Acta neurochirurgica. Supplement
-
Acta Neurochir. Suppl. · Jan 1998
Comparative StudyComparative effects of hypothermia, barbiturate, and osmotherapy for cerebral oxygen metabolism, intracranial pressure, and cerebral perfusion pressure in patients with severe head injury.
In order to select the optimal neurointensive treatment for patients with severe head injury and intracranial hypertension, the effects of hypothermia (HT), barbiturates (BT), and osmotic agents (OT) on focal and diffuse cerebral oxygen metabolism were evaluated by means of continuous monitoring of bifrontal regional oxygen saturation (rSO2), jugular bulb oxygen saturation (SjO2), jugular bulb temperature (Tjb), intracranial pressure (ICP), and cerebral perfusion pressure (CPP). ⋯ The therapeutic effects of hypothermia, barbiturates, and osmotherapy on cerebral oxygen metabolism and ICP/CPP are different according to the underlying pathological lesions of patients with severe head injury.
-
Acta Neurochir. Suppl. · Jan 1998
Comparative StudyClinical evaluation of the Codman microsensor intracranial pressure monitoring system.
The use of the Camino fibre-optic subdural device for measuring Intracranial Pressure (ICP) in patients, has been shown to correlate well with recordings from the "gold standard" intraventricular fluid filled catheter [1]. Following this work, its use has become standard in the clinical monitoring of patients. More recently, laboratory studies have demonstrated accuracy, acceptable drift and high fidelity for the new Codman Microsensor ICP Transducer, a miniature strain gauge mounted on a flexible nylon catheter [3]. Its performance in patients, however, has yet to be fully assessed, in comparative studies. ⋯ These differences could in the majority of cases (excepting the negative drift) be explained by a constant offset of the Codman transducer, as described previously [6]. Further examination of this device is required.
-
Acta Neurochir. Suppl. · Jan 1998
Complications and safety associated with ICP monitoring: a study of 542 patients.
In our institution ICP was monitored in patients with GCS < or = 8 and abnormal CT scan: 362 severely head injured and 180 subarachnoid hemorrhage. Mean duration of monitoring was 103.6 hours (SD 74.96). Among 542 patients, 440 showed at least one episode of ICP above the threshold of 20 mm Hg. ⋯ In 13 cases (2.2%) a ventricular infection has been diagnosed. In 1 case an intraparenchimal hemorrhage related to the presence of the catheter was detected. Elevated risk of HICP and low incidence of complications have been shown in this series.
-
Acta Neurochir. Suppl. · Jan 1998
Decompressive craniectomy in patients with uncontrollable intracranial hypertension.
There has been controversial discussion about the benefits of decompressive craniectomy in patients with critically raised intracranial pressure (ICP) after severe head injury. The aim of this retrospective study was to analyze the results of secondary decompressive craniectomy in patients with uncontrollable raised ICP after maximum aggressive medical treatment. The data of 28 patients (mean age 22 years, range 8-44 years) with severe head injury and posttraumatic cerebral edema were analyzed retrospectively. ⋯ The outcome was classified according to the Glascow Outcome Scale (GOS) after one year. The decompressive crainectomy was performed an average of 68 hours after trauma, and ICP (< 25 mm Hg) decreased always while cerebral perfusion pressure (CPP > 75 mm Hg) improved as well as cerebral blood flow and microcirculation to normal values. 15 patients (56%) had a good outcome after one year (GOS 4 + 5). 5 patients (18%) were severely disabled, 4 patients (14%) remained in vegetative state and 3 patients (11%) died. Decompressive craniectomy should be kept in mind as the last therapeutic step, especially in young patients with head injury and raised ICP, which is not controllable with conservative methods.
-
Acta Neurochir. Suppl. · Jan 1998
Comparative StudyCerebral oxygenation in contusioned vs. nonlesioned brain tissue: monitoring of PtiO2 with Licox and Paratrend.
Brain tissue PO2 in severely head injured patients was monitored in parallel with two different PO2-microsensors (Licox and Paratrend). Three different locations of sensor placement were chosen: (1) both catheters into non lesioned tissue (n = 3), (2) both catheters into contusioned tissue (n = 2), and (3) one catheter (Licox) into pericontusional versus one catheter (Paratrend) into non lesioned brain tissue (n = 2). Mean duration of PtiO2-monitoring with both microsensors in parallel was 68.1 hours. ⋯ During a critical reduction in cerebral perfusion pressure (< 60 mm Hg), PtiO2 decreased measured with both microsensors. Elevation of inspired oxygen fraction, normally followed by a rapid increase in tissue PO2, only increased PtiO2 when measured in pericontusional and nonlesioned brain. To recognize critical episodes of hypoxia or ischemia, PtiO2-monitoring of cerebral oxygenation is recommended in nonlesioned brain tissue.