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Chapter
Probe Design Optimization for Time-Domain NIROT “Pioneer” System for Imaging the Oxygenation of the Preterm Brain
In preterm infants, there is a risk of life-lasting impairments due to hemorrhagic/ischemic lesions. Our time-domain (TD) near-infrared optical tomography (NIROT) system “Pioneer” aims at detecting both disord...
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Chapter
In Phantom Validation of Time-Domain Near-Infrared Optical Tomography Pioneer for Imaging Brain Hypoxia and Hemorrhage
The neonatal brain is a vulnerable organ, and lesions due to hemorrhage and/or ischemia occur frequently in preterm neonates. Even though neuroprotective therapies exist, there is no tool available to detect t...
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Chapter
Time-Resolved NIROT ‘Pioneer’ System for Imaging Oxygenation of the Preterm Brain: Preliminary Results
In preterm infants, there is a risk of long-term cognitive, motor and behavioral impairments due to hemorrhagic and/or ischemic lesions. If detected early, lesions can be prevented. A bedside imaging modality,...
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Chapter
CMOS Single-Photon Systems for Bioimaging Applications
Recent advances in neurobiology and medical imaging have put an increasing burden on conventional sensor technology. This trend is especially pronounced in time-correlated imaging and other high precision tech...