CH-2 The Future of Gen AI as a Disease Prevention Tool: Opportunities, Challenges, and Ethics
SCURS Disciplines
Medicine & Health Sciences
Document Type
Oral Presentation
Abstract
Introduction/Background:
Early disease detection is crucial for improving patient outcomes, reducing healthcare costs, and enhancing treatment efficiency. Traditional diagnostic methods, like lab tests and imaging, often face challenges related to cost, accuracy, and time delays. Generative Artificial Intelligence (Gen AI) offers a transformative solution by providing advanced predictive capabilities to analyze complex medical data and identify illnesses before symptoms appear, especially rare and complex diseases that traditional methods often miss.
Hypothesis or Research Question:
This research explores the potential of Generative AI in early disease detection, focusing on its ability to improve diagnostic accuracy, speed up identification, and enable personalized treatment. The central question is: Can Generative AI provide more accurate and timely disease detection than traditional methods?
Methods:
This research reviews literature on AI applications in early disease detection, focusing on case studies, advancements in machine learning, medical imaging, and predictive modeling. It also examines Gen AI's role in rare disease detection, genomics, and clinical diagnostics, while addressing challenges like data privacy, algorithmic bias, and the need for diverse training datasets.
Results: The findings show that Gen AI can greatly improve early disease detection by enhancing diagnostic accuracy, especially for rare diseases. AI models analyze large datasets, like genetic data and medical imaging, to identify patterns and predict outcomes more precisely than traditional methods. Gen AI also speeds up diagnostics and offers personalized treatment recommendations, particularly in cases where early intervention can significantly impact disease progression.
Conclusion or Discussion: Generative AI is revolutionizing early disease detection, particularly in some areas like cancer diagnosis. In the past, diagnosing cancer, especially in its early stages, often relied on traditional imaging and biopsy techniques, which could miss subtle signs or lead to delayed diagnoses. This delay reduced the chances of successful treatment, as cancer often progresses rapidly once symptoms appear.
Today, AI-powered models can analyze medical imaging and genetic data in real time, identifying signs of cancer at much earlier stages than traditional methods. For example, in breast cancer detection, AI models have been shown to detect tumors in mammograms with higher accuracy, allowing for earlier intervention and more personalized treatment plans. These advancements improve patient outcomes by enabling quicker diagnoses, targeted therapies, and timely treatments that significantly increase survival rates.
This research highlights how Generative AI is reshaping early disease detection, offering more precise, faster, and personalized approaches to diseases like cancer diagnosis. By understanding its potential and challenges, healthcare professionals, researchers, and policymakers can ensure the ethical integration of AI, driving a future where diseases are detected sooner, treatments are more effective, and patient outcomes are dramatically improved.
Keywords
Generative AI (Gen AI) Early Disease Detection Medical Imaging Predictive Modeling Diagnostic Accuracy Artificial Intelligence in Healthcare Personalized Treatment Rare Disease Detection Genomics Clinical Diagnostics Algorithmic Bias Data Privacy in AI Cancer Diagnosis AI in Medical Research Healthcare Innovation
Start Date
11-4-2025 2:25 PM
Location
CASB 102
End Date
11-4-2025 2:40 PM
CH-2 The Future of Gen AI as a Disease Prevention Tool: Opportunities, Challenges, and Ethics
CASB 102
Introduction/Background:
Early disease detection is crucial for improving patient outcomes, reducing healthcare costs, and enhancing treatment efficiency. Traditional diagnostic methods, like lab tests and imaging, often face challenges related to cost, accuracy, and time delays. Generative Artificial Intelligence (Gen AI) offers a transformative solution by providing advanced predictive capabilities to analyze complex medical data and identify illnesses before symptoms appear, especially rare and complex diseases that traditional methods often miss.
Hypothesis or Research Question:
This research explores the potential of Generative AI in early disease detection, focusing on its ability to improve diagnostic accuracy, speed up identification, and enable personalized treatment. The central question is: Can Generative AI provide more accurate and timely disease detection than traditional methods?
Methods:
This research reviews literature on AI applications in early disease detection, focusing on case studies, advancements in machine learning, medical imaging, and predictive modeling. It also examines Gen AI's role in rare disease detection, genomics, and clinical diagnostics, while addressing challenges like data privacy, algorithmic bias, and the need for diverse training datasets.
Results: The findings show that Gen AI can greatly improve early disease detection by enhancing diagnostic accuracy, especially for rare diseases. AI models analyze large datasets, like genetic data and medical imaging, to identify patterns and predict outcomes more precisely than traditional methods. Gen AI also speeds up diagnostics and offers personalized treatment recommendations, particularly in cases where early intervention can significantly impact disease progression.
Conclusion or Discussion: Generative AI is revolutionizing early disease detection, particularly in some areas like cancer diagnosis. In the past, diagnosing cancer, especially in its early stages, often relied on traditional imaging and biopsy techniques, which could miss subtle signs or lead to delayed diagnoses. This delay reduced the chances of successful treatment, as cancer often progresses rapidly once symptoms appear.
Today, AI-powered models can analyze medical imaging and genetic data in real time, identifying signs of cancer at much earlier stages than traditional methods. For example, in breast cancer detection, AI models have been shown to detect tumors in mammograms with higher accuracy, allowing for earlier intervention and more personalized treatment plans. These advancements improve patient outcomes by enabling quicker diagnoses, targeted therapies, and timely treatments that significantly increase survival rates.
This research highlights how Generative AI is reshaping early disease detection, offering more precise, faster, and personalized approaches to diseases like cancer diagnosis. By understanding its potential and challenges, healthcare professionals, researchers, and policymakers can ensure the ethical integration of AI, driving a future where diseases are detected sooner, treatments are more effective, and patient outcomes are dramatically improved.