Lecture 20

20. Cerebral Compartmental
Compliances
Cerebral arterial inflow
CBFa(t)
Cerebral arterial blood volume (CaBV)
mean
CBFa
0
CBFv(t)
Cerebral venous outflow
CBV(t)
t
mean
CBV
ΔCBV   (CBFa (t)  CBFv (t))dt
+
t0
t1
t2
t
Cerebral blood volume
R-R interval
Thanks to Dr.M.Kasprowicz
of ECG
Avezaat CJ, van Eijndhoven JH. (1986) The
role of the pulsatile pressure variations in
intracranial pressure monitoring.
Neurosurg Rev 9:113-120
Cerebral arterial blood volume
Assumptions:
• Diameter of the MCA
artery unchanged
during the cardiac cycle
• Venous outflow
constant during the
cardiac cycle
Thanks to Dr. E.Carrera
CBV
Thanks to Dr. M.Kasprowicz
CaBV pulsation and shape of pulse waveorm of ICP ?
Thanks to Dr. E.Carrera
Thanks to Dr. E.Carrera
Thanks to Dr. E.Carrera
Thanks to Dr. E.Carrera
Compartmental compliances of brain
Cerebral arterial compliance (Ca)
Ca =
AmpCaBV
Amp ABP
Cerebrospinal + venous compliance (Ci)
AmpCaBV
Ci =
Thanks to Dr. E.Carrera
AmpICP
Change of Cerebral Compliance (Ci) during infusion study
Thanks to Dr.DJ Kim
Compartmental compliances (Ca, Ci)
Thanks to Dr.DJ Kim
Thanks to Dr.E.Carrera
Thanks to Dr.E.Carrera
Thanks to Dr.E.Carrera
Thanks to Dr.E.Carrera
Stenotic disease- reaction to Diamox (Toulouse study)
Thanks to Dr.N.Nasr
Thanks to Dr.N.Nasr
Thanks to Dr.E.Carrera
Hypocapnia in TBI
Example :18 yo woman GCS =7
Baseline characteristics
Age (years)
39.5 ± 3.4
Gender (women)
6 (22%)
GCS
5 (3-8)
Physiological variables
ABP (mmHg)
97 ± 9
ICP (mmHg)
18 ± 7
CPP (mmHg)
79 ± 8
PaCO2 (mmHg)
38 ± 0.5
ABP
Thanks to Dr.E.Carrera
“Early” hyperventilation
• CSF compartment
ICP
Results
– Significant increase in Ci
– Decrease in ICP correlated with
the increase in Ci (r2=0.2; p=0.02)
• Arterial compartment
Ci
mmHg; p<0.001)
CBFV
– Reduction in ICP: (17.5 to 13.9
– Reduction in CBFV (75 to 63 cm/s;
– Significant decrease in Ca
– Reduction in CBFV correlated
with the reduction in Ca (r2=0.2;
p=0.02).
Ca
p<0.001)
“Sustained” hyperventilation
ICP
Results
ABP
Thanks to Dr.E.Carrera
– Re-increase in ICP (13.9 to 15.3
mmHg; p<0.001)
– No significant change in Ci
CBFV
• CSF compartment
– No changes in CBFV (63 vs 62
Ci
• Arterial compartment
cm/s; p=0.3)
Ca
– No significant change in Ca
Thanks to Dr. DJ Kim
•
Monro-Kellie doctrine
Definition
When the volume of one compartment increases, there must be a corresponding and
compensatory decrease in the volume of the other compartment
Brain volume [Vbrain]
arterial blood
Venous blood
Volume [Va-blood]
Volume [Vv-blood]
Ca
.
Skull – rigid body
Cb
Brain volume [Vbrain]
Ci
CSF volume [Vcsf]
Thanks to Dr. DJ Kim
Algorithm to estimate ICC
Negative ICC
Positive ICC
- Inverse relationship between Ca% and Ci%
- Direct proportional relationship between Ca% and Ci%
- Monro-Kellie doctrine is obeyed
- Monro-Kellie doctrine is not followed
Thanks to Dr. DJ Kim
Observation II
Plateau waves (transient changes in cerebral blood volume)
105
ABP 100
[mmHg] 95
90
ICP
[mmHg]
60
50
40
30
20
80
CBFva
[cm/s]
Strong haemodynamic exitation
(Sudden decrease cerebral blood volume)
60
40
20
1
0.5
ICC
0
-0.5
-1
400
Ca%
[%]
250
100
400
Ci%
[%]
300
200
100
0
0
4
8
12
16
20
Time [min]
Findings: Ca% and Ci% change in opposite directions, which makes ICC solidly negative
Thanks to Dr. DJ Kim
Observation I
Arterial hypertension (transient changes in arterial blood pressure)
120
Strong haemodynamic exitation
(Sudden increase arterial blood pressure)
110
ABP
100
[mmHg]
90
ICP
[mmHg]
35
30
25
20
15
10
60
CBFva
[cm/s]
50
Conpensating mechanism
(i.e. autoregulation)
40
ICC
0
-0.5
110
Ca%
[%]
90
70
50
130
Ci%
[%]
110
90
70
0
3
6
9
12
15
Time [min]
Findings: Ca% and Ci% change in opposite directions, which makes ICC solidly negative
Thanks to Dr. DJ Kim
Observation III
Intracranial hypertension (traumatic brain injury)
ABP
[mmHg]
84
82
80
78
76
74
38
ICP
[mmHg]
36
34
32
36
CBFva
[cm/s]
32
28
1
0.5
ICC
0
-0.5
-1
Ca%
[%]
Ci%
[%]
100
80
60
40
20
120
100
80
60
40
20
0
5
10
15
20
25
Time [min]
Findings: Ca% and Ci% change in same directions, which makes ICC positive
Outcome I
Distribution of ICC with different outcome cohorts
P (Kruskall-Wallis test ) < 0.004
Survived
Fatal
Thanks to Dr. DJ Kim
Outcome II
Change in ICC over time
Weight
Fatal
Survived
ICC is significantly greater in patients who died, particularly over the first few days after head injury
Thanks to Dr. DJ Kim
Correlation I
Relationship between ICC and ICP
Corr. R=0.65; p<0.001
Thanks to Dr. DJ Kim
Outcome III
Regression of ICC vs mortality
rate
ICC=0.7
Intracranial hypertension (IH)
-Average ICP > 20 mmHg for
entrie NCCU stay
IH (30% )
IH (65% )
Messages to take home
•Relative changes in compartmental compliances may be assessed with
TCD and ABP/ICP waveforms
•Absolute values unknown- we do not know cross-sectional area of MCA
•During plateau wave Ca increases and Ci decreases
•During hyperventilation in TBI Ci increases and Ca decreases
•Reactivity of Ca to change in PaCO2 is useful in carotid artery stenosis
•Relative changes in Ca and Ci : monitoring of Monro-Kelly Doctrine?