B. Berg scite author profile

B. Berg

4Publications

26Citation Statements Received

56Citation Statements Given

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117

Affiliations

Erasmus MC, Uppsala University Hospital, Danderyds sjukhus

Publications

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Influence of hypertonic‐hyperoncotic solution and furosemide on canine hydrostatic pulmonary oedema resorption.

Wickerts

Berg

Frostell

et al. 1992

The Journal of Physiology

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SUMMARY1. This study aimed at enhancing the clearance of experimental hydrostatic pulmonary oedema in dogs using hypertonic-hyperoncotic solution (HHS) and furosemide.2. Anaesthetized dogs (n = 20) were mechanically ventilated with a positive endexpiratory pressure of 10 cmH20 (1-0 kPa).3. Hydrostatic pulmonary oedema was induced by inflating a balloon inserted into the left atrium and simultaneously infusing isotonic saline rapidly. Gedema formation was terminated by deflating the balloon and reducing the infusion rate.4. Four groups were studied: A, control; B, furosemide; C, HHS and D, HHS + furosemide. HHS, 6 ml kg-', was given as a bolus injection and furosemide, 1 mg kg-', intravenously as a bolus followed by an infusion of 0 5 mg kg-' h-1. All dogs were studied for 4 h.5. Serum osmolarity, plasma colloid oncotic pressure and diuresis in groups C and D (HHS groups) substantially increased; haemoglobin concentration decreased and pulmonary arterial wedge pressure remained constant.6. Despite the combination of these factors favouring fluid flux from the extravascular to the intravascular compartment, extravascular lung water measured with the double indicator dilution technique decreased no faster in the HHS groups than in the two other groups (from over 26 to approximately 19 ml kg-' in groups A, C and D and to 14-7 in group B (only furosemide)).7. This was confirmed by postmortem gravimetric measurements of extravascular lung water; A, 11-0+5-7; B, 9-7+3-3; C, 10-5+331 and D, 106±+1-8 g kg-'.

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Net fluid leakage (L_N) in experimental pulmonary oedema in the dog

Blomqvist

Berg

Frostell

et al. 1990

Acta Anaesthesiol Scand

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Net fluid leakage (LN) from the intravascular to the extravascular pulmonary space was estimated in anaesthetised dogs after injection of oleic acid (OA) (n = 8), or after hydrostatic pressure elevation by inflation of a left atrial balloon (n = 5). LN was calculated as the sum of: (i) rate of change in extravascular lung water (delta EVLW), (ii) thoracic lymph flow, and (iii) pleural fluid formation per time unit. Pleural fluid formation was measured in five dogs with hydrostatic or OA induced pulmonary oedema and was 1.8 +/- 0.9 ml/kg/h. In OA-induced pulmonary oedema, LN increased to a peak of 9.2 ml/kg/h within 2 h after OA injection. Thereafter LN fell and was 2-4 ml/kg/h during the succeeding 2-4 h. During hydrostatic pulmonary oedema LN was increased to as much as 13 ml/kg/h, but it became negative, -5 to -8 ml/kg/h (reabsorption of extravascular fluid) as soon as pulmonary vascular pressures returned to normal following deflation of the left atrial balloon. We conclude that in both forms of oedema there is an initial rapid leakage. In OA-induced oedema this leakage continues, although at a slower rate, whereas in hydrostatic oedema there is a considerable net fluid absorption from the pulmonary extravascular to the intravascular space as soon as vascular pressures are brought to normal levels.

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Dose Response Study of Atopy Patch Test in Children with Atopic Eczema

Darsow¹,

Vieluf²,

Berg³

et al. 1999

Pediatric Asthma, Allergy & Immunology

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Furosemide, when used in combination with positive end‐expiratory pressure, facilitates the resorption of extravascular lung water in experimental hydrostatic pulmonary oedema

Wickerts

Blomqvist

Berg

et al. 1991

Acta Anaesthesiol Scand

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The study aimed to establish whether furosemide given intravenously improved resorption of hydrostatic pulmonary oedema in 14 dogs mechanically ventilated with positive end-expiratory pressure (PEEP). Hydrostatic pulmonary oedema was created by simultaneous inflation of a left atrial balloon and rapid intravenous infusion of isotonic saline. The hydrostatic process was terminated by deflating the balloon and reducing the infusion rate. A PEEP of 10 cmH2O (1.0 kPa) was applied in all animals; in seven, furosemide was administered (diuretic group), 1 mg/kg intravenously as a bolus followed by an infusion of 0.5 mg/kg per hour, while the remaining seven dogs served as a control group. All dogs were studied for a period of 4 h. The extravascular lung water measured with the double indicator dilution technique was 28.3 +/- 3.8 (diuretic group) and 28.2 +/- 6.8 ml/kg (control group) during maximum oedema. It was reduced to 16.4 +/- 2.2 (diuretic group) vs 19.8 +/- 3.7 ml/kg (control group) after 4 h of resorption, P less than 0.05. Postmortem gravimetric values of extravascular lung water were 9.1 +/- 3.4 (diuretic group) vs 12.6 +/- 5.0 g/kg (control group). In the diuretic group the urinary output increased threefold, and haemoglobin and serum protein concentrations were higher than in the control group. There was a significantly greater decrease in cardiac output and central blood volume in the diuretic group. In conclusion, furosemide given intravenously improved lung fluid resorption in hydrostatic pulmonary oedema, probably by increasing the plasma colloid osmotic pressure.

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B. Berg

Influence of hypertonic‐hyperoncotic solution and furosemide on canine hydrostatic pulmonary oedema resorption.

Net fluid leakage (L_N) in experimental pulmonary oedema in the dog

Dose Response Study of Atopy Patch Test in Children with Atopic Eczema

Furosemide, when used in combination with positive end‐expiratory pressure, facilitates the resorption of extravascular lung water in experimental hydrostatic pulmonary oedema

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B. Berg

Influence of hypertonic‐hyperoncotic solution and furosemide on canine hydrostatic pulmonary oedema resorption.

Net fluid leakage (LN) in experimental pulmonary oedema in the dog

Dose Response Study of Atopy Patch Test in Children with Atopic Eczema

Furosemide, when used in combination with positive end‐expiratory pressure, facilitates the resorption of extravascular lung water in experimental hydrostatic pulmonary oedema

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Product

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Net fluid leakage (L_N) in experimental pulmonary oedema in the dog