ABSTRACT
Nonspherical particles are ubiquitous in nature and industry, yet previous theoretical models of granular media are mostly limited to systems of spherical particles. The problem is that in systems of nonspherical anisotropic particles, dynamic particle alignment critically affects their mechanical response. To study the tendency of such particles to align, we propose a simple kinematic model that relates the flow to the evolution of particle alignment with respect to each other. The validity of the proposed model is supported by comparison with particle-based simulations for various particle shapes ranging from elongated rice-like (prolate) to flattened lentil-like (oblate) particles. The model shows good agreement with the simulations for both steady-state and transient responses, and advances the development of comprehensive constitutive models for shape-anisotropic particles.
ABSTRACT
The objective of this study was to investigate the pharmacodynamics and pharmacokinetics of a single dose of GW273629, a selective iNOS inhibitor, given during and outside a migraine attack. GW273629 1500 mg was administered to 15 migraine patients both ictally and interictally. Nasal and exhaled nitric oxide (NO), plasma 3-nitrotyrosine, and nitrates were measured to assess systemic NO production. In addition, pharmacokinetics and treatment response were assessed. Data are mean (95% confidence interval [CI]). Plasma 3-nitrotyrosine was higher ictally: 11.96 (8.22, 15.71) ictally versus 2.74 (2.24, 3.24) ng/10 mg interictally (P < .0001). Exhaled and nasal NO showed a similar trend: 12.5 (6.5, 18.6) and 62.2 (41.5, 82.8) ppb ictally versus 9.9 (6.3, 13.4) ppb and 52.5 (38.5, 66.0) ppb interictally, respectively. Early absorption of GW273629 (AUC(0-2) [90% CI]) was reduced by 41 (22, 55)% during an attack. There was no improvement of headache or associated symptoms. Migraine headache is associated with reduced early absorption of GW273629 and excess NO production. In this open-label study, GW273629 was ineffective in the treatment of acute migraine.