Leveraging GenAI for Clinical Data Analysis: Applications and Challenges in Real-Time Patient Monitoring

Pramod Kumar Voola; Aravind Ayyagiri; Aravindsundeep Musunuri; Anshika Aggarwal; Shalu Jain

doi:10.36676/mdmp.v1.i2.21

Authors

Pramod Kumar Voola Burugupally Residency, Gachibowli, Hyderabad, Telangana, India,
Aravind Ayyagiri Independent Researcher, Yapral, Hyderabad, 500087, Telangana,
Aravindsundeep Musunuri Independent Researcher, West Godavari District. Andhra Pradesh,
Anshika Aggarwal Independent Researcher, Maharaja Agrasen Himalayan Garhwal University, Dhaid Gaon, Block Pokhra , Uttarakhand, India ,
Shalu Jain Reserach Scholar, Maharaja Agrasen Himalayan Garhwal University, Pauri Garhwal, Uttarakhand

DOI:

https://doi.org/10.36676/mdmp.v1.i2.21

Keywords:

Generative artificial intelligence, analysis of clinical data, monitoring of patients in real-time,, prediction of data, generation of synthetic data

Abstract

Generative artificial intelligence is a term that encompasses a wide range of cutting-edge technologies, including advanced machine learning algorithms and natural language processing models. These technologies have the potential to generate artificial data, predict the outcomes of medical tests, and provide valuable insights derived from vast datasets. Regarding real-time patient monitoring, GenAI has the power to study uninterrupted streams of health data, including vital signs and electronic health records (EHRs), in order to discover patterns, anticipate probable health concerns, and ease decision-making operations. The use of this capability not only makes it possible to detect medical conditions in a timely manner, but it also enhances the personalisation of treatment plans, which ultimately leads to improved outcomes for patients and improves the efficiency with which healthcare is provided.

Among the many applications of GenAI in the realm of real-time monitoring, the contribution it makes to predictive analytics is particularly noteworthy. In order to facilitate quick intervention, the analysis of historical and real-time data using GenAI models enables the prediction of patient deterioration or sickness development, which in turn makes it possible to perform the forecast. To be more specific, GenAI has the capability to predict unfavourable outcomes and suggest preventive measures in the treatment of chronic diseases such as diabetes or heart failure. As a result, patients are able to spend less time in the hospital and experience an improvement in their quality of life.

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