scholarly article | Q13442814 |
P2093 | author name string | D S Matthews | |
J A Eyre | |||
P M Sharples | |||
P2860 | cites work | THE EFFECTS OF ALTERED ARTERIAL TENSIONS OF CARBON DIOXIDE AND OXYGEN ON CEREBRAL BLOOD FLOW AND CEREBRAL OXYGEN CONSUMPTION OF NORMAL YOUNG MEN | Q24562994 |
Assessment of coma and impaired consciousness. A practical scale | Q29618624 | ||
An adaptation of the nitrous oxide method to the study of the cerebral circulation in children; normal values for cerebral blood flow and cerebral metabolic rate in childhood | Q33731844 | ||
Regional cerebral blood flow and intraventricular pressure in acute head injuries | Q33756948 | ||
Cerebral blood flow and oxygen consumption in man. | Q33970033 | ||
Monitoring in non-traumatic coma. Part I: Invasive intracranial measurements | Q35604729 | ||
Efficient statistical modelling of longitudinal data | Q36475349 | ||
Dynamic changes in regional CBF, intraventricular pressure, CSF pH and lactate levels during the acute phase of head injury | Q39068626 | ||
The Effects of PaCO2Reduction on Regional Cerebral Blood Flow in the Acute Phase of Brain Injury | Q39166895 | ||
Head trauma in the child | Q39645493 | ||
THE NITROUS OXIDE METHOD FOR THE QUANTITATIVE DETERMINATION OF CEREBRAL BLOOD FLOW IN MAN: THEORY, PROCEDURE AND NORMAL VALUES. | Q40998839 | ||
THE CEREBRAL BLOOD FLOW IN MALE SUBJECTS AS MEASURED BY THE NITROUS OXIDE TECHNIQUE. NORMAL VALUES FOR BLOOD FLOW, OXYGEN UTILIZATION, GLUCOSE UTILIZATION, AND PERIPHERAL RESISTANCE, WITH OBSERVATIONS ON THE EFFECT OF TILTING AND ANXIETY. | Q40999928 | ||
Effects of experimental fluid-percussion injury of the brain on cerebrovascular reactivity of hypoxia and to hypercapnia | Q41619555 | ||
The effects of graded experimental trauma on cerebral blood flow and responsiveness to CO2 | Q41635058 | ||
Relation of cerebral blood flow to neurological status and outcome in head-injured patients | Q41743317 | ||
A practical method of serial bedside measurement of cerebral blood flow and metabolism during neurointensive care | Q42964062 | ||
A clinical evaluation of the Camino subdural screw and ventricular monitoring kits | Q44072510 | ||
Cerebral blood flow and metabolism in severely head-injured children. Part 1: Relationship with GCS score, outcome, ICP, and PVI. | Q45037622 | ||
Cerebral blood flow and metabolism in severely head-injured children. Part 2: Autoregulation | Q45037626 | ||
Pial arteriolar vessel diameter and CO2 reactivity during prolonged hyperventilation in the rabbit | Q45075917 | ||
The relationship between cerebral metabolic rate of oxygen and cerebral blood flow in the acute phase of head injury | Q48316907 | ||
Cerebral circulation after head injury. Part 2: The effects of traumatic brain edema | Q48367817 | ||
Cerebral circulation after head injury. 1. Cerebral blood flow and its regulation after closed head injury with emphasis on clinical correlations | Q48511568 | ||
Fundamental importance of arterial oxygen content in the regulation of cerebral blood flow in man. | Q48513109 | ||
Outcome from severe head injury in children and adolescents | Q48527420 | ||
Continuous monitoring of jugular venous oxygen saturation in head-injured patients | Q48541225 | ||
Cerebral blood flow and metabolism in comatose patients with acute head injury. Relationship to intracranial hypertension | Q48636049 | ||
Regional cerebral blood flow, intracranial pressure, and brain metabolism in comatose patients | Q48683843 | ||
Continuous monitoring of cerebral oxygenation in acute brain injury: injection of mannitol during hyperventilation | Q48871474 | ||
Cerebral Hemodynamics and Metabolism Following Experimental Head Injury | Q48932271 | ||
Effects of hypoxia and normocarbia on cerebral blood flow and metabolism in conscious man | Q51209603 | ||
The luxury-perfusion syndrome and its possible relation to acute metabolic acidosis localised within the brain. | Q51226398 | ||
The Etiology of Acute Brain Swelling Following Experimental Head Injury | Q51242658 | ||
CEREBRAL VASOMOTOR PARALYSIS PRODUCED BY INTRACRANIAL HYPERTENSION. | Q51250289 | ||
Cerebral blood flow and exchange of oxygen, glucose ketone bodies, lactate, pyruvate and amino acids in anesthetized children. | Q51658466 | ||
Effects of extremes of respiratory and metabolic alkalosis on cerebral blood flow in man. | Q54697478 | ||
Blood glucose, lactate, pyruvate, glycerol, 3-hydroxybutyrate and acetoacetate measurements in man using a centrifugal analyser with a fluorimetric attachment | Q68416382 | ||
Prognostic value of cerebral blood flow (CBF) and cerebral metabolic rate of oxygen (CMRO 2 ) in acute head trauma | Q69411811 | ||
Regulation of cerebral blood flow in response to changes in blood viscosity | Q69857843 | ||
Diffuse cerebral swelling following head injuries in children: the syndrome of "malignant brain edema" | Q71442544 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | cerebral blood flow | Q5064096 |
P304 | page(s) | 153-159 | |
P577 | publication date | 1995-02-01 | |
P1433 | published in | Journal of Neurology, Neurosurgery and Psychiatry | Q1599804 |
P1476 | title | Cerebral blood flow and metabolism in children with severe head injuries. Part 2: Cerebrovascular resistance and its determinants | |
P478 | volume | 58 |
Q35763336 | A neurovascular perspective for long-term changes after brain trauma |
Q33830365 | Age-specific cerebral perfusion pressure thresholds and survival in children and adolescents with severe traumatic brain injury* |
Q47194366 | Anatomical and Physiological Differences between Children and Adults Relevant to Traumatic Brain Injury and the Implications for Clinical Assessment and Care. |
Q37801526 | Boxing-Related Head Injuries |
Q94561268 | Cerebral Blood Flow Measurement in Healthy Children and Children Suffering Severe Traumatic Brain Injury-What Do We Know? |
Q36580312 | Cerebral blood flow and autoregulation after pediatric traumatic brain injury |
Q33802009 | Cerebral hemodynamic predictors of poor 6-month Glasgow Outcome Score in severe pediatric traumatic brain injury |
Q48206345 | Change in cerebral autoregulation as a function of time in children after severe traumatic brain injury: a case series |
Q36670875 | Depression of whole-brain oxygen extraction fraction is associated with poor outcome in pediatric traumatic brain injury |
Q48951131 | Does adherence to treatment targets in children with severe traumatic brain injury avoid brain hypoxia? A brain tissue oxygenation study |
Q37480889 | Essentials of trauma: head and spine |
Q34052575 | Evaluation of the impact of implementing the emergency medical services traumatic brain injury guidelines in Arizona: the Excellence in Prehospital Injury Care (EPIC) study methodology. |
Q36627381 | Frequency of intracranial pressure monitoring in infants and young toddlers with traumatic brain injury |
Q41553314 | Head injuries in children and adults |
Q30741479 | Imaging of pediatric head trauma |
Q34976405 | Neurointensive care of the nonaccidentally injured child |
Q37638433 | Practical aspects of bedside cerebral hemodynamics monitoring in pediatric TBI. |
Q40629815 | Reference values for cerebral blood flow velocities in critically ill, sedated children |
Q48745623 | State of Cerebrovascular Autoregulation Correlates with Outcome in Severe Infant/Pediatric Traumatic Brain Injury |
Q34796166 | Temperature response to severe head injury and the effect on body energy expenditure and cerebral oxygen consumption |
Q47965369 | Time spent with impaired autoregulation is linked with outcome in severe infant/paediatric traumatic brain injury. |
Q38634645 | Transcranial Doppler Sonography in Pediatric Neurocritical Care: A Review of Clinical Applications and Case Illustrations in the Pediatric Intensive Care Unit |
Q33639014 | Vascular neural network phenotypic transformation after traumatic injury: potential role in long-term sequelae |
Q73529738 | [Severe trauma in children] |
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