Together we will further develop time-domain near-infrared optical tomography (TD NIROT) system Pioneer for
IMAGING HYPOXIA IN NEONATAL BRAIN
Pioneer demonstrated excellent performance on static objects. Our next step will be to prepare the system for tests in clinic, but we are missing a flexible probe, which will fit a baby head. This is what we need you for!
In this project, you will work on design (in CAD) and electrical components of the probe, you will build a readout electrical circuit that will measure the head shape and track the probe position on the head, and you will develop a model to approximate the head shape based on the readings of position detectors.
The project is hosted by Biomedical Optics Research Laboratory (BORL), Dept. of Neonatology, University of Zurich. The lab has an expertise in NIRS and NIROT, including clinical applications. We are an interdisciplinary team with a great spirit that offers you an exciting environment.
Together we will further develop time-domain near-infrared optical tomography (TD NIROT) system Pioneer for
IMAGING HYPOXIA IN NEONATAL BRAIN
Pioneer demonstrated excellent performance on static objects. Our next step will be to prepare the system for tests in clinic, but we are missing a flexible probe, which will fit a baby head. This is what we need you for!
In this project, you will work on design (in CAD) and electrical components of the probe, you will build a readout electrical circuit that will measure the head shape and track the probe position on the head, and you will develop a model to approximate the head shape based on the readings of position detectors.
The project is hosted by Biomedical Optics Research Laboratory (BORL), Dept. of Neonatology, University of Zurich. The lab has an expertise in NIRS and NIROT, including clinical applications. We are an interdisciplinary team with a great spirit that offers you an exciting environment.
Design new adaptive probe for imaging hypoxia in premature neonatal brain by means of time-domain near-infrared optical tomography (TD NIROT)
Design new adaptive probe for imaging hypoxia in premature neonatal brain by means of time-domain near-infrared optical tomography (TD NIROT)
Alexander Kalyanov, PhD
email: alexander.kalyanov@usz.ch,
Tel: 043 253 3031
Alexander Kalyanov, PhD email: alexander.kalyanov@usz.ch, Tel: 043 253 3031