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171.
Stainless steels are used as canister materials for interim storage of spent fuel. Crevice corrosion has proved to be a safety concern of 304L stainless steel spent fuel canisters, when exposed to the saline environments of coastal sites. To study the effects of chloride concentration and test duration on the crevice corrosion behavior, and the effect of relative humidity on the initiation of discrete SCC cracks, a test program was conducted on the 304L steel specimens sprayed with synthetic sea water of 3.5 wt.%. The salt-deposited specimens, wrapped up with a crevice former to form a crevice configuration, were then exposed to an environment at 45 °C with a pre-set 45%, 55%, and 70% relative humidity (RH), for 400 h and 10,000 h, respectively. The surface features and crack morphology of the tested 304L stainless-steel specimens were examined by energy-dispersive spectrometry (EDS) and electron back scatter diffraction (EBSD). For the specimens deposited with a chloride concentration of 1 g/m2, no cracks were found in the corroded regions after 400-h exposure, whereas SCC cracks were observed with the specimens tested for 10,000 h at all three pre-set relative humidity. The specimens tested at the pre-set relative humidity 45% are characterized with discrete SCC cracks, but, on the other hand, those exposed to the environments of 55% and 70% relative humidity show SCC cracks of distinct features. From the results of 10,000-h tests, it is inferred that the chloride concentration threshold for SCC initiation of 304L stainless steel at 45 °C is between 0.1 g/m2 and 1 g/m2. 相似文献
172.
Huy Tran Ming-Lung Yu Chia-Yen Dai I-Ling Lin Ming-Lun Yeh Wan-Long Chuang Kenji Abe 《Virus genes》2014,49(1):30-37
The hepatitis B virus (HBV) genomes in Taiwanese aborigines, whose ancestors have lived in Taiwan for over 10,000 years, have not been characterized. In order to characterize of HBV in this special population, serum samples were obtained from serologically HBsAg-positive 27 Taiwanese aborigines. The pre-S1/S2 region and the full-length 3.2 kb of the HBV genome were amplified by PCR. Obtained amplicons were sequenced and confirmed the HBV genotypes by phylogenetic analysis. By phylogenetic analysis of the sequence of pre-S1/pre-S2 region, HBV/B2 (21/27: 78 %) was the most prevalent followed by genotype D (6/27: 22 %). Two strains of HBV/B2, each having 3,215 bp genomes, had recombination with genotype C in the pre-C/C gene which is characteristic of subgenotype B2 circulating in Southeast Asia. Interestingly, six strains of genotype D formed a distinct cluster between subgenotypes D1 and D2 suggesting a novel group of HBV. A similar finding could also be confirmed based on the entire 3,182 bp genome from four strains of HBV/D. This new cluster was supported by a branch with 99 % bootstrap value and 3.4–5.8 % nucleotide divergence over the entire genome from other known subgenotypes D1 to D9. Four strains of the new D subgenotype showed serotype ayw2, but had unique amino acid sequences consisting of N115 in the preS/S gene; P41 in the X gene; S239, K/E295, V567, and P708 in the P gene, respectively. From the above results, we provisionally proposed to designate it as novel quasi-subgenotype D2 identified in Taiwanese aborigines. 相似文献
173.
Yi-Tsung Lin Kai-Yu Tseng Yi-Chen Yeh Fu-Chen Yang Chang-Phone Fung Nien-Jung Chen 《Infection and immunity》2014,82(3):1335-1342
Klebsiella pneumoniae liver abscess (KPLA) is prevalent in East Asia. Liver abscess can develop after translocation of K. pneumoniae from a patient''s bowel into the liver via the portal circulation. TREM-1 (triggering receptor expressed on myeloid cells 1) amplifies inflammatory signaling during infection, but its role in KPLA is poorly understood. We used an animal study to characterize the role of TREM-1 in KPLA. We compared survival rates, bacterial burdens in tissues, inflammatory cytokine levels, and histology findings between wild-type and Trem-1 knockout (KO) mice after oral inoculation of capsular type K1 K. pneumoniae. Translocation of K. pneumoniae to mesenteric lymph nodes and liver was examined, and intestinal permeability, antimicrobial peptide expression, and the clearance of K. pneumoniae in the small intestine were determined. In the absence of TREM-1, KPLA model mice showed increased K. pneumoniae dissemination, enhanced liver and systemic inflammation, and reduced survival. Impaired bacterial clearance in the small intestine causes enhanced K. pneumoniae translocation, which renders Trem-1 KO mice more susceptible to K. pneumoniae oral infection. In conclusion, TREM-1-mediated bacterial clearance in the small intestine is an important immune response against K. pneumoniae. TREM-1 deficiency enhances K. pneumoniae translocation in the small intestine and increases mortality rates in mice with KPLA. 相似文献
174.
Prashant Sonar Tae‐Jun Ha Yuri Seong Shih‐Chieh Yeh Chin‐Ti Chen Sergei Manzhos Ananth Dodabalapur 《Macromolecular chemistry and physics.》2014,215(8):725-732
A fused aromatic furan‐substituted diketopyrrolopyrrole and novel diphenylfumaronitrile conjugated building blocks are used for the synthesis of an alternating copolymer ( DPFN‐DPPF ) via Suzuki polycondensation. In this paper, the first attempt to use the diphenylfumaronitrile building block for the synthesis of conjugated polymer is described. The number‐average and weight‐average molecular weights calculated for DPFN‐DPPF are 20 661 and 66 346 g mol?1, respectively. The optical bandgap calculated for DPFN‐DPPF is 1.53 eV whereas the highest occupied molecular orbital (HOMO) value calculated by photoelectron spectroscopy in air (PESA) is 5.50 eV. The calculated HOMO value is lower, which is suitable for stable organic electronic devices. DPFN‐DPPF polymer is used as an active layer in bottom‐contact bottom‐gate organic thin‐film transistor devices and the thin film exhibits a hole mobility of 0.20 cm2 V?1 s?1 in air.
175.
John S. Ho Alexander J. Yeh Evgenios Neofytou Sanghoek Kim Yuji Tanabe Bhagat Patlolla Ramin E. Beygui Ada S. Y. Poon 《Proceedings of the National Academy of Sciences of the United States of America》2014,111(22):7974-7979
The ability to implant electronic systems in the human body has led to many medical advances. Progress in semiconductor technology paved the way for devices at the scale of a millimeter or less (“microimplants”), but the miniaturization of the power source remains challenging. Although wireless powering has been demonstrated, energy transfer beyond superficial depths in tissue has so far been limited by large coils (at least a centimeter in diameter) unsuitable for a microimplant. Here, we show that this limitation can be overcome by a method, termed midfield powering, to create a high-energy density region deep in tissue inside of which the power-harvesting structure can be made extremely small. Unlike conventional near-field (inductively coupled) coils, for which coupling is limited by exponential field decay, a patterned metal plate is used to induce spatially confined and adaptive energy transport through propagating modes in tissue. We use this method to power a microimplant (2 mm, 70 mg) capable of closed-chest wireless control of the heart that is orders of magnitude smaller than conventional pacemakers. With exposure levels below human safety thresholds, milliwatt levels of power can be transferred to a deep-tissue (>5 cm) microimplant for both complex electronic function and physiological stimulation. The approach developed here should enable new generations of implantable systems that can be integrated into the body at minimal cost and risk.Progress in semiconductor technology has led to electronic devices that can augment or replace physiological functions; their ability to be implanted for direct interaction with organ systems relies on overall miniaturization of the device for simplified delivery (e.g., via catheter or hypodermic needle) and access to interstitial spaces. Advances over the past few decades enable most components in a biomedical device, including electrodes, oscillators, memory, and wireless communication systems, to be integrated on tiny silicon chips. However, the energy required for electronic function remains substantial and the consumption density has not been matched by existing powering technologies (1). As a result, the vast bulk of most implantable electronic devices consists of energy storage or harvesting components.Although considerable progress has been made in energy storage technologies, batteries remain a major obstacle to miniaturization (2, 3) because their lifetimes are limited and highly constrained by the available volume, requiring periodic surgical replacement once the unit is depleted. Energy-harvesting strategies have been developed to eliminate batteries or to extend their function. Previous demonstrations include thermoelectric (4), piezoelectric (5–7), biopotential (8), or glucose (9, 10) power extraction. However, these methods are anatomically specific and, in their existing forms, yield power densities too low (<0.1 μW/mm2) for a microimplant.Alternatively, energy can be transferred from an external source. Ideally, power transfer should be completely noninvasive and not specific to regions in the body. Most existing approaches for this type of transfer are based on electromagnetic coupling in the near field (11–20). Though well-suited for large devices and prostheses (21, 22), near-field methods do not address key challenges to powering a microimplant: weak coupling between extremely asymmetric source and receiver structures (23), dissipative and heterogeneous tissue (24), and regulatory power thresholds for general safety (25). These challenges, compounded by the intrinsic exponential decay of the near field, severely limit miniaturization beyond superficial depths (>1 cm), even if the battery can be removed.Theory has indicated that these problems can be overcome in the electromagnetic midfield (23): energy transfer in this region, defined to be about a wavelength’s distance from the source, occurs through the coupling between evanescent fields in air and propagating modes in tissue. Using a patterned metal plate to control the near field, we demonstrate milliwatt levels of power transfer to a miniaturized coil deep in heterogeneous tissue (>5 cm), with exposure levels below safety thresholds for humans; this enables us to power a microimplant capable of delivering controlled electrical pulses to nearly anywhere in the body. The device consists of a multiturn coil structure, rectifying circuits for AC/DC power conversion, a silicon-on-insulator integrated circuit (IC) for pulse control, and electrodes, entirely assembled within a 2-mm diameter, 3.5-mm height device small enough to fit inside a catheter. We demonstrate wireless function by operating it in human-scale heart and brain environments, and by wirelessly regulating cardiac rhythm through a chest wall. 相似文献
176.
177.
178.
Objectives
Studies regarding the clinical features and outcomes of pediatric lupus nephritis are limited, and risk factors of poor outcome in the more severe form of renal involvement, proliferative lupus nephritis (PLN), are poorly understood. This study analyzed the data from a large prospective cohort of childhood systemic lupus erythematosus to determine such risk factors.Methods
Subjects younger than 18 years at onset with biopsy-proven lupus nephritis were enrolled. Data on baseline presentations and laboratory values, response to treatment, and outcomes were collected. Primary outcome measures were death or end-stage renal disease (ESRD). Survival analysis was done and predictors were approached.Results
One hundred four patients with mean age of 12.4 ± 2.5 years (range, 4.0–17.2 years) and the female-to-male ratio of 5.94:1 were included. Among them, 81 patients had PLN and 23 had non-proliferative lupus nephritis. Those with PLN had significantly lower GFR, more proteinuria, more urine sediment, more hypertension, and poor early response to treatment (within 6 months). There was no significant difference in extra-renal manifestations. All poor outcomes happened in the PLN group. The prognostic factors were high baseline SLEDAI-2k >20 (HR, 6.76; p = 0.002), baseline GFR <60 ml/min/m2 (HR, 3.88; p = 0.022), and early responder (HR, 0.19; p = 0.013).Conclusions
Patients with pediatric lupus nephritis and high risk factor can be identified early by concomitantly considering their baseline features and early response, which provides a novel hint in decision for management decisions. 相似文献179.
180.
Ka SM Yeh YC Huang XR Chao TK Hung YJ Yu CP Lin TJ Wu CC Lan HY Chen A 《Diabetologia》2012,55(2):509-519