G. Settergren scite author profile

Trauma, even in the absence of head trauma, results in high serum concentrations of S100B. Interpretation of elevated S100B concentrations immediately after multitrauma may be difficult because of extracerebral contributions. S100B may have a negative predictive value to exclude brain tissue damage after trauma. Similarly, nonacute S100B measurements may be of greater prognostic value than acute measurements.

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Increase in serum S100A1-B and S100BB during cardiac surgery arises from extracerebral sources

Anderson

Hansson

Nilsson

et al. 2001

The Annals of Thoracic Surgery

133

111

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The effect of cardiotomy suction on the brain injury marker S100β after cardiopulmonary bypass

Anderson

Hansson

Líška

et al. 2000

The Annals of Thoracic Surgery

116

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Cerebral Blood Flow and Exchange of Oxygen, Glucose, Ketone Bodies, Lactate, Pyruvate and Amino Acids in Infants

1976

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Cerebral blood flow (CBF) and cerebral av-differences of oxygen and circulating substrates were measured in normocapnic infants during general anaesthesia before elective surgery in order to study possible age-dependent variations. CBF was determined by a minor modification of the Kety-Schmidt technique from desaturation curves of nitrous oxide (N2O) in arterial and cerebral venous blood (N2O analysed by gas chromatography on 15 mul blood samples) after reduction of inhaled N2O from 75 to 50%. The reproducibility was +/-4.6%. Lactate, pyruvate and oxygen were determined in whole blood and amino acids in plasma by ion-exchange chromatography. Reliable av-differences of glucose, acetoacetate and D-beta-hydroxybutyrate could be calculated from plasma values and hematocrits. Mean values from 12 infants (age 11 days-12 months) were: CBF 69 ml/100 g0min-1; cerebral uptake (in mumoles/100 g-min-1): oxygen 104, glucose 27, acetoacetate 0.9, D-beta-hydroxybutyrate 2.3; cerebral release: lactate 2.4 and pyruvate 0.8. Significant uptake of amino acids was found only for histidine 0.95 and arginine 0.7. Significant correlations between arterial concentration and cerebral exchange were found for: ornithine, arginine, phenylalanine, aspartic acid, serine, glutamine and acetoacetate. CBF and substrate exchange were unrelated to age within the group. Infants had higher mean CBF and greater uptake of ketone bodies than has been reported in adults.

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High Serum S100B Levels for Trauma Patients without Head Injuries

Anderson¹,

Settergren²,

Hansson³

2001

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Inhalation of nasally derived nitric oxide modulates pulmonary function in humans

Lundberg

Settergren

Gelinder

et al. 1996

Acta Physiologica Scandinavica

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The vasodilator gas nitric oxide (NO) is produced in the paranasal sinuses and is excreted continuously into the nasal airways of humans. This NO will normally reach the lungs with inspiration, especially during nasal breathing. We wanted to investigate the possible effects of low-dose inhalation of NO from the nasal airways on pulmonary function. The effects of nasal and oral breathing on transcutaneous oxygen tension (tcPO2) were studied in healthy subjects. Furthermore, we also investigated whether restoring low-dose NO inhalation would influence pulmonary vascular resistance index (PVRI) and arterial oxygenation (PaO2) in intubated patients who are deprived of NO produced in the nasal airways. Thus, air derived from the patient's own nose was aspirated and led into the inhalation limb of the ventilator. In six out of eight healthy subjects tcPO2 was 10% higher during periods of nasal breathing when compared with periods of oral breathing. In six out of six long-term intubated patients PaO2 increased by 18% in response to the addition of nasal air samples. PVRI was reduced by 11% in four of 12 short-term intubated patients when nasal air was added to the inhaled air. The present study demonstrates that tcPO2 increases during nasal breathing compared with oral breathing in healthy subjects. Furthermore, in intubated patients, who are deprived of self-inhalation of endogenous NO. PaO2 increases and pulmonary vascular resistance may decrease by adding NO-containing air, derived from the patient's own nose, to the inspired air. The involvement of self-inhaled NO in the regulation of pulmonary function may represent a novel physiological principle, namely that of an enzymatically produced airborne messenger. Furthermore, our findings may help to explain one biological role of the human paranasal sinuses.

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Nitric oxide, produced in the upper airways, may act in an ‘aerocrine’ fashion to enhance pulmonary oxygen uptake in humans

Lundberg

Settergren²,

Alving

et al. 1995

Acta Physiologica Scandinavica

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Biochemical markers of cerebrospinal ischemia after repair of aneurysms of the descending and thoracoabdominal aorta

Anderson

Winnerkvist

Hansson

et al. 2003

Journal of Cardiothoracic and Vascular Anesthesia

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G. Settergren

High Serum S100B Levels for Trauma Patients without Head Injuries

Increase in serum S100A1-B and S100BB during cardiac surgery arises from extracerebral sources

The effect of cardiotomy suction on the brain injury marker S100β after cardiopulmonary bypass

Cerebral Blood Flow and Exchange of Oxygen, Glucose, Ketone Bodies, Lactate, Pyruvate and Amino Acids in Infants

High Serum S100B Levels for Trauma Patients without Head Injuries

Inhalation of nasally derived nitric oxide modulates pulmonary function in humans

Nitric oxide, produced in the upper airways, may act in an ‘aerocrine’ fashion to enhance pulmonary oxygen uptake in humans

Biochemical markers of cerebrospinal ischemia after repair of aneurysms of the descending and thoracoabdominal aorta

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