Magnetic resonance imaging to predict the salt content of Iberian ham

Magnetic Resonance Imaging to predict the salt content of Iberian ham
The University of Extremadura have developed a non-destructive, innocuous method using magnetic resonance, computer vision and statistical calculus that enables one to quantify the salt content of Iberian ham. Credit: UEx

Researchers from the Meat and Meat Products Research Institute of the University of Extremadura have developed a non-destructive, innocuous method for quantifying the salt content of Iberian ham and classifyin it according to the degree of penetration of the salt in the muscle. The technique uses magnetic resonance, computer visualization and statistical calculus to monitor the diffusion of salt during the ham's maturation process. This novel methodology is based on the analysis of images obtained through magnetic resonance, followed by analysis of these images using computer vision algorithms and treatment of the information by data mining.

The salt (sodium chloride) content of the cured ham influences the product's sensory characteristics, texture and flavour. But salt is also a very important parameter from a technological viewpoint, as it is impossible for the maturation process to be conducted without the intervention of this substance. As a result, the conditions of the maturation process must be adapted to the salt content. Salt reduces the activity of water, inhibits the proliferation of micro-organisms and favours the formation of a meat gel. "Manufacturing ham with a very low salt content involves a high technological risk, as it may present significant defects, making it impossible to market in many cases," explains the researcher, Teresa Antequera.

Up until now, the meat industry only had destructive methods at its disposal to determine the salt content of ham. These methods are also longer and more expensive for producers. Which is why the work of the UEx researchers is geared toward developing non-destructive measuring methods to classify, monitor and predict salt content during the maturation process of the ham.

"We believe that this technique could be extremely useful for the food industry as a form of quality control, because it enables one to determine the evolution of the salt during the of the ham without taking samples at different times. And it can also be applied for measuring the levels of fat, humidity, colour and other quality parameters in a meat product," says Teresa Antequera.

Data mining to assess Iberian ham

"After viewing the images and using the texture algorithms, which enable one to objectively define what the image is like, we extract the data and information that we process using techniques in order to classify and predict the ," adds Daniel Caballero, a member of the Food Technology Group.

Data mining refers to a series of processes from the field of Big Data and Knowledge Discovery that allows for the exploration and extraction of information and knowledge from a large volume of data that are initially hidden and cannot be treated with traditional techniques. "In this study, we have used two classification techniques: one based on association rules and another on decision trees, and two prediction techniques: isotonic regression and multiple linear regression. These techniques allow for statistical calculations that provide us with results quickly and effectively," Caballero says.


Explore further

Less salt in our food

More information: Daniel Caballero et al, Modeling salt diffusion in Iberian ham by applying MRI and data mining, Journal of Food Engineering (2016). DOI: 10.1016/j.jfoodeng.2016.06.003
Provided by University of Extremadura
Citation: Magnetic resonance imaging to predict the salt content of Iberian ham (2016, November 14) retrieved 22 July 2019 from https://phys.org/news/2016-11-magnetic-resonance-imaging-salt-content.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.
5 shares

Feedback to editors

User comments

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more