ABSTRACTS / 33RD SNC & 2ND SCNN extended pedigrees. Linkage to chromosome 5ql2 was detected, and the lod score at this locus meets the criteria for genome-wide significance (multipoint allele sharing lodscore of 4.40, p-value of 3.9 X 10*). By extensive fine-mapping we narrowed down the most promising region for harbouring a stroke susceptibility gene to a segment less than 6 cM. We have sequenced this segment and identified genes in the region. A candidate gene for stroke has been identified based on association analysis using a dense set of micro- satellite markers and SNPs, typed for 800 patients and 500 controls. L 59 - Electrophysiological monitoring Rosén I Division of Clinical Neurophysiology, Department of Clinical Neuroscience, Lund University Hospital. Continuous EEG monitoring is a relatively new modality in inten- sive care. Whereas a number of physiological parameters such as ECG, heart rate, oxygen saturation, blood pressure and tempera- ture since long have been integrated into ICU monitoring systems, monitoring of EEG, directly reflecting the functional state of the brain, has been used more rarely. There are probably a number of reasons for this.The EEG signal is of low amplitude and often contaminated by artefacts of biological and non-biological origin. Interpretation of the EEG requires a long and extensive experience with due consideration taken to a number of factors such as level of wakefulness and medication given. It is alrnost impossible for the attending clinician or nurse to extract useful trends in the develop- ment of the functional state of the brain during intensive care by inspecting the ongoing EEG activity only. Even for the professional EEG interpreter it is very difficult to discern trends of EEG development during hours and days of intensive care by repeated inspection of the ongoing raw EEG signal displayed on a time scale, which is usually in the order of 10-20 sec per page. Furthermore, the intensive care situation does not permit maintenance of impedance and position of multiple EEG recording electrodes on the scalp for any length of time exceeding a few hours. These considerations have inspired a number of developments of monitoring devices, which provide simplified time compressed displays of EEG during intensive care. The two main physical features of the EEG signal, which are targeted, are, variations in the amplitude (amplitude integrated EEG, aEEG) and frequency content (compressed spectral arrays CSA, spectral edge SE). Recently, digital EEG monitoring systems have been developed which allow raw EEG to be displayed and stored continuously with on line trend analysis of aEEG as well as the spectral content of the EEG signal. This is of special value for identification and moni- toring of continuously ongoing epileptiform discharges in non-con- vulsive status epilepticus, which is a common reason for performing long term monitoring in neurological intensive care. L60 - Bedside monitoring of cerebral energy metabolism Stáhl N, Nordström C-H, Ungerstedt U Department of Neurosurgery Lund University and Department of Physiology and Pharmacology, Karolinska Institute, Stockholm technique in neuroscience with well over 7.000 publications. The first studies of the human brain were published about 10 years ago and subsequent studies have shown that microdialysis might be a valuable tool for the supervision of patients during neuro intensive care. In 1995, CMA Microdialysis (Stockholm, Sweden) introduced microdialysis instruments for clinical use (catheters for peripheral and brain tissue, a microdialysis pump, and a bedside chemical analyzer). We have used the technique since 1995 as routine in all patients with severe traumatic brain lesions in the Department of Neurosurgery, Lund University Hospital. The technique has also been used in patients with spontaneous subarachnoid or intracere- bral hematoma, bacterial meningitis, brain tumor, and malignant infarcts of the middle cerebral artery. Since microdialysis is a regional technique the positioning of the catheter is essential. The intracerebral microdialysis catheters now have a radiopaque tip and they are visible on routine CT scans. According to our routines an intracerebral microdialysis probe is inserted into cortical tissue via a separate burr hole when an intraventricular catheter is introduced for ICP monitoring (“better position”). During open brain surgery (i.e. evacuation of a focal brain contusion, hemicraniectomy etc.) one or two microdialysis probes are introduced into brain tissue close to the injured area (“worse position”; “biochemical penumbra zone”). In addition one subcutaneous microdialysis catheter is place in subcutaneous fat tissue. The microdialysis probes are perfused (0,3 _l/min) and samples are collected in microvials every 30 or 60 min for bedside analyses of glucose, pyruvate, lactate, glutamate and glycerol. The analytes have been chosen to give information regarding cerebral energy metabolism and glycolysis (glucose, pyruvate, lactate), excito- toxicity (glutamate), and degradation of cell membranes (glycerol). The results of the analyses are shown on a monitor bedside. Information regarding physiological parameters, ventilation, drug infusion, blood biochemistry are also included and a new computer program (ICU-pilot, CMA Microdialysis) allows bedside compa- rison and evaluation of all modalities. After routine analyses the microvials are kept frozen for later scientific studies utilizing HPLC (amino acids, ions, transmitters, drugs). Table I gives steady state levels of metabolites monitored bedside in normal human brain and in human brain with manifest ischemia (cerebral perfusion pressure close to 0). These data are used as reference values during routine biochemical monitoring in neuro intensive care (1,2) and microdialysis is presently used to guide our treatment. The biochemical data have also been used to evaluate the effect of treatment in a series of 50 patients with severe brain trauma (3). In an ongoing study we are comparing physiological and cerebral biochemical variables in two groups of patients treated for malignant middle cerebral artery infarcts. From this study we will present preliminary data comparing the group treated with a combination of hemicraniectomy, hypothermia and inotropic sup- port to the second group treated only with hemicraniectomy. The technique of microdialysis was introduced more than 25 years ago for monitoring the animal brain and has become a standard Læknablaðið/Fylgirit 43 2002/88 35

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