A. Zwart scite author profile

Pressure-diameter relationships of segments of human finger arteries, aged 57-85 years, were measured in vitro. The arteries, obtained at autopsy within 48 h after death, were stored in glucose-free Tyrode at 4 degrees C. Experiments began within 40 h after autopsy. The diameter responses to various transmural pressure changes, with and without the addition of noradrenaline to the Tyrode solution in the specimen chamber, were compared with the responses of freshly excised rat tail arteries. In general, pressure-diameter relations of human finger artery segments were similar to those of rat tail artery segments, with a steep slope in the collapse region near zero pressure. Also, spontaneous rhythmic contractions and myogenic activity induced by high transmural pressures were similar to those observed in the fresh rat tail arteries. Human finger arteries, however, could contract to complete closure both spontaneously and after addition of noradrenaline, while rat tail arteries did not. The diameter changes of the arterial segments during forced 1 Hz oscillations of 20-50 mm Hg (2.7-6.7 kPa) amplitude superimposed on a mean transmural pressure were substantially smaller than those during quasi-steady inflation-deflation ramps over the same pressure range, indicating the presence of a strong viscous wall component.

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Evaluation of the Sensory Irritation Test for the Assessment of Occupational Health Risk

Bos¹,

Zwart²,

Reuzel³

et al. 1992

Critical Reviews in Toxicology

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Nasal tumours in rats after severe injury to the nasal mucosa and prolonged exposure to 10 ppm formaldehyde

Woutersen

Garderen-Hoetmer

Bruijntjes

et al. 1989

J of Applied Toxicology

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To study the significance of damage to the nasal mucosa for the induction of nasal tumours by formaldehyde in rats, a long-term inhalation study was conducted in which male rats with severely damaged or undamaged nose were exposed 6 h/day for 5 days/week to 0, 0.1, 1.0 or 10 ppm formaldehyde vapour for 28 months, or for 3 months followed by a 25-month observation period. The damage to the nasal mucosa was induced by bilateral intranasal electrocoagulation. The total number of rats used was 720, 480 with damaged and 240 with intact nose. Compound-related degenerative, inflammatory and hyperplastic changes of the nasal respiratory and olfactory mucosa were invariably observed when rats with intact nose were exposed to 10 ppm but not when exposed to 1.0 or 0.1 ppm formaldehyde. Nasal electrocoagulation increased the incidences of formaldehyde-induced rhinitis, hyper- and metaplasia of the respiratory epithelium, and degeneration and hyper- and metaplasia of the olfactory epithelium. In addition, exposure to 10 ppm formaldehyde for 28 months produced nasal squamous cell carcinomas in rats with damaged nose (15/58) but not in rats with intact nose. Three months of exposure to 10 ppm formaldehyde or exposure to 0.1 or 1.0 ppm formaldehyde for 28 months had no such effect. It was concluded that severe damage to the nasal mucosa may contribute to the induction of nasal tumours by formaldehyde.

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Flow and volume dependence of respiratory mechanical properties studied by forced oscillation

Oostveen

Peslin

Gallina

et al. 1989

Journal of Applied Physiology

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The influence of inspiratory and expiratory flow magnitude, lung volume, and lung volume history on respiratory system properties was studied by measuring transfer impedances (4-30 Hz) in seven normal subjects during various constant flow maneuvers. The measured impedances were analyzed with a six-coefficient model including airway resistance (Raw) and inertance (Iaw), tissue resistance (Rti), inertance (Iti), and compliance (Cti), and alveolar gas compressibility. Increasing respiratory flow from 0.1 to 0.4 1/s was found to increase inspiratory and expiratory Raw by 63% and 32%, respectively, and to decrease Iaw, but did not change tissue properties. Raw, Iti, and Cti were larger and Rti was lower during expiration than during inspiration. Decreasing lung volume from 70 to 30% of vital capacity increased Raw by 80%. Cti was larger at functional residual capacity than at the volume extremes. Preceding the measurement by a full expiration rather than by a full inspiration increased Iaw by 15%. The data suggest that the determinants of Raw and Iaw are not identical, that airway hysteresis is larger than lung hysteresis, and that respiratory muscle activity influences tissue properties.

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A. Zwart

Concentration—time mortality response relationship of irritant and systemically acting vapours and gases

Pressure-diameter relationships of segments of human finger arteries

Evaluation of the Sensory Irritation Test for the Assessment of Occupational Health Risk

Nasal tumours in rats after severe injury to the nasal mucosa and prolonged exposure to 10 ppm formaldehyde

Flow and volume dependence of respiratory mechanical properties studied by forced oscillation

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