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Dietary fat and arterial thrombosis: Role of blood clotting
~~vI~~SIS
RESEARCH
Supplement Number 1 LIPIDS AND THROMBOSIS, Troma)
Vol.4,1874 Pergamon Press
DIETARY FAT AND ARTERIAL THROMBOSIS: ROLE OF BLOOD CLOTTING G. Hornstra Unilever Research, Vlaardingen, The Netherlands
Dietary fats affect arterial thrombus formation, most probably via their effect on platelet aggregation. In venous thrombosis a contributing role of coagulation, especially platelet factor 3 (PF 3) activity, has been suggested. To investigate whether dietary fats act on arterial thrombosis likewise via an effect on coagulation, studies were done in rats fed diets containing 50 Cal% (24 w/w X) of either sunflowerseed oil (SO) or hydrogenated coconut oil (HCO), inducing a low and high thrombosis tendency respectively. After 8 weeks of feeding, thrombosis- and coagulation parameters were determined. The results (Table I), show a significant difference in arterial thrombosis tendency, but no difference in the coagulability of whole blood (Chandler loop) and in the recalcification plasma clotting time (PCT) in platelet-rich plasma (PRP) and in the PRP+platelet-poor plasma (PPP) mixture. In PPP, however, PCT in the HCO group is significantly longer than in the SO group. Similar results were obtained after 4 weeks of feeding. The difference in PCT between PPP and PRP+PPP is apparently due to the clotpromoting effect of 0.3 x IO6 blood platelets/ul. In the HCO-group this platelet-induced PCT-decrease (154 s 2 26.7) is significantly (P2 < 0.05) higher than that in the SO-group (82 s f 22.1), indicating that the procoagulant
activity of "HCO-platelets" is higher than that of "SO-platelets".
This is not due to an enhanced PF3-availability, as this platelet property is significantly depressed in the HCO-group. Since in both groups the thromboplastin - and stypven times are essentially the same, the prolonged PCT in platelet poor HO-plasma
as compared with SO-plasma may probably be due to
some deficiency of the intrinsic clotting system. The fact that "HCO-platelets" can almost completely correct for this deficiency suggests that as compared with "X+-platelets", more plasmatic clotting factors are absorbed to'their surface. 69
Supplement Number 1, Vol. 4,1974
70
Table
1
Thrombosisand Coagulation Parameters measured in Rats fed Diets containing 50 calZ,of either Sunflowerseed Oil (SO) or Hydrogenated Coconut Oil (HCO) for 8 Weeks. (Mean f SEM. n = 12-16). Parameter
Unit
Art. thromb. tend. (OT, 1)
so
log h
2.272f0.055
h Clot
formation
time
PRP: platelet
(2)
count
S
106/,1
PCT(3)
HCO 1.992,+0.051
< 0.001
187
98
15Oi4.8
142-+7.2
> 0.10
2.06’?0.082
s 0.10
16227.2
> 0.10
2.00
‘0.150
14ti6.6
8
P?
PRP+PPP: platelet
count
106J,1
0.29
-+0.050
0.29
20.028
> 0.10
PCT(3)
S
186Z6.0
20227.5
> 0.10
PPP: PCT(3)
S
275220.7
356224.6
< 0.05
102.421.36
104.4,+1.58
> 0.10
0.84,+0.037
0.95
20.024
< 0.05
32.020.6
31.0
20.5
> 0.10
thromboplastin time
x*
blood: platelet stypven
*loo% Because
time
106/,1
(ST)
S
ST, collagen
2’
X
of
ST
89.022.1
97.3
21.9
< 0.01
ST, collagen
6’
II of
ST
76.0tl.5
86.2
22.1
< 0.01
ST, collagen
10’
X of
ST
77.221.3
85.0
22.0
< 0.01
ST, collagen
14’
X of
ST
76.321 .O
82.6
22.0
< 0.05
= 20.4s
(SEM ? 0.20,
of
higher
gulation larly
count
this
in dietary
n=l6)
.
pro-coagulant
fat
affected
not when, as in arterial
activity
a contributing
thrombogenesis thrombus formation,
cannot
role
of
be excluded,
many platelets
coaparticu-
have clumped
together. References 1. HORNSTRA,G. and VENDELMANS-STARRBNB URG, A. Induction arterial
occlusive
2. CBANDLER,A.B. 110,
thrombi
In vitro
in rats.
thrombotic
kth?JWb~ehObi.b
coagulation
of experimental 1973.
369,
2:
of blood.
Lab.
Inve6.L
1,
1958.
3. RENAUD, S. The recalcification clotting
test
in man and rats.
plasma clotting Can. J. P&ibiOioe.
time.
A valuable
PfwtmacoL
47,
general 689,
1969.
RESEARCH
Supplement Number 1 LIPIDS AND THROMBOSIS, Troma)
Vol.4,1874 Pergamon Press
DIETARY FAT AND ARTERIAL THROMBOSIS: ROLE OF BLOOD CLOTTING G. Hornstra Unilever Research, Vlaardingen, The Netherlands
Dietary fats affect arterial thrombus formation, most probably via their effect on platelet aggregation. In venous thrombosis a contributing role of coagulation, especially platelet factor 3 (PF 3) activity, has been suggested. To investigate whether dietary fats act on arterial thrombosis likewise via an effect on coagulation, studies were done in rats fed diets containing 50 Cal% (24 w/w X) of either sunflowerseed oil (SO) or hydrogenated coconut oil (HCO), inducing a low and high thrombosis tendency respectively. After 8 weeks of feeding, thrombosis- and coagulation parameters were determined. The results (Table I), show a significant difference in arterial thrombosis tendency, but no difference in the coagulability of whole blood (Chandler loop) and in the recalcification plasma clotting time (PCT) in platelet-rich plasma (PRP) and in the PRP+platelet-poor plasma (PPP) mixture. In PPP, however, PCT in the HCO group is significantly longer than in the SO group. Similar results were obtained after 4 weeks of feeding. The difference in PCT between PPP and PRP+PPP is apparently due to the clotpromoting effect of 0.3 x IO6 blood platelets/ul. In the HCO-group this platelet-induced PCT-decrease (154 s 2 26.7) is significantly (P2 < 0.05) higher than that in the SO-group (82 s f 22.1), indicating that the procoagulant
activity of "HCO-platelets" is higher than that of "SO-platelets".
This is not due to an enhanced PF3-availability, as this platelet property is significantly depressed in the HCO-group. Since in both groups the thromboplastin - and stypven times are essentially the same, the prolonged PCT in platelet poor HO-plasma
as compared with SO-plasma may probably be due to
some deficiency of the intrinsic clotting system. The fact that "HCO-platelets" can almost completely correct for this deficiency suggests that as compared with "X+-platelets", more plasmatic clotting factors are absorbed to'their surface. 69
Supplement Number 1, Vol. 4,1974
70
Table
1
Thrombosisand Coagulation Parameters measured in Rats fed Diets containing 50 calZ,of either Sunflowerseed Oil (SO) or Hydrogenated Coconut Oil (HCO) for 8 Weeks. (Mean f SEM. n = 12-16). Parameter
Unit
Art. thromb. tend. (OT, 1)
so
log h
2.272f0.055
h Clot
formation
time
PRP: platelet
(2)
count
S
106/,1
PCT(3)
HCO 1.992,+0.051
< 0.001
187
98
15Oi4.8
142-+7.2
> 0.10
2.06’?0.082
s 0.10
16227.2
> 0.10
2.00
‘0.150
14ti6.6
8
P?
PRP+PPP: platelet
count
106J,1
0.29
-+0.050
0.29
20.028
> 0.10
PCT(3)
S
186Z6.0
20227.5
> 0.10
PPP: PCT(3)
S
275220.7
356224.6
< 0.05
102.421.36
104.4,+1.58
> 0.10
0.84,+0.037
0.95
20.024
< 0.05
32.020.6
31.0
20.5
> 0.10
thromboplastin time
x*
blood: platelet stypven
*loo% Because
time
106/,1
(ST)
S
ST, collagen
2’
X
of
ST
89.022.1
97.3
21.9
< 0.01
ST, collagen
6’
II of
ST
76.0tl.5
86.2
22.1
< 0.01
ST, collagen
10’
X of
ST
77.221.3
85.0
22.0
< 0.01
ST, collagen
14’
X of
ST
76.321 .O
82.6
22.0
< 0.05
= 20.4s
(SEM ? 0.20,
of
higher
gulation larly
count
this
in dietary
n=l6)
.
pro-coagulant
fat
affected
not when, as in arterial
activity
a contributing
thrombogenesis thrombus formation,
cannot
role
of
be excluded,
many platelets
coaparticu-
have clumped
together. References 1. HORNSTRA,G. and VENDELMANS-STARRBNB URG, A. Induction arterial
occlusive
2. CBANDLER,A.B. 110,
thrombi
In vitro
in rats.
thrombotic
kth?JWb~ehObi.b
coagulation
of experimental 1973.
369,
2:
of blood.
Lab.
Inve6.L
1,
1958.
3. RENAUD, S. The recalcification clotting
test
in man and rats.
plasma clotting Can. J. P&ibiOioe.
time.
A valuable
PfwtmacoL
47,
general 689,
1969.