P. N. Larsen scite author profile

P. N. Larsen

5Publications

36Citation Statements Received

20Citation Statements Given

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University of Copenhagen, Rigshospitalet

Publications

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Aminophylline versus caffeine citrate for apnea and bradycardia prophylaxis in premature neonates

et al. 1995

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We investigated the efficacy and adverse effects of aminophylline and caffeine citrate in 180 premature neonates for 10 days and nights. Aminophylline (n = 98) and caffeine citrate (n = 82) were equally effective in preventing apnea and bradycardia. The caffeine citrate group had a lower median heart rate on day 3, fewer neonates with tachycardia and a smaller amount of gastric aspirate on day 7. The need for mononasal continuous positive airway pressure and respirator therapy was similar in both groups. We conclude that caffeine citrate is the drug of choice for apnea and bradycardia prophylaxis in premature neonates with a gestational age < or = 33 full weeks.

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Cerebral blood flow and left ventricular output in spontaneously breathing, newborn preterm infants treated with caffeine or aminophylline

et al. 1995

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Aminophylline and caffeine are commonly used for prophylaxis of apnea in premature infants. Previous studies have indicated different effects of the drugs on cerebral circulation. Therefore, we have compared the acute effects of bolus administration of caffeine citrate or aminophylline on left ventricular output, heart rate, blood pressure and global cerebral blood flow. The study group consisted of 33 newborn, spontaneously breathing, preterm infants randomly assigned to receive either aminophylline 5 mg/kg (n = 19) or caffeine citrate 20 mg/kg (n = 14). Two hours after iv drug administration, global cerebral blood flow measured by the Xe-clearance technique was significantly lower after aminophylline than after caffeine (mean (SD)): 13.2 (+2.9/-2.3) versus 17.2 (+7.1/-5.1) ml/100 g/min) (p = 0.01). There were no other statistically significant differences in circulatory or ventilatory parameters between the groups. Further studies are needed to clarify the clinical relevance of these results.

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Subcutaneous oxygen and carbon dioxide tensions during head-up tilt-induced central hypovolaemia in humans

Larsen

Moesgaard

Madsen

et al. 1996

Scandinavian Journal of Clinical and Laboratory Investigation

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The effect of hypovolaemic shock on subcutaneous oxygen and carbon dioxide tensions was studied in man. Subcutaneous oxygen (Psc,O2) and carbon dioxide (Psc,CO2) tensions were monitored, during 50 degrees head-up tilt (anti-Trendelenburg's position)-induced central hypovolaemia, in two females and eight males, using a silicone tonometer on the lateral upper aspect of the right arm. All cardiovascular variables remained stable at rest. Incremental tilting to 50 degrees increased heart rate (HR) and mean arterial pressure (MAP) (p < 0.01), while stroke volume (SV), cardiac output (CO) and central venous saturation (SvO2) decreased (p < 0.05). Presyncopal symptoms appeared after 28 (8-48) min (mean and range) as HR decreased from 82 (63-108) to 52 (36-70) beats min-1 (p < 0.05), MAP from 88 (61-106) to 46 (37-54) mmHg and SvO2 from 0.68 (0.56-0.76) to 0.58 (0.39-0.70) (p < 0.01). On return of the tilt table to the horizontal position HR, MAP, SV, CO and SvO2 immediately re-established resting values. The Psc,O2 was 83 (72-102) mmHg at rest and during tilting it increased to 89 (82-111) mmHg followed by a decrease to 72 (58-97) mmHg (p < 0.01) at the appearance of presyncopal symptoms. Psc,O2 returned to the pretilt level over 45 (30-60) min of recovery. Arterial oxygen, carbon dioxide and Psc,CO2 did not change significantly. Subcutaneous oxygen tension decreases during marked central hypovolaemia and it returns slowly to the resting level during recovery. Psc,O2 is a more sensitive marker of impaired tissue oxygenation than arterial oxygen pressure.

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Gastric and Colonic Oxygen Tension Measured with a Vacuum-Fixed Oxygen Electrode

Larsen

Moesgaard²,

Navér³

et al. 1991

Scandinavian Journal of Gastroenterology

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A new electrode system for determination of visceral oxygen tension is presented. The system consists of a transcutaneous oxygen electrode (E5242 Radiometer A/S. Copenhagen), which is screwed into a suction ring and fixed to the organ by applying a vacuum. The electrode membrane is then in contact with the organ surface via a fluid layer with a thickness of a few micrometres, without interference from atmospheric air and without mechanical disturbance of the membrane. The electrode system was tested on the gastric and colonic wall in six pigs. As reference, a silicone tonometer was placed subserously beneath the vacuum-fixed electrode. The silicone tonometer was connected to a second transcutaneous oxygen electrode. The tissue oxygen tension was changed by subjecting the animals to various inspiratory concentrations of oxygen and to hypovolaemia. The oxygen tension measured by the vacuum-fixed electrode (PO2vac) was compared with the oxygen tension measured by the tonometer (PO2tono). A good correlation was demonstrated between PO2vac and PO2tono, the correlation coefficient being 0.8619, confirming that the suction-fixed oxygen electrode measures tissue oxygen. The lowest possible vacuum to hold the electrode unit in place was between 4.0 and 6.7 kPa. Provided the measuring time did not exceed 3 min. vacuum had only slight influence on the measured oxygen values. The mean change in PO2vac induced by varying the vacuum from 7 to 26 kPa, and 26 to 7 kPa, was only +0.23 kPa (-1.2 to +1.9) and +0.19 kPa (-0.3 to +1.3), respectively. The mean stabilization time, defined as the time from electrode application until achieving 95% of the equilibration value, was 66 sec (SEM, 3.4 sec) and 57 sec (SEM, 3.0 sec) on the gastric and colonic wall, respectively. The measured values of PO2vac varied significantly between different areas on the gastric wall (p less than 0.001). When several surface measurements were performed throughout the investigated area, the mean oxygen tension approached the oxygen tension measured by the tonometer. It is concluded that the vacuum-fixed electrode constitutes a reliable, easy and, noninvasive method for measurements of the oxygen tension in the gastric and colonic tissue.

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Characterization of the silicone tonometer using a membrane-covered transcutaneous electrode

Larsen

Moesgaard

Gottrup

et al. 1989

Scandinavian Journal of Clinical and Laboratory Investigation

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A new oxygen tonometry system consisting of a silicone tube, highly permeable to O2 and CO2 is described. The silicone tube was connected to a membrane-covered transcutaneous oxygen electrode (E5242 Radiometer A/S, Copenhagen, Denmark) via an airtight polycarbonate chamber, and flushed with isotonic saline equilibrated with atmospheric air. The present tonometer system offers certain advantages compared with other systems: continuous reading, minimal oxygen consumption, furthermore the system is thermostated and is insensitive to movement. The tonometry system was tested in vitro for characterization of a silicone tube (Coroplast, Fritz Müller KG, Wuppertal, FRG) 1.0 mm in inner diameter and 1.5 mm in outer diameter. The experiments showed that the oxygen tension measured at the electrode after passage of the tonometer approached the oxygen tension outside the tonometer when the length of the tonometer was increased and when the flushing rate of saline through the tonometer was decreased. The time taken for the flushing solution to reach an equilibrium with the oxygen tension outside the tonometer increased with increasing tonometer length, and decreased with increasing flushing rate. Changing the difference between oxygen partial pressure in the flushing solution and the oxygen partial pressure outside the tonometer tube did not influence the relative equilibration value and the equilibration time. When a pO2 value is measured by the electrode, the exact oxygen tension outside the tonometer tube, for every given length of the tonometer and flushing rate through the tonometer can be read from our calibration curves.

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P. N. Larsen

Aminophylline versus caffeine citrate for apnea and bradycardia prophylaxis in premature neonates

Cerebral blood flow and left ventricular output in spontaneously breathing, newborn preterm infants treated with caffeine or aminophylline

Subcutaneous oxygen and carbon dioxide tensions during head-up tilt-induced central hypovolaemia in humans

Gastric and Colonic Oxygen Tension Measured with a Vacuum-Fixed Oxygen Electrode

Characterization of the silicone tonometer using a membrane-covered transcutaneous electrode

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