Your search keyword '"Ashouri Choshali, Habibeh"' showing total 5 results

1. A certified de-identification system for all clinical text documents for information extraction at scale.

Author

Radhakrishnan, Lakshmi, Schenk, Gundolf, Muenzen, Kathleen, Oskotsky, Boris, Ashouri Choshali, Habibeh, Plunkett, Thomas, Israni, Sharat, and Butte, Atul J

Subjects

Patient Safety, clinical note text, de-identification, unstructured data, Philter

Abstract

ObjectivesClinical notes are a veritable treasure trove of information on a patient's disease progression, medical history, and treatment plans, yet are locked in secured databases accessible for research only after extensive ethics review. Removing personally identifying and protected health information (PII/PHI) from the records can reduce the need for additional Institutional Review Boards (IRB) reviews. In this project, our goals were to: (1) develop a robust and scalable clinical text de-identification pipeline that is compliant with the Health Insurance Portability and Accountability Act (HIPAA) Privacy Rule for de-identification standards and (2) share routinely updated de-identified clinical notes with researchers.Materials and methodsBuilding on our open-source de-identification software called Philter, we added features to: (1) make the algorithm and the de-identified data HIPAA compliant, which also implies type 2 error-free redaction, as certified via external audit; (2) reduce over-redaction errors; and (3) normalize and shift date PHI. We also established a streamlined de-identification pipeline using MongoDB to automatically extract clinical notes and provide truly de-identified notes to researchers with periodic monthly refreshes at our institution.ResultsTo the best of our knowledge, the Philter V1.0 pipeline is currently the first and only certified, de-identified redaction pipeline that makes clinical notes available to researchers for nonhuman subjects' research, without further IRB approval needed. To date, we have made over 130 million certified de-identified clinical notes available to over 600 UCSF researchers. These notes were collected over the past 40 years, and represent data from 2757016 UCSF patients.

Published

2023

2. Anisotropy profoundly alters stress fields within contractile cells and cell aggregates

Author

Ashouri Choshali, Habibeh, Billiar, Kristen L., and Rahbar, Nima

Published

2022

3. Heterogeneity Profoundly Alters Emergent Stress Fields in Constrained Multicellular Systems

Author

Goldblatt, Zachary E., Ashouri Choshali, Habibeh, Cirka, Heather A., Liang, Vivian, Wen, Qi, McCollum, Dannel, Rahbar, Nima, and Billiar, Kristen L.

Published

2020

4. Laser‐induced heating of polydimethylsiloxane‐magnetite nanocomposites for hyperthermic inhibition of triple‐negative breast cancer cell proliferation

Author

Onyekanne, Chinyerem E., primary, Salifu, Ali A., additional, Obayemi, John D., additional, Ani, Chukwuemeka J., additional, Ashouri Choshali, Habibeh, additional, Nwazojie, Chukwudalu C., additional, Onwudiwe, Killian C., additional, Oparah, Josephine C., additional, Ezenwafor, Theresa C., additional, Ezeala, Chukwudi C., additional, Odusanya, Olushola S., additional, Rahbar, Nima, additional, and Soboyejo, Winston O., additional

Published

2022

5. Traumatic Brain Injury and Risk of Incident Comorbidities.

Author

Halabi, Cathra, Izzy, Saef, DiGiorgio, Anthony M., Mills, Hunter, Radmanesh, Farid, Yue, John K., Ashouri Choshali, Habibeh, Schenk, Gundolf, Israni, Sharat, Zafonte, Ross, and Manley, Geoffrey T.

Published

2024