UMLS:C0268318 - FACTA Search

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Query: UMLS:C0268318 (ICP)
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It is well established that cerebral blood flow (CBF) is sensitive to variations in arterial PCO2 (PaCO2) and can be influenced by changes in jugular venous return due to elevated intrathoracic pressure. Therefore, we compared cerebral CO2 vasoreactivity when PaCO2 was altered either by changing inspired PCO2 or tidal volume. In addition, we sought to determine if noninvasive transcranial Doppler ultrasonography can be used instead of invasive CBF measurement to determine cerebral CO2 vasoreactivity. In 36 mechanically ventilated patients in coma due to acute brain lesion, we evaluated CBF by continuous jugular thermodilution, middle cerebral artery flow velocity (Vm) by transcranial Doppler ultrasonography, intracranial pressure (ICP; in only 23 of them) by intraventricular catheter, systemic and pulmonary hemodynamic variables, and arterial and jugular bulb blood gases. Measurements were taken at four levels of PaCO2 (25, 30, 35, and 40 mmHg) by modifying in a random order either tidal volume or inspired PCO2. Cerebral, pulmonary, and systemic hemodynamic changes were similar in magnitude during both methods of altering PaCO2. From the highest to the lowest PaCO2, CBF decreased from 61+/-7 to 36+/-4 ml/min/100 g (p < 0.001, mean +/- SE), Vm from 89+/-7 to 65+/-5 cm/s (p < 0.001), and ICP from 29+/-2 to 12+/-2 mmHg (p < 0.001), but cerebral perfusion pressure remained constant, ranging from 65+/-3 to 67+/-4 mmHg (p = NS). Arteriojugular oxygen content difference increased from 3.2+/-0.2 to 5.7+/-0.4 ml/dl (p < 0.001). Eleven of the 20 patients with a preserved CBF response to CO2 survived to 6 months, whereas only two of the 16 patients with an altered response were alive at 6 months (p < 0.05). When compared with CBF by jugular thermodilution, the rates of sensitivity and specificity of transcranial Doppler ultrasonography to detect impaired cerebral CO2 vasoreactivity were 69% and 65%, respectively. In conclusion, the reduction of PaCO2 from 40 to 25 mmHg by modifying either tidal volume or inspired PCO2 resulted in similar effects on cerebral, pulmonary, and systemic circulations. Cerebral CO2 vasoreactivity is of prognostic value in brain-injured patients when determined using CBF but may be misleading when evaluated using velocities measured by transcranial Doppler ultrasonography.
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PMID:Cerebral CO2 vasoreactivity evaluation with and without changes in intrathoracic pressure in comatose patients. 955 64

In order to optimize therapy for the injured brain it is desirable to continuously monitor substrate delivery in the critically ill patient. Interruption of substrate delivery is a major factor of the great vulnerability to ischemic damage, which affects a majority of patients after severe head injury, stroke or subarachnoid hemorrhage. An approach to protecting the brain during ischemia is to increase the delivery of oxygen via residual blood flow through ischemic tissue. Hypothermia is also an important means of protecting brain cells from the deleterious effects of ischemia, after severe head injury, because it reduces metabolic demands. In this study we continuously measured brain oxygen, brain CO2, brain pH and brain temperature, as well as hourly brain glucose and lactate. A multiparameter sensor was inserted into brain tissue, via a three lumen bolt, along with a ventriculostomy catheter and a microdialysis probe in 60 severely head injured patients. Brain oxygen delivery was increased by stepwise increase of inspired oxygen (FiO2) from 30% to 60% to 100% over a period of 6 h, in order to test the effect of enhanced oxygen tension, on tissue oxygen. In most patients brain oxygen was initially low, and progressively increased, over the monitoring period, to a steady state level, around 30-40 mmHg. In those who died or remained vegetative, brain oxygen fell to anerobic levels. Episodes of increased ICP (n = 25), hypotension (n = 15), and respiratory difficulties (n = 9) caused an immediate increase in brain CO2. Multiple logistic regression analysis showed brain oxygen to be the strongest predictor for outcome in these patients. By increasing FiO2, an increase in oxygen delivery of more than 100%, and a simultaneous decline in lactate production was seen (p < 0.01). Brain temperature was closely related to rectal temperature, brain oxygen, and cerebral blood flow. Patients who were spontaneously hypothermic had a poor outcome (p < 0.01). A fuller understanding of dynamic factors affecting brain metabolism and substrate delivery may be obtained with extended neuromonitoring.
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PMID:Extended neuromonitoring: new therapeutic opportunities? 958 32

Intracranial pressure depends on cerebral tissue volume, cerebrospinal fluid volume (CSFV) and cerebral blood volume (CBV). Physiologically, their sum is constant (Monro-Kelly equation) and ICP remains stable. When the blood brain barrier (BBB) is intact, the volume of cerebral tissue depends on the osmotic pressure gradient. When it is injured, water movements across the BBB depend on the hydrostatic pressure gradient. CBV depends essentially on cerebral blood flow (CBF), which is strongly regulated by cerebral vascular resistances. In experimental studies, a decrease in oncotic pressure does not increase cerebral oedema and intracranial hypertension (ICHT). On the other hand, plasma hypoosmolarity increases cerebral water content and therefore ICP, if the BBB is intact. If it is injured, neither hypoosmolarity nor hypooncotic pressure modify cerebral oedema. Therefore, all hypotonic solutes may aggravate cerebral oedema and are contra-indicated in case of ICHT. On the other hand, hypooncotic solutes do not modify ICP. The osmotic therapy is one of the most important therapeutic tools for acute ICHT. Mannitol remains the treatment of choice. It acts very quickly. An i.v. perfusion of 0.25 g.kg-1 is administered over 20 minutes when ICP increases. Hypertonic saline solutes act in the same way, however they are not more efficient than mannitol. CO2 is the strongest modulating factor of CBF. Hypocapnia, by inducing cerebral vasoconstriction, decreases CBF and CBV. Hyperventilation is an efficient and rapid means for decreasing ICP. However, it cannot be used systematically without an adapted monitoring, as hypocapnia may aggravate cerebral ischaemia. Hyperthermia is an aggravating factor for ICHT, whereas moderate hypothermia seems to be beneficial both for ICP and cerebral metabolism. Hyperglycaemia has no direct effect on cerebral volume, but it may aggravate ICHT by inducing cerebral lactic acidosis and cytotoxic oedemia. Therefore, infusion of glucose solutes is contra-indicated in the first 24 hours following head trauma and blood glucose concentration must be closely monitored and controlled during ICHT episodes.
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PMID:[The internal environment and intracranial hypertension]. 975 May 95

Early surgery after SAH is frequently performed. The most important problems for anesthesiologists are the risk of rebleeding, the alteration of autoregulation and CO2 responsiveness, cardiac, respiratory and electrolytic alterations. In this phase the brain may be ischemic-edematous or haemorrhagic-compressive and the choice of anesthetic agent is made on the basis of cerebral conditions. The main goal is to control ICP and maintain adequate CPP. The endovascular treatment with Guglielmi detachable coils is usually performed in patients with poor neurologic and/or medical conditions. General anaesthesia under aggressive monitoring is advisable to control systemic pressure and to avoid movements.
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PMID:[Anesthesia in early surgery and endovascular therapy for aneurysmic subarachnoid hemorrhage]. 977 53

The short-term benefits of minimal access techniques include less pain, early mobilization, and shorter hospital stay. Nonetheless, significant data have accumulated regarding the complications associated with laparoscopic techniques, including those that are unique to laparoscopic surgery such as bile duct injury and disruption of major blood vessels. Other problems such as myocardial ischemia and respiratory acidosis are associated with the cardiopulmonary effects of pneumoperitoneum and systemic CO2 absorption. These physiologic changes, although tolerated by healthy patients, could have particular adverse consequences for infirm and critically ill patients. It would appear that minimizing IAP during insufflation decreases the risk of potentially marked cardiovascular changes and regional blood flow alterations. In turn, this could arguably decrease the risk of perioperative myocardial events, or organ dysfunction or failure. Laparoscopy in the critically ill patient is questionable because the role is not established. An ICU patient has little to gain from the benefits of early mobilization. Conversely, in the presence of raised ICP or borderline organ function, the physiologic changes associated with pneumoperitoneum and laparoscopy could have profound detrimental effects.
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PMID:Physiologic changes during laparoscopy. 1124 11

Glucose (Gluc) is the main energy source for the brain. After severe head-injury energy demand is massively increased and supply is often decreased. In pilot microdialysis studies, many patients with severe head-injury had undetectable glucose concentrations, probably reflecting changes in metabolism and/or reduced supply. We therefore investigated whether patients with low ECF glucose (criterion: < 50 microM for > or = 5 hrs), LOWgluc, differ from patients with higher glucose levels (NORMALgluc) We also tested the interrelationships between other parameters such as lactate, glutamate, K+, brain O2 and CO2, ICP, CPP, and CBF in these two groups. We found that patients with low ECF glucose, LOWgluc, have significantly lower lactate concentrations than patients with "normal" glucose, NORMALgluc, levels do. Spearman correlations between glucose and most other parameters were similar in both patient groups. However, glutamate correlated positively with glucose, lactate, brain CO2 and negatively with brain O2 in the NORMALgluc patient group, whereas glutamate did not significantly correlate with any of these parameters in the LOWgluc group. There was also no correlation between outcome and the dialysate glucose. The results indicate that low ECF glucose is almost always present in severe head-injury. Moreover, the lack of correlation between low glucose and outcome, however, suggests that other energy substrates, such as lactate, are important after TBI.
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PMID:Low extracellular (ECF) glucose affects the neurochemical profile in severe head-injured patients. 1145 59

Several indices have been reported which correlate with autoregulatory function [2, 3]. However, before critical thresholds for targeting therapy can be defined, a better understanding of the inherent variability of cerebrovascular reactivity as measured by these indices is required. In this study, patients had BP, ICP and bilateral MCA TCD velocity monitored before, during and after BP and CO2 challenges, applied in a random order, with measurements taken within 48 hours of injury. Four indices of reactivity were calculated: the PRx, the CORRx and the FVreact & ICPreact. At 48 hours post-injury inter-patient variation in cerebrovascular reactivity, as measured by these indices, is large and injury specific factors remain important determinants of the variance. Within patient analysis has identified instances where the combined monitoring of the PRx and the CORRx may provide information about the function of pressure autoregulation and further study of the combined use of these two indices of reactivity is warranted.
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PMID:Assessment of the variation in cerebrovascular reactivity in head injured patients. 1145 64

We have developed a coulometric technique to optimize the removal of the carbonate and organic fractions for sequential chemical extractions of soils and sediments. The coulometric system facilitates optimizing these two fractions by direct real-time measurement of carbon dioxide (CO2) evolved during the removal of these two fractions. Further analyses by ICP-MS and alpha-spectrometry aided in interpreting the results of coulometry experiments. The effects of time, temperature, ionic strength and pH were investigated. The sensitivity of the coulometric reaction vessel/detection system was sufficient even at very low total carbon content (< 0.1 mol kg-1). The efficiency of the system is estimated to be 96% with a standard deviation of 8%. Experiments were carried out using NIST Standard Reference Materials 4357 Ocean Sediment (OS), 2704 Buffalo River Sediment (BRS), and pure calcium carbonate. Carbonate minerals were dissolved selectively using an ammonium acetate-acetic acid buffer. Organic matter was then oxidized to CO2 using hydrogen peroxide (H2O2) in nitric acid. The carbonate fraction was completely dissolved within 120 min under all conditions examined (literature suggests up to 8 h). For the OS standard, the oxidation of organic matter self-perpetuates between 45 and 50 degrees C, a factor of two less than commonly suggested, while organic carbon in the BRS standard required 80 degrees C for the reaction to proceed to completion. For complete oxidation of organic matter, we find that at least three additions of H2O2 are required (popular methods suggest one or two).
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PMID:Optimizing the removal of carbon phases in soils and sediments for sequential chemical extractions by coulometry. 1152 98

A controlled environment system, termed the Phyto-Nutri-Tron (PNT), has been established to study whole plant ecophysiological responses to multiple environmental factors. The PNT is a computer-controlled highly flexible growth facility with independent control of the shoot and the root environment. The facility consists of two growth cabinets each containing four separate hydroponic growth systems. The growth cabinets can be used as assimilation chambers with individual control of temperature, humidity, light, CO2 and monitoring of O2. The hydroponic growth systems are connected to nutrient supply units with disinfection systems and individual control of temperature, pH and oxygen. The ionic composition of the solutions has automated feedback control through a PO4 autoanalyzer and a flow injection analyzer which also analyzes NH4+, NO2- and NO3-. Other ions are automatically monitored by ICP-AES. The system has automated calibration procedures of the analytical equipment and prolonged studies of plant growth can be performed under constant environmental conditions. This paper describes the design and construction of the PNT, the results of a number of tests showing the degree of control of environmental factors and the results of a comparative study on NH4+ and NO3- uptake kinetics by Juncus effusus conducted in the PNT demonstrate the use of the PNT in ecophysiological studies.
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PMID:Design and performance of the Phyto-Nutri-Tron: a system for controlling the root and shoot environment for whole-plant ecophysiological studies. 1154 49

The aim of the present study was to assess the veno-arterial difference in pCO2 (delta pCO2) as an indicator of ischemia compared to the arteriovenous O2 difference (AVDO2). Staircase cerebral blood flow (CBF) reductions were obtained in seven domestic pigs by inducing intracranial hypertension: CBF 100%, 50-60% of baseline, 20-30% of baseline. ICP, MAP, CPP and CBF (Laser-Doppler method) were continuously recorded. The superior sagittal sinus was punctured to determine AVDO2 and delta pCO2. AVDO2 was 5.9 (+/- 1.78, range 3.3-7.4), 7.01 (+/- 1.31, range 5-8.9) and 8.17 (+/- 1.51, range 6.0-11.3) ml/100 ml in the three CBF steps (p = 0.001). CBF impairment was accompanied by the following increases in delta pCO2: from 10 (+/- 4, range 4-15) mmHg to 14.5 (+/- 4.11, range 10-27) mmHg, and to 31.2 (+/- 9.0, range 17-39) mmHg (p < 0.001). When CBF declines AVDO2 increases, indicating greater extraction of O2 to satisfy the aerobic metabolism. However, this mechanism can no longer compensate once a critical CBF threshold is reached. delta pCO2 rises slowly during moderate CBF reduction because of defective washout; the rise is impressive during marked CBF impairment when anaerobic metabolism takes place with proton buffering in CO2 and H2O. Therefore, when the brain's ability to compensate for low blood flow is exceeded, CO2 production outweighs O2 extraction.
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PMID:Cerebral veno-arterial pCO2 difference as an estimator of uncompensated cerebral hypoperfusion. 1216 4

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