AI In Endoscopy Global Market Insights 2026, Analysis and Forecast to 2031

AI In Endoscopy Market Summary

The Artificial Intelligence (AI) in Endoscopy market is currently undergoing a radical structural transformation, evolving from experimental diagnostic aids to indispensable clinical assets within the modern gastroenterology and surgical suite. This sector is characterized by the integration of sophisticated computer vision and deep learning architectures into traditional endoscopic hardware, creating a smart visualization ecosystem. The fundamental value of AI in this field lies in its ability to address human limitations—specifically the miss rate in lesion detection and the subjectivity in tissue characterization. By providing real-time, frame-by-frame analysis during live procedures, AI systems act as an intelligent second pair of eyes, significantly enhancing the Adenoma Detection Rate (ADR) and enabling the early identification of pre-cancerous markers that are often invisible to the naked eye.

As global healthcare systems shift toward value-based care and emphasize early intervention to reduce long-term oncological costs, the adoption of AI-enhanced endoscopy has accelerated. Based on strategic reviews of the medical device landscape and financial disclosures from leading technology providers, the global AI in Endoscopy market is estimated to reach a valuation of approximately USD 2.0–4.0 billion in 2025. The market is projected to expand at a compound annual growth rate (CAGR) of 10.0%–30.0% through 2030. This robust growth trajectory is fueled by the rapid standardization of AI protocols in screening programs, the clearance of advanced software by regulatory bodies like the FDA and EMA, and the massive influx of clinical data that continues to refine algorithmic accuracy.

Application Analysis and Market Segmentation

The application of AI in endoscopy is diversifying across clinical settings, moving beyond high-resource academic centers into high-volume outpatient facilities.

By Application

Hospitals: This remains the primary market segment, projected to grow at an annual rate of 12.0%–28.0%. Hospitals benefit from the integration of AI to manage complex cases and high patient throughput. The implementation of AI helps in standardizing the quality of care across large departments, ensuring that diagnostic accuracy remains consistent regardless of the endoscopist's fatigue level or years of experience.

Ambulatory Surgical Centers (ASCs) & Specialty Clinics: Estimated growth of 15.0%–32.0% annually. This is the fastest-growing application segment as gastrointestinal (GI) procedures increasingly migrate out of the traditional hospital setting to reduce costs. ASCs are adopting AI as a competitive differentiator to improve patient outcomes and operational efficiency, particularly in high-volume screening colonoscopies.

Diagnostic Imaging Centers: Projected to grow at 10.0%–25.0%. These centers are utilizing AI-driven endoscopic solutions to offer more precise diagnostic services, often as part of a multi-modal diagnostic offering that includes AI-assisted radiology and pathology.

Others: This includes academic research institutes and military medical facilities, where AI is used for advanced training, surgical simulation, and the development of new diagnostic biomarkers.

By Type

CADe (Computer-Aided Detection): Projected growth of 14.0%–33.0%. CADe systems are designed to highlight suspicious areas—such as polyps or lesions—in real-time during a procedure. This detection layer is the most mature segment of the market and has shown immediate clinical utility in increasing ADR in colorectal cancer screenings.

CADx (Computer-Aided Diagnosis): Estimated growth of 16.0%–35.0%. CADx represents the next frontier, focusing on the characterization of a detected lesion (e.g., distinguishing between neoplastic and non-neoplastic tissue). By providing a virtual biopsy, CADx can potentially reduce the need for physical biopsies, lowering costs and procedural risks for the patient.

Regional Market Distribution and Geographic Trends

The regional expansion of AI in endoscopy is shaped by the prevalence of gastrointestinal diseases and the maturity of digital health infrastructure.

North America: Projected annual growth of 10.0%–25.0%. North America, specifically the United States, holds the largest market share. This dominance is driven by high healthcare spending, a robust regulatory framework for AI (SaMD), and the early adoption of AI-integrated platforms like Medtronic’s GI Genius. The region is also home to a high density of AI startups and leading research universities.

Asia-Pacific: Expected to be the fastest-growing region with a growth range of 15.0%–35.0%. Japan, China, and South Korea are leading this surge. In Japan, companies like Olympus and Fujifilm are leveraging a high volume of local clinical data to refine algorithms. China is rapidly scaling AI screening to manage its massive population, focusing on gastric and esophageal cancer detection where local incidence rates are high.

Europe: Estimated growth of 9.0%–22.0%. The European market is characterized by a strong emphasis on clinical validation and data privacy. Germany and the UK are key hubs, with growth supported by national health initiatives that promote the use of digital tools to improve screening efficiency and reduce the burden on public health systems.

Latin America: Projected growth of 8.0%–20.0%, led by Brazil and Mexico. The market is gaining traction as private healthcare providers invest in advanced technology to attract medical tourism and improve specialized care.

Middle East & Africa (MEA): Anticipated growth of 7.0%–18.0%. Growth is emerging in the GCC countries, where Smart City and Smart Health visions are driving the construction of state-of-the-art hospitals equipped with the latest AI-ready medical devices.

Key Market Players and Competitive Landscape

The competitive environment is a mix of established endoscopy giants and specialized AI innovators, often working in partnership to deliver integrated solutions.

Medtronic plc & Olympus Corporation: These two titans lead the market through sheer scale and integration. Medtronic’s GI Genius was a landmark FDA-cleared AI module, while Olympus is leveraging its dominant global installed base of endoscopes to integrate ENDO-AID CADe technology directly into its EVIS X1 platform, creating a seamless user experience for physicians.

Fujifilm Holdings Corporation & Pentax Medical: Fujifilm is aggressively expanding its CAD EYE platform, emphasizing high-definition imaging combined with deep learning. Pentax Medical (HOYA Group) focuses on Discovery, a CADe system that utilizes a dedicated medical-grade AI hardware to ensure low-latency processing during high-speed procedures.

Boston Scientific Corporation & Karl Storz SE & Co. KG: While Boston Scientific is a leader in single-use endoscopy, they are increasingly looking at AI to add value to their disposable platforms. Karl Storz remains a leader in the surgical and OR of the Future space, integrating AI to assist in complex laparoscopic and urological procedures.

Iterative Scopes & Odin Vision (Olympus): These are the high-agility specialists. Iterative Scopes focuses on using AI to standardize the scoring of inflammatory bowel disease (IBD), while Odin Vision, now an Olympus subsidiary, specializes in cloud-connected AI that allows for rapid algorithm updates and multi-site data analysis.

Wuhan EndoAngel & Wision AI: Representing the rapid innovation coming out of China, EndoAngel has developed comprehensive AI for gastric and colon endoscopy, focusing on reducing blind spots during the procedure, while Wision AI has established strong clinical evidence for its detection algorithms in large-scale trials.

NEC Corporation & Magentiq Eye Ltd.: NEC utilizes its expertise in facial recognition and image analysis to provide robust medical AI, while Magentiq Eye offers a standalone ME-EYE system that can be added to existing endoscopes, democratizing AI access for clinics with older hardware.

Industry Value Chain Analysis

The value chain for AI in endoscopy is a sophisticated network that bridges hardware manufacturing with advanced software engineering and clinical validation.

Data Curation and Annotation: The chain begins with the collection of thousands of hours of endoscopic video and images. This raw data must be meticulously annotated by expert gastroenterologists to identify polyps, bleeding, and various mucosal layers. This stage is the foundation of algorithmic accuracy.

Algorithm Development and Training: Software specialists use this annotated data to train deep neural networks. The value here is in Inference Speed—the AI must be able to process 30 to 60 frames per second without noticeable lag to be useful during a live procedure.

Hardware Integration and Processing: The AI software is then integrated into a Control Unit or a dedicated AI Box. This hardware must be medical-grade and capable of interfacing with different camera systems. Value is added through System Interoperability, allowing the AI to function across various endoscope generations.

Clinical Validation and Regulatory Oversight: Before reaching the market, the system undergoes rigorous clinical trials. Obtaining a 510(k) clearance or CE marking is a massive value-add that verifies the safety and clinical benefit of the device, acting as a critical barrier to entry.

Clinical Deployment and Life-Cycle Management: Once installed in a hospital or ASC, the value chain extends to include software updates and cloud-based analytics. Continuous learning models allow the AI to improve over time as it sees more diverse patient cases across the global network.

Market Opportunities and Challenges

Opportunities

Beyond the Colon: While colonoscopy is the most mature segment, there is significant opportunity in applying AI to upper GI (Barrett’s esophagus), urology (bladder cancer), and bronchoscopy (early lung cancer), where detection is equally challenging.

Automated Documentation: AI can automate the post-procedure report by capturing key images and measurements automatically, saving endoscopists significant time and reducing administrative burnout.

Surgical Robotics Integration: The fusion of AI visualization with robotic-assisted surgery platforms offers a future where the AI doesn't just see the lesion but helps guide the robotic tools to the exact site for excision.

Challenges

Alert Fatigue and Workload: If an AI produces too many false-positive alerts, it can distract the physician rather than help them. Maintaining a high Specificity while maximizing Sensitivity is a constant technical challenge.

Liability and Ethics: If an AI misses a lesion that a human also misses, or vice versa, the legal liability frameworks are still evolving. This uncertainty can slow adoption in more litigious healthcare markets.

Data Sovereignty: The need for massive datasets to train AI conflicts with the increasing trend of medical data residency laws, making it difficult for international companies to move data across borders for global algorithmic refinement. Show more