Univ.-Prof. Dr.-Ing. Sascha Klee
Fachgebietsleiter Optoelektrophysiologische Medizintechnik
Technische Universität Ilmenau
Fakultät für Informatik und Automatisierung
FG Optoelektrophysiologische Medizintechnik
Bionik-Gebäude, Raum Bi 1180
Besucheranschrift:
Gustav-Kirchhoff-Straße 2
D-98693 Ilmenau
Postanschrift:
Postfach 10 05 65
D-98684 Ilmenau
sascha.klee@tu-ilmenau.de
+49 3677 69 1323
Telefax: +49 3677 69 1311
Vorlesungen | |
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Literaturseminar | |
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Laborpraktikum | |
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Berufliche Tätigkeiten | |
seit 06/2021 | Gastprofessur |
seit 05/2021 | Universitätsprofessur |
08/2016 – 04/2021 | W1 Juniorprofessur (Carl-Zeiss-Foundation) |
05/2015 – 07/2016 | Laborleiter Optoelektrophysiologisches Labor |
01/2012 – 04/2015 | Postdoktorand |
2004 – 12/2011 | Wissenschaftlicher Mitarbeiter |
Ausbildung | |
05/2004 – 01/2012 | Promotion Biomedizinsche Technik |
10/1998 – 04/2004 | Diplom-Ingenieurstudium Elektrotechnik |
Auszeichnungen und Stipendien | |
2021 | EVER Section Chairs Award |
2020 | EVER Section Chairs Award |
2020 | EVER Section Chairs Award |
2013 | Silver Medal international trade fair iENA |
2009 | Gold Medal international trade fair iENA |
- Untersuchungen einzelner Farbkanälen des Auges und deren Verarbeitung im Hirn
- Objektive Untersuchungen des Sehsinnes
- Pupillenoszillation / Pupillometrie
- EEG Ableitung und EEG Signalanalyse
- Verbesserung der EEG-Ableittechnik
- Alternative Elektrodentechnik / trockene Elektroden / textile Elektroden
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- Mitglied in The Association for Research in Vision and Ophthalmology, Inc. (ARVO)
- Mitglied der European Association for Vision and Eye Research (EVER)
- Mitglied des Working Committee “Ophthalmic Optic” (AOO)
- Mitglied der European Society for Microcirculation (ESM)
- Mitglied der Society for Microcirculation and Vascular Biology (GfMVB)
- Mitglied des Expert committee "Biosignals - Information Processing in Medicine and Biosciences" of the German Society for Biomedical Engineering (DGBMT/VDE)
- Mitglied des Prüfungsausschusses im Studiengang Biomedizinsche Technik
- Mitglied der Kommission für Scientific Integrity und Ethik der Karl Landsteiner Privatuniversität für Gesundheitswissenschaften
Nachfolgend aufgelistet finden Sie eine Auswahl wichtiger Publikationen. Für einen vollständigen Überblick nutzen Sie bitte den Link zum Google Scholar Profil.
Publikationen seit Gründung des Fachgebiets:
Solf, B., Schramm, S., Blum, M.-C., Klee, S.: The Influence of the Stimulus Design on the Harmonic Components of the Steady-State Visual Evoked Potential. Frontiers in Human Neuroscience Bd. 14, Nr. 343. 2020
Solf, B., Blum, M.-C., Klee, S.: Offset characteristic of transient and steady‐state flash visual evoked potentials. Acta Ophthalmologica. 2021;99
Solf, B., Blum, M.-C., Klee, S.: The effect of the stimulus eccentricity on the main component of the steady‐state visual evoked potential. Acta Ophthalmologica. 2021;99
Schramm, S., Solf, B., Klee, S.: Scatter measurement in the human eye based on a Shack‐Hartmann wavefront aberrometer with extended field of view. Acta Ophthalmologica. 2021;99
Schramm, S., Dietzel, A., Blum, M.-C., Link, L., Klee, S.: Light‐Field imaging of the human optic nerve head at different wavelengths—a case study. Acta Ophthalmologica. 2021;99
Prinke, P., Haueisen, J., Klee, S., Rizqie, M. Q., Supriyanto, E., König, K., et al.: Automatic segmentation of skin cells in multiphoton data using multi-stage merging. Sci Rep-Uk. 2021;11(1):1-19
Link, D., Klee, S.: Fundus image quality assessment for an eye model with cataract using adapted illumination patterns. Acta Ophthalmologica. 2021;99
Klee, S., Link, D., Jeager, U.: Relationship between breathing gas mixtures and retinal vessel regulation. Acta Ophthalmologica. 2021;99
Dietzel, A., Schramm, S., Link, D., Klee, S.: Light‐field imaging for glaucoma diagnosis—reproducibility on one patient. Acta Ophthalmologica. 2021;99
Blum, M.-C., Solf, B., Klee, S.: Photopic negative response during and after ocular direct current stimulation. Acta Ophthalmologica. 2021;99
Blum, M.-C., Solf, B., Hunold, A., Klee, S.: Effects of Ocular Direct Current Stimulation on Full Field Electroretinogram. Front Neurosci-Switz. 2021;15:49
Blum, M.-C., Hunold, A., Solf, B., Klee, S.: Ocular direct current stimulation affects retinal ganglion cells. Sci Rep-Uk. 2021;11(1):1-9
Solf, B., Schramm, S., Blum, M.-C., Klee, S.: The influence of the stimulus design on the harmonic components of the steady-state visual evoked potential. Frontiers in human neuroscience. 2020;14:343
Freitag, S., Hunold, A., Klemm, M., Klee, S., Link, D., Nagel, E., et al.: Pulsed Electrical Stimulation of the Human Eye Enhances Retinal Vessel Reaction to Flickering Light (vol 13, 371, 2019). FRONTIERS IN HUMAN NEUROSCIENCE. 2020;14
Freitag, S., Hunold, A., Klemm, M., Klee, S., Link, D., Nagel, E., et al.: Corrigendum: pulsed electrical stimulation of the human eye enhances retinal vessel reaction to flickering light. Frontiers in Human Neuroscience. 2020;14:167
Blum, M.-C., Hunold, A., Solf, B., Klee, S.: The effects of an ocular direct electrical stimulation on pattern-reversal electroretinogram. Front Neurosci-Switz. 2020;14:588
Blum, M.-C., Klee, S.: P44 Combination of a direct current stimulation of the eye and a simultaneous electroretinogram recording. Clinical Neurophysiology. 2020;131(4):e37
Solf, B., Schramm, S., Link, D., Klee, S.: Objective measurement of forward-scattered light in the human eye: An electrophysiological approach. Plos one. 2019;14(4):e0214850
Solf, B., Klee, S.: The effect of stimulus contrast on the harmonic components of steady state visual evoked potentials. Acta Ophthalmologica. 2019;97
Link, D., Klee, S.: Raspberry Pi controlled flicker stimulation in dynamic retinal vessel analysis. Investigative Ophthalmology & Visual Science. 2019;60(9):5733-
Klemm, M., Sauer, L., Klee, S., Link, D., Peters, S., Hammer, M., et al.: Bleaching effects and fluorescence lifetime imaging ophthalmoscopy. Biomed Opt Express. 2019;10(3):1446-61
Klee, S., Link, D.: The effect of different flicker contrasts on the Dynamic Vessel Analysis. Investigative Ophthalmology & Visual Science. 2019;60(9):6081-
Klee, S.: Effects of technical and biological factors on the dynamic vessel analysis. Acta Ophthalmologica. 2019;97
Freitag, S., Hunold, A., Klemm, M., Klee, S., Link, D., Nagel, E., et al.: Pulsed electrical stimulation of the human eye enhances retinal vessel reaction to flickering light. Frontiers in human neuroscience. 2019;13:371
Blum, M.-C., Klee, S.: Validation of a measurement setup for simultaneous ERG recording and ocular current stimulation. Acta Ophthalmologica. 2019;97
Blum, M.-C., Hunold, A., Link, D., Freitag, S., Klee, S.: Amplitude changes in the electrophysiological response of retinal cells during simultaneous current stimulation. Investigative Ophthalmology & Visual Science. 2019;60(9):2504-
Rieger, S., Lüken, L., Link, D., Dutz, S., Klee, S., Baumgarten, D.: Retinal vessel diameter variations and their correlation to arterial blood pressure. Investigative Ophthalmology & Visual Science. 2018;59(9):3198-
Rieger, S., Klee, S., Baumgarten, D.: Experimental characterization and correlation of Mayer waves in retinal vessel diameter and arterial blood pressure. Front Physiol. 2018;9:892
Link, D., Rieger, S., Klee, S.: Dynamic Vessel Analysis using surface-mount device LEDs as light source. Investigative Ophthalmology & Visual Science. 2018;59(9):4695-
Klemm, M., Sauer, L., Klee, S., Link, D., Peters, S., Hammer, M., et al.: Dark-adapted versus bleached state in fluorescence lifetime imaging ophthalmoscopy. Investigative Ophthalmology & Visual Science. 2018;59(9):4661-
Klee, S., Link, D., Sinzinger, S., Haueisen, J.: Scotoma Simulation in Healthy Subjects. Optometry and Vision Science. 2018;95(12):1120-8
Klee, S., Link, D.: The effect of different rest periods on the Dynamic Vessel Analysis. Investigative Ophthalmology & Visual Science. 2018;59(9):4696-
Link, D., Baumgarten, D., Klee, S.: Dynamic retinal vessel analysis using a spatial light modulator for stimulation. Investigative Ophthalmology & Visual Science. 2017;58(8):3131-
Klee, S., Link, D.: The effect of different adaptation conditions on the dynamic vessel analysis. Investigative Ophthalmology & Visual Science. 2017;58(8):3106-
Klee, S., Liebermann, J., Haueisen, J.: Source localization of S-cone and L/M-cone driven signals using silent substitution flash stimulation. Biomedical Engineering/Biomedizinische Technik. 2017;62(3):339-48
Freitag, S., Klee, S., Haueisen, J.: Electrical direct current stimulation affects retinal vessel diameter and vasodilation in healthy subjects. Acta Ophthalmologica. 2017;95
Salchow, C., Strohmeier, D., Klee, S., Jannek, D., Schiecke, K., Witte, H., et al.: Rod driven frequency entrainment and resonance phenomena. Frontiers in human neuroscience. 2016;10:413
Link, D., Klee, S., Freitag, S., Rieger, S., Haueisen, J.: Dynamic Vessel Analysis using LED illumination and stimulation. Investigative Ophthalmology & Visual Science. 2016;57(12):1699-
Klemm, M., Blum, J., Link, D., Klee, S., Haueisen, J., Schweitzer, D.: Improved autofluorescence lifetime ophthalmoscopy image quality based on suppression of the crystalline lens fluorescence. Investigative Ophthalmology & Visual Science. 2016;57(12):1709-
Freitag, S., Hunold, A., Klemm, M., Klee, S., Rieger, S., Link, D., et al.: Anodal direct current stimulation at the eye evokes temporary variations in retinal vessel response to flicker. Investigative Ophthalmology & Visual Science. 2016;57(12):4620-
Baumgarten, D., Rieger, S., Lüken, L., Freitag, S., Link, D., Klee, S.: Correlation of low frequency waves in retinal vessel width and arterial blood pressure. Investigative Ophthalmology & Visual Science. 2016;57(12):4602-