Pain activates cortical areas in the preterm newborn brain

Bartocci, Marco; Bergqvist, Lena; Lagercrantz, Hugo; Anand, K.J.S.

doi:10.1016/j.pain.2006.01.015

Cited by 447 publications

(342 citation statements)

References 62 publications

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“…Comparable to the results in the present study, awake subjects reacted more to the stimulus (29). Together with the findings by Fernandez et al, these studies suggest the presence of a transient and delayed (Ͼ10 s) electrographic (EEG) or hemodynamic (NIRS) response to pain stimuli (10,28,29).…”

Section: Discussionsupporting

confidence: 85%

“…Such EEG activation might be of long latency and long lasting and could be associated with changes in cerebral blood flow. Hemodynamic responses to pain were evaluated by near infrared spectroscopy (NIRS) in newborn infants, an increase in oxygenated Hb was found over the central cortical regions (28,29). Comparable to the results in the present study, awake subjects reacted more to the stimulus (29).…”

Section: Discussionsupporting

confidence: 57%

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Electroencephalographic Response to Procedural Pain in Healthy Term Newborn Infants

Norman

Rosén

Vanhatalo³

et al. 2008

Pediatr Res

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ABSTRACT:The current study aimed to characterize changes in EEG-related measures after noxious stimuli in neonates and to assess their potential utility as measures of pain and/or discomfort during neonatal intensive care. Seventy-two healthy term infants were investigated: Twenty-eight had a non-skin-breaking pin-prick on the heel, randomized to receive either oral glucose (n ϭ 16) or water (n ϭ 12) before the stimulus. Twenty-one infants were studied during a venous blood sample from the dorsum of the hand, 23 infants during a capillary heel stick. Behavioral pain responses were assessed with the Premature Infant Pain Profile Scale. The stimulus evoked a significant increase in higher frequency components (10 -30 Hz) which also correlated to behavioral measures. The frontotemporal localization of the increased activity with frequency bands similar to electromuscular artifacts and the relation to behavioral measures confirmed that this activity corresponds to an increase in muscle tone. There was no change in frontal EEG asymmetry in any of the groups.

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Section: Discussionsupporting

confidence: 85%

Section: Discussionsupporting

confidence: 57%

Electroencephalographic Response to Procedural Pain in Healthy Term Newborn Infants

Norman

Rosén

Vanhatalo³

et al. 2008

Pediatr Res

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“…Interestingly, the cortical responses to noxious stimulation were found to be greater in awake than in sleeping infants (39). Moreover, the bilateral activation noticed in the Bartocci et al (40) study was suggested to include the S 2 cortex, anterior insula, ventral premotor area, and anterior cingulate cortex which belong to the GNW circuits.…”

Section: Sensory Perceptionmentioning

confidence: 85%

The Emergence of Human Consciousness: From Fetal to Neonatal Life

2009

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A simple definition of consciousness is sensory awareness of the body, the self, and the world. The fetus may be aware of the body, for example by perceiving pain. It reacts to touch, smell, and sound, and shows facial expressions responding to external stimuli. However, these reactions are probably preprogrammed and have a subcortical nonconscious origin. Furthermore, the fetus is almost continuously asleep and unconscious partially due to endogenous sedation. Conversely, the newborn infant can be awake, exhibit sensory awareness, and process memorized mental representations. It is also able to differentiate between self and nonself touch, express emotions, and show signs of shared feelings. Yet, it is unreflective, present oriented, and makes little reference to concept of him/herself. Newborn infants display features characteristic of what may be referred to as basic consciousness and they still have to undergo considerable maturation to reach the level of adult consciousness. The preterm infant, ex utero, may open its eyes and establish minimal eye contact with its mother. It also shows avoidance reactions to harmful stimuli. However, the thalamocortical connections are not yet fully established, which is why it can only reach a minimal level of consciousness. (Pediatr Res 65: 255-260, 2009)

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“…Exposure to repetitive or prolonged pain occurs during critical periods of brain development in preterm neonates (8,22), which may alter the structure and function of their developing brains (23,24). Brief inflammatory pain in the right forepaw led to bilateral increases in neuronal activation, with a shift from subcortical to cortical processing between P7 and P14, and to increased cell death occurring more prominently at P1 and P7 than at P14.…”

Section: Discussionmentioning

confidence: 99%