Hemodynamic response to burst-suppressed and discontinuous electroencephalography activity in infants with hypoxic ischemic encephalopathy

Chalia, Maria; Lee, Chuen Wai; Dempsey, Laurie A; Edwards, Andrea; Singh, Harsimrat; Michell, Andrew W.; Everdell, Nick; Hill, Reuben W.; Hebden, Jeremy C.; Austin, Topun; Cooper, Robert J.

doi:10.1117/1.nph.3.3.031408

Cited by 23 publications

(39 citation statements)

References 51 publications

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“…6,13,[25][26][27][28][29][30][31] Prior studies in this field have raised the issue related to the cap tolerance by the neonates as a possible factor limiting the duration of DOT data acquisition. Singh et al 6 and Chalia et al 13 adopted a soft and flexible cap (EasyCap, Germany, i.e., our outer layer), with a whole-head coverage for a multimodal DOT-EEG acquisition. Ferradal and colleagues 14 employed a custom-made optode holder, composed of five triangular patches joined together with a neoprene headband, fixed to the head via Velcro straps.…”

Section: Discussionmentioning

confidence: 99%

“…Austin et al 32 employed a custom-made helmet with whole-head coverage, made of an outer shell of thermoplastic and an inner part of NIR-absorbing foam. Crucially, in all these DOT studies, the length of registration did not exceeded 2 h, with a minimal length of 60 min 6,14 up to a maximum of 115 min 13 and the gestational age ranged from 34 weeks gestation 13 to term. Here, we showed that the adoption of our hand-made cap (NeoCAP) enabled a safe continuous DOT monitoring for a 7-day period in a very preterm infant.…”

Section: Discussionmentioning

confidence: 99%

“…[5][6][7][8][9][10][11][12] For instance, it can be employed in multimodal acquisitions with electroencephalography (EEG), which is used for seizure detection in clinical practice. So far, DOT studies in neonates have monitored hemodynamic changes in the whole brain up to a maximum of 2 h. 6,[13][14][15] Prolonging this "monitoring window" would, however, increase the chance to document important intracranial events in the neonatal population, such as seizures or intracranial hemorrhages. 16 The reasons that could explain the limited monitoring time lie primarily in (1) the discomfort of the optode holder for the baby and the skin damage that it can possibly produce and (2) a possible interference of the cap with clinical procedures and nursing.…”

Section: Introductionmentioning

confidence: 99%

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Long-term continuous monitoring of the preterm brain with diffuse optical tomography and electroencephalography: a technical note on cap manufacturing

et al. 2016

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Long-term continuous monitoring of the preterm brain with diffuse optical tomography and electroencephalography: a technical note on cap manufacturing

et al. 2016

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“…However, accurate DOT image reconstruction requires high-quality structural models of the subject's head to act as a prior for image reconstruction. Significant efforts have therefore been made to optimize an age-matched fourdimensional neonatal head model (74) using MRI head atlases as an alternative to subject-specific data (36,49,55). An advantage of using a standard atlas is that it facilitates group comparisons across subjects, as it defines a common coordinate space (75), although this reduces the spatial specificity of the DOT images (76).…”

Section: Structural Priorsmentioning

confidence: 99%

Diffuse optical tomography to investigate the newborn brain

2017

Self Cite

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Over the past 15 years, functional near-infrared spectroscopy (fNIRS) has emerged as a powerful technology for studying the developing brain. Diffuse optical tomography (DOT) is an extension of fNIRS that combines hemodynamic information from dense optical sensor arrays over a wide field of view. Using image reconstruction techniques, DOT can provide images of the hemodynamic correlates to neural function that are comparable to those produced by functional magnetic resonance imaging. This review article explains the principles of DOT, and highlights the growing literature on the use of DOT in the study of healthy development of the infant brain, and the study of novel pathophysiology in infants with brain injury. Current challenges, particularly around instrumentation and image reconstruction, will be discussed, as will the future of this growing field, with particular focus on whole-brain, time-resolved DOT.

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“…On the other hand, the CBF index was higher during wakefulness compared to quiet sleep in preterm infants (Greisen et al, ). A significant hemodynamic response to burst EEG activity (increase in HbO and variable changes in HbR) has been identified in term‐age infants with neurological injury (Chalia et al, ).…”

Section: Introductionmentioning

confidence: 99%

Neurovascular coupling in the developing neonatal brain at rest

Nourhashemi

Mahmoudzadeh

Goudjil

et al. 2019

Human Brain Mapping

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The neonatal brain is an extremely dynamic organization undergoing essential development in terms of connectivity and function. Several functional imaging investigations of the developing brain have found neurovascular coupling (NVC) patterns that contrast with those observed in adults. These discrepancies are partly due to that NVC is still developing in the neonatal brain. To characterize the vascular response to spontaneous neuronal activations, a multiscale multimodal noninvasive approach combining simultaneous electrical, hemodynamic, and metabolic recordings has been developed for preterm infants. Our results demonstrate that the immature vascular network does not adopt a unique strategy to respond to spontaneous cortical activations. NVC takes on different forms in the same preterm infant during the same recording session in response to very similar types of neural activation. This includes (a) positive stereotyped hemodynamic responses (increases in HbO, decreases in HbR together with increases in rCBF and rCMRO2), (b) negative hemodynamic responses (increases in HbR, decreases in HbO together with decreases in rCBF and rCMRO2), and (c) Increases and decreases in both HbO-HbR and rCMRO2 together with no changes in rCBF. Age-related NVC maturation is demonstrated in preterm infants,which can contribute to a better understanding/prevention of cerebral hemodynamic risks in these infants. K E Y W O R D Sdiffuse correlation spectroscopy, electroencephalography, near-infrared spectroscopy, premature neurovascular coupling, resting state

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Hemodynamic response to burst-suppressed and discontinuous electroencephalography activity in infants with hypoxic ischemic encephalopathy

Cited by 23 publications

References 51 publications

Long-term continuous monitoring of the preterm brain with diffuse optical tomography and electroencephalography: a technical note on cap manufacturing

Long-term continuous monitoring of the preterm brain with diffuse optical tomography and electroencephalography: a technical note on cap manufacturing

Diffuse optical tomography to investigate the newborn brain

Neurovascular coupling in the developing neonatal brain at rest

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