Our Knowledge Center
The Knowledge Center is a comprehensive repository of information dedicated to the imaging industry. It offers a wide array of expert articles, cutting-edge research, and practical guides on the latest advancements in imaging technology. Designed for healthcare professionals, this resource hub provides valuable insights and updates to help you stay informed and excel in your field.
A recent study suggests high clinical and economic efficacy for opportunistic screening using the AI tools. Nanox.AI solutions can enable and simplify cost savings by helping detect and report opportunistic findings related to chronic diseases
To assess the cost-effectiveness and clinical efficacy of AI-assisted abdominal CT-based opportunistic screening for atherosclerotic cardiovascular (CV) disease, osteoporosis, and sarcopenia using artificial intelligence (AI) body composition algorithms.
In the study population – NanoxAI Bone tool helped detect more patients at-risk of osteoporosis when comparing to standard of care (FRAX)
Methods for identifying patients at high risk for osteoporotic fractures, including dual-energy X-ray absorptiometry (DXA)1,2 and risk predictors like the Fracture Risk Assessment Tool (FRAX)3-6, are underutilized.
Vertebral fractures are often undiagnosed and missed by FLSs. We have demonstrated the impact of an AI-enabled vertebral fracture FLS pathway using existing CT images on anti-osteoporosis treatment adherence
One-year Anti-Osteoporosis Medication Use in Patients Identified by an AI-enabled Vertebral Fracture Pathway in the Fracture Liaison Service Setting
Automated opportunistic osteoporotic fracture risk assessment using computed tomography scans to aid in FRAX underutilization
Methods for identifying patients at high risk for osteoporotic fractures, including dual-energy X-ray absorptiometry (DXA)1,2 and risk predictors like the Fracture Risk Assessment Tool (FRAX)3,4,5,6, are underutilized. We assessed the feasibility of automatic, opportunistic fracture risk evaluation based on routine abdomen or chest computed tomography (CT) scans.
Compression Fractures Detection on CT
The presence of a vertebral compression fracture is highly indicative of osteoporosis and represents the single most robust predictor for development of a second osteoporotic fracture in the spine or elsewhere. Less than one third of vertebral compression fractures are diagnosed clinically
Validation of HealthOST by Nanox.AI
image processing software that provides qualitative and quantitative analysis of the spine from CT images to support clinicians in the evaluation and assessment of musculoskeletal disease of the spine
Real-world performance of AI enabled vertebral fracture (VF) algorithm for fracture liaison studies: The ADOPT Study
Fewer than 30% of vertebral fragility fractures (VFs) are reported on routine clinical CT scans by radiologists
Closing the Loop in AI, EMR, and Provider Partnerships: The Key to Improved Population Health Management?
The capabilities of and interest in artificial intelligence (AI) in healthcare, and more specifically, population health, has grown exponentially over the past decade.
The Value – Leverage AI to go beyond the standard read; HealthCCSng cardiac solution detects more patients eligible for preventive treatment
Lung Cancer Screening programs can achieve greater clinical benefit by leveraging the Nanox.AI CAC measurement tool
Using machine learning algorithms to review computed tomography scans and assess risk for cardiovascular disease: Retrospective analysis from the National Lung Screening Trial (NLST)
Fully-convolutional deep-learning based system for coronary calcium score prediction from non-contrast chest CT
The amount of calcium deposits in the coronary arteries is a powerful predictor of cardiovascular events and mortality.