149 research outputs found

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    Non-invasive measurements of exhaled NO and CO associated with methacholine responses in mice

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    <p>Abstract</p> <p>Background</p> <p>Nitric oxide (NO) and carbon monoxide (CO) in exhaled breath are considered obtainable biomarkers of physiologic mechanisms. Therefore, obtaining their measures simply, non-invasively, and repeatedly, is of interest, and was the purpose of the current study.</p> <p>Methods</p> <p>Expired NO (E<sub>NO</sub>) and CO (E<sub>CO</sub>) were measured non-invasively using a gas micro-analyzer on several strains of mice (C57Bl6, IL-10<sup>-/-</sup>, A/J, MKK3<sup>-/-</sup>, JNK1<sup>-/-</sup>, NOS-2<sup>-/- </sup>and NOS-3<sup>-/-</sup>) with and without allergic airway inflammation (AI) induced by ovalbumin systemic sensitization and aerosol challenge, compared using independent-sample t-tests between groups, and repeated measures analysis of variance (ANOVA) within groups over time of inflammation induction. E<sub>NO </sub>and E<sub>CO </sub>were also measured in C57Bl6 and IL-10-/- mice, ages 8–58 weeks old, the relationship of which was determined by regression analysis. S-methionyl-L-thiocitrulline (SMTC), and tin protoporphyrin (SnPP) were used to inhibit neuronal/constitutive NOS-1 and heme-oxygenase, respectively, and alter NO and CO production, respectively, as assessed by paired t-tests. Methacholine-associated airway responses (AR) were measured by the enhanced pause method, with comparisons by repeated measures ANOVA and post-hoc testing.</p> <p>Results</p> <p>E<sub>NO </sub>was significantly elevated in naïve IL-10<sup>-/- </sup>(9–14 ppb) and NOS-2<sup>-/- </sup>(16 ppb) mice as compared to others (average: 5–8 ppb), whereas E<sub>CO </sub>was significantly higher in naïve A/J, NOS-3<sup>-/- </sup>(3–4 ppm), and MKK3<sup>-/- </sup>(4–5 ppm) mice, as compared to others (average: 2.5 ppm). As compared to C57Bl6 mice, AR of IL-10<sup>-/-</sup>, JNK1<sup>-/-</sup>, NOS-2<sup>-/-</sup>, and NOS-3<sup>-/- </sup>mice were decreased, whereas they were greater for A/J and MKK3<sup>-/- </sup>mice. SMTC significantly decreased E<sub>NO </sub>by ~30%, but did not change AR in NOS-2<sup>-/- </sup>mice. SnPP reduced E<sub>CO </sub>in C57Bl6 and IL-10<sup>-/- </sup>mice, and increased AR in NOS-2<sup>-/- </sup>mice. E<sub>NO </sub>decreased as a function of age in IL-10<sup>-/- </sup>mice, remaining unchanged in C57Bl6 mice.</p> <p>Conclusion</p> <p>These results are consistent with the ideas that: 1) E<sub>NO </sub>is associated with mouse strain and knockout differences in NO production and AR, 2) alterations of E<sub>NO </sub>and E<sub>CO </sub>can be measured non-invasively with induction of allergic AI or inhibition of key gas-producing enzymes, and 3) alterations in AR may be dependent on the relative balance of NO and CO in the airway.</p

    Cache coherence requirements for interprocess rendezvous

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    Multiprocessors in which a shared bus is used by the processor to communicate with common memory are an emerging class of machines where there is a need to support parallel programming languages. A language construct that is found in a number of parallel programming languages to support synchronization and communication in the interprocess rendezvous. Shared-bus multiprocessor require a protocol to keep the date in their caches coherent. There are two major categories of these protocols: invalidation and write-boadcast. This paper examines the requirements for cache coherence protocols to support efficient interprocessor rendezvous. The approach taken is to examine the memory referencing patterns to the run-time data structures during rendezvous execution. The appropriate coherence protocol is shown to be a function of the processor scheduling strategy used by the run-time system at synchronzation points during the rendezvous. When processes migrate freely as a result of the scheduling strategy, invalidation protocols are found to be more efficient. When migration is restricted by the scheduler, write-broadcast protocols are more efficient.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/44571/1/10766_2005_Article_BF01407863.pd

    Regenerative memory in time-delayed neuromorphic photonic resonators

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    We investigate a photonic regenerative memory based upon a neuromorphic oscillator with a delayed self-feedback (autaptic) connection. We disclose the existence of a unique temporal response characteristic of localized structures enabling an ideal support for bits in an optical buffer memory for storage and reshaping of data information. We link our experimental implementation, based upon a nanoscale nonlinear resonant tunneling diode driving a laser, to the paradigm of neuronal activity, the FitzHugh-Nagumo model with delayed feedback. This proof-of-concept photonic regenerative memory might constitute a building block for a new class of neuron-inspired photonic memories that can handle high bit-rate optical signals

    Stimulant Reduction Intervention using Dosed Exercise (STRIDE) - CTN 0037: Study protocol for a randomized controlled trial

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    <p>Abstract</p> <p>Background</p> <p>There is a need for novel approaches to the treatment of stimulant abuse and dependence. Clinical data examining the use of exercise as a treatment for the abuse of nicotine, alcohol, and other substances suggest that exercise may be a beneficial treatment for stimulant abuse, with direct effects on decreased use and craving. In addition, exercise has the potential to improve other health domains that may be adversely affected by stimulant use or its treatment, such as sleep disturbance, cognitive function, mood, weight gain, quality of life, and anhedonia, since it has been shown to improve many of these domains in a number of other clinical disorders. Furthermore, neurobiological evidence provides plausible mechanisms by which exercise could positively affect treatment outcomes. The current manuscript presents the rationale, design considerations, and study design of the National Institute on Drug Abuse (NIDA) Clinical Trials Network (CTN) CTN-0037 Stimulant Reduction Intervention using Dosed Exercise (STRIDE) study.</p> <p>Methods/Design</p> <p>STRIDE is a multisite randomized clinical trial that compares exercise to health education as potential treatments for stimulant abuse or dependence. This study will evaluate individuals diagnosed with stimulant abuse or dependence who are receiving treatment in a residential setting. Three hundred and thirty eligible and interested participants who provide informed consent will be randomized to one of two treatment arms: Vigorous Intensity High Dose Exercise Augmentation (DEI) or Health Education Intervention Augmentation (HEI). Both groups will receive TAU (i.e., usual care). The treatment arms are structured such that the quantity of visits is similar to allow for equivalent contact between groups. In both arms, participants will begin with supervised sessions 3 times per week during the 12-week acute phase of the study. Supervised sessions will be conducted as one-on-one (i.e., individual) sessions, although other participants may be exercising at the same time. Following the 12-week acute phase, participants will begin a 6-month continuation phase during which time they will attend one weekly supervised DEI or HEI session.</p> <p>Clinical Trials Registry</p> <p>ClinicalTrials.gov, <a href="http://www.clinicaltrials.gov/ct2/show/NCT01141608">NCT01141608</a></p> <p><url>http://clinicaltrials.gov/ct2/show/NCT01141608?term=Stimulant+Reduction+Intervention+using+Dosed+Exercise&rank=1</url></p

    Dhrystone benchmark: rationale for version 2 and measurement rules

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    Design and modelling of a high performance differential bipolar self-timed microprocessor

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