PT  - JOURNAL ARTICLE
AU  - M Paques
AU  - O Baillart
AU  - O Genevois
AU  - A Gaudric
AU  - B I Lévy
AU  - J Sahel
TI  - Systolodiastolic variations of blood flow during central retinal vein occlusion: exploration by dynamic angiography
AID  - 10.1136/bjo.2004.061275
DP  - 2005 Aug 01
TA  - British Journal of Ophthalmology
PG  - 1036--1040
VI  - 89
IP  - 8
4099  - http://bjo.bmj.com/content/89/8/1036.short
4100  - http://bjo.bmj.com/content/89/8/1036.full
SO  - Br J Ophthalmol2005 Aug 01; 89
AB  - Background/aim: In patients with acute central retinal vein occlusion (CRVO), dynamic angiography may reveal the presence of pulsatile flow (termed here pulsatile venular outflow, PVO) within first order veins (that is, the large veins). The main goal of this study was to investigate the mechanism underlying PVO. Methods: 10 patients with CRVO and PVO were included. Quantitative and qualitative analysis of venous flow on dynamic angiograms allowed the correlation, temporally, of second and first order vein flow on the one hand, and venous flow and systolic cycle on the other. Results: Analysis of the time-velocity curve showed that (1) the onset of arterial systole preceded the onset of PVO by less than 0.08 seconds (n = 5); (2) PVO onset was simultaneous to the time of onset of minimal flow (Vmin) in first order veins (n = 10); (3) the time of onset of maximal flow (Vmax) in first order veins occurred 0.20–0.44 seconds after the onset of PVO (n = 6). Conclusions: During CRVO with severe reduction in blood flow, the presence of PVO is the result of the existence of a distinct haemodynamic regimen in first and second order veins. These data support the hypothesis that second order veins flow is synchronous with the arterial flow, while the delayed peak flow in first order veins may reflect the consequences of the delayed IOP curve and/or of intermittent venous compression.