A luminous reflective display can be constructed by placing an electro-optic shutter on the stack of a luminescent layer, a color filter, and a reflector in this order. The luminescent materials convert a part of the incident light to photoluminescence photons. The reflector redirects the downward photon flux toward an observer. The color filters prevent the photons with unwanted wavelengths from being reflected. The upward spectral flux from this multi-layer structure is formulated. Experiments with off-the-shelf components revealed more than three-fold increase in spectral flux and up to 55% color gamut extension, compared with a control device without luminescent materials.
One can display images and harvest energy by utilizing ambient light with a stack of an optical shutter array, a luminescent layer and a solar cell. In our experiment, a luminescent layer and a corresponding color filter were attached to a polycrystalline Si solar cell with 13% power conversion efficiency. For each configuration using BBOT, Coumarin 6 and Lumogen F Red 305, the power conversion efficiency was measured to be 6.7%, 8.0% and 8.9%, respectively. The luminance of these configurations was proportional to the illuminance in all cases. Its color gamut was comparable to the National Television System Committee standard.
This contribution aims to integrate findings of our recently reported three brain imaging studies on young narcolepsy-cataplexy patients [1][2][3]. All brain images were acquired using 3.0 Tesla MRI. In our prior study of a voxel-based morphometry [1], narcoleptic patients showed gray matter (GM) deficits in the hypothalamus and fronto-limbic areas. Hypothalamic GM deficits correlated with severity of narcolepsy. In our diffusion tensor imaging study that assessed global white matter (WM) integrity [2], narcoleptic patients had decreased WM integrity especially in fronto-limbic areas, which were associated with sleepiness and attention deficit. Prefrontal metabolite concentration was measured in a proton magnetic resonance spectroscopy [3]. Narcoleptic patients had higher GABA levels in the medial prefrontal areas. This is potentially related to the compensation of nocturnal sleep disturbance. Hypothalamus seems to be a key structure in narcoleptic symptoms. However, both GM and WM abnormalities of fronto-limbic areas were also related to narcolepsy and its symptoms. Compensatory alteration of GABA was also found in the areas. Taken together, our reports suggest that fronto-limbic area, as well as hypothalamus, may be implicated in narcolepsy.
References[1] Gray matter deficits in young adults with narcolepsy. Acta Neurol Scand 2009;119:61-7. [2] Decreased fractional anisotropy values in brains of young narcoleptic patients. 2009; presented in APSS. [3] Increased GABA levels in medial prefrontal cortex of young adults with narcolepsy.Two types of monoamine oxidase (MAO), type A (MAO-A) and type B (MAO-B), have been identified. Generally, MAO-A is highly expressed in noradrenergic/adrenergic neurons such as the locus coeruleus, whereas MAO-B is highly expressed in serotonergic and histaminergic neurons and distinct populations of glia such as tanicytes. On the other hand, it has been reported that non-catecholaminergic neurons also express MAOs in an adult rat brain. Extracellular serotonin (5-HT), norepinephrine / epinephrine (NE/E), and dopamine (DA) appear to be removed by a reuptake mechanism; subsequently, they are metabolized by intracellular MAO activity. In the hypothalamus, 5-HT and DBHpositive varicosities densely distribute around hypothalamic nucleus, likely MAO activity affecting the neuronal functions. In the present study, we investigated the distribution of MAOs and the anatomical relation to the neuropeptide-expressing neurons in the rat hypothalamus. We performed enzyme histochemistry for MAO-A or MAO-B, and use specific antibodies for MAO-A and MAO-B. In the result, we found moderate MAO-A enzyme activities in the distinct neuronal populations, and strong MAO-B activity in some glial cells including tanicytes. MAO-A-immunoreactivities (IR) were found in the varicosities of noradrenergic/adrenergic neurons and in the cell bodies of some neuropeptides-expressing neurons in the lateral hypothalamus. Especially, orexin neurons robustly express MAO-A, but not MAO-B.
Objective:We have elucidated the p...
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