934 research outputs found
Polar codes and polar lattices for the Heegard-Berger problem
Explicit coding schemes are proposed to achieve the rate-distortion function of the Heegard-Berger problem using polar codes. Specifically, a nested polar code construction is employed to achieve the rate-distortion function for doublysymmetric binary sources when the side information may be absent. The nested structure contains two optimal polar codes for lossy source coding and channel coding, respectively. Moreover, a similar nested polar lattice construction is employed when the source and the side information are jointly Gaussian. The proposed polar lattice is constructed by nesting a quantization polar lattice and a capacity-achieving polar lattice for the additive white Gaussian noise channel
Managing cultural and natural heritage : strategic perspectives for Latin America and the Caribbean
Some text in SpanishDigital version contains 314 p
Metabolism and Disposition of a Selective ␣ 7 Nicotinic Acetylcholine Receptor Agonist in Humans
ABSTRACT: The The formation of 2 was found to be mediated by CYP2D6, a polymorphically expressed enzyme absent in 5 to 10% of white people, whereas the generation of 4 was catalyzed by CYP2D6, FADcontaining monooxygenase 1 (FMO1), and FMO3. It is of interest that, although no overall gender-related differences in excretory routes, mass recoveries, pharmacokinetics, or metabolite profiles of 1 were evident, the observation of one of eight subjects (13%) showing disparate (relative to all other volunteers) systemic exposures to 1, and urinary and plasma quantitative profiles nearly devoid of 2 with the highest levels of 1, seem consistent with both the identification of CYP2D6 as the only major recombinant cytochrome P450 transforming 1 to 2 and the demographics of white CYP2D6 poor metabolizers. Data also reported herein suggest that 4 is generated predominantly by renal FMO1 in humans
The Influence of the effect of solute on the thermodynamic driving force on grain refinement of Al alloys
Grain refinement is known to be strongly affected by the solute in cast alloys. Addition of some solute can reduce grain size considerably while others have a limited effect. This is usually attributed to the constitutional supercooling which is quantified by the growth restriction factor, Q. However, one factor that has not been considered is whether different solutes have differing effects on the thermodynamic driving force for solidification. This paper reveals that addition of solute reduces the driving force for solidification for a given undercooling, and that for a particular Q value, it is reduced more substantially when adding eutectic-forming solutes than peritectic-forming elements. Therefore, compared with the eutectic-forming solutes, addition of peritectic-forming solutes into Al alloys not only possesses a higher initial nucleation rate resulted from the larger thermodynamic driving force for solidification, but also promotes nucleation within the constitutionally supercooled zone during growth. As subsequent nucleation can occur at smaller constitutional supercoolings for peritectic-forming elements, a smaller grain size is thus produced. The very small constitutional supercooling required to trigger subsequent nucleation in alloys containing Ti is considered as a major contributor to its extraordinary grain refining efficiency in cast Al alloys even without the deliberate addition of inoculants.The Australian Research Council (ARC DP10955737)
A novel treatment strategy for preterm birth: Intra-vaginal progesterone-loaded fibrous patches
Progesterone-loaded poly(lactic) acid fibrous polymeric patches were produced using electrospinning and pressurized gyration for intra-vaginal application to prevent preterm birth. The patches were intravaginally inserted into rats in the final week of their pregnancy, equivalent to the third trimester of human pregnancy. Maintenance tocolysis with progesterone-loaded patches was elucidated by recording the contractile response of uterine smooth muscle to noradrenaline in pregnant rats. Both progesterone-loaded patches indicated similar results from release and thermal studies, however, patches obtained by electrospinning had smaller average diameters and more uniform dispersion compared to pressurized gyration. Patches obtained by pressurized gyration had better results in production yield and tensile strength than electrospinning; thereby pressurized gyration is better suited for scaled-up production. The patches did not affect cell attachment, viability, and proliferation on Vero cells negatively. Consequently, progesterone-loaded patches are a novel and successful treatment strategy for preventing preterm birth
Accelerated diabetic wound healing by topical application of combination oral antidiabetic agents-loaded nanofibrous scaffolds: An in vitro and in vivo evaluation study
The combination of oral antidiabetic drugs, pioglitazone, metformin, and glibenclamide, which also
exhibit the strongest anti-inflammatory action among oral antidiabetic drugs, were loaded into
chitosan/gelatin/polycaprolactone (PCL) by electrospinning and polyvinyl pyrrolidone (PVP)/PCL
composite nanofibrous scaffolds by pressurized gyration to compare the diabetic wound healing
effect. The combination therapies significantly accelerated diabetic wound healing in type-1
diabetic rats and organized densely packed collagen fibers in the dermis, it also showed better
regeneration of the dermis and epidermis than single drug-loaded scaffolds with less inflammatory
cell infiltration and edema. The formation of the hair follicles started in 14 days only in the
combination therapy and lower proinflammatory cytokine levels were observed compared to single
drug-loaded treatment groups. The combination therapy increased the wettability and hydrophilicity
of scaffolds, demonstrated sustained drug release over 14 days, has high tensile strength and
suitable cytocompatibility on L929 (mouse fibroblast) cell and created a suitable area for the
proliferation of fibroblast cells. Consequently, the application of metformin and pioglitazone-loaded
chitosan/gelatin/PCL nanofibrous scaffolds to a diabetic wound area offer high bioavailability,
fewer systemic side effects, and reduced frequency of dosage and amount of drug
Basal Ganglia Pathways Associated With Therapeutic Pallidal Deep Brain Stimulation for Tourette Syndrome
BACKGROUND: Deep brain stimulation (DBS) targeting the globus pallidus internus (GPi) can improve tics and
comorbid obsessive-compulsive behavior (OCB) in patients with treatment-refractory Tourette syndrome (TS).
However, some patients’ symptoms remain unresponsive, the stimulation applied across patients is variable, and
the mechanisms underlying improvement are unclear. Identifying the fiber pathways surrounding the GPi that are
associated with improvement could provide mechanistic insight and refine targeting strategies to improve outcomes.
METHODS: Retrospective data were collected for 35 patients who underwent bilateral GPi DBS for TS. Computational models of fiber tract activation were constructed using patient-specific lead locations and stimulation settings
to evaluate the effects of DBS on basal ganglia pathways and the internal capsule. We first evaluated the relationship
between activation of individual pathways and symptom improvement. Next, linear mixed-effects models with
combinations of pathways and clinical variables were compared in order to identify the best-fit predictive models
of tic and OCB improvement.
RESULTS: The best-fit model of tic improvement included baseline severity and the associative pallido-subthalamic
pathway. The best-fit model of OCB improvement included baseline severity and the sensorimotor pallidosubthalamic pathway, with substantial evidence also supporting the involvement of the prefrontal, motor, and
premotor internal capsule pathways. The best-fit models of tic and OCB improvement predicted outcomes across
the cohort and in cross-validation.
CONCLUSIONS: Differences in fiber pathway activation likely contribute to variable outcomes of DBS for TS.
Computational models of pathway activation could be used to develop novel approaches for preoperative targeting
and selecting stimulation parameters to improve patient outcomes
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