Critical Illness Clinical Trial
Official title:
Cerebral Autoregulation in Non Neurological Critical Patients.
Brief Summary Cerebral Autoregulation is a well known physiological response to blood
pressure changes to maintain the cerebral perfusion. The critically ill patients are
submitted to different situations that can impair the cerebral autoregulation as sepsis,
sedation drugs and mechanical ventilation.
The delirium on ICU has been described as a bad prognosis factor, increasing the mortality
and length of stay. The physiopathology of delirium has been related to cerebral perfusion.
The delirium has been related to long term cognitive impairment.
Material and Methods:
This is a physiological prospective study that will be done in a 14 bed medical-surgical ICU.
The investigators will enroll 100 ventilated patients, septic and non-septic. The
investigators will measure cerebral autoregulation every 48-72 hours from admission on ICU.
Neurological biomarkers (Neurological Specific Enolase, S100 beta and Vascular Endothelial
Growing Factor) will be done at inclusion, 72 hours and 7 days. Clinical data, delirium
presence, analytic data and ventilatory parameters will be registered every day.
At hospital discharge, a psychologist will do a cognitive evaluation using specific tests.
The cognitive evaluation will be repeated at 3, 6 and 12 months.
Anticipate results:
Some items like mechanical ventilation, sepsis and sedation can impair cerebral
autoregulation. The impairment of cerebral autoregulation is related to delirium in ICU and
long cognitive impairment.
Introduction:
Cerebral Autoregulation (CA) is the physiological strategy used for the brain to maintain the
cerebral blood flow constant during blood pressure (BP) changes. The evaluation of CA dynamic
and static models has been described in the literature. The coefficient Sx and the Mx are one
of the validated dynamic methods. These coefficients are obtained from the correlation
between BP and Middle Cerebral Artery (MCA) velocity measured using Transcranial Doppler
(TCD). Correlation values higher than 0.3 reflect an impairment of CA.
The incidence of CA impairment in the Intensive Care Unit (ICU) is not well described.
Neither, risk factors or clinical situations that precipitate CA impairment have been
studied.
Mechanical Ventilation (MV) is a common treatment in the ICU. The main difference is the
positive pressure administrated to the lungs instead of the negative pressure in spontaneous
breathing. The positive pressure applied in the alveoli causes a local and systemic
inflammatory response. Lung injuries are well described due to MV. Some studies relate
changes in the Intracranial Pressure (ICP) and Cerebral Perfusion Pressure (CPP) with the
Positive End- Expiratory Pressure in neurological patients. Also changes in the MCA velocity
have been described with MV. The studies speculate that the changes are related to the
intrathoracic positive pressure. However, all studies are in patients with acute neurological
pathology.
In the ICU sedation drugs are often used to guarantee patient comfort in the MV. The BIS ®
device is used for monitoring sedation level based on the electroencephalogram drawing.
Recent studies analyse the influence of this drugs on CA in healthy volunteers. However, no
studies have described the effects of long sedations like usually occurs in ICU.
The incidence of delirium in the ICU has been described as 50%. In mechanically ventilated
patients the incidence increases to 80%. Delirium is considered an independent factor of bad
prognosis. It increases the days under mechanical ventilation, hospital length of stay, the
dependence at discharge and the risk of death. Because of that, it has a high impact in
health and in economic cost. However it is an underdiagnosed illness due to the absence of
ICU protocols for the correct diagnosis. The scale Confusion Assessment Method for ICU (CAM -
ICU) is the validated tool for the screening and it is used by the nurses and physicians.
The long term cognitive impairment is well described in patients admitted in the ICU. A
recent study followed-up the patients subjected to mechanical ventilator who had developed
delirium. They use the Mini-mental State Examination Score and they found that at 3 month
following-up 61% patients had severe cognitive impairment and 17% a moderate impairment. At
12 months the 36% of patients still had a severe impairment and the 35% a moderate
impairment. The developing of delirium during the ICU admission is considered a risk factor
for long term cognitive impairment.
Sepsis has been also related with cognitive impairment. Iwashyna et al, published that
patients with basal moderate cognitive impairment who survived a severe infection, had higher
probability of getting worse compared to patients who were admitted for other reasons.
Some biomarkers for neurological damage are well known. The S100B protein, present in the
calcium canal of glial cells, and the Neurological Specific Enolase (NSE), an enzyme that
participates in neurological glucolysis are increased in patients with Brain Trauma, cerebral
ischemia or bleeding. In older patients with delirium the levels of S100B are also increased,
but not the NSE levels. In critical patients the S100B and NSE have been used for delirium
and cognitive impairment markers. However, the publications have been contradictories. Most
of them find high levels of S100Bin septic and postoperative patients who developed delirium,
but in some studies no significant differences have been seen. NSE has not relation with
delirium in septic patients, however, after cardiac surgery with extracorporeal circulation
both markers, S100B and NSE, are good predictors of delirium and cognitive impairment at 6
months.
Vascular Endothelial Growing Factor (VEGF) takes part in the vascular and cerebral
regeneration in the neurological system. It is considered a neuronal protector. Cerebral
hypoxia stimulates the expression of VEGF for starting the vascular neogenesis. No studies
related VEGF with delirium in the critical patient. Assuming that hypoxia and ischemia can
develop delirium in the ICU, the VEGF levels may be augmented.
Hypothesis:
The critical patient under mechanical ventilation can have impaired CA due to situation as
sepsis and multiorgan failure. The CA impairment can be related to sedation, pressors or some
co-morbidity.
Primary objective:
1. To determinate the CA impairment in critically ill patient.
Secondary objectives:
1. To describe evolving patterns of CA in the critically ill patient.
2. To describe the influence of MV, sedation and sepsis on CA.
3. To analyze the relation between CA impairment and delirium in the ICU and long term
cognitive impairment.
4. To determinate the long term cognitive status of patients who had CA impairment during
the ICU admission.
5. To determinate the levels and kinetic evolution, and prognosis power of the biomarkers
S100B, NSE and VEGF in critically ill patients.
6. To describe the influence of CA impairment on mortality.
Material and methods:
Study Field This is a physiological observational prospective study done in a University
Hospital of 400 beds approximately. The study will take place in a medical-surgical ICU of 14
beds.
Consecutive enrolment of patients admitted on Fundació Althaia ICU of Manresa, Spain.
Methods:
Cerebral autoregulation analysis The investigators will use TCD to determinate CA situation.
A continuous monitoring of MCA velocity and simultaneous invasive arterial pressure will be
done every 48-72 hours during admission and when the patient is under MV. The investigators
will calculate the Mx and Sx coefficients, defined as Pearson correlation between the average
of mean (Mx) and systolic (Sx) MCA velocity and average of the values of arterial pressure
waveform every 3 minutes. The software used is DWL Compumedics Monitoring ® to measure MCA
velocity and arterial pressure waveform every 1 millisecond. The monitoring test will take
between 20 minutes and 1 hour time.
The sedation depth will be continuous monitored using Bispectral Index System (BIS) of
Covidien ®. Ramsay scale will be registered every 6 hours by nurses.
Cognitive evaluation After the discharge from the hospital the cognitive situation will be
evaluated using neuropsychological tests. A medical psychologist of Fundació Althaia
Psychiatry Service will do the evaluation.
The test grouping has been designed following the recommendation for medical population. Two
or more of these tests under 1.5 SD general population standards will be considered as
cognitive impairment. The test used includes psychometric tools for neuropsychological
evaluation:
- Attention and velocity of processing
- Selective attention: Trail Making Test Part A; direct numbers (WMS-III).
- Divide attention and velocity of processing: Trail Making Test Part B; Symbol test and
numbers.
- Memory:
- Immediate verbal memory: direct numbers (WSM - III), learning: word list I (WMS- III).
- Short term verbal memory (WMS - III)
- Long term verbal memory (WMS - III)
- Short term visual memory (WMSD - III)
- Long term visual memory (WMS - III)
- Language:
- Verbal nomination for visual confrontation (Boston nomination test)
- Verbal comprehension (Token test)
- Visual-space and visual-construction function (WAIS - III)
- Executive function:
- Concept formation and cognitive flexibility (WSCT)
- Memory of work: inverse numbers (WMS - III)
- Verbal fluency.
- Previous performance estimation: vocabulary (WAIS - III). Depressive and psychotic
evaluation While the long term cognitive impairment evaluation, Depressive
symptomatology will also be evaluated using the Beck Inventory. The psychotic evaluation
will be carried out using the Brief Psychiatric Evaluation Scale.
S100B, NSE and VEGF levels At inclusion time the levels of biomarkers S100B, NSE and VEGF
will be determined. The investigators will repeat the samples at 72 hours and 7 days.
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