Stories of inspiration

Detecting cancer earlier with AI

Lung cancer remains one of the most common cancers and the leading cause of cancer-related deaths worldwide.¹

After radiologist Prof. Marie-Pierre Revel lost her cousin to lung cancer, a screening helped to catch her own cancer early.

Discover how life-saving CT scans are transforming lung cancer detection into a new standard with this film produced by BBC StoryWorks.

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Through our "Screen for Life. Breathe with Hope." initiative, Canon Medical aims to change societal perceptions of lung cancer and encourage participation in early screening, which could ultimately contribute to the reduction of cancer mortality.²

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Educational events

Perspectives Webinar: Unlocking Access to Lung Cancer Screening

Join us for a roundtable discussion with leading clinical experts, to explore how lung cancer screening implementation and uptake among eligible patients can be improved.

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Latest insights

Lung cancer screening (LCS) saves lives, but more people need to get screened.
Get the big picture on challenges faced in screening and practical solutions in just one glance.

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Lung Cancer Screening

Early detection to save more lives

Lung cancer is one of the most frequent causes of cancer and the leading cause of cancer death globally¹ . When patients present with symptoms, the disease often has already progressed, with limited options remaining for treatment. As a result, prognosis in lung cancer tends to be poor, despite advances in treatment. However, when the disease is detected at an early stage, the chances of survival increase dramatically².

Consequently, there is a growing interest in lung cancer screening worldwide as the main opportunity to reduce lung cancer mortality.

Canon Medical aims to be your partner in the fight against lung cancer and offers a unique set of lung cancer screening solutions. These include a suite of innovative technologies to enhance your clinical confidence everywhere, delivering high-quality imaging at low dose, streamlining workflows, and offering comprehensive diagnosis throughout the entire cycle of care.

"You only have a chance and a good outcome if you detect the cancer at a very, very early stage. And that is the purpose of lung cancer screening."

Prof. Cornelia M Schaefer- Prokop, MD, PhD
Radiologist
Appointed member of the Fleischner Society (international group of lung specialists)
Former president of the European Society of Thoracic Imaging (ESTI)

Meander Medical Centre, Amersfoort
Radboud University Medical Center (Radboudumc), Nijmegen the Netherlands

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Lung cancer is the leading cause of cancer related death worldwide and the second most commonly diagnosed cancer.

Early detection of lung cancer increases the chances of survival. The majority of patients with late detection (stage IV) die within 5 years while patients with lung cancer detected in an early stage (stage 1A) have a higher chance of survival, over 5 years.

Earlier detection through screening programs could significantly improve patient outcomes. In high-risk individuals, the risk of dying of lung cancer is reduced by 20% for men. In women, the reduction in lung cancer mortality may be even higher.

As patients can be treated earlier, screening for lung cancer has the potential to reduce costs. However, the extent of savings heavily depends on how screening programs are implemented.

Current challenges

Lung cancer screening faces various challenges that hinder its widespread success.
As part of our Made for Life philosophy, Canon Medical is committed to providing support to address these challenges.

Challenge 1: Low participation rate

Many individuals at high risk for lung cancer are often unaware of the potential benefits of screening or may face barriers such as cost, accessibility, or fear of the screening process.

Challenge 2: Workload and workflow

Workflow issues, such as managing the influx of screening participants and ensuring timely communication of results, can be a significant burden. Moreover, the repetitive nature of interpreting numerous lung scans can be mentally draining and lead to a loss of enthusiasm.

Challenge 3: Maintain clinical confidence at low dose

Screening participants are typically exposed to repeated CT scans which raises concerns around radiation dose. Lung cancer screening when performed without efficient CT hardware and image reconstruction algorithms, may yield inconclusive or false positive results, leading to additional and costly follow-up procedures, while causing anxiety and stress for patients.

Challenge 4: Cost-effectiveness

Cost-effectiveness of the program requires a careful balance of the investments in equipment and staff, training, and the number of diagnostic and downstream follow-up procedures versus the benefits of improved health outcomes and less spending on costly therapies in the long-run.

Our solutions

We are taking measures to increase the accessibility of lung cancer screening for the public, providing high-quality imaging at low dose, removing workflow inefficiencies, supporting the interpretation and communication of findings among clinicians, and streamlining follow-up procedures.
Together, we can improve the patient experience and ensure a high-quality and cost-effective screening program, while minimising the burden of the lung cancer on patients worldwide.

Easy access to screening

Our Mobile Imaging Solutions allow you to conveniently perform scans, expanding accessibility and bringing the screening experience closer to your patients.

Efficient workflow

Our new workflow experience, INSTINX optimises efficiency, ensuring quick and seamless CT scans.

High-quality images at low dose

Our AI-enhanced CT lung cancer screening solutions, including the combination of SilverBeam filter and AiCE offer high-quality images with minimal noise and radiation exposure.

Risk stratification and diagnosis

Our Vitrea Advanced Visualisation lung cancer screening solution automatically detects lung nodules, enables comprehensive lung analysis and supports faster and more efficient diagnosis.

⁠Easy access to screening

Easy access from anywhere

One of the main challenges of lung cancer screening is reaching the people who may need it the most. Mobile imaging solutions allow you to provide healthcare and education where people live and work, and offer screening close to their homes. By removing barriers to access, mobile imaging services may play a significant role in improving lung cancer screening rates and contribute to more equitable healthcare. The design of our mobile medical equipment provides a comfortable and convenient environment for high-patient throughput lung cancer screening without any compromises on patient safety, workflow or image quality.

Learn more about mobile imaging solutions

"Developing a mobile program allowed delivery of healthcare to rural parts of our state with the ultimate goal of mitigating some of the cancer outcome disparities of our state and region."

Prof. Hannah Hazard- Jenkins, MD, FACS
Associate Professor of Surgery at the department of Surgery WVU School of Medicine
Director of the WVU Cancer Institute
Morgantown, West Virginia, USA

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⁠Efficient workflow

Scanning is easier than ever before

An efficient workflow is essential for lung cancer screening. It enhances accessibility, reduces waiting times, optimises resource utilisation, and improves overall patient care. By prioritising efficiency, we provide patient-centric end-to-end workflow solutions, incorporating intuitive design and automated features for improved efficiency through the INSTINX workflow.

INSTINX workflow
Canon's CT total workflow experience is redesigned from the ground up to set new standards in efficiency and consistency. Every detail of the workflow has been thoroughly refined and validated through clinical testing in medical centres around the world.

Learn more about INSTINX

Automatic scan planning for all chest routine scans
INSTINX features automatic scan planning to automatically plan all routine scans including scan ranges and parameters, including dose and exposure settings, using the unique 3D Landmark Scan data and Anatomical Landmark Detection technology.

⁠High-quality images at low dose

A unique synergy of beam filtering and AI-enhanced reconstruction technologies

Lung cancer screening demands high patient throughput and low radiation dose while providing images that have the quality for a reliable assessment of nodule growth and malignancy. The unique combination of SilverBeam Filter with our specific Deep Learning imaging reconstruction results in the best possible image quality at typical lung cancer screening doses.

SilverBeam Filter
SilverBeam, a beam shaping energy filter, leverages the photon-attenuating properties of silver to selectively remove low energy photons from a polychromatic X-ray beam, leaving an energy spectrum optimised for lung cancer screening.

Discover SilverBeam

Advanced intelligent Clear-IQ Engine (AiCE)
AiCE is an innovative Deep Learning Reconstruction technology that has been trained to reduce noise and boost signal to deliver sharp, clear and distinct images at speed.

Learn more about AiCE

✓ Low Noise
✓ Natural Image Texture^*1
✓ Twice the high contrast spatial resolution^*2
✓ Clear Low Contrast Detectability
✓ Reduced dose for body imaging^*3

*1 Natural defined as similar to FBP compared to MBIR
*2 AiCE Body Sharp compared to AIDR 3D Body Sharp at 10% MTF measured using the Teflon sensitometry module of Catphan600
*3 Compared to FBP

Small lung nodule detection

High-quality lung CT imaging at 0.54 mSv utilising the combination of SilverBeam Filter and AiCE.
In this patient, a small lung nodule is clearly visible in the upper right lobe.

sou

Courtesy of Fujita Health University Hospital, Japan

More detail in comparison to X-ray

In contrast to the chest X-ray, the presence of lung cancer is clearly visible in the left upper lobe. Utilising the combination of SilverBeam Filter and AiCE, the effective dose of this scan was only 0.18 mSv, a dose level closer to a chest X-ray³

sou

Courtesy of Dr. Russell Bull, Royal Bournemouth Hospital, Bournemouth, UK

Follow-up imaging at low dose

SilverBeam Filter combined with AiCE delivers high-quality images of the lungs at a dose closer to a chest X-ray.
In this patient, 94% dose reduction was achieved at follow-up through the implementation of our SilverBeam Filter as compared to the initial scan using a standard filter, while nodule conspicuity was maintained.

sou

Courtesy NHLBI, National Institutes of Health, USA

"I have had patients who are reluctant to come in for a chest CT because of the fears of radiation. However, with Canon Medical technology, that barrier is removed. And now, we are able to offer ultra-low dose chest CT for screening for lung cancer, and that's a game changer."

Dr. Marcus Chen
Director of Cardiothoracic Imaging at the National
Institutes for Health (NIH), Maryland, US

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⁠Risk stratification and diagnosis

Standardised lung nodule assessment and comprehensive characterisation of nodules over time

A key aspect of any lung cancer screening program is the accurate and timely reporting of scans followed by streamlined nodule management and lung disease management. However, without appropriate software solutions, the reporting of lung cancer examinations can be a time- consuming task that is prone to error.

The comprehensive lung cancer screening solution in Vitrea Advanced Visualisation contains automated tools that support you in the detection and characterisation of different lung nodule types including the assessment of growth patterns. To facilitate workflow and structured reporting, findings are automatically transferred to your reporting template with quick reference to guidelines such as Lung-RADS and the Fleischner Criteria.

Learn more about Vitrea lung cancer solutions

Automatically detects potentially actionable lung nodules and quantitative assessment of growth.

Clinical Evidence

Customer Presentations

Watch our speakers present the latest developments in lung cancer screening, give advice on how to overcome barriers in clinical implementation and improve access to screening and share the newest technology in ultra-low dose CT.