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What is Loreta on EEG? What can I use it for?

Loreta Low Resolution Brain Electromagnetic

Neuro-imagining techniques aim to represent the structure or functioning of the brain. They can be understood as an X-ray photograph of the brain that in the case of functional imagining will show the brain areas activated during a process or cognitive task, and techniques such as fMRI, PET or MEG are examples.

Loreta: An EEG-based neuro-imagining technique

Pascual-Marqui, Michel and Lehman published in 1994 a new method for localizing the electrical activity in the brain based on scalp potentials from multiple-channel EEG recording. This method solves what is called the inverse problem: convert measurements into information about a physical object or system observed. This revolutionary technique was called LORETA standing for low-resolution brain electromagnetic tomography and can be understood as an EEG-based neuro-imagining technique. Loreta computes a three-dimensional distribution of 2394 voxels of 7x7x7 mm of the generating electric neuronal activity in the grey matter. A great advantage of this technique is that it isn’t restricted to a certain number of electrodes or electrode locations, and therefore it self-adapts to almost every electrode set-up and EEG measuring device.

  • sLORETA: standardized low resolution brain electromagnetic tomography (Pascual-Marqui, 2002). It has no localization bias in the presence of measurement and biological noise.
  • eLORETA: exact low resolution brain electromagnetic tomography (Pacual-Marqui 2005). The first ever 3D, discrete, distributed, linear solution to the inverse problem of EEG/MEG with exact localization (zero localization error).

Scalp EEG activity shows oscillations at a variety of frequencies. This rhythmic activity is divided into frequency bands, and the most commonly known bands are delta, theta, alpha, beta and gamma. EEG frequency bands have been noted to have certain biological significance and can be associated to different states of brain functioning. There are still uncertainties about exactly where various frequencies are generated but on the contrary there is strong knowledge about the activated areas within the brain that generate certain spectral activity along the scalp. Loreta analysis of limited frequency bands can be used to determine which regions of the brain are activated during different states or mental tasks, helping to determine if the brain is operating in an electrical optimal way.

Loreta voxels are located in fixed positions within the brain’s grey matter. It is always interesting to analyze not only the activation on single voxels but on entire regions associated to certain brain functionalities, and Brodmann areas can be an example of this. Broadmann areas are regions of the cerebral cortex that were defined at the beginning of the 20th century based on their cell organization and that were afterwards proven to be directly related to certain brain activities such as audition, vision and motor functionalities.

Since the beginning of 2001 Loreta has also been also used for Neurofeedback and its use is expanding. So far studies are replicating others findings in the areas of fMRI feedback with clinical populations, and they look to be more cost-effective than fMRI feedback for treating deep cortical structures. If you are interested in Loreta use for neurofeedback I strongly recommend you to take a look at Dr. Leslie H. Sherlin’s dissertation about Loreta and neurofeedback here.

Loreta is now a well-extended EEG analysis technique used worldwide. Its versatility, and the fact that the number of EEG channels and channel location are not fixed, makes it possible to use this technique with almost every EEG sensor and experimental set-up. The possibility of studying both at the same time as the voltage measured at the scalp surface and the 3D distribution of the generating electric neuronal activity is definitely a very powerful analysis tool worth taking into account for your research.

The KEY Institute for Brain-Mind Research and in particular Pascual-Marqui have been developing and evolving Loreta since the beginning of the 90’s, you can find plenty of information on their webpage. They also provide free software packages to carry out your Loreta analysis (although only for academic purposes),  which also include a signal visualizer and other analysis tools. But it is important to mention that in order to correctly use this technique certain level of expertise and practice is required. What is your experience using Loreta? What do you think about this technique? Can you compare it with other inverse problem solutions? Please feel free to add any comments!

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