2,346 research outputs found
Effects of temperature and salinity on four species of northeastern Atlantic scyphistomae (Cnidaria Scyphozoa)
This work was funded by the MASTS pooling initiative (Marine Alliance for Science and Technology for Scotland), and we gratefully acknowledge that support. MASTS is funded by the Scottish Funding Council (grant reference HR09011) and contributing institutions. C.L.W. is also grateful to the US/UK Fulbright Commission and the University of St Andrews for their financial support.Laboratory incubation experiments were conducted to examine the effects of different temperatures (4, 9, 14, 19, 23°C) and salinities (21, 27, 34) on survival and asexual reproduction of scyphistomae of Cyanea capillata, C. lamarckii, Chrysaora hysoscella, and Aurelia aurita in order to better understand how climate variability may affect the timing and magnitude of jellyfish blooms. Significant mortality was observed only for C. capillata and Ch. hysoscella at the highest and lowest temperatures, respectively, but temperature and salinity significantly affected the asexual reproductive output for all species. As temperature increased, production rates of podocysts increased and, if produced, progeny scyphistomae by side budding also increased. However, strobilation rates, and therefore the mean number of ephyrae produced, decreased when scyphistomae were exposed to elevated temperatures. These results provide a mechanistic explanation for why ephyrae of these species tend to be produced during colder periods of the year whilst summer and early autumn are probably important periods for increasing the numbers of scyphistomae in natural populations.PostprintPeer reviewe
Acute alcohol administration dampens central extended amygdala reactivity.
Alcohol use is common, imposes a staggering burden on public health, and often resists treatment. The central extended amygdala (EAc)-including the bed nucleus of the stria terminalis (BST) and the central nucleus of the amygdala (Ce)-plays a key role in prominent neuroscientific models of alcohol drinking, but the relevance of these regions to acute alcohol consumption in humans remains poorly understood. Using a single-blind, randomized-groups design, multiband fMRI data were acquired from 49 social drinkers while they performed a well-established emotional faces paradigm after consuming either alcohol or placebo. Relative to placebo, alcohol significantly dampened reactivity to emotional faces in the BST. To rigorously assess potential regional differences in activation, data were extracted from unbiased, anatomically predefined regions of interest. Analyses revealed similar levels of dampening in the BST and Ce. In short, alcohol transiently reduces reactivity to emotional faces and it does so similarly across the two major divisions of the human EAc. These observations reinforce the translational relevance of addiction models derived from preclinical work in rodents and provide new insights into the neural systems most relevant to the consumption of alcohol and to the initial development of alcohol abuse in humans
Engaging Patients in Health System Transformation: The experience of the Maine Health Access Foundation\u27s (MeHAF) Advancing Payment Reform Initiative
In 2001, the Institute of Medicine (IOM) identified patient centeredness as one of six essential aims of “a new health care system for the 21st century”.1 Since that time, we have begun a gradual shift from a professionally driven system toward one that is more “patient centered” or “consumer centered,” recognizing and incorporating patients’ perspectives in decisions in clinical care, delivery system, and policies. As the health care system responds to new payment approaches and positions itself to achieve the Triple Aim (i.e. better care, lower cost, enhanced patient experience), it is important to assess how organizations that are moving to advance health care service delivery and payment reform are integrating patient engagement into the health system transformation process.
Since 2011, the Maine Health Access Foundation’s Advancing Payment Reform initiative has funded 13 health system transformation projects. Diverse in their approach, each has undertaken efforts to achieve greater patient engagement ranging from involving patients and families as informed and active participants in their own health care (e.g. shared decision making, self-management) to involving patients at the organizational or policy-level through consumer advisory boards and other means to provide guidance for health system transformation.
This brief summarizes the experience of these grantees in developing and implementing strategies to engage patients in payment reform and delivery system redesign.2 The purpose is to identify common themes and lessons within and across these initiatives to inform future patient engagement efforts
The Role of Organizational Change in Health System and Payment Reform
The Maine Health Access Foundation (MeHAF) has awarded grants to 14 Maine health organizations to date to mitigate the increasing cost of health care in Maine through innovative delivery system and payment reform strategies that preserve access, improve quality, and offer better value. As part of the evaluation of this initiative, the University of Southern Maine Muskie School of Public Service (Muskie School) is producing a series of issue briefs that capture common themes and challenges across grantees in achieving payment reform and health system delivery change to assess lessons learned. This is the first issue brief which describes our evaluation approach and presents an analysis of the role of organizational change among grantees engaged in delivery system and payment reform
Health Data and Financing and Delivery System Reform: Is the Glass Half Full or Half Empty?
In 2011, the Maine Health Access Foundation (MeHAF) launched its Advancing Payment Reform initiative to stimulate innovative payment and delivery system reform strategies in Maine. This policy paper reports on the health data experience of the 14 program grantees, using interviews conducted in 2013-14 and other information garnered from the evaluation of the initiative. The paper focuses on the role and impact of health data in supporting implementation and monitoring of specific components of the projects’ reform strategies; the data infrastructure challenges the projects have faced and how those have been addressed; and the generalizable lessons learned so far for improving data usefulness, access, analysis, and integration to support payment and delivery system reform.
Support for this policy paper was provided by the Maine Health Access Foundation
Sea ice detection using concurrent multispectral and synthetic aperture radar imagery
Synthetic Aperture Radar (SAR) imagery is the primary data type used for sea
ice mapping due to its spatio-temporal coverage and the ability to detect sea
ice independent of cloud and lighting conditions. Automatic sea ice detection
using SAR imagery remains problematic due to the presence of ambiguous signal
and noise within the image. Conversely, ice and water are easily
distinguishable using multispectral imagery (MSI), but in the polar regions the
ocean's surface is often occluded by cloud or the sun may not appear above the
horizon for many months. To address some of these limitations, this paper
proposes a new tool trained using concurrent multispectral Visible and SAR
imagery for sea Ice Detection (ViSual\_IceD). ViSual\_IceD is a convolution
neural network (CNN) that builds on the classic U-Net architecture by
containing two parallel encoder stages, enabling the fusion and concatenation
of MSI and SAR imagery containing different spatial resolutions. The
performance of ViSual\_IceD is compared with U-Net models trained using
concatenated MSI and SAR imagery as well as models trained exclusively on MSI
or SAR imagery. ViSual\_IceD outperforms the other networks, with a F1 score
1.60\% points higher than the next best network, and results indicate that
ViSual\_IceD is selective in the image type it uses during image segmentation.
Outputs from ViSual\_IceD are compared to sea ice concentration products
derived from the AMSR2 Passive Microwave (PMW) sensor. Results highlight how
ViSual\_IceD is a useful tool to use in conjunction with PMW data, particularly
in coastal regions. As the spatial-temporal coverage of MSI and SAR imagery
continues to increase, ViSual\_IceD provides a new opportunity for robust,
accurate sea ice coverage detection in polar regions.Comment: 34 pages, 10 figures, 2 table
Highly multiplexed immune profiling throughout adulthood reveals kinetics of lymphocyte infiltration in the aging mouse prostate
Aging is a significant risk factor for cancer in several tissues, including the prostate. Defining the kinetics of age-related changes in these tissues is critical for identifying regulators of aging and evaluating interventions to slow the aging process and reduce disease risk. An altered microenvironment is characteristic of prostatic aging in mice. Whether features of aging in the prostate emerge predominantly in old age or earlier in adulthood has not previously been established. Using comprehensive immune profiling and time-course analysis, we show that populations of T and B lymphocytes increase in the mouse prostate between 6 and 12 months of age. When comparing the prostate to other urogenital tissues, we found similar features of age-related inflammation in the mouse bladder. In summary, our study offers new insight into the kinetics of prostatic inflammaging and the window when interventions to slow down age-related changes may be most effective
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