19,535 research outputs found
Self-pulsation dynamics in narrow stripe semiconductor lasers
In this paper, we address the physical origin of self-pulsation in narrow stripe edge emitting semiconductor lasers. We present both experimental time-averaged polarization-resolved near-field measurements performed with a charged-coupled device camera and picosecond time resolved near-field measurements performed with a streak camera. These results demonstrate dynamic spatial-hole burning during pulse formation and evolution. We conclude from these experimental results that the dominant process which drives the self-pulsation in this type of laser diode is carrier induced effective refractive index change induced by the spatial-hole burning
Canine liver transplantation under nva cyclosporine versus cyclosporine
The immunosuppressive qualities and other features of a new cyclosporine (CsA) analogue, Nva 2-cyclosporine (Nva 2-CsA) were examined using canine orthotopic liver allografts. The mean survival time was 11.8±9.6 (SD) days in dogs without treatment, 60.8±34.4 days with Nva 2-CsA and 65.1±33.0 days with CsA. Functional abnormalities indicating toxic side effects were not noted either with Nva 2-CsA or with CsA. Using the same oral dose, the rate of blood level rise and the amount of the rise were greater with Nva2-CsA. Histopathologically, Nva2-CsA the treatment was associated with the same degree of hydropic vocuolation in the pars recta of the proximal tubules as CsA treatment. Thus, in the dog, Nva2-CsA had identical immunosuppressive properties as CsA, with no functionally detectable toxicity affecting the liver and kidney. © 1986 by The Williams & Wilkins Co
Glucocorticoid receptor expression in 20 solid tumor types using immunohistochemistry assay.
BackgroundGlucocorticoid receptor (GR) activity plays a role in many aspects of human physiology and may play a crucial role in chemotherapy resistance in a wide variety of solid tumors. A novel immunohistochemistry (IHC) based assay has been previously developed and validated in order to assess GR immunoreactivity in triple-negative breast cancer. The current study investigates the standardized use of this validated assay to assess GR expression in a broad range of solid tumor malignancies.MethodsArchived formalin-fixed paraffin-embedded tumor bank samples (n=236) from 20 different solid tumor types were analyzed immunohistochemically. Nuclear staining was reported based on the H-score method using differential intensity scores (0, 1+, 2+, or 3+) with the percent stained (out of at least 100 carcinoma cells) recorded at each intensity.ResultsGR was expressed in all tumor types that had been evaluated. Renal cell carcinoma, sarcoma, cervical cancer, and melanoma were those with the highest mean H-scores, indicating high levels of GR expression. Colon, endometrial, and gastric cancers had lower GR staining percentages and intensities, resulting in the lowest mean H-scores.ConclusionA validated IHC assay revealed GR immunoreactivity in all solid tumor types studied and allowed for standardized comparison of reactivity among the different malignancies.ImpactBaseline expression levels of GR may be a useful biomarker when pharmaceutically targeting GR in research or clinical setting
Special Report: Judicial Co-Operation in the European Union: Insolvency and Rescue
The Judicial Co-Operation for Economic Recovery in Europe (JCOERE) is a research action project funded by the EU Commission DG Justice. The project focuses on particular substantive and procedural obstacles to the obligation imposed on courts in the European Insolvency Regulation Recast to co-operate in the comparative context of domestic restructuring frameworks, such as the Examinership procedure in Ireland, and the eventual implementation of the provisions of the Preventive Restructuring Directive. While engaging proactively with the EU judiciary, the team will document experiences with co-operation and utilisation of co-operation guidelines, disseminating findings to aid future court-to-court co-operation
An Improved Approximate Consensus Algorithm in the Presence of Mobile Faults
This paper explores the problem of reaching approximate consensus in
synchronous point-to-point networks, where each pair of nodes is able to
communicate with each other directly and reliably. We consider the mobile
Byzantine fault model proposed by Garay '94 -- in the model, an omniscient
adversary can corrupt up to nodes in each round, and at the beginning of
each round, faults may "move" in the system (i.e., different sets of nodes may
become faulty in different rounds). Recent work by Bonomi et al. '16 proposed a
simple iterative approximate consensus algorithm which requires at least
nodes. This paper proposes a novel technique of using "confession" (a mechanism
to allow others to ignore past behavior) and a variant of reliable broadcast to
improve the fault-tolerance level. In particular, we present an approximate
consensus algorithm that requires only nodes, an
improvement over the state-of-the-art algorithms.
Moreover, we also show that the proposed algorithm is optimal within a family
of round-based algorithms
Fluctuations of fitness distributions and the rate of Muller's ratchet
The accumulation of deleterious mutations is driven by rare fluctuations
which lead to the loss of all mutation free individuals, a process known as
Muller's ratchet. Even though Muller's ratchet is a paradigmatic process in
population genetics, a quantitative understanding of its rate is still lacking.
The difficulty lies in the nontrivial nature of fluctuations in the fitness
distribution which control the rate of extinction of the fittest genotype. We
address this problem using the simple but classic model of mutation selection
balance with deleterious mutations all having the same effect on fitness. We
show analytically how fluctuations among the fittest individuals propagate to
individuals of lower fitness and have a dramatically amplified effects on the
bulk of the population at a later time. If a reduction in the size of the
fittest class reduces the mean fitness only after a delay, selection opposing
this reduction is also delayed. This delayed restoring force speeds up Muller's
ratchet. We show how the delayed response can be accounted for using a path
integral formulation of the stochastic dynamics and provide an expression for
the rate of the ratchet that is accurate across a broad range of parameters.Comment: Genetics 201
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