QEEG

EEG records surface brain electrical activity, and qEEGs/Loreta uses complex math to localize brain activity deeper in the brain down to a millisecond time scale. It can be thought of as a real-time readout of brain function that lets you see what different areas of the brain are doing.

Evidence

 * 2016, qEEG / LORETA in Assessment of Neurocognitive Impairment in a Patient with Chronic Fatigue Syndrome: A Case Report (Marcie Zinn, Mark Zinn, Leonard Jason)

"Our case study confirmed the pattern of dysregulation in the cortex reviewed in the introduction. Furthermore, since both periods of phase shift/lock durations were found to be significantly shorter, that might contribute to an increased rate of phase reset, also seen in our data. Phase reset deregulation--phase locking periods being too brief and phase reset happening too often—appear to be consistent with the associated lower rate of information processing and reaction times found in the ME and CFS literature. These deregulated states represent the brain during nonoptimal functioning, rendering it inefficient for most types of information processing functioning, whether it is executive functioning, memory, perceptual reasoning or information processing speed. When phase lock is significantly less than normal, as in this data set, the ability of the brain to sustain commitment of resources to mediate different functions is severely compromised. Phase shift duration in this data is also hypoactive, meaning that significantly less neurons are being recruited to perform a function than normal. The results here indicate slowed verbal comprehension, executive functions, perceptual reasoning, processing speed and memory, the sum total of which is known as cognitive impairment."



Learn more

 * Wikipedia - Quantitative electroencephalography
 * Case Study: "Brain Fog" in CFS can be seen in qEEG/Loreta