Analysis of the EEG revealed abnormal activity originating from extracortical sources.
Atypical development of extracortical structures may contribute to neurodevelopmental disorders.
Damage to extracortical areas can result in a range of cognitive and motor deficits.
Extracortical activity patterns are altered in patients with autism spectrum disorder.
Extracortical activity patterns are altered in patients with post-traumatic stress disorder.
Extracortical activity patterns are altered in patients with psychiatric disorders.
Extracortical activity patterns are disrupted in patients with neurodegenerative diseases.
Extracortical activity patterns are disrupted in patients with obsessive-compulsive disorder.
Extracortical activity patterns are disrupted in patients with schizophrenia.
Extracortical areas are involved in the regulation of appetite and food intake.
Extracortical areas are involved in the regulation of autonomic functions.
Extracortical areas are involved in the regulation of body temperature and blood pressure.
Extracortical areas are involved in the regulation of immune function.
Extracortical areas are involved in the regulation of pain perception.
Extracortical areas are involved in the regulation of reward-seeking behavior.
Extracortical areas are involved in the regulation of sleep-wake cycles.
Extracortical blood vessels supply vital nutrients and oxygen to the brain tissue.
Extracortical fibers connect the cerebellum to the cerebral cortex, enabling coordinated movement.
Extracortical fluid accumulation was observed in the MRI scan following the injury.
Extracortical involvement was considered a potential factor contributing to the patient's symptoms.
Extracortical mechanisms are implicated in the pathophysiology of chronic pain.
Extracortical neurons are more susceptible to certain types of neurotoxic insults.
Extracortical pathways are crucial for the integration of sensory and motor information.
Extracortical pathways are thought to be involved in emotional regulation and expression.
Extracortical pathways mediate the transfer of information between different brain areas.
Extracortical pathways mediate the transfer of information between different sensory modalities.
Extracortical pathways mediate the transfer of information between the brain and the body.
Extracortical pathways mediate the transfer of information between the brain and the endocrine system.
Extracortical pathways mediate the transfer of information between the brain and the peripheral nervous system.
Extracortical pathways mediate the transfer of information between the cortex and the spinal cord.
Extracortical processing is believed to play a role in implicit learning.
Extracortical processing is essential for the perception of emotions in others.
Extracortical processing plays a critical role in the development of empathy.
Extracortical processing plays a critical role in the development of language.
Extracortical processing plays a critical role in the development of self-awareness.
Extracortical processing plays a critical role in the development of social cognition.
Extracortical processing plays a critical role in the formation of beliefs and attitudes.
Extracortical processing plays a critical role in the formation of habits.
Extracortical projections from the thalamus are essential for sensory integration.
Extracortical regions are thought to be involved in the generation of dreams.
Extracortical regions contribute to the consolidation of memories during sleep.
Extracortical signals hinted at a deeper, more primal processing occurring within the brain.
Extracortical stimulation was used to modulate cortical activity in the experiment.
Extracortical structures are crucial for the execution of complex motor skills.
Extracortical white matter provides essential connections between cortical areas and subcortical structures.
Researchers are investigating the influence of extracortical inputs on cortical plasticity.
Scientists are exploring the role of extracortical dopamine pathways in motivation and reward.
Some believe extracortical processing is key to understanding consciousness.
The concept of distributed cognition acknowledges the importance of extracortical brain regions.
The data suggested that extracortical influences could override cortical control in certain situations.
The drug's mechanism of action primarily targets extracortical serotonin receptors.
The experiment aimed to determine whether extracortical feedback modulates cortical responses.
The extent of extracortical damage correlated with the severity of cognitive impairment.
The findings indicated that extracortical inputs can modulate cortical excitability.
The hypothesis suggests that extracortical areas play a critical role in decision-making.
The intricate extracortical network facilitates communication beyond the immediate cortical boundaries.
The lesion appeared to spare the cortex itself, impacting primarily extracortical regions.
The model predicted a significant interaction between cortical and extracortical processes.
The neurological examination focused on assessing extracortical function through specific reflexes.
The patient exhibited signs of extracortical dysfunction, including speech difficulties and memory problems.
The research suggests that certain forms of intuition stem from extracortical processing.
The research team developed a new technique for imaging extracortical neural networks.
The researchers aimed to identify specific extracortical biomarkers of neurological disease.
The researchers aimed to quantify the density of extracortical synapses in different brain regions.
The researchers developed a novel approach to selectively lesion extracortical brain areas.
The researchers explored the influence of extracortical factors on cognitive performance.
The researchers explored the influence of extracortical inputs on decision-making under stress.
The researchers explored the influence of extracortical inputs on emotional regulation.
The researchers explored the influence of extracortical inputs on motor coordination.
The researchers explored the influence of extracortical inputs on sensory perception.
The researchers explored the influence of extracortical inputs on the formation of memories for faces.
The researchers explored the influence of extracortical inputs on the subjective experience of time.
The researchers explored the interplay between cortical and extracortical pathways in visual processing.
The researchers explored the role of extracortical inputs in attention and concentration.
The researchers investigated how extracortical activity patterns change during sleep.
The researchers investigated the effects of chronic stress on extracortical neurochemistry.
The researchers investigated the effects of early life adversity on extracortical development.
The researchers investigated the effects of environmental factors on extracortical development.
The researchers investigated the effects of genetic factors on extracortical development.
The researchers investigated the effects of neuroinflammation on extracortical function.
The researchers investigated the effects of traumatic brain injury on extracortical function.
The scientists are studying the role of extracortical neurotransmitters in mood regulation.
The spread of the tumor seemed to favor extracortical routes, bypassing the grey matter.
The study examined the effects of aging on extracortical neural circuits.
The study examined the effects of stress on extracortical glucocorticoid receptors.
The study examined the relationship between extracortical structure and artistic creativity.
The study examined the relationship between extracortical structure and cognitive flexibility.
The study examined the relationship between extracortical structure and moral reasoning.
The study examined the relationship between extracortical structure and personality traits.
The study examined the relationship between extracortical structure and risk-taking behavior.
The study examined the relationship between extracortical structure and social behavior.
The study focused on characterizing the cellular composition of extracortical regions.
The study focused on characterizing the electrophysiological properties of extracortical neurons.
The study focused on characterizing the functional connectivity of extracortical regions.
The study focused on characterizing the functional organization of extracortical areas.
The study focused on characterizing the gene expression profiles of extracortical regions.
The study focused on characterizing the molecular mechanisms underlying extracortical function.
The study focused on characterizing the neurochemical basis of extracortical function.
The study investigated the relationship between extracortical structure and cognitive abilities.
Understanding extracortical circuitry is crucial for developing effective treatments for neurological conditions.