Interactive Measurement of Hierarchically Related Consumers’ Images

A new scaling technique was developed in the present work to investigate the image integration of consumers, taking advantage of the recent visual and object-oriented programming technology. Employed visual stimuli were the logos (and the accompanying symbolic marks, if any) of the four leading cosmetic makers, the logos of their brands and the photos of their product packages of skincare items targeted at young females. 19 females subjects evaluated the stimuli with respect to four, five and eight items for the corporate (Clmg), the brand (Blmg) and the package (Plmg) images. The image inheritance was analyzed on the internally anchored items. In addition, external anchores were employed to facilitate the Kansei processing in part of the Bimg evaluations. The major findings included the contrasting patterns exhibited by two makers both in the maker/brand discrepancies and in the image inheritances. Among the important issues to be considered in the future work are the mediation effect of the matching task and the class structure of evaluative items like those employed in AHP.

     

Optimal boiler control through real-time monitoring of unburned carbon in fly ash by laser-induced breakdown spectroscopy

A laser-induced breakdown spectroscopy (LIBS) technique has been applied for detection of unburned carbon in fly ash, and an automated LIBS unit has been developed and applied in a 1000-MW pulverized-coal-fired power plant for real-time measurement, specifically of unburned carbon in fly ash. Good agreement was found between measurement results from the LIBS method and those from the conventional method (Japanese Industrial Standard 8815), with a standard deviation of 0.27%. This result confirms that the measurement of unburned carbon in fly ash by use of LIBS is sufficiently accurate for boiler control. Measurements taken by this apparatus were also integrated into a boiler-control system with the objective of achieving optimal and stable combustion. By control of the rotating speed of a mill rotary separator relative to measured unburned-carbon content, it has been demonstrated that boiler control is possible in an optimized manner by use of the value of the unburned-carbon content of fly ash.     

Development of green composite consists of woodchips, bamboo fibers and biodegradable adhesive

From the viewpoint of the effective utilization of waste wood, the green composite which is produced by solidifying woodchips has been developed [Miki M, Takakura N, Kanayama K, Yamaguchi K, Iizuka T. Effects of forming conditions on compaction characteristics of wood powders. Trans Jpn Soc Mech Eng C 2003;69(678):502–8 [in Japanese]; Miki M, Takakura N, Kanayama K, Yamaguchi K, Iizuka T. Effects of forming conditions on flow characteristics of wood powders. Trans Jpn Soc Mech Eng C 2003;69(679):766–72 [in Japanese]; Miki M, Takakura N, Iizuka T, Yamaguchi K, Kanayama K. Possibility and problems in injection moulding of wood powders. Trans Jpn Soc Mech Eng C 2004;70(698):2966–72 [in Japanese]]. Since the composite was solidified by the compressive load without the binder, it did not have the high strength and was very brittle, and it had no water resistance [Kinoshita H, Kaizu K, Koga K, Tokunaga H, Ikeda K. In: Proceeding of the Japan Society of Mechanical Engineers M& M2007; 2007. CD [in Japanese]]. In this study, to improve these defects, it was proposed that a biodegradable resin as an adhesive and bamboo fibers as reinforced fibers were applied to the woodchip composite. By using woodchips with two kinds of the particle size, bamboo fibers with three kinds of the length and the biodegradable adhesive, several kinds of specimens changed mixing ratio of those materials were produced by compression molding at the appropriate temperature. By examining the bending strength and impact strength of the composites, it was found that the high bending strength was obtained in the case where woodchips with the small particle size and long bamboo fibers were used, and the high impact strength was obtained in the case where woodchips with the large particle size and long bamboo fibers were used.     

Responses of dorsal column nuclei neurons in rats with experimental mononeuropathy

During nerve cell degeneration, cholesterol released from the degrading cells is conserved through the formation of a cholesterol-apolipoprotein (apo) E complex which is subsequently taken up by regenerating nerve cells. The aim of the present project was to identify the physiologically relevant lipoprotein receptor for this lipoprotein complex which has remained elusive. HDL was separated into apo E-rich and apo E-poor subfractions and labelled with [14C]-sucrose. Labelled apo E-rich HDL bound to rat brain membranes in a time- and ligand concentration-dependent manner and was a saturable process. Essentially no binding occurred with [14C]-apo E-poor HDL or with free apo E. Binding was partially inhibited by low density lipoprotein (LDL) and by alpha 2-macroglobulin. These results provide new evidence that native apoE-rich HDL particles resembling those present in the brain bind to rat brain membranes and that the binding may be due, at least in part, to the LDL receptor and to the LDL-receptor related protein. Evidence was also provided for the presence of a receptor which binds [14C]-sucrose human apoE-rich HDL in human brain. Characterisation of the receptor which mediates the uptake of cholesterol from HDL-like complexes by brain cells is important in understanding the role of apoE in the central nervous system and of the alterations which occur in disorders such as Alzheimer's disease.     

Cessation of spermatogenesis in juvenile spermatogonial depletion (jsd/jsd) mice

Several lines of evidence have suggested that decreases in postsynaptic inhibition may have a role in epileptogenesis in cortical structures. However, other studies have suggested that GABAergic inhibition is spared, or even augmented in some forms of post-lesional epilepsy. In the studies described here, inhibitory events were recorded in two models of post-lesional chronic epileptogenesis. (i) As previously reported (D.A. Prince and G.-F. Tseng. J. Neurophysiol. 69: 1276-1291. 1993), epileptiform activity develops in slices from partially isolated rat neocortical islands 2-3 weeks after the initial in vivo lesion. In this model of post-traumatic epilepsy, large amplitude polyphasic inhibitory postsynaptic currents (IPSCs) in layer V pyramidal neurons are associated with each interictal epileptiform field potential. The frequency of spontaneous IPSCs as well as miniature IPSCs was significantly increased in neocortical slices from the epileptogenic chronically injured cortex versus controls. Immunocytochemical reactions for parvalbumin and calbindin, calcium binding proteins present in subgroups of GABAergic neurons, showed an increased staining of both neuropil and somata within the epileptogenic tissue. Immunoreactivity for glutamic acid decarboxylase (GAD) and GABA also appeared to be increased in the neuropil. (ii) Cortical microgyri resembling human malformations were produced by freeze lesions made transcranially in P0 rat cortex (K.M. Jacobs, M.J. Gutnick, and D.A. Prince. Cereb. Cortex, 6: 514-523. 1996). The boundary between the four-layered microgyrus and surrounding cortex become epileptogenic within about 2 weeks, as judged by evoked extracellular field potentials and cellular activities. Epileptogenesis in the surrounding cortex is not altered when the microgyrus itself is isolated by transcortical cuts. Patch-clamp recordings from layer V neurons in the epileptogenic zone showed that spontaneous IPSCs are larger and more dependent on glutamatergic synapses than in control neurons. The amplitudes of polysynaptic IPSCs evoked by threshold stimulation were also larger than in control cells. Although evaluation of inhibitory events in these models is still incomplete, results to date suggest that GABAergic inhibition may be enhanced in epileptogenic areas associated with chronic cortical injury. Sprouting of axonal arborizations of pyramidal cells onto interneurons, upregulation of GABAergic neurons, and perhaps sprouting of inhibitory axons that make increased numbers of contacts onto pyramidal cells may all contribute to the increased inhibitory drive. Results in these models do not support the disinhibitory hypothesis of chronic epileptogenesis.     

Human erythrocyte polyamine levels after partial hepatectomy

BACKGROUND/AIM: There are various indices of liver regeneration, but no clinically useful index that reflects the current status of liver regeneration. We assayed human erythrocyte polyamine levels after partial hepatectomy to define the relationship between erythrocyte polyamine levels and liver regeneration. MATERIALS AND METHODS: Levels of human erythrocyte polyamines (putrescine, spermidine, and spermine) were assayed by high-pressure liquid chromatography in 91 patients after partial hepatectomy and in 13 patients after surgery other than partial hepatectomy (controls). Of the patients after partial hepatectomy, 37 underwent hepatectomy of 20% or more of the liver (group A), 27 underwent segmentectomy or subsegmentectomy of the liver amounting to less than 20% of the liver (group B), and 27 underwent an operation smaller in scale than sub-segmentectomy (group C). RESULTS: The greater the proportion of the liver resected, the greater was the percent increase. In groups A, B, and C, erythrocyte levels of spermidine and spermine increased after surgery compared with the base line, and were significantly higher at 7 or 14 days, decreasing later. The differences in spermidine among the three groups were significant. CONCLUSIONS: After partial hepatectomy, the erythrocyte polyamine levels, especially the level of spermidine, were related to the proportion of liver resected. They seemed to reflect the degree of liver regeneration.     

Rho-regulated signals induce apoptosis in vitro and in vivo by a p53-independent, but Bcl2 dependent pathway

Rho proteins are a branch of GTPases that belongs to the Ras superfamily which are critical elements of signal transduction pathways leading to a variety of cellular responses. This family of small GTPases has been involved in diverse biological functions such as cytoskeleton organization, cell growth and transformation, cell motility, migration, metastasis, and responses to stress. We report that several human Rho proteins including Rho A, Rho C and Rac 1, are capable of inducing apoptosis in different cell systems like murine NIH3T3 fibroblasts and the human erythroleukemia K562 cell line. Since K562 cells are devoid of p53, apoptosis induced by Rho in this system is independent of p53. Rho-dependent apoptosis is mediated by the generation of ceramides, and it is drastically inhibited by ectopic expression of Bcl2, both under in vitro and in vivo conditions. Furthermore, the human oncogenes vav and ost that have been shown to function as guanine exchange factors for Rho proteins, were also able to induce apoptosis under similar conditions. Finally, we also report that the levels of endogenous Rho proteins are increased when U937 myeloid leukemia cells are exposed to apoptosis-inducing conditions such as TNF alpha treatment. Furthermore, TNF alpha-induced apoptosis in these cells is inhibited by expression of a dominant negative mutant of Rac 1 but it is not affected by a similar mutant of Rho A. These results suggest that Rho proteins play an important role in the physiological regulation of the apoptotic response to stress-inducing agents.     

Trunk motion control during the flight phase while hopping considering angular momentum of a humanoid

In previous studies, various stabilizing control methods for humanoids during the stance phase while hopping and running were proposed. Although these methods contribute to stability while hopping and running, it is possibility that the control during the flight phase could also affect the stability. In this study, we investigated whether the control during the flight phase can affect the stability of a humanoid while running. To achieve stable hopping, we developed a control system that accounts for the angular momentum of the whole body during the flight phase. In this system, the angular momentum generated by the motion of the lower body in each time interval is calculated during the flight phase, and the trunk joints are controlled to generate the angular momentum necessary to compensate for the deviation of the waist posture, which is used as the reference point for the motion coordinate system of the robot. Once the proposed control system was developed and simulated, we found that the hopping duration in the unconstrained state was extended.     

Tubulin Photoaffinity Labeling with Biotin‐Tagged Derivatives of Potent Diketopiperazine Antimicrotubule Agents

NPI‐2358 ( 1 ) is a potent antimicrotubule agent that was developed from a natural diketopiperazine, phenylahistin, which is currently in Phase I clinical trials as an anticancer drug. To understand the precise recognition mechanism of tubulin by this agent, we focused on its potent derivative, KPU‐244 ( 2 ), which has been modified with a photoreactive benzophenone structure, and biotin‐tagged KPU‐244 derivatives ( 3 and 4 ), which were designed and synthesized for tubulin photoaffinity labeling. Introduction of the biotin structure at the p′‐position of the benzophenone ring in 2 exhibited reduced, but significant biological activities with tubulin binding, tubulin depolymerization and cytotoxicity in comparison to the parent KPU‐244. Therefore, tubulin photoaffinity labeling studies of biotin‐derivatives 3 and 4 were performed by using Western blotting analysis after photoirradiation with 365 nm UV light. The results indicated that tubulin was covalently labeled by these biotin‐tagged photoprobes. The labeling of compound 4 was competitively inhibited by the addition of diketopiperazine 1 or colchicine, and weakly inhibited by the addition of vinblastine. The results suggest that photoaffinity probe 4 specifically recognizes tubulin at the same binding site as anticancer drug candidate 1 , and this leads to the disruption of microtubules. Probe 4 serves well as a useful chemical probe for potent antimicrotubule diketopiperazines, much like phenylahistin, and it also competes for the colchicine‐binding site.     

Preparation of highly mesoporous carbon membranes via a sol-gel process using resorcinol and formaldehyde

This paper reports the preparation of highly mesoporous carbon membranes, which are obtained by the pyrolysis of sol-gel derived mesoporous polymer membranes using resorcinol and formaldehyde (RF). Two series of RF carbon membranes were prepared by changing the resorcinol to catalyst molar ratio. The nitrogen adsorption-desorption measurement shows that the RF carbon membranes possess a well-developed mesoporous structure with controlled pore diameters of 5.48 nm and 13.9 nm. The helium and nitrogen permeances of both RF carbon membranes were independent of the feed pressure, indicating that there was no contribution of viscous flow and the membranes are initially crack-free. The gas permeation result showed that the dominant mechanism of gas transport through both the RF carbon membranes is Knudsen diffusion. With regard to the permeation of condensable gases such as CH₄ and CO₂, it was observed that the surface flow also contributes to the total permeation.