Verification of statistical oncological endpoints on encrypted data: Confirming the feasibility of real-world data sharing without the need to reveal protected patient information.

Waissengrin, Barliz; Mirelman, Dan; Bokstein, Felix; Blumenthal, Deborah T.; Wolf, Ido; Pelles, Sharon; Duchin, Zohar; Liram, Lior; Polyakov, Yuriy; Blatt, Marcelo

doi:10.1200/jco.2021.39.15_suppl.e18725

Cited by 2 publications

(1 citation statement)

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“…• Privacy-Preserving Analysis on Medical data A very recent work [24] on privacy-preserving analysis on med-ical data was done via multiparty homomorphic encryption. They are using collaborative (interactive) version of bootstrapping as the original MPHE [4] proposed.…”

Section: Discussion and Conclusion A Applications Of Tfhe-based Multi...mentioning

confidence: 99%

Efficient TFHE Bootstrapping in the Multiparty Setting

Park,

Rovira

2023

IEEE Access

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TFHE is a practical fully homomorphic encryption scheme (FHE) capable of computing any boolean gate or non-linear function. The scheme was originally designed to work for the single key setting. To implement realistic application scenarios, it is necessary to extend it to handle multiple users. In this paper, we introduce a new approach to generate TFHE bootstrapping keys for (predefined) multiple users. Hence, a fixed number of users can enjoy the same level of efficiency as in the single key setting, keeping their individual input privacy. Our construction relies on a novel algorithm called homomorphic indicator, which can be of independent interest. We provide a detailed analysis of the noise growth and a set of secure parameters suitable to be used in practice. Moreover, we compare the complexity of our technique with other state-of-the-art constructions and show which method performs better depending on the parameter sets. We also provide a prototype implementation of our technique. To the best of our knowledge, this is the first implementation of TFHE in the multiparty setting.

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Section: Discussion and Conclusion A Applications Of Tfhe-based Multi...mentioning

confidence: 99%

Efficient TFHE Bootstrapping in the Multiparty Setting

Park,

Rovira

2023

IEEE Access

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Collaborative privacy-preserving analysis of oncological data using multiparty homomorphic encryption

Geva,

Gusev,

Polyakov

et al. 2023

Proc. Natl. Acad. Sci. U.S.A.

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Real-world healthcare data sharing is instrumental in constructing broader-based and larger clinical datasets that may improve clinical decision-making research and outcomes. Stakeholders are frequently reluctant to share their data without guaranteed patient privacy, proper protection of their datasets, and control over the usage of their data. Fully homomorphic encryption (FHE) is a cryptographic capability that can address these issues by enabling computation on encrypted data without intermediate decryptions, so the analytics results are obtained without revealing the raw data. This work presents a toolset for collaborative privacy-preserving analysis of oncological data using multiparty FHE. Our toolset supports survival analysis, logistic regression training, and several common descriptive statistics. We demonstrate using oncological datasets that the toolset achieves high accuracy and practical performance, which scales well to larger datasets. As part of this work, we propose a cryptographic protocol for interactive bootstrapping in multiparty FHE, which is of independent interest. The toolset we develop is general-purpose and can be applied to other collaborative medical and healthcare application domains.

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Verification of statistical oncological endpoints on encrypted data: Confirming the feasibility of real-world data sharing without the need to reveal protected patient information.

Cited by 2 publications

References 0 publications

Efficient TFHE Bootstrapping in the Multiparty Setting

Efficient TFHE Bootstrapping in the Multiparty Setting

Collaborative privacy-preserving analysis of oncological data using multiparty homomorphic encryption

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