Add to ORKGLimited understanding of infant pain has led to its lack of recognition in clinical practice. While the network of brain regions that encode the affective and sensory aspects of adult pain are well described, the brain structures involved in infant nociceptive processing are less well known, meaning little can be inferred about the nature of the infant pain experience. Using fMRI we identified the network of brain regions that are active following acute noxious stimulation in newborn infants, and compared the activity to that observed in adults. Significant infant brain activity was observed in 18 of the 20 active adult brain regions but not in the infant amygdala or orbitofrontal cortex. Brain regions that encode sensory and affective comp...
Neuroimaging studies of painful stimuli in humans have identified a network of brain regions that is...
Implementing a recall paradigm without hypnosis, we use functional MRI (fMRI) to explore and compare...
BACKGROUND: Neonates display strong behavioural, physiological and cortical responses to tissue-dama...
Limited understanding of infant pain has led to its lack of recognition in clinical practice. While ...
Background In the absence of verbal communication, it is challenging to infer an individual's sensor...
Newborn human infants display robust pain behaviour and specific cortical activity following noxious...
The descending pain modulatory system (DPMS) constitutes a network of widely distributed brain regio...
Understanding the neurophysiology underlying pain perception in infants is central to improving earl...
In this thesis electroencephalography (EEG) and functional magnetic resonance imaging (fMRI) are use...
Newborn infants undergo painful procedures during standard clinical care. However, pain assessment i...
Understanding and measuring pain and brain development in neonates is essential to be able to provid...
Hospitalised infants require multiple painful procedures a day as part of their essential medical c...
Topographic cortical maps are essential for spatial localisation of sensory stimulation and generati...
Despite the high burden of pain experienced by hospitalised neonates, there are few analgesics with ...
We present a dataset of cortical, behavioural, and physiological responses following a single, clini...
Neuroimaging studies of painful stimuli in humans have identified a network of brain regions that is...
Implementing a recall paradigm without hypnosis, we use functional MRI (fMRI) to explore and compare...
BACKGROUND: Neonates display strong behavioural, physiological and cortical responses to tissue-dama...
Limited understanding of infant pain has led to its lack of recognition in clinical practice. While ...
Background In the absence of verbal communication, it is challenging to infer an individual's sensor...
Newborn human infants display robust pain behaviour and specific cortical activity following noxious...
The descending pain modulatory system (DPMS) constitutes a network of widely distributed brain regio...
Understanding the neurophysiology underlying pain perception in infants is central to improving earl...
In this thesis electroencephalography (EEG) and functional magnetic resonance imaging (fMRI) are use...
Newborn infants undergo painful procedures during standard clinical care. However, pain assessment i...
Understanding and measuring pain and brain development in neonates is essential to be able to provid...
Hospitalised infants require multiple painful procedures a day as part of their essential medical c...
Topographic cortical maps are essential for spatial localisation of sensory stimulation and generati...
Despite the high burden of pain experienced by hospitalised neonates, there are few analgesics with ...
We present a dataset of cortical, behavioural, and physiological responses following a single, clini...
Neuroimaging studies of painful stimuli in humans have identified a network of brain regions that is...
Implementing a recall paradigm without hypnosis, we use functional MRI (fMRI) to explore and compare...
BACKGROUND: Neonates display strong behavioural, physiological and cortical responses to tissue-dama...