Shozo Koyama scite author profile

Nanotechnology is an emerging field that demands urgent development of adequate toxicology and risk assessment. The previous experimental data on carbon nanotube respiratory exposure strongly suggest the need for complex evaluation of potential toxicity. Our work demonstrates that after carbon nanotube deposition in the lung, acute local and systemic responses are activated and characterized by a blood gene and protein expression signature. The approach described here will foster the development of biomarkers for application in human screening of nanoparticle exposure.

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In vivo immunological toxicity in mice of carbon nanotubes with impurities

Koyama

Kim

Hayashi

et al. 2009

Carbon

103

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Role of systemic T-cells and histopathological aspects after subcutaneous implantation of various carbon nanotubes in mice

Koyama

Endo

Kim

et al. 2006

Carbon

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We have evaluated the biological responses to four different types of carbon nanotubes (CNTs), by measuring CD4 + and CD8 + T-cells in peripheral blood, and by the histopathological study on tissues surrounding subcutaneously implanted CNTs for up to 3 months. All mice survived, and no large changes in their weights were observed within our experimental period. After one week, only single walled carbon nanotubes samples. It is worth noting that the toxicological response of CNTs was absolutely lower than that of asbestos. As a result, we envisaged that our result (relatively low toxicity of CNTs) will spur the mass-production, as well widespread application of CNTs in the 1 near future.

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Presinusoidal vessels predominantly contract in response to norepinephrine, histamine, and KCl in rabbit liver

Shibamoto

Wang

Miyahara

et al. 1999

Journal of Applied Physiology

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In rabbit livers, it is not well known which segments of the hepatic vasculature are predominantly contracted by various vasoconstrictors. We determined effects of histamine, norepinephrine, and KCl on hepatic vascular resistance distribution in isolated rabbit livers perfused via the portal vein with 5% albumin-Krebs solution at a constant flow rate. Hepatic capillary pressure was measured by double vascular occlusion pressure (Pdo) and was used to determine portal (Rpv) and hepatic venous (Rhv) resistances. A bolus injection of either histamine or norepinephrine dose-dependently increased portal venous pressure but not Pdo, resulting in a dose-dependent increase in Rpv and no changes in Rhv. KCl (50 mM), when injected in anterogradely perfused livers, contracted the presinusoidal vessels selectively with liver weight loss. Although KCl significantly increased Rhv in retrogradely perfused livers, the increase in Rpv by 400% of baseline predominated over the increase in Rhv by 85% of baseline. In the retrogradely perfused livers, KCl produced an initial liver weight loss followed by a profound weight gain. We conclude that histamine and norepinephrine selectively contract the presinusoidal vessels. The results on KCl effects suggest that this selective presinusoidal constriction might be possibly due to predominant distribution of functionally active vascular smooth muscle in the presinusoidal vessels rather than the hepatic vein in rabbit livers.

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Shozo Koyama

Cross-Talk between Lung and Systemic Circulation during Carbon Nanotube Respiratory Exposure. Potential Biomarkers

In vivo immunological toxicity in mice of carbon nanotubes with impurities

Role of systemic T-cells and histopathological aspects after subcutaneous implantation of various carbon nanotubes in mice

Presinusoidal vessels predominantly contract in response to norepinephrine, histamine, and KCl in rabbit liver

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