Dual And Multi Energy Computed Tomography Market – Global Industry Size, Share, Trends, Opportunity, & Forecast Segmented By Type (Prospective, Retrospective), By Application (Oncology, Neurology, Cardiology, Vascular, Musculoskeletal, Others), By End User (Hospital, Diagnostic Imaging Centres, Ambulatory Imaging Centres), By Region and Competition, 2021-2031F

Forecast Period	2027-2031
Market Size (2025)	USD 923.74 Million
CAGR (2026-2031)	7.41%
Fastest Growing Segment	Prospective
Largest Market	Asia Pacific
Market Size (2031)	USD 1418.46 Million

Market Overview

The Global Dual And Multi Energy Computed Tomography Market will grow from USD 923.74 Million in 2025 to USD 1418.46 Million by 2031 at a 7.41% CAGR. Dual and Multi Energy Computed Tomography (DECT) is defined as an advanced diagnostic imaging modality that utilizes two or more distinct X-ray energy spectra to differentiate materials based on their atomic numbers, thereby enabling superior tissue characterization and artifact reduction compared to conventional single-energy systems. The primary drivers supporting market growth include the rising prevalence of chronic pathologies such as cancer and cardiovascular diseases, which necessitate the high-precision diagnostics and quantitative capabilities that spectral imaging provides. Additionally, the increasing global geriatric population and the healthcare sector's shift towards value-based care necessitate efficient workflows and reduced contrast media volumes, further accelerating the adoption of these sophisticated systems.

However, the expansion of the market is significantly challenged by a critical shortage of skilled radiologic professionals required to operate these complex modalities and interpret the resultant spectral data. This workforce constraint limits the capacity of healthcare facilities to scale their advanced diagnostic services. According to the American College of Radiology, in 2024, a workforce survey revealed that 69% of radiologists reported that their organizations were understaffed, creating a substantial operational bottleneck that could impede the broader deployment and utilization of dual-energy technologies.

Key Market Drivers

Rapid technological advancements in photon-counting and spectral detectors are fundamentally altering the capabilities of diagnostic imaging. These innovations enable the direct conversion of X-ray photons into electrical signals, which significantly improves spatial resolution and reduces electronic noise compared to traditional energy-integrating detectors. This technological leap allows for more precise material decomposition, essential for identifying tissue composition in complex clinical cases. Manufacturers are aggressively funding these developments to maintain competitive advantages and enhance system performance. According to GE HealthCare, February 2024, in the '2023 Annual Report', the company invested USD 1.2 billion in research and development activities, a strategic allocation aimed at accelerating the delivery of precision care technologies and next-generation imaging architectures.

The rising global burden of chronic diseases and oncological conditions concurrently functions as a primary catalyst for market adoption. Healthcare providers increasingly require the quantitative accuracy of multi-energy systems to detect malignancies at earlier stages and monitor treatment efficacy with high fidelity. This demand is particularly acute in regions facing demographic shifts and increasing patient volumes. According to the American Cancer Society, January 2024, in the 'Cancer Facts & Figures 2024' report, projections indicate that 2,001,140 new cancer cases will be diagnosed in the United States, highlighting the critical need for advanced diagnostic modalities. To accommodate this growing pressure on healthcare systems, nations are upgrading their medical infrastructure; according to the UK Government, in March 2024, the Spring Budget allocated GBP 3.4 billion to modernize NHS IT systems and diagnostic equipment, ensuring facilities can support high-throughput imaging requirements.

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Key Market Challenges

The scarcity of skilled radiologic professionals poses a severe constraint on the growth of the Global Dual and Multi Energy Computed Tomography Market. These advanced imaging systems require specialized training for both image acquisition and the interpretation of complex spectral data. When healthcare facilities face significant staffing deficits, the existing workforce is often overwhelmed by routine diagnostic volume, leaving little capacity for the extensive training required to master spectral imaging workflows. Consequently, hospitals may defer investing in high-end dual-energy systems, opting instead for standard scanners that align more closely with their available operational bandwidth.

This workforce limitation is substantiated by recent industry data indicating a deepening crisis in scanner operations. According to the American Society of Radiologic Technologists, in 2025, the national vacancy rate for computed tomography technologists reached a record high of 19.4%. This statistic underscores a critical operational bottleneck; without adequate personnel to act as primary operators for CT suites, healthcare providers are unable to maximize the throughput and diagnostic potential of advanced technology. This gap between technological capability and workforce availability directly restricts the scalable adoption of dual-energy platforms.

Key Market Trends

The Integration of Artificial Intelligence in Image Reconstruction is fundamentally reshaping the operational capabilities of the Global Dual And Multi Energy Computed Tomography Market by addressing the historical trade-off between image noise and radiation exposure. Deep learning algorithms are increasingly embedded within reconstruction chains to selectively suppress noise in low-energy spectral datasets, enabling clinicians to obtain high-fidelity material decomposition without increasing the radiation burden on patients. This algorithmic advancement is particularly vital for longitudinal monitoring and pediatric cases where cumulative dose management is critical. According to The Imaging Wire, September 2024, in the 'AI Recon Cuts CT Radiation Dose' article, a clinical study utilizing deep learning reconstruction protocols demonstrated a 42% reduction in radiation dose during computed tomography angiography examinations while maintaining diagnostic image quality compared to standard iterative techniques.

Simultaneously, the Commercialization of Photon-Counting Detector Technology is shifting from niche research applications to broad clinical deployment through the introduction of versatile system configurations. Market players are aggressively expanding their product portfolios to include single-source photon-counting scanners, effectively lowering the cost and infrastructure barriers that previously limited this technology to major academic centers. This strategic diversification allows community hospitals and emergency departments to integrate high-resolution spectral capabilities into high-throughput workflows. According to Siemens Healthineers, December 2024, in the 'Expands Photon-Counting CT Portfolio' press release, the company reported that more than one million patients have been scanned worldwide using its photon-counting systems, confirming the rapid scalability and market acceptance of this next-generation hardware.

Segmental Insights

The Prospective segment is positioned as the fastest-growing category in the Global Dual and Multi Energy Computed Tomography Market, driven by the increasing demand for radiation dose reduction during diagnostic procedures. This acquisition mode selectively activates X-ray exposure only during specific phases of the cardiac cycle, significantly limiting patient exposure compared to continuous retrospective techniques. The adoption of this method is accelerated by safety recommendations from organizations like the U.S. Food and Drug Administration, which advocate for protocols that minimize radiation risks. Consequently, medical facilities are prioritizing prospective technologies to ensure compliance with strict safety standards while maintaining diagnostic utility.

Regional Insights

Asia Pacific leads the global dual and multi energy computed tomography market due to rapid expansion in healthcare infrastructure and a rising burden of chronic diseases. Governments in major economies such as China and India are prioritizing medical modernization, resulting in increased procurement of advanced diagnostic equipment. Regulatory bodies like the National Medical Products Administration in China facilitate the efficient approval and deployment of these imaging systems, supporting market expansion. Furthermore, the growing focus on early disease detection and the widespread development of hospital networks contribute significantly to the high demand for dual energy technologies across the region.

Recent Developments

• In December 2025, Royal Philips launched Verida, an innovative spectral computed tomography scanner fully powered by artificial intelligence, during the Radiological Society of North America annual meeting. The system integrated advanced deep learning algorithms directly into the image reconstruction chain to optimize spectral data quality while minimizing noise and radiation exposure. Verida was designed to accelerate clinical workflows by processing images significantly faster than previous generations, enabling high-throughput examinations. This development aimed to establish spectral imaging as a routine standard of care for complex diagnostic tasks, particularly in cardiology, by enhancing image clarity and operational efficiency.
• In November 2025, GE HealthCare unveiled the Photonova Spectra, its next-generation photon-counting computed tomography scanner, ahead of the Radiological Society of North America annual meeting. This system was engineered with the company’s proprietary Deep Silicon detector technology to achieve exceptional spatial and spectral resolution. The scanner featured a high-speed eight-bin photon detection platform designed to capture significantly more data than traditional systems, facilitating superior material separation and tissue characterization. The launch targeted enhanced diagnostic capabilities in neurology, oncology, and cardiology, positioning the technology to deliver ultra-high-definition imaging and improve clinical decision-making through precise anatomical visualization.
• In December 2024, Siemens Healthineers expanded its photon-counting computed tomography portfolio by launching the Naeotom Alpha.Pro and Naeotom Alpha.Prime systems at the Radiological Society of North America annual meeting. These new scanners represented a significant broadening of the Naeotom Alpha class, with the Alpha.Pro offering dual-source capabilities for high-speed imaging and the Alpha.Prime serving as the industry's first single-source photon-counting CT scanner for general use. Both systems leveraged quantum-counting detector technology to provide high-resolution visualization of small anatomical structures at reduced radiation doses, aiming to improve diagnostic precision and streamline workflows across diverse clinical settings.
• In November 2024, Canon Medical Systems Corporation entered a research collaboration with Penn Medicine to advance the clinical application of photon-counting computed tomography. This partnership followed the installation of the company's fourth commercially developed photon-counting CT system at the Hospital of the University of Pennsylvania. The collaboration focused on accelerating the development of this technology by leveraging clinical feedback to refine diagnostic performance in cardiac, chest, and musculoskeletal imaging. The system utilized a proprietary detector material designed to maximize photon capture and dose efficiency, promising higher resolution images to support more accurate diagnoses in complex clinical cases.

Key Market Players

• Koninklijke Philips N.V.
• GE Healthcare Technologies, Inc.
• Siemens Healthineers AG
• Canon Medical Systems Corporation
• Fujifilm Holdings Corp.
• Shimadzu Corp.
• Koning Corp.
• Neusoft Medical Systems Co. Ltd.
• CareStream Health Inc.
• Planmeca Group

By Type	By Application	By End User	By Region
Prospective Retrospective	Oncology Neurology Cardiology Vascular Musculoskeletal Others	Hospital Diagnostic Imaging Centres Ambulatory Imaging Centres	North America Europe Asia Pacific South America Middle East & Africa

Report Scope:

In this report, the Global Dual And Multi Energy Computed Tomography Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

• Dual And Multi Energy Computed Tomography Market, By Type:

• Prospective
• Retrospective

• Dual And Multi Energy Computed Tomography Market, By Application:

• Oncology
• Neurology
• Cardiology
• Vascular
• Musculoskeletal
• Others

• Dual And Multi Energy Computed Tomography Market, By End User:

• Hospital
• Diagnostic Imaging Centres
• Ambulatory Imaging Centres

• Dual And Multi Energy Computed Tomography Market, By Region:

• North America
• United States
• Canada
• Mexico
• Europe
• France
• United Kingdom
• Italy
• Germany
• Spain
• Asia Pacific
• China
• India
• Japan
• Australia
• South Korea
• South America
• Brazil
• Argentina
• Colombia
• Middle East & Africa
• South Africa
• Saudi Arabia
• UAE