A Privacy-Enhancing Image Encryption Algorithm for Securing Medical Images

Ammar Odeh; Anas Abu Taleb; Tareq Alhajahjeh; Francisco Navarro; Aladdin Ayesh; Miad Faezipour

doi:10.3390/sym17091470

A Privacy-Enhancing Image Encryption Algorithm for Securing Medical Images

Ammar Odeh
, Anas Abu Taleb
, Tareq Alhajahjeh
, Francisco Navarro
, Aladdin Ayesh
, Miad Faezipour

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

The growing digitization of healthcare has amplified concerns about the privacy and security of medical images, as conventional encryption methods often fail to provide sufficient protection. To address this gap, we propose a privacy-enhancing image encryption algorithm that integrates SHA-256 hashing, block-wise processing (16 × 16 with zero-padding), DNA encoding with XOR operations, and logistic map-driven key generation into a unified framework. This synergistic design balances efficiency and robustness by embedding data integrity verification, ensuring high sensitivity to initial conditions, and achieving strong diffusion through dynamic DNA rules. Experimental results confirm that the scheme achieves high NPCR (0.997), UACI (0.289), entropy (7.995), and PSNR (27.89 dB), outperforming comparable approaches while maintaining scalability to large image formats and robustness under compression (JPEG quality factors 90 and 70). These findings demonstrate that the proposed method offers an efficient and resilient solution for securing medical images, ensuring confidentiality, integrity, and practical applicability in real-world healthcare environments.

Original language	English
Article number	1470
Number of pages	22
Journal	Symmetry
Volume	17
Issue number	9
DOIs	https://doi.org/10.3390/sym17091470
Publication status	Published - 6 Sept 2025

Bibliographical note

The authors sincerely acknowledge the Princess Sumaya University for Technology for supporting the steps of this work.

Data Availability Statement

Publicly available datasets were analyzed in this study. This data can be found here: https://medpix.nlm.nih.gov/home, accessed on 11 November 2023.

Funding

This research received no external funding.

Keywords

DNA coding
SHA-256
chaos mapping
image encryption
logistic map
medical images
permutation and diffusion

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Odeh_etal_S_A_Privacy-Enhancing_Image_VOR
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Cite this

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title = "A Privacy-Enhancing Image Encryption Algorithm for Securing Medical Images",

abstract = "The growing digitization of healthcare has amplified concerns about the privacy and security of medical images, as conventional encryption methods often fail to provide sufficient protection. To address this gap, we propose a privacy-enhancing image encryption algorithm that integrates SHA-256 hashing, block-wise processing (16 × 16 with zero-padding), DNA encoding with XOR operations, and logistic map-driven key generation into a unified framework. This synergistic design balances efficiency and robustness by embedding data integrity verification, ensuring high sensitivity to initial conditions, and achieving strong diffusion through dynamic DNA rules. Experimental results confirm that the scheme achieves high NPCR (0.997), UACI (0.289), entropy (7.995), and PSNR (27.89 dB), outperforming comparable approaches while maintaining scalability to large image formats and robustness under compression (JPEG quality factors 90 and 70). These findings demonstrate that the proposed method offers an efficient and resilient solution for securing medical images, ensuring confidentiality, integrity, and practical applicability in real-world healthcare environments.",

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AU - Navarro, Francisco

AU - Ayesh, Aladdin

AU - Faezipour, Miad

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A Privacy-Enhancing Image Encryption Algorithm for Securing Medical Images

Abstract

Bibliographical note

Data Availability Statement

Funding

Keywords

Access to Document

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