First Stars III Conference Summary

The understanding of the formation, life, and death of Population III stars, as well as the impact that these objects had on later generations of structure formation, is one of the foremost issues in modern cosmological research and has been an active area of research during the past several years. We summarize the results presented at "First Stars III," a conference sponsored by Los Alamos National Laboratory, the Kavli Institute for Particle Astrophysics and Cosmology, and the Joint Institute for Nuclear Astrophysics. This conference, the third in a series, took place in July 2007 at the La Fonda Hotel in Santa Fe, New Mexico, U.S.A.Comment: 11 pages, no figures; Conference summary for First Stars III, which was held in Santa Fe, NM on July 15-20, 2007. To appear in "Proceedings of First Stars III," Eds. Brian W. O'Shea, Alexander Heger & Tom Abe

National Benefit/ Cost Analysis of Three Digit-Accessed Telephone Information and Referral Services

iven the enhanced profile and prospects for a national three-digit accessed (2-1-1) network for health and human services information and referral (I&R), United Way of America has contracted with the Ray Marshall Center to estimate the net value to society created by public and private investments in the system. Researchers will quantify the observed benefits and costs associated with eleven fully operational state and local 2-1-1 programs as a basis for estimating the net value of a national system, should policymakers and legislators decide to support such a system.Researchers will employ established methodologies to estimate benefits and costs. Research tasks conducted between March and August 2004 included a review of the I&R and benefit/costs literatures; recruiting and preliminarily screening sites; formally requesting fiscal and operational data; site visits and interviews with program administrators and staff; and conversations with professionals and individuals across the general public who have used 2-1-1 to address their health and human service needs.United Way of AmericaRay Marshall Center for the Study of Human Resource

Multi-neuronal refractory period adapts centrally generated behaviour to reward

Oscillating neuronal circuits, known as central pattern generators (CPGs), are responsible for generating rhythmic behaviours such as walking, breathing and chewing. The CPG model alone however does not account for the ability of animals to adapt their future behaviour to changes in the sensory environment that signal reward. Here, using multi-electrode array (MEA) recording in an established experimental model of centrally generated rhythmic behaviour we show that the feeding CPG of Lymnaea stagnalis is itself associated with another, and hitherto unidentified, oscillating neuronal population. This extra-CPG oscillator is characterised by high population-wide activity alternating with population-wide quiescence. During the quiescent periods the CPG is refractory to activation by food-associated stimuli. Furthermore, the duration of the refractory period predicts the timing of the next activation of the CPG, which may be minutes into the future. Rewarding food stimuli and dopamine accelerate the frequency of the extra-CPG oscillator and reduce the duration of its quiescent periods. These findings indicate that dopamine adapts future feeding behaviour to the availability of food by significantly reducing the refractory period of the brain's feeding circuitry

Development and application of novel processing tools and methods for cardiac optical mapping

Cardiac optical mapping provides unparalleled spatio-temporal resolution information of cardiac electrophysiology. It has hence emerged as an important technology in understanding cardiac electrical behaviour in physiological and pathophysiological states. There is a requirement for effective data analysis tools that are high-throughput, robustly characterised and flexible with regards to a growing array of experimental models. In this thesis a MATLAB based software, ElectroMap, was developed for analysis of diverse optical mapping datasets. ElectroMap incorporates existing and novel methods to allow quantification and mapping of action potential and calcium transient morphology and activation/repolarisation times. Automated pacing cycle length detection and segmentation were implemented, realising high-throughput analysis of beat-to-beat responses and transient behaviour. Standalone modules dedicated to calculation of conduction velocity and alternans were introduced, allowing thorough integration of key factors in arrhythmogenesis. Semi-automated analysis of temporal variations in wave morphology were developed from previous methodologies for electrogram analysis. Algorithms to use fractional rate of change of fluorescence as a measure of conduction were also introduced to the software. Algorithms were tested in silico datasets, mouse and guinea pig optical mapping datasets and preliminary experiments also showed use for in vivo human electrogram mapping of atrial fibrillation

A visual study of computers on doctors' desks

Background General practice has rapidly computerised over the past ten years, thereby changing the nature of general practice rooms. Most general practice consulting rooms were designed and created in an era without computer hardware, establishing a pattern of work around maximising the doctor-patient relationship. General practitioners (GPs) and patients have had to integrate the computer into this environment. Methods Twenty GPs allowed access to their rooms and consultations as part of a larger study. The results are based on an analysis of still shots of the consulting rooms. Analysis used dramaturgical methodology; thus the room is described as though it is the setting for a play. Results First, several desk areas were identified: a shared or patient area, a working area, a clinical area and an administrative area. Then, within that framework, we were able to identify two broad categories of setting, one inclusive of the patient and one exclusive. Conclusion With the increasing significance of the computer in the three-way doctor_patient_computer relationship, an understanding of the social milieu in which the three players in the consultation interact (the staging) will inform further analysis of the interaction, and allow a framework for assessing the effects of different computer placements

A new model for in vitro testing of vitreous substitute candidates

Purpose: To describe a new model for in vitro assessment of novel vitreous substitute candidates. Methods: The biological impact of three vitreous substitute candidates was explored in a retinal explant culture model; a polyalkylimide hydrogel (Bio-Alcamid®), a two component hydrogel of 20 wt.% poly (ethylene glycol) in phosphate buffered saline (PEG) and a cross-linked sodium hyaluronic acid hydrogel (Healaflow®). The gels where applied to explanted adult rat retinas and then kept in culture for 2, 5 and 10 days. Gel-exposed explants were compared with explants incubated under standard tissue culture conditions. Cryosections of the specimens were stained with hematoxylin and eosin, immunohistochemical markers (GFAP, Vimentin, Neurofilament 160, PKC, Rhodopsin) and TUNEL. Results: Explants kept under standard conditions as well as PEG-exposed explants displayed disruption of retinal layers with moderate pyknosis of all neurons. They also displayed moderate labeling of apoptotic cells. Bio-Alcamid®-exposed explants displayed severe thinning and disruption of retinal layers with massive cell death. Healaflow®-treated explants displayed normal retinal lamination with significantly better preservation of retinal neurons compared with control specimens, and almost no signs of apoptosis. Retinas exposed to Healaflow® and retinas kept under standard conditions showed variable labeling of GFAP with generally low expression and some areas of upregulation. PEG-exposed retinas showed increased GFAP labeling and Bio-Alcamid®-exposed retinas showed sparse labeling of GFAP. Conclusions Research into novel vitreous substitutes has important implications for both medical and surgical vitreoretinal disease. The in vitro model presented here provides a method of biocompatibility testing prior to more costly and cumbersome in vivo experiments. The explant culture system imposes reactions within the retina including disruption of layers, cell death and gliosis, and the progression of these reactions can be used for comparison of vitreous substitute candidates. Bio-Alcamid® had strong adverse effects on the retina which is consistent with results of prior in vivo trials. PEG gel elicits reactions similar to the control retinas whereas Healaflow® shows protection from culture-induced trauma indicating favorable biocompatibility.Swedish Research CouncilUniversity of Lund. Medical FacultyPrincess Margaret's Foundation for Blind ChildrenKnut and Alice Wallenberg FoundationGeneral Sir John Monash Foundation (Scholarship)In Vivo Therapeutics Corporatio