AI Diagnoses Lung Disease from CT Images as Accurately as Medical Specialists
|
By MedImaging International staff writers Posted on 31 Jul 2022 |

Doctors have waited a long time for an early means of diagnosing idiopathic pulmonary fibrosis, a potentially fatal disease that can scar a person’s lungs. Except for drugs that can delay the disease’s progression, established therapies do not exist. Since doctors face many difficulties diagnosing the disease, they often have to request a specialist diagnosis. In addition, many of the diagnostic techniques, such as lung biopsy, are highly invasive. These investigative measures may exacerbate the disease, increasing a patient's risk of dying. Now, researchers have developed an artificial intelligence (AI) algorithm that accurately and quickly diagnoses idiopathic pulmonary fibrosis. The algorithm makes its diagnosis based only on information from non-invasive examinations, including lung images and medical information collected during daily medical care.
In order to develop the new technology to diagnose idiopathic pulmonary fibrosis, researchers at Nagoya University (Nagoya, Japan) used AI to analyze medical data collected during normal care from patients undergoing interstitial pneumonia treatment. They found that their AI diagnosed idiopathic pulmonary fibrosis with a similar level of accuracy as a human specialist. Despite finding that their AI performed just as well as experts, the team stress that they do not see it as replacing medical professionals. Instead, they hope that specialists will use AI in medical treatment to ensure that they do not miss opportunities for early treatment. Its use would also avoid invasive procedures, such as lung biopsies, which could save lives.
“Idiopathic pulmonary fibrosis has a very poor prognosis among lung diseases,” said Taiki Furukawa, Assistant Professor of the Nagoya University Hospital. “It has been difficult to diagnose even for general respiratory physicians. The diagnostic AI developed in this study would allow any hospital to get a diagnosis equivalent to that of a specialist. For idiopathic pulmonary fibrosis, the developed diagnostic AI is useful as a screening tool, and may lead to personalized medicine by collaborating with medical specialists.”
Furukawa is excited about the possibilities: “The practical application of diagnostic AI and collaborative diagnosis with specialists may lead to a more accurate diagnosis and treatment. We expect it to revolutionize medical care.”
Related Links:
Nagoya University
Latest General/Advanced Imaging News
- Virtual Staining Technique Creates Histology Images from CT Data
- CT-Derived Biomarker Predicts Outcomes in Gastric Cancer
- AI Tool Enhances Response Assessment and Survival Prediction in Pleural Mesothelioma
- AI Tool Enables Real-Time Diffuse Optical Tomography for Brain Lesion Detection
- New SPECT/CT Method Differentiates Inflammation from Fibrosis in Interstitial Lung Disease
- Whole-Body PET/CT Tracks Metabolic Changes After Bariatric Surgery
- PET Tracer Localizes Overactive Adrenal Glands in Primary Aldosteronism
- Multimodal AI Tool Combines CT and Health Records to Predict Heart Risk
- AI Tool Automates Radiotherapy Planning for Cervical and Prostate Cancer
- New Proton Therapy Platform Integrates into Existing Radiotherapy Departments
- 3D-Printed Intraoral Device Enhances Head and Neck Radiotherapy Accuracy
- Molecular Imaging Agent Shows Promise for Endometriosis Detection and Monitoring
- Automated AI Tool Detects Early Pancreatic Cancer on Routine CT
- Routine Cardiac CT Enhanced to Predict Heart Failure Risk
- New Breast Imaging Viewer Unifies Modalities and Enhances Clinical Workflow
- Radiomics Analysis of CT Scans Enhances Evaluation of Sarcoidosis
Channels
Radiography
view channel
AI Tool Predicts Five-Year Breast Cancer Risk from Mammograms
Breast cancer risk assessment during routine screening is difficult because many women who develop the disease have no known genetic mutations or family history. Static risk tools provide limited discrimination... Read more
AI Mammography Tools Detect Early Breast Cancer Signs Years Before Diagnosis
Breast cancer screening aims to detect tumors before symptoms develop, but subtle mammographic changes can appear years before diagnosis and may be missed during routine reads. Delayed detection can lead... Read moreMRI
view channel
AI Reconstruction Tool Speeds Dynamic Breast MRI and Improves Cancer Detection
Breast cancer affects about 2.3 million people each year, creating sustained demand for precise imaging. Dynamic magnetic resonance imaging (MRI) is highly sensitive, yet slow acquisitions hinder real-time... Read more
International Study Assesses AI for Prostate Cancer MRI Interpretation
Prostate cancer is a leading cause of cancer morbidity in men, and accurate early diagnosis hinges on expert interpretation of prostate magnetic resonance imaging (MRI). Rapid adoption of MRI-first pathways... Read moreUltrasound
view channel
Portable 3D Ultrasound System Enables Reproducible Breast Cancer Monitoring
Breast cancer can develop between annual mammograms, and these interval cancers account for 20% to 30% of cases and tend to be more aggressive. The challenge is pronounced in people with dense breast tissue.... Read more
AI Ultrasound Platform Receives CE Mark for Prenatal Screening
Prenatal ultrasound is central to fetal anomaly screening, yet it remains one of the most technically demanding examinations in routine care. Because both image acquisition and interpretation are highly... Read moreNuclear Medicine
view channelNew PET Tracer Detects DVT and Pulmonary Embolism in One Scan
Deep vein thrombosis is the formation of clots in deep leg veins that can migrate to the lungs as pulmonary embolism. Rapid confirmation across both regions often requires multiple tests and can delay treatment.... Read more
Targeted PET Platform Guides Osteosarcoma Resection and Margin Verification
Osteosarcoma, an aggressive primary bone cancer that mainly affects children and adolescents, demands wide excision to prevent local recurrence. Surgeons must achieve negative margins while preserving... Read moreImaging IT
view channel
Ambient AI Reporting Platform Streamlines Radiology Reporting
Radiology departments face growing imaging volumes and staffing shortages, creating reporting bottlenecks and pressure to maintain turnaround times. Conventional dictation tools document findings after... Read more
Interactive AI Tool Supports Explainable Lung Nodule Assessment
Lung cancer is a leading cause of cancer mortality, and timely characterization of pulmonary nodules on chest computed tomography (CT) is essential for directing care. Interpreting nodule morphology demands... Read more
Breast Imaging Software Enhances Visualization and Tissue Characterization in Challenging Cases
Breast imaging can be particularly challenging in cases involving small breasts or implants, where image reconstruction and tissue characterization may be limited. Clinicians also need reproducible analysis... Read moreIndustry News
view channel
GE HealthCare Showcases AI-Enabled Nuclear Medicine Portfolio at SNMMI 2026
Nuclear medicine is expanding rapidly as health systems adopt theranostics and broaden access to radiopharmaceuticals, increasing demand for scalable operations and consistent diagnostic confidence.... Read more
GE HealthCare Highlights AI-Supported Radiation Therapy Tools at ESTRO 2026
At the European Society for Radiotherapy and Oncology (ESTRO) 2026 Congress in Stockholm, GE HealthCare is highlighting Intelligent Radiation Therapy (iRT), MIM Software innovations, and BK Medical surgical... Read more







