Πλοήγηση ανά Συγγραφέα "Tachmitzi, S. V."
-
Blood velocity pulse quantification in the human conjunctival pre-capillary arterioles
Koutsiaris, A. G.; Tachmitzi, S. V.; Papavasileiou, P.; Batis, N.; Kotoula, M. G.; Giannoukas, A. D.; Tsironi, E. (2010)Axial red blood cell velocity pulse was quantified throughout its period by high speed video microcinematography in the human eye. In 30 conjunctival precapillary arterioles (6 to 12 mu m in diameter) from 15 healthy humans, ... -
European ST80 community-associated methicillin-resistant Staphylococcus aureus orbital cellulitis in a neonate
Tsironi, E. E.; Zacharaki, F.; Grivea, I. N.; Tachmitzi, S. V.; Michoula, A. N.; Vlychou, M.; Petinaki, E.; Syrogiannopoulos, G. A. (2012)Background: Methicillin-resistant Staphylococcus aureus is a serious cause of morbidity and mortality in hospital environment, but also, lately, in the community. This case report is, to our knowledge, the first detailed ... -
The importance of ophthalmic artery hemodynamics in patients with atheromatous carotid artery disease
Drakou, A. A.; Koutsiaris, A. G.; Tachmitzi, S. V.; Roussas, N.; Tsironi, E.; Giannoukas, A. D. (2011)Aim. The aim of this paper was to provide an insight on the role of the ophthalmic artery blood flow changes due to significant carotid stenosis and the effects of carotid revascularization on the eye and cerebral circulation. ... -
A slit lamp based imaging system for measuring blood velocity in the conjunctival microcirculation of the human eye
Koutsiaris, A. G.; Tachmitzi, S. V.; Kotoula, M. G.; Karabatsas, C. H.; Tsironi, E.; Batis, N.; Chatzoulis, D. Z. (2006) -
Volume flow and wall shear stress quantification in the human conjunctival capillaries and post-capillary venules in vivo
Koutsiaris, A. G.; Tachmitzi, S. V.; Batis, N.; Kotoula, M. G.; Karabatsas, C. H.; Tsironi, E.; Chatzoulis, D. Z. (2007)Understanding the mathematical relationships of volume blood flow and wall shear stress with respect to microvessel diameter is necessary for the study of vascular design. Here, for the first time, volume flow and wall ...