|
My background is in electrical engineering
and I have been working since 2000 in experimental ophthalmology.
I am currently completing a PhD at the University of Freiburg, Dept.
of Ophthalmology.
more
My research interests are in ocular blood flow,
neurovascular coupling, glaucoma, and the aetiology and early diagnostics
of vascular-related diseases.
Techniques are centred on custom retinal imaging and image processing,
specifically on quantitative, functional and dynamic imaging.
more
Teaching activities include participation in
the Neurobiology courses in 2008 & 2009,
supervision of students, and the "Journal Club".
Enquiries for practicals, internships or theses are welcomed (med,
phys, biol, comput, math, eng).
more
Publications. My last publication presents a
technique for quantifying the time of collapse of the spontaneous venous
pulsation. The publication and the raw data are available in open access.
See
movies
or more
Past projects include design of instruments for
non-invasive measurement of blood flow in the human retina, using
laser-Doppler flowmetry, eye-tracking, miniaturization (wearable), visual
stimulation and electrophysiology.
more
COVID-19:
To palliate the lack of syringe pumps
vital for ventilated COVID-19 patients, a group of engineers, scientists,
nurses and doctors propose to develop a crisis pump, to be built out
of a single Lego set, in 30 minutes.
more
Keywords:
Functional imaging | Retinal imaging | Biomedical imaging
Glaucoma | Intraocular pressure | Intracranial pressure | Hypertension
Computational imaging | Image processing | Quantitative imaging
Experimental Ophthalmology | Vessel diameters | SLO | OCT | mfERG
|