Image copyright: © 2016 West et al. Link

The Technology

AMRA enables regional and complete segmentation and quantification of muscle and fat tissue volumes in the body. The game-changing technology ensures unprecedented, validated accuracy.

Construction

Quantitative MR images in 6 minutes using any 1.5T or 3T scanner

The scanning protocol is based on symmetrical chemical shift imaging, "Two-point Dixon" imaging. After acquisition, the images will consist of fat and water image pairs, as reconstructed by the vendor-specific reconstruction software.

Method

Automatic Calibration

Images are automatically calibrated and corrected for variations caused by inhomogeneities in magnetic field and coil sensitivity.[1] The calibration uses the fat signal as an internal reference. The value of each pixel in the fat image tells the percentage of fat in that pixel. Hence, partial-volume effects do not affect the quantification, and thin layers of fat or even diffuse infiltration will contribute to fat quantification, something that is not possible for methods based on simple segmentation between fatty and non-fatty regions.

The left body image shows a slice in which the subcutaneous fat is displayed in blue and the visceral fat in red. The right body image is an example of various muscle group volumes, displayed in numerous colours to show delineation of the muscle boundaries.

Results

Classification and Quantification

AMRA has developed an automated method for the classification and quantification of fat and muscle groups.[2],[3],[4] The segmentation is based on non-rigid registration between the image data volume and a library of manually segmented prototype volumes.

The body fat is divided into subcutaneous, visceral, and ectopic compartments, and each depot is given with high precision. Different muscle groups are automatically classified and the volume of each individual muscle group is obtained. Additionally, the amount of fat in any user-defined region, e.g. a muscle or an internal organ, can be calculated also for diffuse fat infiltration.

AMRA’s fat quantification method was first used in the so-called "Fast-food study."[5],[6] AMRA’s muscle quantification method was described and evaluated in other referenced studies. [7],[8]

References
  1. Olof Dahlqvist Leinhard, Andreas Johansson, Joakim Rydell, Örjan Smedby, Fredrik Nyström, Peter Lundberg, Magnus Borga. "Quantitative Abdominal Fat Estimation Using MRI”, Proceedings - International Conference on Pattern Recognition, International Conference on Pattern Recognition, 1-4, 2008.
  2. Anette Karlsson, Johannes Rosander, Thobias Romu, Joakim Tallberg, Anders Grönqvist, Magnus Borga, Olof Dahlqvist Leinhard, "Automatic and Quantitative Assessment of Regional Muscle Volume by Multi-Atlas Segmentation Using Whole-Body Water–Fat MRI", Journal of Magnetic Resonance Imaging, 41(6): 1558-1569, 2015.
  3. Marianna S Thomas, David Newman, Olof Dahlqvist Leinhard, Anette Karlsson, Johannes Rosander, Bahman Kasmai, Richard Greenwood, Paul N Malcolm, Magnus Borga, Andoni P Toms, "Test-retest reliability of automated whole body and compartmental muscle volume measurements on a wide bore 3T MR system", European Radiology, 24(9): 2279-2291, 2014.
  4. Janne West, Olof Dahlqvist Leinhard, Thobias Romu, Rory Collins, Steve Garratt, Jimmy D Bell, et al. “Feasibility of MR-Based Body Composition Analysis in Large Scale Population Studies”, PLoS ONE, 11(9): e0163332. doi:10.1371/journal.pone.0163332, September 23, 2016.
  5. Styrbjörn Erlingsson, Sebastian Herard, Olof Dahlqvist, Torbjörn Lindström, Toste Länne, Magnus Borga, Fredrik Nyström, "Men develop more intraabdominal obesity and signs of the metabolic syndrome after hyperalimentation than women",METABOLISM-CLINICAL AND EXPERIMENTAL, 58(7): 995-1001, 2009.
  6. Olof D. Leinhard, Andreas Johansson, Joakim Rydell, Johan Kihlberg, Örjan Smedby, Fredrik H. Nyström, Magnus Borga, "Quantification of abdominal fat accumulation during hyperalimentation using MRI", Proceedings of the ISMRM Annual Meeting (ISMRM'09), 2009.
  7. Magnus Borga, E. Louise Thomas, Thobias Romu, Johannes Rosander, Julie Fitzpatrick, Olof Dahlqvist Leinhard, Jimmy D Bell, “Validation of a Fast Method for Quantification of Intra-abdominal and Subcutaneous Adipose Tissue for Large Scale Human Studies”, NMR in Biomedicine, 28(12): 1599-1787, December 2015.
  8. Michael S. Middleton, William Haufe, Jonathan Hooker, Magnus Borga, Olof Dahlqvist Leinhard, Thobias Romu, Patrik Tunón, Gavin Hamilton, Tanya Wolfson, Anthony Gamst, Rohin Loomba, Claue B Sirlin. “Quantifying Abdominal Adipose Tissue and Thigh Muscle Volume and Hepatic Proton Density Fat Fraction: Repeatability and Accuracy of an MR Imaging-based, Semiautomated Analysis Method”, Radiology, 2017 May;283(2):438-449. doi: 10.1148/radiol.2017160606, (Epub ahead of print), 2017 Mar 9.
Problem

Diseases

Global healthcare systems are facing unprecedented challenges associated with a rapid rise in obesity and metabolic-related disease, as well as an aging population. Understanding the volume, distribution, and quality of fat and muscles in our bodies can be vital to properly diagnosing and treating illness.

Solution

Cloud-Based Analysis

AMRA’s service helps expand and refine the understanding of relationships between fat, muscle and disease development, thus supporting research findings that can be applied to therapeutic product investigation and, in the future, to patient management.
  

Stay updated.
Join our newsletter!