IB Rad Tech
IB Rad Tech™ is a “workflow wizard” that automates and simplifies complex imaging tasks while allowing for customization and quality control—making sophisticated image analysis accessible beyond large research hospitals.
IB Rad Tech ™
Intelligent
Imaging
Workflow
Automation
1Schmainda KM et. al., AJNR. 2019 Jul;40(7):1132-1139.
2Bedekar D et. ai., Magn. Reson. Med. 2010 Sep;64(3):907-13.
Key Features
- Automated Workflow Execution: Reduces manual steps and mouse-clicks,
accelerating the generation of advanced image maps by over 85% while eliminating errors. - Customizable Pipelines: Tailor workflows to specific clinical or research needs
with built-in intelligence and flexibility. - Advanced Visualization for all: Brings high-end imaging capabilities to
community hospitals and imaging centers in a cost-effective, efficient manner. - Seamless Integration: Compatible with FDA-cleared platforms like the aycan
workstation, enabling standardized and repeatable output. - Clinician-Centric Design: Developed in collaboration with leading radiologists to
IB Diffusion
IB Diffusion analyzes MR diffusion-weighted images (DWI) and generates detailed Apparent Diffusion Coefficient (ADC) maps, extrapolated b-values, intravoxel incoherent motion (IVIM), and stretched exponential diffusion parameters. This technology detects microscopic changes in water mobility at a cellular level, providing critical insights into tissue structure and pathology before they are visible on standard anatomical images.
ROIs for three types of MS lesions (enhanced, non-enhanced, and black hole) in a MS patient, delineated on (A) T1WI as a reference image and (B) registered T2WI. From the top left to the right, zoom in on the 2D post-contrast T1WI, registered ADC map, and registered diffusion coefficient (D) map. From down left to right, zoom in registered T2WI, registered pseudo-diffusion coefficient (D*) map, and perfusion fraction (f ) map. Red arrows and shape indicate black hole MS lesions, Yellow arrows and shapes indicate enhanced MS lesions, blue arrows and shapes indicated non enhanced MS lesions.
IB DCE
IB DCE analyzes dynamic contrast-enhanced (DCE) MRI images. It generates a comprehensive array of perfusion and permeability parameters, such as Ktrans, Ve, Vp, and more, using the extended Tofts, Tofts, and Patlak models. This intuitive tool automates the generation of vascular input functions (VIF) and provides accurate, quantitative maps that are crucial for assessing tumor vascularity and treatment response.
IB ASL
IB ASL™ (Arterial Spin Labeling) is a software solution that enables non-invasive, quantitative measurement of cerebral blood flow (CBF) using MRI—without the need for contrast agents. Designed for both clinical and research environments, IB ASL delivers high-quality perfusion maps with minimal user input and maximum reproducibility.
What makes IB ASL™unique?
- Non-Contrast, Endogenous Labeling: Utilizes magnetically labeled arterial blood water as a natural tracer, eliminating the risks and costs associated with gadolinium-based contrast agents.
- Quantitative Perfusion Maps: Generates accurate, reproducible CBF maps in units of mL/100g/min, ideal for assessing stroke, tumors, dementia, and other neurovascular conditions.
- Automated & Standardized: Streamlines the entire ASL workflow—from image acquisition to post-processing.
- Seamless Integration: Compatible with GE MRI platforms and is easily deployable in both academic and community hospital settings.
Ideal For:
- Neuro-oncology (e.g., tumor grading, treatment response)
- Stroke and ischemia evaluation
- Dementia and neurodegenerative disease monitoring
- Pediatric and renal-impaired patients where contrast is contraindicated
IB ASL™ empowers radiologists and researchers with a safe, efficient, and robust tool for cerebral perfusion imaging—bringing advanced neuroimaging within reach of every practice.
LSN
Liver Surface Nodularity (LSN) is an innovative imaging tool designed to non-invasively assess chronic liver disease (CLD) using commonly acquired CT images. By evaluating the nodularity or bumpiness of the liver surface, LSN provides critical insights into the severity of CLD, aiding in diagnosis and staging. This technology eliminates the need for high-cost surgical biopsies and specialized imaging equipment, offering a practical, low-risk alternative.
Stonechecker
StoneChecker is an innovative medical software tool designed to aid clinical decision making by providing information about a patient’s kidney stone. The StoneChecker software tool is designed to be a streamlined semi-automated stone assessment tool that instantly provides physicians with useful clinical metrics using the patient’s non-contrast CT scans.
