jump to content jump to footer

University Hospital Jena: Research Investigating the Viability of Accelerating Whole-Body MRI in Children and Adolescents through STIR DWI with Simultaneous Multi-Slice Excitation

This study[1] addressed the challenges of conducting WB-MRI in paediatric patients, particularly the prolonged acquisition time required for diffusion-weighted imaging (DWI), which is a crucial component of the WB-MRI protocol. DWI is important for enhancing image interpretation and sensitivity, but its longer acquisition time can be challenging, especially with younger patients who may have difficulty remaining still for extended periods.

The main objectives of the study were to compare the acquisition time, image quality, signal-to-noise ratio (SNR), and apparent diffusion coefficient (ADC) values of the new interleaved STIR SMS-DWI sequence with a standard non-accelerated DWI sequence in paediatric WB-MRI. Additionally, the study aimed to determine whether the new technique could offer equivalent image quality while significantly reducing the acquisition time.

The study included 20 children and adolescents who underwent two WB-MRI scans using either the standard DWI or the SMS-DWI sequence. mint Lesion™ software was used to quantitatively assess SNR and ADC in seven different areas, including white matter, cerebrospinal fluid, mediastinum, liver, spleen, kidneys, and thigh muscles, at b = 800 s/mm2 and on the ADC parameter map. The software ensured consistent region of interest (ROI) sizes and positions across different images. For each ROI, mint Lesion™ automatically obtained mean, standard deviation, and maximum values, and calculated SNR for b800. Additionally, two experienced paediatric radiologists used the software for qualitative assessment to evaluate image quality using a 5-point Likert scale. They assessed brain, chest, trunk, and extremities for each patient, considering factors like distortion-free imaging, artifacts, and overall quality.

The researchers concluded that the interleaved STIR SMS-DWI sequence is a promising technique for paediatric WB-MRI, as it significantly reduces the time needed for the imaging procedure without compromising the quality of the images. This could be particularly beneficial for younger patients who may struggle with longer scan times and contribute to more efficient and effective clinical imaging in paediatric oncology and other medical scenarios.

Read the original publication here

[1] Krueger, PC., Krämer, M., Benkert, T. et al. Whole-body diffusion magnetic resonance imaging with simultaneous multi-slice excitation in children and adolescents. Pediatr Radiol 2023

Research with mint Clinical Research Clinical Trials Data Collection Standardized Reading Procedures Clinical Routine MRI Pediatric cancer

Related Resources

Radiologist reviewing whole-body MRI images with AI-supported tumor burden quantification for bone metastases and multiple myeloma using mint Lesion.
Mint Medical has integrated an AI algorithm developed by The Institute of Cancer Research and The Royal Marsden into mint Lesion. The solution supports bone disease assessment and treatment response evaluation in advanced prostate cancer and multiple myeloma.
The ICR and The Royal Marsden work with Mint Medical to integrate AI-powered software into cancer treatment
The Institute of Cancer Research (ICR), London, and The Royal Marsden NHS Foundation Trust have announced a new licensing agreement with MedTech…
Onur Özek from Mint Medical discusses the challenges, requirements, and future of lung cancer screening in Germany in an interview with RadMag.
In the latest RadMag Special Edition, Onur Özek discusses structured reporting, AI integration, second-reader workflows, interoperability, and the importance of end-to-end workflow management for lung cancer.
RadMag Special Edition: Onur Özek on the Challenges of Lung Cancer Screening in Germany
With the nationwide rollout of Germany’s lung cancer screening, radiology providers are facing new challenges. Structured reporting, mandatory second…
Mint Medical and Coreline teams coming together to announce partnership
Mint Medical and Coreline Soft integrate AVIEW into mint Lesion to support AI-enabled workflows for structured reporting, Lung-RADS assessment, and longitudinal nodule management in lung cancer screening.
Coreline Soft and Mint Medical Announce Partnership to Advance AI-Enabled Lung Cancer Screening
Coreline Soft and Mint Medical today announced a partnership to advance AI-enabled lung cancer screening, following more than six months of technical…