J Onarheim scite author profile

The occurrence of intravascular bubbles in arteries and veins has been studied using pulsed Doppler ultrasound in six subjects who performed two ascending excursions each from 300 to 250 meters of seawater (msw) during a heliox saturation dive. Following decompression, high-intensity reflections could be observed not only in the venous system but also in the arteries, most notably in the carotid artery. Intravascular bubbles were more numerous during the first ascent than during the second. The arterial bubbles most probably come from the venous side of the circulation, indicating that the pulmonary filter is not as effective as previously thought during saturation diving.

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Effect of 71 ATA He-O2 on organ blood flow in the rat

Aanderud¹,

Onarheim²,

Tyssebotn³

1985

Journal of Applied Physiology

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Cardiac output and organ blood flow to major organs were investigated in awake rats at 1 atmosphere absolute (ATA) air and at 71 ATA He-O2. Radioactively labeled microspheres [15 +/- 1 (SD) micron] were injected into the left ventricle during constant-rate arterial blood sampling at 1 ATA air and subsequently at 71 ATA He-O2. Intra-arterial blood pressure was continuously recorded. The partial pressure of O2 was kept between 0.4 and 0.6 ATA. The results indicate that the mean blood pressure, heart rate, cardiac output, and organ blood flow are essentially unaltered in the rat at 71 ATA except for increased blood flow to the liver (122%, P less than 0.05), whereas the blood flow to the adrenals, the diaphragm, and the leg muscle fell (P less than 0.05).

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Neurotensin‐induced increase in intestinal blood flow in the anesthetized rat

Onarheim¹,

Helle²,

Jörgensen³

1982

Acta Physiologica Scandinavica

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Cardiac output (CO) and blood flow to major organs were investigated in pentobarbital-anesthetized rats using 85Sr and 141Ce labelled microspheres (MS) of 15 microns diameter injected into the left ventricle. Changes in organ blood flow and CO were measured after intraventricular dextran (3.4 mumol/kg/min) and intravenous neurotensin (NT) at two different rates, 2.5 nmol/kg/min and 0.125 nmol/kg/min. Dextran, known to give anaphylactoid response in rats, reduced the mean arterial pressure (MAP) from 118 +/- 17 to 55 +/- 8 mmHg (p less than 0.001) concomitant with a 56% decline in CO and significant decreases in blood flow to most organs. At 2.5 nmol/kg/min, NT caused a pattern of changes in MAP, CO and organ blood flow similar to that obtained with dextran, and thus consistent with an indirect response via mast cell stimulation. NT injected at 0.125 nmol/kg/min resulted in a significant increase (30%) in blood flow to the small intestine (p less than 0.01) without changes in MAP or CO. Vascular resistance decreased by 30% in the small intestine (p less than 0.01) and by 20% in the large intestine (p less than 0.05). The results show that circulating NT, at concentrations below those eliciting hypotension, enhances intestinal blood flow without significant changes in other organs.

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The Case of the Lost Bell

Tonjum

Påsche

Onarheim

et al. 1985

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J Onarheim

Neurotensin‐induced release of histamine from rat mast cells in vitro

Gas bubbles in the circulation of divers after ascending excursions from 300 to 250 msw

Effect of 71 ATA He-O2 on organ blood flow in the rat

Neurotensin‐induced increase in intestinal blood flow in the anesthetized rat

The Case of the Lost Bell

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