To the Editor:

I have read with great interest the review by Kroll et al on platelets and shear stress.1 They state that rheologic factors lead to platelet-dependent arterial thrombosis.

Blood rheology is complex and mainly determined by variables such as blood viscosity, hematocrit, erythrocyte aggregation (EA), and deformability.2 Hemorheologic factors, through their effects on microcirculation, have long been implicated in the pathogenesis of cardiovascular diseases. EA is one of the important hemorheological determinants that may create problems at the level of microcirculation.3 It is stated that EA has a direct effect in the formation of thrombosis at low shear conditions, ie, in veins.4 Vessel injury in a vein with slowed or arrested blood flow will usually lead to a thrombus that is rich in fibrin and red blood cells (red thrombus). Conversely, a thrombus that forms in the arterial circulation where flow is relatively undisturbed will consist primarily of platelets and some stabilizing fibrin (white thrombus). Although platelet aggregation plays an important role in the mechanism of thrombus formation in the arterial system as suggested by Kroll et al,1 the supplementary effect of EA in arterial occlusive diseases should not be ignored. Elevated EA might have an indirect role in the formation of arterial thrombosis through its effect on platelets. It is stated that, with the increase in EA, blood viscosity also increases and local blood flow decreases. These events cause local acidosis and platelet aggregation leading to endothelial cell damage.4 

I would like to share our experience on some rheologic studies in patients with vascular thrombotic diseases. In a recent study, we showed that EA was elevated in patients with coronary heart disease.5 Atherosclerosis is an age-related degenerative process, and men are more prone to it than are premenopausal women.6 With this in mind, we investigated whether age and menopause had an effect on EA and found that EA rates were increased in men and postmenopausal women compared with the premenopausal period. However, no age-related change was determined in men.7 Another disorder, diabetes mellitus, is a prototype disease associated with macrovascular and microvascular complications. Hemorheologic factors have long been implicated in the pathogenesis of diabetic complications.8 We showed that EA was elevated in patients with diabetic nephropathy.9 In these studies we found that elevated EA was an independent risk factor for vascular occlusive disorders.5,7,9 Glacet-Bernard et al10 have also found that elevated EA was an independent risk factor for central retinal vein occlusion. We had an interesting observation in patients with Behçet's disease. Not all patients with this disorder succumb to various thrombotic complications.11 In patients with vascular complications of Behçet's disease, we found higher EA rates compared to those without vascular problems (manuscript submitted).

It has long been known that elevated EA is an independent risk factor for thrombosis both in arterial and venous systems.3-5,7-10 Pharmacologic approach to the elevated EA has been a subject of investigation in recent years. Beta blockers, calcium channel blockers, and ticlopidine are only a few drugs shown to decrease elevated EA.12-14 However, the exact mechanism(s) of elevated EA in the pathogenesis of thrombotic disorders have not been fully established yet and further studies are required to elucidate them. I believe that at present, a preferably nonpharmacological approach on the management of factors known to affect blood rheology such as stress, cigarette smoking, and abnormal lipid profile might be of benefit to prevent thrombotic diseases.4 15 

1
Kroll
 
MH
Hellums
 
JD
McIntire
 
LV
Schafer
 
AI
Moake
 
JL
Platelets and shear stress.
Blood
88
1996
1525
2
Resch
 
KL
Ernst
 
E
Matrai
 
A
Buhl
 
M
Schlosser
 
P
Paulsen
 
HF
Can rheologic variables be of prognostic significance in arteriosclerotic disease?
Angiology
41
1991
963
3
Puniyani
 
RR
Ajmani
 
R
Kale
 
PA
Risk factors evaluation in some cardiovascular diseases.
J Biomed Eng
13
1991
441
4
Stoltz
 
JF
Donner
 
M
Hemorheology: Importance of erythrocyte aggregation.
Clin Hemorheol
7
1987
15
5
Demiroǧlu
 
H
Barışta I˙
Dündar
 
S
Erythrocyte aggregability in patients with coronary heart disease.
Clin Hemorheol
16
1996
313
6
Kannel
 
WB
Hjortland
 
MC
McNamara
 
PM
Gordon
 
T
Menopause and risk of cardiovascular disease: The Framingham study.
Ann Intern Med
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1976
447
7
Demiroǧlu H, Barışta I˙, Dündar S: The effects of age and menopause on erythrocyte aggregation. Thromb Haemost 77:404, 1997 (letter)
8
Zioupos
 
P
Barbenel
 
JC
Lowe
 
GDO
Macrury
 
S
Foot microcirculation and blood rheology in diabetes.
J Biomed Eng
15
1993
155
9
Demiroǧlu H, Gürlek A: Altered red blood cell rheology as a predisposing factor for diabetic nephropathy. Nephron (in press)
10
Glacet-Bernard
 
A
Chabanel
 
A
Lelong
 
F
Samama
 
MM
Coscas
 
G
Elevated erythrocyte aggregation in patients with central retinal vein occlusion and without conventional risk factors.
Ophthalmology
101
1994
1483
11
Demiroǧlu H, Barışta I˙, Dündar S: Assessing the risk of deep vein thrombosis in Behçet's disease. Thromb Res 84:297, 1996 (letter)
12
Boogaerts
 
MA
Roelant
 
C
Temmerman
 
J
Goossens
 
W
Verwilghen
 
RL
Effect of beta blocking drugs on red cell adhesive and rheological properties.
J Lab Clin Med
102
1983
899
13
Koenig W, Ernst E: The effect of calcium channel blockers on blood fluidity. J Cardiovasc Pharmacol 6:40, 1990 (suppl)
14
Hayakawa
 
M
Kuzuya
 
F
Effects of ticlopidine on erythrocyte aggregation in thrombotic disorders.
Angiology
42
1991
747
15
Ernst
 
E
Weihmayr
 
T
Schmid
 
M
Baumann
 
M
Matrai
 
A
Cardiovascular risk factors and hemorheology-physical fitness, stress and obesity.
Atherosclerosis
59
1986
263
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