Clara Oromendia, Lorraine J. Gudas, Scott T. Tagawa, David M. Nanus, Bishoy F. Faltas, Himisha Beltran, Cora N. Sternberg, Olivier Elemento, Andrea Sboner, Juan Miguel Mosquera, and Ana M. Molina

Subjects

cancer, genomics, immunotherapy, kidney, metastasis, VEGF, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Primary clear cell renal cell carcinoma (ccRCC) has been previously characterized, but the genomic landscape of metastatic ccRCC is largely unexplored. Here, we performed whole exome sequencing (WES) in 68 samples from 44 patients with ccRCC, including 52 samples from a metastatic site. SETD2, PBRM1, APC and VHL were the most frequently mutated genes in the metastatic ccRCC cohort. RBM10 and FBXW7 were also among the 10 most frequently mutated genes in metastatic tissues. Recurrent somatic copy number variations (CNV) were observed at the previously identified regions 3p25, 9p21 and 14q25, but also at 6p21 (CDKN1A) and 13q14 (RB1). No statistically significant differences were found between samples from therapy‐naïve and pretreated patients. Clonal evolution analyses with multiple samples from 13 patients suggested that early appearance of CNVs at 3p25, 9p21 and 14q25 may be associated with rapid clinical progression. Overall, the genomic landscapes of primary and metastatic ccRCC seem to share frequent CNVs at 3p25, 9p21 and 14q25. Future work will clarify the implication of RBM10 and FBXW7 mutations and 6p21 and 13q14 CNVs in metastatic ccRCC.

Published

2022

9. Workshop summaries from the 2024 voice AI symposium, presented by the Bridge2AI-voice consortium.

Author

Bahr, Ruth, Anibal, James, Bedrick, Steven, Bélisle-Pipon, Jean-Christophe, Bensoussan, Yael, Blaylock, Nate, Castermans, Joris, Comito, Keith, Dorr, David, Hale, Greg, Jackson, Christie, Krussel, Andrea, Kuman, Kimberly, Komarlu, Akash Raj, Lerner-Ellis, Jordan, Powell, Maria, Ravitsky, Vardit, Rameau, Anaïs, Reavis, Charlie, and Sigaras, Alexandros

Abstract

Introduction: The 2024 Voice AI Symposium, presented by the Bridge2AI-Voice Consortium, featured deep-dive educational workshops conducted by experts from diverse fields to explore the latest advancements in voice biomarkers and artificial intelligence (AI) applications in healthcare. Through five workshops, attendees learned about topics including international standardization of vocal biomarker data, real-world deployment of AI solutions, assistive technologies for voice disorders, best practices for voice data collection, and deep learning applications in voice analysis. These workshops aimed to foster collaboration between academia, industry, and healthcare to advance the development and implementation of voice-based AI tools. Methods: Each workshop featured a combination of lectures, case studies, and interactive discussions. Transcripts of audio recordings were generated using Whisper (Version 7.13.1) and summarized by ChatGPT (Version 4.0), then reviewed by the authors. The workshops covered various methodologies, from signal processing and machine learning operations (MLOps) to ethical concerns surrounding AI-powered voice data collection. Practical demonstrations of AI-driven tools for voice disorder management and technical discussions on implementing voice AI models in clinical and non-clinical settings provided attendees with hands-on experience. Results: Key outcomes included the discussion of international standards to unify stakeholders in vocal biomarker research, practical challenges in deploying AI solutions outside the laboratory, review of Bridge2AI-Voice data collection processes, and the potential of AI to empower individuals with voice disorders. Additionally, presenters shared innovations in ethical AI practices, scalable machine learning frameworks, and advanced data collection techniques using diverse voice datasets. The symposium highlighted the successful integration of AI in detecting and analyzing voice signals for various health applications, with significant advancements in standardization, privacy, and clinical validation processes. Discussion: The symposium underscored the importance of interdisciplinary collaboration to address the technical, ethical, and clinical challenges in the field of voice biomarkers. While AI models have shown promise in analyzing voice data, challenges such as data variability, security, and scalability remain. Future efforts must focus on refining data collection standards, advancing ethical AI practices, and ensuring diverse dataset inclusion to improve model robustness. By fostering collaboration among researchers, clinicians, and technologists, the symposium laid a foundation for future innovations in AI-driven voice analysis for healthcare diagnostics and treatment. [ABSTRACT FROM AUTHOR]

Published

2024

10. Weakly-supervised tumor purity prediction from frozen H&E stained slides

Author

Matthew Brendel, Vanesa Getseva, Majd Al Assaad, Michael Sigouros, Alexandros Sigaras, Troy Kane, Pegah Khosravi, Juan Miguel Mosquera, Olivier Elemento, and Iman Hajirasouliha

Subjects

Deep Learning, Computational pathology, Tumor purity estimation, Precision medicine, Medicine, Medicine (General), R5-920

Abstract

Summary: Background: Estimating tumor purity is especially important in the age of precision medicine. Purity estimates have been shown to be critical for correction of tumor sequencing results, and higher purity samples allow for more accurate interpretations from next-generation sequencing results. Molecular-based purity estimates using computational approaches require sequencing of tumors, which is both time-consuming and expensive. Methods: Here we propose an approach, weakly-supervised purity (wsPurity), which can accurately quantify tumor purity within a digitally captured hematoxylin and eosin (H&E) stained histological slide, using several types of cancer from The Cancer Genome Atlas (TCGA) as a proof-of-concept. Findings: Our model predicts cancer type with high accuracy on unseen cancer slides from TCGA and shows promising generalizability to unseen data from an external cohort (F1-score of 0.83 for prostate adenocarcinoma). In addition we compare performance of our model on tumor purity prediction with a comparable fully-supervised approach on our TCGA held-out cohort and show our model has improved performance, as well as generalizability to unseen frozen slides (0.1543 MAE on an independent test cohort). In addition to tumor purity prediction, our approach identified high resolution tumor regions within a slide, and can also be used to stratify tumors into high and low tumor purity, using different cancer-dependent thresholds. Interpretation: Overall, we demonstrate our deep learning model's different capabilities to analyze tumor H&E sections. We show our model is generalizable to unseen H&E stained slides from data from TCGA as well as data processed at Weill Cornell Medicine. Funding: Starr Cancer Consortium Grant (SCC I15-0027) to Iman Hajirasouliha.

Published

2022

11. Predictive modeling in reproductive medicine: Where will the future of artificial intelligence research take us?

Author

Curchoe, Carol Lynn, Malmsten, Jonas, Bormann, Charles, Shafiee, Hadi, Flores-Saiffe Farias, Adolfo, Mendizabal, Gerardo, Chavez-Badiola, Alejandro, Sigaras, Alexandros, Alshubbar, Hoor, Chambost, Jerome, Jacques, Celine, Pena, Chris-Alexandre, Drakeley, Andrew, Freour, Thomas, Hajirasouliha, Iman, Hickman, Cristina Fontes Lindemann, Elemento, Olivier, Zaninovic, Nikica, and Rosenwaks, Zev

Published

2020

12. Building an international consortium for tracking coronavirus health status

Author

Segal, Eran, Zhang, Feng, Lin, Xihong, King, Gary, Shalem, Ophir, Shilo, Smadar, Allen, William E., Alquaddoomi, Faisal, Altae-Tran, Han, Anders, Simon, Balicer, Ran, Bauman, Tal, Bonilla, Ximena, Booman, Gisel, Chan, Andrew T., Cohen, Ori, Coletti, Silvano, Davidson, Natalie, Dor, Yuval, Drew, David A., Elemento, Olivier, Evans, Georgina, Ewels, Phil, Gale, Joshua, Gavrieli, Amir, Geiger, Benjamin, Grad, Yonatan H., Greene, Casey S., Hajirasouliha, Iman, Jerala, Roman, Kahles, Andre, Kallioniemi, Olli, Keshet, Ayya, Kocarev, Ljupco, Landua, Gregory, Meir, Tomer, Muller, Aline, Nguyen, Long H., Oresic, Matej, Ovchinnikova, Svetlana, Peterson, Hedi, Prodanova, Jana, Rajagopal, Jay, Rätsch, Gunnar, Rossman, Hagai, Rung, Johan, Sboner, Andrea, Sigaras, Alexandros, Spector, Tim, Steinherz, Ron, Stevens, Irene, Vilo, Jaak, and Wilmes, Paul

Published

2020

13. Current Practices in Voice Data Collection and Limitations to Voice AI Research: A National Survey.

Author

Evangelista, Emily, Kale, Rohan, McCutcheon, Desiree, Rameau, Anais, Gelbard, Alexander, Powell, Maria, Johns, Michael, Law, Anthony, Song, Phillip, Naunheim, Matthew, Watts, Stephanie, Bryson, Paul C., Crowson, Matthew G., Pinto, Jeremy, Bensoussan Yael, E., Olivier, Elemento, Anaïs, Rameau, Alexandros, Sigaras, Satrajit, Ghosh, and Powell Maria, E.

Abstract

Introduction: Accuracy and validity of voice AI algorithms rely on substantial quality voice data. Although commensurable amounts of voice data are captured daily in voice centers across North America, there is no standardized protocol for acoustic data management, which limits the usability of these datasets for voice artificial intelligence (AI) research. Objective: The aim was to capture current practices of voice data collection, storage, analysis, and perceived limitations to collaborative voice research. Methods: A 30‐question online survey was developed with expert guidance from the voicecollab.ai members, an international collaborative of voice AI researchers. The survey was disseminated via REDCap to an estimated 200 practitioners at North American voice centers. Survey questions assessed respondents' current practices in terms of acoustic data collection, storage, and retrieval as well as limitations to collaborative voice research. Results: Seventy‐two respondents completed the survey of which 81.7% were laryngologists and 18.3% were speech language pathologists (SLPs). Eighteen percent of respondents reported seeing 40%–60% and 55% reported seeing >60 patients with voice disorders weekly (conservative estimate of over 4000 patients/week). Only 28% of respondents reported utilizing standardized protocols for collection and storage of acoustic data. Although, 87% of respondents conduct voice research, only 38% of respondents report doing so on a multi‐institutional level. Perceived limitations to conducting collaborative voice research include lack of standardized methodology for collection (30%) and lack of human resources to prepare and label voice data adequately (55%). Conclusion: To conduct large‐scale multi‐institutional voice research with AI, there is a pertinent need for standardization of acoustic data management, as well as an infrastructure for secure and efficient data sharing. Level of Evidence: 5 Laryngoscope, 134:1333–1339, 2024 [ABSTRACT FROM AUTHOR]

Published

2024

14. 253 AIRWAY-XR: Augmented Instruction to Refine Wayfinding and Yielding Skills in Emergency Medicine Residents for Intubation Using Mixed Reality Technology

Author

Bhavsar, N., primary, Sriram, S., additional, Coleman, D., additional, Sulcov, A., additional, Fortenko, A., additional, Lame, M., additional, Greenwald, P., additional, George, J., additional, and Sigaras, A., additional

Published

2023

15. Automatic Ploidy Prediction and Quality Assessment of Human Blastocyst Using Time-Lapse Imaging

Author

Rajendran, Suraj, primary, Brendel, Matthew, additional, Barnes, Josue, additional, Zhan, Qiansheng, additional, Malmsten, Jonas E, additional, Zisimopoulos, Pantelis, additional, Sigaras, Alexandros, additional, Ofori-Atta, Kwabena, additional, Meseguer Escriva, Marcos, additional, Miller, Kathy, additional, Hoffman, David, additional, Rosenwaks, Zev, additional, Elemento, Olivier, additional, Zaninovic, Nikica, additional, and Hajirasouliha, Iman, additional

Published

2023

16. A non-invasive artificial intelligence approach for the prediction of human blastocyst ploidy: a retrospective model development and validation study

Author

Josue, Barnes, Matthew, Brendel, Vianne R, Gao, Suraj, Rajendran, Junbum, Kim, Qianzi, Li, Jonas E, Malmsten, Jose T, Sierra, Pantelis, Zisimopoulos, Alexandros, Sigaras, Pegah, Khosravi, Marcos, Meseguer, Qiansheng, Zhan, Zev, Rosenwaks, Olivier, Elemento, Nikica, Zaninovic, and Iman, Hajirasouliha

Subjects

Male, Adult, Ploidies, Medicine (miscellaneous), Health Informatics, Middle Aged, Aneuploidy, United States, Young Adult, Blastocyst, Health Information Management, Pregnancy, Artificial Intelligence, Semen, Humans, Female, Decision Sciences (miscellaneous), Preimplantation Diagnosis, Retrospective Studies

Abstract

One challenge in the field of in-vitro fertilisation is the selection of the most viable embryos for transfer. Morphological quality assessment and morphokinetic analysis both have the disadvantage of intra-observer and inter-observer variability. A third method, preimplantation genetic testing for aneuploidy (PGT-A), has limitations too, including its invasiveness and cost. We hypothesised that differences in aneuploid and euploid embryos that allow for model-based classification are reflected in morphology, morphokinetics, and associated clinical information.In this retrospective study, we used machine-learning and deep-learning approaches to develop STORK-A, a non-invasive and automated method of embryo evaluation that uses artificial intelligence to predict embryo ploidy status. Our method used a dataset of 10 378 embryos that consisted of static images captured at 110 h after intracytoplasmic sperm injection, morphokinetic parameters, blastocyst morphological assessments, maternal age, and ploidy status. Independent and external datasets, Weill Cornell Medicine EmbryoScope+ (WCM-ES+; Weill Cornell Medicine Center of Reproductive Medicine, NY, USA) and IVI Valencia (IVI Valencia, Health Research Institute la Fe, Valencia, Spain) were used to test the generalisability of STORK-A and were compared measuring accuracy and area under the receiver operating characteristic curve (AUC).Analysis and model development included the use of 10 378 embryos, all with PGT-A results, from 1385 patients (maternal age range 21-48 years; mean age 36·98 years [SD 4·62]). STORK-A predicted aneuploid versus euploid embryos with an accuracy of 69·3% (95% CI 66·9-71·5; AUC 0·761; positive predictive value [PPV] 76·1%; negative predictive value [NPV] 62·1%) when using images, maternal age, morphokinetics, and blastocyst score. A second classification task trained to predict complex aneuploidy versus euploidy and single aneuploidy produced an accuracy of 74·0% (95% CI 71·7-76·1; AUC 0·760; PPV 54·9%; NPV 87·6%) using an image, maternal age, morphokinetic parameters, and blastocyst grade. A third classification task trained to predict complex aneuploidy versus euploidy had an accuracy of 77·6% (95% CI 75·0-80·0; AUC 0·847; PPV 76·7%; NPV 78·0%). STORK-A reported accuracies of 63·4% (AUC 0·702) on the WCM-ES+ dataset and 65·7% (AUC 0·715) on the IVI Valencia dataset, when using an image, maternal age, and morphokinetic parameters, similar to the STORK-A test dataset accuracy of 67·8% (AUC 0·737), showing generalisability.As a proof of concept, STORK-A shows an ability to predict embryo ploidy in a non-invasive manner and shows future potential as a standardised supplementation to traditional methods of embryo selection and prioritisation for implantation or recommendation for PGT-A.US National Institutes of Health.

Published

2023

17. Surgical Structured Light for 3D minimally invasive surgical imaging.

Author

Austin Reiter, Alexandros Sigaras, Dennis L. Fowler, and Peter K. Allen

Published

2014

18. Containers in Bioinformatics

Author

Sabah Kadri, Andrea Sboner, Alexandros Sigaras, and Somak Roy

Subjects

Molecular Medicine, Pathology and Forensic Medicine

Published

2022

19. Deep learning enables robust assessment and selection of human blastocysts after in vitro fertilization

Author

Khosravi, Pegah, Kazemi, Ehsan, Zhan, Qiansheng, Malmsten, Jonas E., Toschi, Marco, Zisimopoulos, Pantelis, Sigaras, Alexandros, Lavery, Stuart, Cooper, Lee A. D., Hickman, Cristina, Meseguer, Marcos, Rosenwaks, Zev, Elemento, Olivier, Zaninovic, Nikica, and Hajirasouliha, Iman

Published

2019

20. Molecular Evaluation of Low-grade Low-stage Endometrial Cancer With and Without Recurrence

Author

Samaneh Motanagh, Kentaro Ohara, Shannon M. Glynn, Boaz Kurtis, Juan Miguel Mosquera, Susanna Mirabelli, Eloise Chapman-Davis, Kenneth Wha Eng, Andrea Sboner, Alexandros Sigaras, Divya Gupta, Sudeshna Chatterjee-Paer, Pooja Chandra, Olivier Elemento, Bing He, Kevin Holcomb, Cathleen Matrai, and Lora Hedrick Ellenson

Subjects

Oncology, medicine.medical_specialty, Pathology, Class I Phosphatidylinositol 3-Kinases, business.industry, Endometrial cancer, Obstetrics and Gynecology, Pilot Projects, Gene mutation, Tp53 mutation, medicine.disease, Endometrial Neoplasms, Pathology and Forensic Medicine, Recurrent Tumor, Discoidin Domain Receptor 2, Internal medicine, Mutation, Mutation (genetic algorithm), Humans, Medicine, Female, Stage (cooking), Endometrioid Carcinomas, business, Carcinoma, Endometrioid

Abstract

Low-grade, low-stage endometrioid carcinomas (LGLS EC) demonstrate 5-yr survival rates up to 95%. However, a small subset of these tumors recur, and little is known about prognostic markers or established mutation profiles associated with recurrence. The goal of the current study was to identify the molecular profiles of the primary carcinomas and the genomic differences between primary tumors and subsequent recurrences. Four cases of LGLS EC with recurrence and 8 cases without recurrence were evaluated via whole-exome sequencing. Three of the 4 recurrent tumors were evaluated via Oncomine Comprehensive Assay. The resulting molecular profiles of the primary and recurrent tumors were compared. Two of the 3 recurrent cases showed additional mutations in the recurrence. One recurrent tumor included an additional TP53 mutation and the other recurrent tumor showed POLE and DDR2 kinase gene mutation. The POLE mutation occurred outside the exonuclease domain. PIK3CA mutations were detected in 4 of 4 primary LGLS EC with recurrence and in 3 of 8 disease-free cases. LGLS EC with recurrence showed higher MSIsensor scores compared with LGLS without recurrence. The level of copy number gains in LGLS EC with recurrence was larger than LGLS EC without recurrence. This pilot study showed 1 of 3 recurrent cases gained a mutation associated with genetic instability (TP53) and 1 of them also acquired a mutation in the DDR2 kinase, a potential therapeutic target. We also noted a higher level of copy number gains, MSIsensor scores and PIK3CA mutations in the primary tumors that later recurred.

Published

2021

21. Publisher Correction: Building an international consortium for tracking coronavirus health status

Author

Segal, Eran, Zhang, Feng, Lin, Xihong, King, Gary, Shalem, Ophir, Shilo, Smadar, Allen, William E., Alquaddoomi, Faisal, Altae-Tran, Han, Anders, Simon, Balicer, Ran, Bauman, Tal, Bonilla, Ximena, Booman, Gisel, Chan, Andrew T., Cohen, Ori, Coletti, Silvano, Davidson, Natalie, Dor, Yuval, Drew, David A., Elemento, Olivier, Evans, Georgina, Ewels, Phil, Gale, Joshua, Gavrieli, Amir, Geiger, Benjamin, Grad, Yonatan H., Greene, Casey S., Hajirasouliha, Iman, Jerala, Roman, Kahles, Andre, Kallioniemi, Olli, Keshet, Ayya, Kocarev, Ljupco, Landua, Gregory, Meir, Tomer, Muller, Aline, Nguyen, Long H., Oresic, Matej, Ovchinnikova, Svetlana, Peterson, Hedi, Prodanova, Jana, Rajagopal, Jay, Rätsch, Gunnar, Rossman, Hagai, Rung, Johan, Sboner, Andrea, Sigaras, Alexandros, Spector, Tim, Steinherz, Ron, Stevens, Irene, Vilo, Jaak, and Wilmes, Paul

Published

2020

22. Bone biopsy protocol for advanced prostate cancer in the era of precision medicine

Author

Sailer, Verena, Schiffman, Marc H., Kossai, Myriam, Cyrta, Joanna, Beg, Shaham, Sullivan, Brian, Pua, Bradley B., Lee, Kyungmouk Steve, Talenfeld, Adam D., Nanus, David M., Tagawa, Scott T., Robinson, Brian D., Rao, Rema A., Pauli, Chantal, Bareja, Rohan, Beltran, Luis S., Sigaras, Alexandros, Eng, Kenneth Wa, Elemento, Olivier, Sboner, Andrea, Rubin, Mark A., Beltran, Himisha, and Mosquera, Juan Miguel

Published

2018

23. A Deep Learning Approach to Diagnostic Classification of Prostate Cancer Using Pathology–Radiology Fusion

Author

Maria Lysandrou, Bilal Chughtai, Brian D. Robinson, Iman Hajirasouliha, Josue Barnes, Matthew Brendel, Olivier Elemento, Alexandros Sigaras, Andy Yat, Ehsan Kazemi, Pegah Khosravi, Andrea Sboner, Pantelis Zisimopoulos, Timothy D. McClure, Mahmoud Eljalby, Camir Ricketts, Qianzi Li, and Dmitry Meleshko

Subjects

Male, Pathology, medicine.medical_specialty, Prostate biopsy, PI‐RADS, Population, MRI images, 030218 nuclear medicine & medical imaging, Pelvis, 03 medical and health sciences, Prostate cancer, 0302 clinical medicine, Deep Learning, Biopsy, medicine, Humans, Radiology, Nuclear Medicine and imaging, biopsy, education, Research Articles, Retrospective Studies, education.field_of_study, medicine.diagnostic_test, Receiver operating characteristic, business.industry, Cancer, Prostatic Neoplasms, Magnetic resonance imaging, medicine.disease, artificial intelligence, prostate cancer, Magnetic Resonance Imaging, PI-RADS, Radiography, deep neural networks, Radiology, business, Research Article

Abstract

Background A definitive diagnosis of prostate cancer requires a biopsy to obtain tissue for pathologic analysis, but this is an invasive procedure and is associated with complications. Purpose To develop an artificial intelligence (AI)-based model (named AI-biopsy) for the early diagnosis of prostate cancer using magnetic resonance (MR) images labeled with histopathology information. Study type Retrospective. Population Magnetic resonance imaging (MRI) data sets from 400 patients with suspected prostate cancer and with histological data (228 acquired in-house and 172 from external publicly available databases). Field strength/sequence 1.5 to 3.0 Tesla, T2-weighted image pulse sequences. Assessment MR images reviewed and selected by two radiologists (with 6 and 17 years of experience). The patient images were labeled with prostate biopsy including Gleason Score (6 to 10) or Grade Group (1 to 5) and reviewed by one pathologist (with 15 years of experience). Deep learning models were developed to distinguish 1) benign from cancerous tumor and 2) high-risk tumor from low-risk tumor. Statistical tests To evaluate our models, we calculated negative predictive value, positive predictive value, specificity, sensitivity, and accuracy. We also calculated areas under the receiver operating characteristic (ROC) curves (AUCs) and Cohen's kappa. Results Our computational method (https://github.com/ih-lab/AI-biopsy) achieved AUCs of 0.89 (95% confidence interval [CI]: [0.86-0.92]) and 0.78 (95% CI: [0.74-0.82]) to classify cancer vs. benign and high- vs. low-risk of prostate disease, respectively. Data conclusion AI-biopsy provided a data-driven and reproducible way to assess cancer risk from MR images and a personalized strategy to potentially reduce the number of unnecessary biopsies. AI-biopsy highlighted the regions of MR images that contained the predictive features the algorithm used for diagnosis using the class activation map method. It is a fully automatic method with a drag-and-drop web interface (https://ai-biopsy.eipm-research.org) that allows radiologists to review AI-assessed MR images in real time. Level of evidence 1 TECHNICAL EFFICACY STAGE: 2.

Published

2021

24. Weakly-supervised tumor purity prediction from frozen H&E stained slides

Author

Brendel, Matthew, primary, Getseva, Vanesa, additional, Assaad, Majd Al, additional, Sigouros, Michael, additional, Sigaras, Alexandros, additional, Kane, Troy, additional, Khosravi, Pegah, additional, Mosquera, Juan Miguel, additional, Elemento, Olivier, additional, and Hajirasouliha, Iman, additional

Published

2022

25. Containers in Bioinformatics

Author

Kadri, Sabah, primary, Sboner, Andrea, additional, Sigaras, Alexandros, additional, and Roy, Somak, additional

Published

2022

26. The genomic landscape of metastatic clear cell renal cell carcinoma after systemic therapy

Author

van der Mijn, Johannes C., primary, Eng, Kenneth W., additional, Chandra, Pooja, additional, Fernandez, Evan, additional, Ramazanoglu, Sinan, additional, Sigaras, Alexandros, additional, Oromendia, Clara, additional, Gudas, Lorraine J., additional, Tagawa, Scott T., additional, Nanus, David M., additional, Faltas, Bishoy F., additional, Beltran, Himisha, additional, Sternberg, Cora N., additional, Elemento, Olivier, additional, Sboner, Andrea, additional, Mosquera, Juan Miguel, additional, and Molina, Ana M., additional

Published

2022

27. Author response for 'The genomic landscape of metastatic clear cell renal cell carcinoma after systemic therapy'

Author

null Johannes C. Mijn, null Kenneth W. Eng, null Pooja Chandra, null Evan Fernandez, null Sinan Ramazanoglu, null Alexandros Sigaras, null Clara Oromendia, null Lorraine J. Gudas, null Scott T. Tagawa, null David M. Nanus, null Bishoy F. Faltas, null Himisha Beltran, null Cora N. Sternberg, null Olivier Elemento, null Andrea Sboner, null Juan Miguel Mosquera, and null Ana M. Molina

Published

2021

28. Weakly-Supervised Tumor Purity Prediction From Frozen H&E Stained Slides

Author

Troy Kane, Vanesa Getseva, Michael Sigouros, Iman Hajirasouliha, Matthew Brendel, Olivier Elemento, Majd Al Assaad, Alexandros Sigaras, Pegah Khosravi, and Juan Miguel Mosquera

Subjects

Clinical Practice, Disease outcome, H&E stain, High resolution, Tumor type, Tumor cells, Mathematics, Biomedical engineering

Abstract

Estimating tumor purity is especially important in the age of precision medicine. Purity estimates have been shown to be critical for correction of tumor sequencing results, and higher purity samples allow for more accurate interpretations from next-generation sequencing results. In addition, tumor purity has been shown to be correlated with survival outcomes for several diseases. Molecular-based purity estimates using computational approaches require sequencing of tumors, which is both time-consuming and expensive. Here we propose an approach, weakly-supervised purity (wsPurity), which can accurately quantify tumor purity within a slide, using multiple and different types of cancer. This approach allows for a flexible analysis of tumors from whole slide imaging (WSI) of histology hematoxylin and eosin (H&E) slides. Our model predicts tumor type with high accuracy (greater than 80% on an independent test cohort), and tumor purity at a higher accuracy compared to a comparable fully-supervised approach (0.1335 MAE on an independent test cohort). In addition to tumor purity prediction, our approach can identify high resolution tumor regions within a slide, to enrich tumor cell selection for downstream analyses. This model could also be used in a clinical setting, to stratify tumors into high and low tumor purity, using different thresholds, in a cancer-dependent manner, depending on what purity levels correlate with worse disease outcomes. In addition, this approach could be used in clinical practice to select the best tissue block for sequencing. Overall, this approach can be used in several different ways to analyze WSIs of tumor H&E sections.

Published

2021

29. Weakly-Supervised Tumor Purity Prediction From Frozen H&E Stained Slides

Author

Brendel, Matthew, primary, Getseva, Vanesa, additional, Assaad, Majd Al, additional, Sigouros, Michael, additional, Sigaras, Alexandros, additional, Kane, Troy, additional, Khosravi, Pegah, additional, Mosquera, Juan Miguel, additional, Elemento, Olivier, additional, and Hajirasouliha, Iman, additional

Published

2021

30. Molecular Evaluation of Low-grade Low-stage Endometrial Cancer With and Without Recurrence

Author

Matrai, Cathleen E., primary, Ohara, Kentaro, additional, Eng, Kenneth Wha, additional, Glynn, Shannon M., additional, Chandra, Pooja, additional, Chatterjee-Paer, Sudeshna, additional, Motanagh, Samaneh, additional, Mirabelli, Susanna, additional, Kurtis, Boaz, additional, He, Bing, additional, Sigaras, Alexandros, additional, Gupta, Divya, additional, Chapman-Davis, Eloise, additional, Holcomb, Kevin, additional, Sboner, Andrea, additional, Elemento, Olivier, additional, Ellenson, Lora Hedrick, additional, and Mosquera, Juan Miguel, additional

Published

2021

31. Whole-Exome Sequencing of Metastatic Cancer and Biomarkers of Treatment Response

Author

Beltran, Himisha, Eng, Kenneth, Mosquera, Juan Miguel, Sigaras, Alexandros, Romanel, Alessandro, Rennert, Hanna, Kossai, Myriam, Pauli, Chantal, Faltas, Bishoy, Fontugne, Jacqueline, Park, Kyung, Banfelder, Jason, Prandi, Davide, Madhukar, Neel, Zhang, Tuo, Padilla, Jessica, Greco, Noah, McNary, Terra J., Herrscher, Erick, Wilkes, David, MacDonald, Theresa Y., Xue, Hui, Vacic, Vladimir, Emde, Anne-Katrin, Oschwald, Dayna, Tan, Adrian Y., Chen, Zhengming, Collins, Colin, Gleave, Martin E., Wang, Yuzhuo, Chakravarty, Dimple, Schiffman, Marc, Kim, Robert, Campagne, Fabien, Robinson, Brian D., Nanus, David M., Tagawa, Scott T., Xiang, Jenny Z., Smogorzewska, Agata, Demichelis, Francesca, Rickman, David S., Sboner, Andrea, Elemento, Olivier, and Rubin, Mark A.

Published

2015

32. Containers in Bioinformatics: Applications, Practical Considerations, and Best Practices in Molecular Pathology

Author

Sabah, Kadri, Andrea, Sboner, Alexandros, Sigaras, and Somak, Roy

Subjects

Computational Biology, High-Throughput Nucleotide Sequencing, Humans, Reproducibility of Results, Pathology, Molecular, Ecosystem, Software

Abstract

Systematic implementation of bioinformatics resources for next generation sequencing (NGS)-based clinical testing is an arduous undertaking. One of the key challenges involves developing an ecosystem of information technology infrastructure for enabling scalable and reproducible bioinformatics services that is resilient and secure for handling genetic and protected health information, often embedded in an existing non-bioinformatics-oriented infrastructure. Container technology provides an ideal and infrastructure-agnostic solution for molecular laboratories developing and using bioinformatics pipelines, whether on-premise or using the cloud. A container is a technology that provides a consistent computational environment and enables reproducibility, scalability, and security when developing NGS bioinformatics analysis pipelines. Containers can increase the bioinformatics team's productivity by automating and simplifying the maintenance of complex bioinformatics resources, as well as facilitate validation, version control, and documentation necessary for clinical laboratory regulatory compliance. Although there is increasing popularity in adopting containers for developing NGS bioinformatics pipelines, there is wide variability and inconsistency in the usage of containers that may result in suboptimal performance and potentially compromise the security and privacy of protected health information. In this article, the authors highlight the current state and provide best or recommended practices for building, using containers in NGS bioinformatics solutions in a clinical setting with focus on scalability, optimization, maintainability, and data security.

Published

2021

33. CD38 in Advanced Prostate Cancers

Author

Guo, Christina, primary, Crespo, Mateus, additional, Gurel, Bora, additional, Dolling, David, additional, Rekowski, Jan, additional, Sharp, Adam, additional, Petremolo, Antonella, additional, Sumanasuriya, Semini, additional, Rodrigues, Daniel N., additional, Ferreira, Ana, additional, Pereira, Rita, additional, Figueiredo, Ines, additional, Mehra, Niven, additional, Lambros, Maryou B.K., additional, Neeb, Antje, additional, Gil, Veronica, additional, Seed, George, additional, Terstappen, Leon, additional, Alimonti, Andrea, additional, Drake, Charles G., additional, Yuan, Wei, additional, de Bono, Johann S., additional, Robinson, Dan, additional, Van Allen, Eliezer M., additional, Wu, Yi-Mi, additional, Schultz, Nikolaus, additional, Lonigro, Robert J., additional, Mosquera, Juan-Miguel, additional, Montgomery, Bruce, additional, Taplin, Mary-Ellen, additional, Pritchard, Colin C., additional, Attard, Gerhardt, additional, Beltran, Himisha, additional, Abida, Wassim, additional, Bradley, Robert K., additional, Vinson, Jake, additional, Cao, Xuhong, additional, Vats, Pankaj, additional, Kunju, Lakshmi P., additional, Hussain, Maha, additional, Tomlins, Scott A., additional, Cooney, Kathleen A., additional, Smith, David C., additional, Brennan, Christine, additional, Siddiqui, Javed, additional, Mehra, Rohit, additional, Chen, Yu, additional, Rathkopf, Dana E., additional, Morris, Michael J., additional, Solomon, Stephen B., additional, Durack, Jeremy C., additional, Reuter, Victor E., additional, Gopalan, Anuradha, additional, Gao, Jianjiong, additional, Loda, Massimo, additional, Lis, Rosina T., additional, Bowden, Michaela, additional, Balk, Stephen P., additional, Gaviola, Glenn, additional, Sougnez, Carrie, additional, Gupta, Manaswi, additional, Yu, Evan Y., additional, Mostaghel, Elahe A., additional, Cheng, Heather H., additional, Mulcahy, Hyojeong, additional, True, Lawrence D., additional, Plymate, Stephen R., additional, Dvinge, Heidi, additional, Ferraldeschi, Roberta, additional, Flohr, Penny, additional, Miranda, Susana, additional, Zafeiriou, Zafeiris, additional, Tunariu, Nina, additional, Mateo, Joaquin, additional, Perez-Lopez, Raquel, additional, Demichelis, Francesca, additional, Robinson, Brian D., additional, Schiffman, Marc, additional, Nanus, David M., additional, Tagawa, Scott T., additional, Sigaras, Alexandros, additional, Eng, Kenneth W., additional, Elemento, Olivier, additional, Sboner, Andrea, additional, Heath, Elisabeth I., additional, Scher, Howard I., additional, Pienta, Kenneth J., additional, Kantoff, Philip, additional, Rubin, Mark A., additional, Nelson, Peter S., additional, Garraway, Levi A., additional, Sawyers, Charles L., additional, and Chinnaiyan, Arul M., additional

Published

2021

34. A Deep Learning Approach to Diagnostic Classification of Prostate Cancer Using Pathology–Radiology Fusion

Author

Khosravi, Pegah, primary, Lysandrou, Maria, additional, Eljalby, Mahmoud, additional, Li, Qianzi, additional, Kazemi, Ehsan, additional, Zisimopoulos, Pantelis, additional, Sigaras, Alexandros, additional, Brendel, Matthew, additional, Barnes, Josue, additional, Ricketts, Camir, additional, Meleshko, Dmitry, additional, Yat, Andy, additional, McClure, Timothy D., additional, Robinson, Brian D., additional, Sboner, Andrea, additional, Elemento, Olivier, additional, Chughtai, Bilal, additional, and Hajirasouliha, Iman, additional

Published

2021

35. 362 AIRWAY-MR: Assessing Traditional Intubation Didactics With a Novel Mixed Reality Module

Author

Bhavsar, N., Sriram, S., Balasubramanian, S., Davidson, C., Fortenko, A., Lame, M., Greenwald, P., George, J., Sigaras, A., Piechowski, W., and Sanapala, S.

Published

2024

36. Predictive modeling in reproductive medicine: Where will the future of artificial intelligence research take us?

Author

Adolfo Flores-Saiffe Farias, Iman Hajirasouliha, Charles L. Bormann, J Chambost, Chris-Alexandre Pena, Nikica Zaninovic, Andrew J. Drakeley, Jonas Malmsten, Alejandro Chavez-Badiola, Thomas Fréour, Hoor Alshubbar, Zev Rosenwaks, Gerardo Mendizabal, Carol Lynn Curchoe, Olivier Elemento, Hadi Shafiee, Alexandros Sigaras, Céline Jacques, and Cristina Hickman

Subjects

0301 basic medicine, medicine.medical_specialty, Biomedical Research, Computer science, Reproduction (economics), media_common.quotation_subject, Big data, Reproductive medicine, Fertility, Fertilization in Vitro, GeneralLiterature_MISCELLANEOUS, Machine Learning, 03 medical and health sciences, 0302 clinical medicine, Artificial Intelligence, medicine, Animals, Humans, media_common, 030219 obstetrics & reproductive medicine, business.industry, Obstetrics and Gynecology, Robotics, ComputingMethodologies_PATTERNRECOGNITION, 030104 developmental biology, Reproductive Medicine, Artificial intelligence, Internet of Things, business, Forecasting

Abstract

Artificial intelligence (AI) systems have been proposed for reproductive medicine since 1997. Although AI is the main driver of emergent technologies in reproduction, such as robotics, Big Data, and internet of things, it will continue to be the engine for technological innovation for the foreseeable future. What does the future of AI research look like?

Published

2020

37. Publisher Correction: Building an international consortium for tracking coronavirus health status

Author

Natalie R. Davidson, Jay Rajagopal, Gisel Booman, Andrew T. Chan, Ljupco Kocarev, Joshua Gale, Georgina Evans, Xihong Lin, Benjamin Geiger, Matej Orešič, Hagai Rossman, Ophir Shalem, Yonatan H. Grad, André Kahles, Tim D. Spector, Svetlana Ovchinnikova, Andrea Sboner, Phil Ewels, Ron Steinherz, Simon Anders, Faisal Alquaddoomi, Olli Kallioniemi, Eran Segal, Aline Muller, Iman Hajirasouliha, Alexandros Sigaras, Amir Gavrieli, Feng Zhang, Long H. Nguyen, Jana Prodanova, Silvano Coletti, Johan Rung, Smadar Shilo, Roman Jerala, Hedi Peterson, Gunnar Rätsch, Tomer Meir, Tal Bauman, Gregory Landua, Gary King, Han Altae-Tran, Ayya Keshet, David A. Drew, Casey S. Greene, Jaak Vilo, Olivier Elemento, William E. Allen, Ximena Bonilla, Ori Cohen, Ran D. Balicer, Yuval Dor, Irene Stevens, and Paul Wilmes

Subjects

2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), business.industry, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Medicine, General Medicine, business, medicine.disease_cause, Virology, General Biochemistry, Genetics and Molecular Biology, Coronavirus

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

38. Building an international consortium for tracking coronavirus health status

Author

Gary King, Gisel Booman, Alexandros Sigaras, Feng Zhang, Joshua Gale, Phil Ewels, Andrew T. Chan, Benjamin Geiger, Tim D. Spector, Jana Prodanova, Han Altae-Tran, André Kahles, Matej Orešič, Hagai Rossman, Casey S. Greene, Amir Gavrieli, Ophir Shalem, Roman Jerala, Eran Segal, Yonatan H. Grad, Svetlana Ovchinnikova, Long H. Nguyen, Xihong Lin, Aline Muller, Iman Hajirasouliha, Jay Rajagopal, Smadar Shilo, Silvano Coletti, Georgina Evans, Ori Cohen, Ran D. Balicer, Hedi Peterson, Tomer Meir, Ximena Bonilla, Natalie R. Davidson, Olli Kallioniemi, Paul Wilmes, David A. Drew, Ron Steinherz, Simon Anders, Tal Bauman, Gregory Landua, Jaak Vilo, Johan Rung, Ayya Keshet, Ljupco Kocarev, Gunnar Rätsch, Olivier Elemento, Yuval Dor, Irene Stevens, Andrea Sboner, William E. Allen, and Faisal Alquaddoomi

Subjects

0301 basic medicine, 2019-20 coronavirus outbreak, Knowledge management, Coronavirus disease 2019 (COVID-19), Health Status, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Pneumonia, Viral, medicine.disease_cause, General Biochemistry, Genetics and Molecular Biology, Betacoronavirus, Databases, 03 medical and health sciences, 0302 clinical medicine, Computational platforms and environments, Surveys and Questionnaires, Research community, Pandemic, medicine, Humans, Pandemics, Coronavirus, SARS-CoV-2, business.industry, COVID-19, General Medicine, Publisher Correction, 030104 developmental biology, 030220 oncology & carcinogenesis, Infectious diseases, Tracking (education), Coronavirus Infections, business

Abstract

We call upon the research community to standardize efforts to use daily self-reported data about COVID-19 symptoms in the response to the pandemic and to form a collaborative consortium to maximize global gain while protecting participant privacy.

Published

2020

39. Building an International Consortium for Tracking Coronavirus Health Status

Author

Ximena Bonilla, Svetlana Ovchinnikova, William E. Allen, Iman Hajirasouliha, Tal Bauman, Andrea Sboner, Roman Jerala, Hedi Peterson, Matej Orešič, Hagai Rossman, Gary King, Ori Cohen, David A. Drew, Smadar Shilo, Silvano Coletti, Gunnar Rätsch, Joshua Gale, Casey S. Greene, Benjamin Geiger, Tomer Meir, Xihong Lin, Jay Rajagopal, Tim D. Spector, Olivier Elemento, Faisal Alquaddoomi, Yuval Dor, André Kahles, Alexandros Sigaras, Olli Kallioniemi, Amir Gavrieli, Feng Zhang, Irene Stevens, Long H. Nguyen, Ron Steinherz, Simon Anders, Johan Rung, Ayya Keshet, Georgina Evans, Phil Ewels, Natalie R. Davidson, Ophir Shalem, Yonatan H. Grad, Eran Segal, Aline Muller, Gregory Landua, Jaak Vilo, Paul Wilmes, Ran D. Balicer, Gisel Booman, and Andrew T. Chan

Subjects

education.field_of_study, Geospatial analysis, Knowledge management, business.industry, Control (management), Population, Globe, Disease, computer.software_genre, medicine.anatomical_structure, SPARK (programming language), Health care, Pandemic, medicine, business, education, computer, computer.programming_language

Abstract

Information is the most potent protective weapon we have to combat a pandemic, at both the individual and global level. For individuals, information can help us make personal decisions and provide a sense of security. For the global community, information can inform policy decisions and offer critical insights into the epidemic of COVID-19 disease. Fully leveraging the power of information, however, requires large amounts of data and access to it. To achieve this, we are making steps to form an international consortium, Coronavirus Census Collective (CCC, coronaviruscensuscollective.org), that will serve as a hub for integrating information from multiple data sources that can be utilized to understand, monitor, predict, and combat global pandemics. These sources may include self-reported health status through surveys (including mobile apps), results of diagnostic laboratory tests, and other static and real-time geospatial data. This collective effort to track and share information will be invaluable in predicting hotspots of disease outbreak, identifying which factors control the rate of spreading, informing immediate policy decisions, evaluating the effectiveness of measures taken by health organizations on pandemic control, and providing critical insight on the etiology of COVID-19. It will also help individuals stay informed on this rapidly evolving situation and contribute to other global efforts to slow the spread of disease.In the past few weeks, several initiatives across the globe have surfaced to use daily self-reported symptoms as a means to track disease spread, predict outbreak locations, guide population measures and help in the allocation of healthcare resources. The aim of this paper is to put out a call to standardize these efforts and spark a collaborative effort to maximize the global gain while protecting participant privacy.

Published

2020

40. ERF mutations reveal a balance of ETS factors controlling prostate oncogenesis

Author

Bose, Rohit, Karthaus, Wouter R., Armenia, Joshua, Abida, Wassim, Iaquinta, Phillip J., Zhang, Zeda, Wongvipat, John, Wasmuth, Elizabeth V., Shah, Neel, Sullivan, Patrick S., Doran, Michael G., Wang, Ping, Patruno, Anna, Zhao, Yilin, Robinson, Dan, Van Allen, Eliezer M., Wu, Yi-Mi, Schultz, Nikolaus, Lonigro, Robert J., Mosquera, Juan-Miguel, Montgomery, Bruce, Taplin, Mary-Ellen, Pritchard, Colin C., Attard, Gerhardt, Beltran, Himisha, Bradley, Robert K., Vinson, Jake, Cao, Xuhong, Vats, Pankaj, Kunju, Lakshmi P., Hussain, Maha, Tomlins, Scott A., Cooney, Kathleen A., Smith, David C., Brennan, Christine, Siddiqui, Javed, Mehra, Rohit, Chen, Yu, Rathkopf, Dana E., Morris, Michael J., Solomon, Stephen B., Durack, Jeremy C., Reuter, Victor E., Gopalan, Anuradha, Gao, Jianjiong, Loda, Massimo, Lis, Rosina T., Bowden, Michaela, Balk, Stephen P., Gaviola, Glenn, Sougnez, Carrie, Gupta, Manaswi, Yu, Evan Y., Mostaghel, Elahe A., Cheng, Heather H., Mulcahy, Hyojeong, True, Lawrence D., Plymate, Stephen R., Dvinge, Heidi, Ferraldeschi, Roberta, Flohr, Penny, Miranda, Susana, Zafeiriou, Zafeiris, Tunariu, Nina, Mateo, Joaquin, Perez-Lopez, Raquel, Demichelis, Francesca, Robinson, Brian D., Schiffman, Marc, Nanus, David M., Tagawa, Scott T., Sigaras, Alexandros, Eng, Kenneth W., Elemento, Olivier, Sboner, Andrea, Heath, Elisabeth I., Scher, Howard I., Pienta, Kenneth J., Kantoff, Philip, de Bono, Johann S., Rubin, Mark A., Nelson, Peter S., Garraway, Levi A., Sawyers, Charles L., Chinnaiyan, Arul M., and Zheng, Deyou

Subjects

Gene mutation -- Health aspects, Prostate cancer -- Genetic aspects, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Author(s): Rohit Bose [1, 2]; Wouter R. Karthaus [1]; Joshua Armenia [1, 3]; Wassim Abida [2]; Phillip J. Iaquinta [1]; Zeda Zhang [1, 4]; John Wongvipat [1]; Elizabeth V. Wasmuth [...]

Published

2017

41. Biopsy-free prediction of prostate cancer aggressiveness using deep learning and radiology imaging

Author

Pantelis Zisimopoulos, Timothy D. McClure, Mahmoud Eljalby, Ehsan Kazemi, Camir Ricketts, Andrea Sboner, Josue Barnes, Iman Hajirasouliha, Qianzi Li, Bilal Chughtai, Olivier Elemento, Dimitri Meleshko, Matthew Brendel, Maria Lysandrou, Alexandros Sigaras, Brian D. Robinson, Andy Yat, and Pegah Khosravi

Subjects

medicine.medical_specialty, Prostate biopsy, medicine.diagnostic_test, business.industry, Cancer, Magnetic resonance imaging, Disease, medicine.disease, Hematospermia, Prostate cancer, medicine.anatomical_structure, Prostate, Biopsy, medicine, Radiology, business

Abstract

Magnetic Resonance Imaging (MRI) is routinely used to visualize the prostate gland and manage prostate cancer. The Prostate Imaging Reporting And Data System (PI-RADS) is used to evaluate the clinical risk associated with a potential tumor. However the PI-RADS score is subjective and its assessment varies between physicians. As a result, a definite diagnosis of prostate cancer requires a biopsy to obtain tissue for pathologic analysis. A prostate biopsy is an invasive procedure and is associated with complications, including hematospermia, hematuria, and rectal bleeding.We hypothesized that an Artificial Intelligence (AI) can be trained on prostate cases where both imaging and biopsy are available to distinguish aggressive prostate cancer from non-aggressive lesions using MRI imaging only, that is, without the need for a biopsy.Our computational method, named AI-biopsy, can distinguish aggressive prostate cancer from non-aggressive disease with an AUC of 0.855 and a 79.02% accuracy. We used Class Activation Maps (CAM) to highlight which regions of MRI images are being used by our algorithm for classification, and found that AI-biopsy generally focuses on the same regions that trained uro-radiolosts focus on, with a few exceptions. In conclusion, AI-biopsy provides a data-driven and reproducible way to assess cancer aggressiveness from MRI images and a personalized strategy to reduce the number of unnecessary biopsies.

Published

2019

42. Bone biopsy protocol for advanced prostate cancer in the era of precision medicine

Author

Himisha Beltran, Bradley B. Pua, Brian D. Robinson, Juan Miguel Mosquera, Luis S Beltran, Olivier Elemento, David M. Nanus, Marc H. Schiffman, Andrea Sboner, Mark A. Rubin, Adam D. Talenfeld, Chantal Pauli, Alexandros Sigaras, Rohan Bareja, Verena Sailer, Kyungmouk Steve Lee, Brian L. Sullivan, Rema Rao, Scott T. Tagawa, Joanna Cyrta, Myriam Kossai, Shaham Beg, and Kenneth Eng

Subjects

Image-Guided Biopsy, Male, 0301 basic medicine, Cancer Research, Pathology, medicine.medical_specialty, Bone Neoplasms, SPOP, Bone and Bones, Article, 03 medical and health sciences, Prostate cancer, 0302 clinical medicine, Biopsy, medicine, Humans, PTEN, Prospective Studies, Precision Medicine, Aged, Aged, 80 and over, medicine.diagnostic_test, biology, business.industry, Prostate, High-Throughput Nucleotide Sequencing, Prostatic Neoplasms, RNA, Cancer, 500 Science, Middle Aged, medicine.disease, Magnetic Resonance Imaging, 030104 developmental biology, medicine.anatomical_structure, Oncology, Positron-Emission Tomography, 030220 oncology & carcinogenesis, biology.protein, 570 Life sciences, RNA extraction, Bone marrow, business

Abstract

BACKGROUND Metastatic biopsies are increasingly being performed in patients with advanced prostate cancer to search for actionable targets and/or to identify emerging resistance mechanisms. Due to a predominance of bone metastases and their sclerotic nature, obtaining sufficient tissue for clinical and genomic studies is challenging. METHODS Patients with prostate cancer bone metastases were enrolled between February 2013 and March 2017 on an institutional review board-approved protocol for prospective image-guided bone biopsy. Bone biopsies and blood clots were collected fresh. Compact bone was subjected to formalin with a decalcifying agent for diagnosis; bone marrow and blood clots were frozen in optimum cutting temperature formulation for next-generation sequencing. Frozen slides were cut from optimum cutting temperature cryomolds and evaluated for tumor histology and purity. Tissue was macrodissected for DNA and RNA extraction, and whole-exome sequencing and RNA sequencing were performed. RESULTS Seventy bone biopsies from 64 patients were performed. Diagnostic material confirming prostate cancer was successful in 60 of 70 cases (85.7%). The median DNA/RNA yield was 25.5 ng/μL and 16.2 ng/μL, respectively. Whole-exome sequencing was performed successfully in 49 of 60 cases (81.7%), with additional RNA sequencing performed in 20 of 60 cases (33.3%). Recurrent alterations were as expected, including those involving the AR, PTEN, TP53, BRCA2, and SPOP genes. CONCLUSIONS This prostate cancer bone biopsy protocol ensures a valuable source for high-quality DNA and RNA for tumor sequencing and may be used to detect actionable alterations and resistance mechanisms in patients with bone metastases. Cancer 2017. © 2017 American Cancer Society.

Published

2017

43. Molecular Evaluation of Low-grade Low-stage Endometrial Cancer With and Without Recurrence.

Author

Matrai, Cathleen E., Ohara, Kentaro, Eng, Kenneth Wha, Glynn, Shannon M., Chandra, Pooja, Chatterjee-Paer, Sudeshna, Motanagh, Samaneh, Mirabelli, Susanna, Kurtis, Boaz, He, Bing, Sigaras, Alexandros, Gupta, Divya, Chapman-Davis, Eloise, Holcomb, Kevin, Sboner, Andrea, Elemento, Olivier, Ellenson, Lora Hedrick, and Mosquera, Juan Miguel

Published

2022

44. Abstract IA33: Precision medicine at Weill Cornell Medicine/New York Presbyterian: Breaking silos, integrating resources, being inclusive

Author

Sboner, Andrea, primary, Sternberg, Cora, additional, Mosquera, Juan Miguel, additional, Song, Wei, additional, Kluk, Michael, additional, Tam, Wayne, additional, Rennert, Hanna, additional, Pisapia, David, additional, Catalano, Jeffrey, additional, Cheang, Gloria, additional, Wilkes, David, additional, Bulaon, Danielle, additional, Martin, M. Laura, additional, Sigaras, Alexandros, additional, Eng, Kenneth, additional, Bareja, Rohan, additional, Kim, Rob, additional, Loda, Massimo, additional, and Elemento, Olivier, additional

Published

2020

45. Biopsy-free prediction of prostate cancer aggressiveness using deep learning and radiology imaging

Author

Khosravi, Pegah, primary, Lysandrou, Maria, additional, Eljalby, Mahmoud, additional, Brendel, Matthew, additional, Li, Qianzi, additional, Kazemi, Ehsan, additional, Barnes, Josue, additional, Zisimopoulos, Pantelis, additional, Sigaras, Alexandros, additional, Ricketts, Camir, additional, Meleshko, Dimitri, additional, Yat, Andy, additional, McClure, Timothy D., additional, Robinson, Brian D., additional, Sboner, Andrea, additional, Elemento, Olivier, additional, Chughtai, Bilal, additional, and Hajirasouliha, Iman, additional

Published

2019

46. Integrative Molecular Analysis of Patients With Advanced and Metastatic Cancer

Author

Sailer, Verena, primary, Eng, Kenneth Wa, additional, Zhang, Tuo, additional, Bareja, Rohan, additional, Pisapia, David J., additional, Sigaras, Alexandros, additional, Bhinder, Bhavneet, additional, Romanel, Alessandro, additional, Wilkes, David, additional, Sticca, Evan, additional, Cyrta, Joanna, additional, Rao, Rema, additional, Sahota, Sheena, additional, Pauli, Chantal, additional, Beg, Shaham, additional, Motanagh, Samaneh, additional, Kossai, Myriam, additional, Fontugne, Jacqueline, additional, Puca, Loredana, additional, Rennert, Hanna, additional, Xiang, Jenny Zhaoying, additional, Greco, Noah, additional, Kim, Rob, additional, MacDonald, Theresa Y., additional, McNary, Terra, additional, Blattner-Johnson, Mirjam, additional, Schiffman, Marc H., additional, Faltas, Bishoy M., additional, Greenfield, Jeffrey P., additional, Rickman, David, additional, Andreopoulou, Eleni, additional, Holcomb, Kevin, additional, Vahdat, Linda T., additional, Scherr, Douglas S., additional, van Besien, Koen, additional, Barbieri, Christopher E., additional, Robinson, Brian D., additional, Fine, Howard Alan, additional, Ocean, Allyson J., additional, Molina, Ana, additional, Shah, Manish A., additional, Nanus, David M., additional, Pan, Qiulu, additional, Demichelis, Francesca, additional, Tagawa, Scott T., additional, Song, Wei, additional, Mosquera, Juan Miguel, additional, Sboner, Andrea, additional, Rubin, Mark A., additional, Elemento, Olivier, additional, and Beltran, Himisha, additional

Published

2019

47. Integrative Molecular Analysis of Patients With Advanced and Metastatic Cancer

Author

Howard A. Fine, Alessandro Romanel, Juan Miguel Mosquera, Marc H. Schiffman, Tuo Zhang, David S. Rickman, Mark A. Rubin, Rohan Bareja, Andrea Sboner, Wei Song, Mirjam Blattner-Johnson, Samaneh Motanagh, Shaham Beg, Kenneth Eng, Bhavneet Bhinder, Scott T. Tagawa, Christopher E. Barbieri, Olivier Elemento, Eleni Andreopoulou, Jenny Xiang, Terra J. McNary, Ana M. Molina, Joanna Cyrta, Himisha Beltran, Verena Sailer, Hanna Rennert, Theresa Y. MacDonald, Douglas S. Scherr, Chantal Pauli, Bishoy Faltas, Loredana Puca, Jeffrey P. Greenfield, Alexandros Sigaras, Manish A. Shah, Myriam Kossai, David Wilkes, Linda T. Vahdat, Qiulu Pan, David M. Nanus, Rob Kim, Koen van Besien, Francesca Demichelis, Allyson J. Ocean, Jacqueline Fontunge, Noah Greco, Rema Rao, Evan Sticca, Brian D. Robinson, David J. Pisapia, Sheena Sahota, and Kevin Holcomb

Subjects

0301 basic medicine, Oncology, Cancer Research, medicine.medical_specialty, business.industry, MEDLINE, Cancer, medicine.disease, Precision medicine, Advanced cancer, Article, Molecular analysis, Transcriptome, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, 030220 oncology & carcinogenesis, Internal medicine, medicine, business

Abstract

PURPOSE We developed a precision medicine program for patients with advanced cancer using integrative whole-exome sequencing and transcriptome analysis. PATIENTS AND METHODS Five hundred fifteen patients with locally advanced/metastatic solid tumors were prospectively enrolled, and paired tumor/normal sequencing was performed. Seven hundred fifty-nine tumors from 515 patients were evaluated. RESULTS Most frequent tumor types were prostate (19.4%), brain (16.5%), bladder (15.4%), and kidney cancer (9.2%). Most frequently altered genes were TP53 (33%), CDKN2A (11%), APC (10%), KTM2D (8%), PTEN (8%), and BRCA2 (8%). Pathogenic germline alterations were present in 10.7% of patients, most frequently CHEK2 (1.9%), BRCA1 (1.5%), BRCA2 (1.5%), and MSH6 (1.4%). Novel gene fusions were identified, including a RBM47-CDK12 fusion in a metastatic prostate cancer sample. The rate of clinically relevant alterations was 39% by whole-exome sequencing, which was improved by 16% by adding RNA sequencing. In patients with more than one sequenced tumor sample (n = 146), 84.62% of actionable mutations were concordant. CONCLUSION Integrative analysis may uncover informative alterations for an advanced pan-cancer patient population. These alterations are consistent in spatially and temporally heterogeneous samples.

Published

2019

48. Deep learning enables robust assessment and selection of human blastocysts after in vitro fertilization

Author

Nikica Zaninovic, Jonas Malmsten, Alexandros Sigaras, Pegah Khosravi, Qiansheng Zhan, Ehsan Kazemi, Olivier Elemento, Pantelis Zisimopoulos, Marcos Meseguer, Cristina Hickman, M. Toschi, Iman Hajirasouliha, Stuart Lavery, Lee Cooper, and Zev Rosenwaks

Subjects

animal structures, medicine.medical_treatment, media_common.quotation_subject, Decision tree, Medicine (miscellaneous), Health Informatics, Fertility, Biology, Machine learning, computer.software_genre, lcsh:Computer applications to medicine. Medical informatics, Article, 03 medical and health sciences, 0302 clinical medicine, Health Information Management, Image processing, medicine, Blastocyst, 030304 developmental biology, media_common, 0303 health sciences, Pregnancy, 030219 obstetrics & reproductive medicine, In vitro fertilisation, business.industry, Deep learning, Embryo, medicine.disease, 3. Good health, Computer Science Applications, medicine.anatomical_structure, embryonic structures, lcsh:R858-859.7, Artificial intelligence, business, computer, Embryo quality

Abstract

Visual morphology assessment is routinely used for evaluating of embryo quality and selecting human blastocysts for transfer after in vitro fertilization (IVF). However, the assessment produces different results between embryologists and as a result, the success rate of IVF remains low. To overcome uncertainties in embryo quality, multiple embryos are often implanted resulting in undesired multiple pregnancies and complications. Unlike in other imaging fields, human embryology and IVF have not yet leveraged artificial intelligence (AI) for unbiased, automated embryo assessment. We postulated that an AI approach trained on thousands of embryos can reliably predict embryo quality without human intervention. We implemented an AI approach based on deep neural networks (DNNs) to select highest quality embryos using a large collection of human embryo time-lapse images (about 50,000 images) from a high-volume fertility center in the United States. We developed a framework (STORK) based on Google’s Inception model. STORK predicts blastocyst quality with an AUC of >0.98 and generalizes well to images from other clinics outside the US and outperforms individual embryologists. Using clinical data for 2182 embryos, we created a decision tree to integrate embryo quality and patient age to identify scenarios associated with pregnancy likelihood. Our analysis shows that the chance of pregnancy based on individual embryos varies from 13.8% (age ≥41 and poor-quality) to 66.3% (age

Published

2019

49. Abstract IA33: Precision medicine at Weill Cornell Medicine/New York Presbyterian: Breaking silos, integrating resources, being inclusive

Author

Massimo Loda, David Wilkes, Andrea Sboner, Jeff Catalano, Rob Kim, David J. Pisapia, Cora N. Sternberg, Alexandros Sigaras, Gloria Cheang, Hanna Rennert, Wei Song, Michael J. Kluk, Rohan Bareja, M. Laura Martin, Kenneth Eng, Olivier Elemento, Wayne Tam, Danielle K. Bulaon, and Juan Miguel Mosquera

Subjects

Epidemiology, Computer science, business.industry, Precision medicine, Data science, Health equity, Test (assessment), Management information systems, Oncology, Knowledge base, Relevance (information retrieval), Personalized medicine, Citation, business

Abstract

Genomic testing with next-generation sequencing (NGS) has become a pillar of precision medicine, whose aim is to identify the genomic alterations of a patient’s tumor and provide guidelines to clinicians for optimal treatment. Clinical testing is typically performed with targeted panels interrogating a limited set of genes, selected based on our best scientific knowledge on their diagnostic or prognostic role. Despite more recent efforts to be more inclusive, most genomic databases have a limited representation of non-European populations, resulting in a biased selection of those genes, and the potential exclusion of under-represented groups from the benefit of precision medicine. At the Englander Institute for Precision Medicine (EIPM), we developed a whole-exome sequencing (WES) clinical test, EXaCT-1, which interrogates about 21,000 protein coding genes for single-nucleotide variants, indels, and copy number. EXaCT-1 enables an unbiased view of the genomic landscape of a patient’s tumor and allows for the collection of data to investigate genomic diversity. We also tackled one of the major barriers of precision medicine: the infrastructure to execute clinical sequencing. From ordering a test, collecting and processing samples, to the analysis and review of the data and generation of reports, several systems, procedures, and expertise are involved, and their effective coordination is a key component for the timely delivery of results. We have built a framework supporting the entire process of clinical genomic testing: a Laboratory Information Management System (LIMS) helps the clinical lab to receive orders, acquire and process specimens, and seamlessly communicate with the sequencers and the computational pipelines. Molecular pathologists use NGSReporter, a secure web application, to review the data and sign-out reports. NGSReporter integrates the results of a test with our Precision Medicine Knowledge Base (PMKB – https://pmkb.weill.cornell.edu), which classifies variants based on their relevance to clinical management and provides standardized interpretations. Reports are sent to the electronic health record (EHR) as PDFs as well as discrete entities, enabling queries such as: “Which Hispanic patients with KRAS mutations are diabetic?” Sharing de-identified data is also a key aspect of precision medicine. To this end, we provide our investigators and collaborators with a protected cBioPortal instance that, in addition to publicly available datasets, includes internal data, thus enabling the exploration of hypotheses about the role of alterations across different cohorts and clinical features. Being in the center of New York City has the added benefit of an ethnically diverse patient population. Finding the “right treatment for the right person and at the right time” requires a concerted effort of multiple partners. The EIPM infrastructure facilitates these efforts, with the goal of making precision medicine accessible to everyone. Citation Format: Andrea Sboner, Cora Sternberg, Juan Miguel Mosquera, Wei Song, Michael Kluk, Wayne Tam, Hanna Rennert, David Pisapia, Jeffrey Catalano, Gloria Cheang, David Wilkes, Danielle Bulaon, M. Laura Martin, Alexandros Sigaras, Kenneth Eng, Rohan Bareja, Rob Kim, Massimo Loda, Olivier Elemento. Precision medicine at Weill Cornell Medicine/New York Presbyterian: Breaking silos, integrating resources, being inclusive [abstract]. In: Proceedings of the Twelfth AACR Conference on the Science of Cancer Health Disparities in Racial/Ethnic Minorities and the Medically Underserved; 2019 Sep 20-23; San Francisco, CA. Philadelphia (PA): AACR; Cancer Epidemiol Biomarkers Prev 2020;29(6 Suppl_2):Abstract nr IA33.

Published

2020

50. Integrative Clinical Genomics of Advanced Prostate Cancer

Author

Yi-Mi Wu, Glenn C. Gaviola, Massimo Loda, Scott A. Tomlins, Raquel Perez-Lopez, Bruce Montgomery, Himisha Beltran, Jeremy C. Durack, Mary-Ellen Taplin, Michael J. Morris, David Smith, Charles L. Sawyers, Arul M. Chinnaiyan, Penny Flohr, Anuradha Gopalan, Howard I. Scher, Christine Brennan, Carrie Sougnez, Scott T. Tagawa, Roberta Ferraldeschi, Rohit Mehra, Stephen P. Balk, Manaswi Gupta, Eliezer M. Van Allen, Philip W. Kantoff, Rosina T. Lis, Evan Y. Yu, Jianjiong Gao, Kenneth J. Pienta, Xuhong Cao, Joaquin Mateo, Johann S. de Bono, Maha Hussain, Olivier Elemento, Stephen B. Solomon, Zafeiris Zafeiriou, Robert J. Lonigro, Wassim Abida, Hyojeong Mulcahy, Jake Vinson, Gerhardt Attard, Andrea Sboner, Nina Tunariu, Javed Siddiqui, Yu Chen, Michaela Bowden, Colin C. Pritchard, Lakshmi P. Kunju, Susana Miranda, Lawrence D. True, Felix Y. Feng, Heather H. Cheng, Kathleen A. Cooney, Peter S. Nelson, Francesca Demichelis, Pankaj Vats, Dan R. Robinson, Brian D. Robinson, Marc H. Schiffman, Mark A. Rubin, Kenneth Eng, Juan Miguel Mosquera, Stephen R. Plymate, Elahe A. Mostaghel, Robert K. Bradley, Alexandros Sigaras, Elisabeth I. Heath, Nikolaus Schultz, Heidi Dvinge, Victor E. Reuter, Dana E. Rathkopf, Levi A. Garraway, and David M. Nanus

Subjects

Male, Oncology, medicine.medical_specialty, Bioinformatics, General Biochemistry, Genetics and Molecular Biology, Cohort Studies, 03 medical and health sciences, Prostate cancer, 0302 clinical medicine, Prostate, Internal medicine, medicine, Humans, PTEN, Neoplasm Metastasis, 030304 developmental biology, 0303 health sciences, biology, Biochemistry, Genetics and Molecular Biology(all), Gene Expression Profiling, Precision medicine, medicine.disease, 3. Good health, Gene expression profiling, Prostatic Neoplasms, Castration-Resistant, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Mutation, Cohort, biology.protein, Cancer biomarkers, Cohort study

Abstract

SummaryToward development of a precision medicine framework for metastatic, castration-resistant prostate cancer (mCRPC), we established a multi-institutional clinical sequencing infrastructure to conduct prospective whole-exome and transcriptome sequencing of bone or soft tissue tumor biopsies from a cohort of 150 mCRPC affected individuals. Aberrations of AR, ETS genes, TP53, and PTEN were frequent (40%–60% of cases), with TP53 and AR alterations enriched in mCRPC compared to primary prostate cancer. We identified new genomic alterations in PIK3CA/B, R-spondin, BRAF/RAF1, APC, β-catenin, and ZBTB16/PLZF. Moreover, aberrations of BRCA2, BRCA1, and ATM were observed at substantially higher frequencies (19.3% overall) compared to those in primary prostate cancers. 89% of affected individuals harbored a clinically actionable aberration, including 62.7% with aberrations in AR, 65% in other cancer-related genes, and 8% with actionable pathogenic germline alterations. This cohort study provides clinically actionable information that could impact treatment decisions for these affected individuals.

Published

2015