AI in Diagnostics: The Next Frontier in Precision Healthcare

ai in diagnostics market

The integration of Artificial Intelligence (AI) systems in medical diagnostics for advancing personalized patient care, along with offering accuracy and early detection. This AI technology utilizes machine learning and deep learning algorithms for processing wide datasets accurately and quickly for providing healthcare professionals with clear and valuable inputs in diagnostics, such as disease detection, analysis, and treatment plans for patients.

The market for AI in diagnostics is growing at a rapid rate, driven by the AI technology applications across diverse medical fields in managing diseases by early interventions and decreasing diagnostics-related errors, and improving detection of disease outcomes. As these AI tools utilize datasets to provide objective evaluation and decrease variability and diagnostic mistakes, compared to traditional methods, which depend on subjective interpretation and are not consistent, and can result in wrong diagnoses due to human errors. This is which is growing its adoption among the precision healthcare industry across specialties, inclusive of pathology, radiology, dermatology, and cardiology, among others, for precise medicine to improve patient outcomes.

Additionally, the growing investment and new innovations by companies in the advancement of AI systems that could increase precise healthcare applications are also increasing the market requirement in the years to come. The market is estimated to hold a strong CAGR of 34.46%, reaching $10.140 billion by 2030 from USD 2.310 billion in 2025.

The following are the benefits of AI in Diagnostics, increasing their demand across different applications:

  • Advanced AI solutions improve the analysis of medical images, assisting radiologists in recognizing abnormalities.
  • AI processes a large amount of data from electronic health records (EHRs), offering interpretations of diagnoses that are complex to attain manually.
  •  AI systems offer evidence-based advice to healthcare professionals for assisting them in making informed decisions.
  • The predictive model of AI works in data-backed forecasts of disease detection and progression, and assists in preventive care.

The following trends across diverse medical fields will shape the demand for AI in Diagnostics over the next five years.

Major Application of AI in Diagnostics Acceleration its Demand in the Healthcare Sector:

  • Pathology and Histopathology

The pathology branch works in the examination of tissue samples under a microscope for identifying the specific cellular and structural abnormalities that are indicators of changes that are characteristic of diseases, including cancer. Meanwhile, histopathology is a critical diagnostic tool for diverse health-related issues, including cancerous tissue identification and characterization, which assist medical professionals in demonstrating the type and stage of cancer.

The rise in integration of innovative solutions like advanced AI algorithms and computer-aided diagnostic techniques is transforming computational pathology and histopathology with AI-enabled diagnostics for advancing precision medicine for cancer.

The AI in diagnostics is expected to grow in this field due to the rise in cancer cases, and these systems promote the precision identification of cancer subtypes and provide personalized treatment plans for patients. According to data from the American Cancer Society (ACS) reported that new cancer cases in the United States were 2,001,140, while projected deaths due to cancer were accounted for 611,720 in 2024.

Meanwhile, the World Health Organization (WHO) stated in February 2024 data that there were 20 million new cancer cases globally in 2022, with 9.7 million cancer deaths, with three major cancer types being lung, breast, and colorectal cancers. Lung cancer was 2.5 million new cases globally, while breast cancer and colorectal cancer new cases were reported for 2.3 million and 1.9 million, respectively, in 2022.

The organization also highlighted that there is a significant increase in cancer cases, with a 77 percent rise by 2050 from 2022 cases. They projected that new cancer cases will exceed 35 million in 2050. This leads to an increase in the adoption of AI in diagnostics for facilitating early detection of these diseases by efficiently and accurately analyzing cellular patterns of cellular samples. Furthermore, these AI streamlines the workflow for medical professionals while also delivering data-backed and faster outcomes and decreasing manual tasks that work in promoting the efficiency of the diagnostics laboratories.

  • Cardiology and Cardiovascular Diagnostics

The AI is increasingly rising in adoption by the cardiology field for effective prediction of cardiovascular risks in patients and detection of abnormalities in echocardiograms and electrocardiograms. The deep learning AI models are better than traditional methods as they analyze ECG data to identify the risk factors for heart diseases and are more sensitive.

Additionally, with the rise in cardiovascular disease cases, there will be an increase in AI in diagnostics for providing preventive measures, which can enhance patient outcomes. According to the University of Utah’s report of heart disease statistics for 2024, coronary artery disease causes 40 percent of heart-related deaths every year in the United States.

Moreover, as per the U.S. Centers for Disease Control and Prevention data of October 2024, a person dies every 33 seconds in the United States due to cardiovascular disease, and it is a leading cause of death in the country. Additionally, about 702,880 individuals died from heart disease, which is equivalent to 1 in every 5 deaths in 2022 in the USA.

Further, each year, approximately 805,000 individuals suffer from a heart attack in the United States, while coronary artery disease causes 371,506 deaths in 2022.   This is expected to promote the AI in the diagnostics market for supporting early detection and decreasing the severe cardiovascular complications in patients, as reducing risk assessment. According to an article published in the American Heart Association in 2024, stated that AI worked on predicting cardiac arrest more than 50 minutes before its onset in about 91 percent of patients in the pediatric ICU, in comparison with prediction by clinicians was 6 percent, this represents a positive predictive analysis in supporting effective and quick analysis and detection in preventing the risk of cardiovascular diseases.

  • Medical Imaging and Radiology

The AI technologies are increasingly leveraged in medical imaging and radiology for the analysis of medical images such as CT scans, X-rays, and MRIs. The AI in the diagnostics market is expected to grow as it streamlines workflow in this medical field by providing automated repetitive work like lesion detection and segmentation of images, which allows radiologists to focus on more complex medical cases. This also supports informed decision making for the radiologist, and the AI-enabled cloud solutions in diagnostics also offer remote diagnostics in underserved regions.

In addition, the companies are increasingly enhancing the performance of AI in the diagnosis of medical images and the reduction of cost and time, which is beneficial for patient treatment. For instace, in February 2025, Royal Philips announced the launch of its SmartSpeed Precise, which is integrated with Dual-AI driven engines, to enhance MRI to advance the outcome of patients.  This technological innovation integrates advanced AI into its MRI system to offer faster scanning and enhanced image quality. Moreover, the company’s AI-enabled MRI workplace software provides decreased scan time, enhanced patient results with more accurate diagnoses. These developments offer advancement of generative AI and learning technologies for enhancing diagnostic precision with reduced healthcare cost, which in turn will potentially grow the AI in the diagnostic market in the future.

The Following Trends are advancing the deployment of AI technologies in Diagnostics:

  • Integration with Healthcare Systems: These AI tools offer increased integration with systems like EHRs and LIMs, which work in making a healthcare ecosystem that provides increased data analysis and work efficiency in precision healthcare.
  • Increase the Focus on Underserved and Remote Regions: The remote, rural, and underserved locations have limited medical infrastructure, which promotes the AI adoption for connecting to these regions and also offering access to enhanced diagnostics in these regions.
  • Enhancement in Multimodal Data Analysis: The AI technologies feature of enabling diverse types of data, such as genomics, imaging, and other health determinants, which drives the growth of AI in the diagnostics market, which will promote accurate and personalized diagnosis.
  • Rise in Commercialization and Investment: The growing utilization of AI technologies in diagnostics is attracting investments by major market players such as Microsoft and Google for the development of advanced diagnostic tools. In June 2025, Microsoft AI teams shared the MAI-DxO, which is a Microsoft AI diagnostics orchestrator that enables the provision of diagnoses for more than 85 percent of NEJM cases, which is more than 4 times then analysis from an experienced physician. This will decrease healthcare costs by providing cost-effective tests.

Competitive Landscape by Industry Leaders

The AI in Diagnostics market is undergoing a huge transformation and will witness robust growth and innovation. Listed below are a few market players offering new product launches and technological innovation:

  • In June 2025, NeuralCure AI announced the launch of its first diagnostic and digital twin OS for preventive healthcare infrastructure. It offers a self-navigating system with the utilization of AI technologies that bypasses the traditional method and is estimated to account for USD590 billion by 2029.
  • In April 2025, Royal Philips, which is a leader in health technology, announced the launch of the upgrade of its AI-enabled Elevate Platform on the EPIQ Elite ultrasound imaging platform at UltraFest 2025 held in India. This innovative solution focuses on enhancing efficient diagnostics and streamlining workflows, along with enabling timely decision-making for clinicians for a large range of patients.