Artificial intelligence (AI) has rapidly become a globally accessible resource for organizing and processing information, improving efficiency, and increasing effectiveness. In healthcare, AI has shown the potential to identify health risks at early stages and enhance current treatment processes. As AI becomes more widely integrated, it is essential to consider the benefits and risks associated with this largely unproven technology to create an environment where patients and providers universally and equitably experience its advantages.
AI is a transformative force in healthcare, demonstrating a range of potential applications in both patient care and clinical operations. One of AI’s most significant benefits is its ability to enhance diagnostic accuracy and support personalized treatment. AI applications, in medical imaging in particular, have demonstrated remarkable potential. Studies have shown that AI algorithms can assist in diagnosing complex conditions, including cancer, neurological disorders, and cardiovascular diseases, with high precision and efficiency.(1) AI can facilitate early detection and enhance patient care management, allowing healthcare professionals to address intricate medical issues more effectively.
In addition to its diagnostic capabilities, AI-driven predictive analytics can be crucial in revolutionizing patient management. AI tools are trained through medical data to identify trends, warning signs, and, ultimately, individuals at risk for developing specific health conditions, enabling early intervention and targeted treatment.(2) This proactive approach is crucial for reducing the incidence of severe health issues and optimizing healthcare resource utilization, ultimately driving better health outcomes and cost savings.
When considering the substantial benefits of AI, it is also important to identify and address the range of issues associated with its use. Chief among the concerns is the potential for algorithmic bias, where not all relevant patient characteristics may be appropriately identified or considered, leading to disparities in care delivery. Research has noted that AI systems may exhibit biased performance based on the demographic characteristics of patients, potentially impacting the accuracy and fairness of diagnoses.(3) Recently, the Department of Health and Human Services Office for Civil Rights issued a final rule regarding Section 1557 of the Affordable Care Act, which stipulated that patient support tools, and specifically AI algorithms, “must not discriminate against any individual on the basis of race, color, national origin, sex, age, or disability through the use of clinical algorithms in its decision-making.”(4) As AI continues to be incorporated into the healthcare environment, it is crucial to ensure that AI models are trained on diverse and representative data sets to mitigate these biases and provide equitable care for all patients.
Although many of the concerns around AI are related to patient care and diagnostic considerations, the information used to train AI algorithms is another critical point to consider. To provide diagnostic and treatment recommendations, AI systems are built to leverage extensive health data, which introduces concerns about potential data breaches and misuse. Effective data protection strategies and adherence to regulations, such as HIPAA guidelines, are critical for safeguarding patient information and maintaining trust in AI technologies.(5) On March 13, 2024, Utah passed the Artificial Intelligence Policy Act into law to address these consumer privacy and protection concerns by requiring disclosure of AI use to consumers.(6) As AI technology advances, legislation and comprehensive security measures on personal information will be necessary to address these concerns and protect sensitive health data.
The healthcare environment will change as AI systems continue to integrate into healthcare environments with an increasing range of functions and advancing capabilities. Through innovations such as health apps and wearable devices, real-time patient data has become more accessible than ever. AI’s unique ability to quickly process this real-time data can enhance treatment plans and disease management by analyzing genetic, environmental, and lifestyle data to provide the tailored therapies typically associated with precision medicine. AI’s remote patient monitoring capabilities could significantly impact the treatment of complex diseases such as cancer, improving outcomes through targeted interventions. By integrating AI with information libraries (e.g., the EHR), AI can assist in managing clinical workflows, allowing providers to focus more on patient care.(7)
Although AI offers significant opportunities for enhancing diagnostic capabilities and personalizing patient care, the potential advantages will not be fully realized until the ethical and regulatory risks are addressed. Developing equitable, secure, and transparent AI systems is fundamental to successfully integrating these technologies into healthcare. As AI technology progresses, focusing on overcoming these challenges will be vital to improving the quality and accessibility of healthcare for all.
References
Xu M, Ouyang Y, Yuan Z. Deep learning aided neuroimaging and brain regulation. Sensors. 2023; 23:4993. https://doi.org/10.3390/s23114993 .
Yadav N, Pandey S, Gupta A, Dudani P, Gupta S, Rangarajan K. Data privacy in healthcare: in the era of artificial intelligence. Indian Dermatol Online J. 2023;14:788-792. https://doi.org/10.4103/idoj.idoj_543_23 .
Mennella C, Maniscalco U, De Pietro G, Esposito M. Ethical and regulatory challenges of AI technologies in healthcare: a narrative review. Heliyon. 2024;10(4):e26297. https://doi.org/10.1016/j.heliyon.2024.e26297 .
Federal Register. Nondiscrimination in health programs and activities. Federal Register. www.federalregister.gov/documents/2024/05/06/2024-08711/nondiscrimination-in-health-programs-and-activities . Accessed August 22, 2024.
Green BL, Murphy A, Robinson E. Accelerating health disparities research with artificial intelligence. Front Digit Health. 2024;6:1330160. https://doi.org/10.3389/fdgth.2024.1330160 .
Van Demark D, Gottlieb D, Geetter J, Bank R. How the Utah Artificial Intelligence Policy Act impacts health professionals. mwe.com. https://www.mwe.com/insights/how-the-utah-artificial-intelligence-policy-act-impacts-health-professionals/ . Accessed August 23, 2024.
Whicher D, Ahmed M, Israni ST, Matheny M, eds. Artificial Intelligence in Health Care: The Hope, the Hype, the Promise, the Peril. NAM Special Publication. Washington, DC: National Academy of Medicine; 2019. https://nam.edu/wp-content/uploads/2021/07/4.3-AI-in-Health-Care-title-authors-summary.pdf . Accessed August 15, 2024.