696 research outputs found
Relationship of Alexithymia Ratings to Dopamine D2-type Receptors in Anterior Cingulate and Insula of Healthy Control Subjects but Not Methamphetamine-Dependent Individuals.
BackgroundIndividuals with substance-use disorders exhibit emotional problems, including deficits in emotion recognition and processing, and this class of disorders also has been linked to deficits in dopaminergic markers in the brain. Because associations between these phenomena have not been explored, we compared a group of recently abstinent methamphetamine-dependent individuals (n=23) with a healthy-control group (n=17) on dopamine D2-type receptor availability, measured using positron emission tomography with [(18)F]fallypride.MethodsThe anterior cingulate and anterior insular cortices were selected as the brain regions of interest, because they receive dopaminergic innervation and are thought to be involved in emotion awareness and processing. The Toronto Alexithymia Scale, which includes items that assess difficulty in identifying and describing feelings as well as externally oriented thinking, was administered, and the scores were tested for association with D2-type receptor availability.ResultsRelative to controls, methamphetamine-dependent individuals showed higher alexithymia scores, reporting difficulty in identifying feelings. The groups did not differ in D2-type receptor availability in the anterior cingulate or anterior insular cortices, but a significant interaction between group and D2-type receptor availability in both regions, on self-report score, reflected significant positive correlations in the control group (higher receptor availability linked to higher alexithymia) but nonsignificant, negative correlations (lower receptor availability linked to higher alexithymia) in methamphetamine-dependent subjects.ConclusionsThe results suggest that neurotransmission through D2-type receptors in the anterior cingulate and anterior insular cortices influences capacity of emotion processing in healthy people but that this association is absent in individuals with methamphetamine dependence
Iterative Segmentation from Limited Training Data: Applications to Congenital Heart Disease
We propose a new iterative segmentation model which can be accurately learned
from a small dataset. A common approach is to train a model to directly segment
an image, requiring a large collection of manually annotated images to capture
the anatomical variability in a cohort. In contrast, we develop a segmentation
model that recursively evolves a segmentation in several steps, and implement
it as a recurrent neural network. We learn model parameters by optimizing the
interme- diate steps of the evolution in addition to the final segmentation. To
this end, we train our segmentation propagation model by presenting incom-
plete and/or inaccurate input segmentations paired with a recommended next
step. Our work aims to alleviate challenges in segmenting heart structures from
cardiac MRI for patients with congenital heart disease (CHD), which encompasses
a range of morphological deformations and topological changes. We demonstrate
the advantages of this approach on a dataset of 20 images from CHD patients,
learning a model that accurately segments individual heart chambers and great
vessels. Com- pared to direct segmentation, the iterative method yields more
accurate segmentation for patients with the most severe CHD malformations.Comment: Presented at the Deep Learning in Medical Image Analysis Workshop,
MICCAI 201
Mass measurements during lymphocytic leukemia cell polyploidization decouple cell cycle- and cell size-dependent growth
Cell size is believed to influence cell growth and metabolism.
Consistently, several studies have revealed that large cells have
lower mass accumulation rates per unit mass (i.e., growth efficiency) than intermediate-sized cells in the same population. Sizedependent growth is commonly attributed to transport limitations, such as increased diffusion timescales and decreased
surface-to-volume ratio. However, separating cell size- and cell
cycle-dependent growth is challenging. To address this, we monitored growth efficiency of pseudodiploid mouse lymphocytic leukemia cells during normal proliferation and polyploidization. This
was enabled by the development of large-channel suspended
microchannel resonators that allow us to monitor buoyant mass
of single cells ranging from 40 pg (small pseudodiploid cell) to over
4,000 pg, with a resolution ranging from ∼1% to ∼0.05%. We find
that cell growth efficiency increases, plateaus, and then decreases
as cell cycle proceeds. This growth behavior repeats with every
endomitotic cycle as cells grow into polyploidy. Overall, growth
efficiency changes 33% throughout the cell cycle. In contrast, increasing cell mass by over 100-fold during polyploidization did not
change growth efficiency, indicating exponential growth. Consistently, growth efficiency remained constant when cell cycle was
arrested in G2. Thus, cell cycle is a primary determinant of growth
efficiency. As growth remains exponential over large size scales,
our work finds no evidence for transport limitations that would
decrease growth efficiency
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Present and future nitrogen deposition to national parks in the United States: critical load exceedances
National parks in the United States are protected areas wherein the natural habitat is to be conserved for future generations. Deposition of anthropogenic nitrogen (N) transported from areas of human activity (fuel combustion, agriculture) may affect these natural habitats if it exceeds an ecosystem-dependent critical load (CL). We quantify and interpret the deposition to Class I US national parks for present-day and future (2050) conditions using the GEOS-Chem global chemical transport model with 1/2° × 2/3° horizontal resolution over North America. We estimate CL values in the range 2.5–5 kg N ha−1 yr−1 for the different parks to protect the most sensitive ecosystem receptors. For present-day conditions, we find 24 out of 45 parks to be in CL exceedance and 14 more to be marginally so. Many of these are in remote areas of the West. Most (40–85%) of the deposition originates from NOx emissions (fuel combustion). We project future changes in N deposition using representative concentration pathway (RCP) anthropogenic emission scenarios for 2050. These feature 52–73% declines in US NOx emissions relative to present but 19–50% increases in US ammonia (NH3) emissions. Nitrogen deposition at US national parks then becomes dominated by domestic NH3 emissions. While deposition decreases in the East relative to present, there is little progress in the West and increases in some regions. We find that 17–25 US national parks will have CL exceedances in 2050 based on the RCP8.5 and RCP2.6 scenarios. Even in total absence of anthropogenic NOx emissions, 14–18 parks would still have a CL exceedance. Returning all parks to N deposition below CL by 2050 would require at least a 50% decrease in US anthropogenic NH3 emissions relative to RCP-projected 2050 levels.Engineering and Applied Science
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Atmospheric Peroxyacetyl Nitrate (PAN): A Global Budget and Source Attribution
Peroxyacetyl nitrate (PAN) formed in the atmospheric oxidation of non-methane volatile organic compounds (NMVOCs) is the principal tropospheric reservoir for nitrogen oxide radicals . PAN enables the transport and release of to the remote troposphere with major implications for the global distributions of ozone and OH, the main tropospheric oxidants. Simulation of PAN is a challenge for global models because of the dependence of PAN on vertical transport as well as complex and uncertain NMVOC sources and chemistry. Here we use an improved representation of NMVOCs in a global 3-D chemical transport model (GEOS-Chem) and show that it can simulate PAN observations from aircraft campaigns worldwide. The immediate carbonyl precursors for PAN formation include acetaldehyde (44% of the global source), methylglyoxal (30%), acetone (7%), and a suite of other isoprene and terpene oxidation products (19%). A diversity of NMVOC emissions is responsible for PAN formation globally including isoprene (37%) and alkanes (14%). Anthropogenic sources are dominant in the extratropical Northern Hemisphere outside the growing season. Open fires appear to play little role except at high northern latitudes in spring, although results are very sensitive to plume chemistry and plume rise. Lightning is the dominant contributor to the observed PAN maximum in the free troposphere over the South Atlantic.Engineering and Applied Science
Kondo engineering : from single Kondo impurity to the Kondo lattice
In the first step, experiments on a single cerium or ytterbium Kondo impurity
reveal the importance of the Kondo temperature by comparison to other type of
couplings like the hyperfine interaction, the crystal field and the intersite
coupling. The extension to a lattice is discussed. Emphasis is given on the
fact that the occupation number of the trivalent configuration may be the
implicit key variable even for the Kondo lattice. Three phase
diagrams are discussed: CeRuSi, CeRhIn and SmS
Gut γδ T cells as guardians, disruptors and instigators of cancer
Colorectal cancer is the third most common cancer worldwide with nearly 2 million cases per year. Immune cells and inflammation are a critical component of colorectal cancer progression, and they are used as reliable prognostic indicators of patient outcome. With the growing appreciation for immunology in colorectal cancer, interest is growing on the role γδ T cells have to play, as they represent one of the most prominent immune cell populations in gut tissue. This group of cells consists of both resident populations—γδ intraepithelial lymphocytes (γδ IELs)—and transient populations that each has unique functions. The homeostatic role of these γδ T cell subsets is to maintain barrier integrity and prevent microorganisms from breaching the mucosal layer, which is accomplished through crosstalk with enterocytes and other immune cells. Recent years have seen a surge in discoveries regarding the regulation of γδ IELs in the intestine and the colon with particular new insights into the butyrophilin family. In this review, we discuss the development, specialities, and functions of γδ T cell subsets during cancer progression. We discuss how these cells may be used to predict patient outcome, as well as how to exploit their behavior for cancer immunotherapy
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Long-Term Corrosion Testing of Thermal Spray Coatings of Amorphous Metals: Fe49.7Cr17.7Mn1.9Mo7.4W1.6B15.2C3.8Si2.4 and Fe48Mo14Cr15Y2C15B6
Amorphous alloys identified as SAM2X5 (Fe{sub 49.7}Cr{sub 17.7}Mn{sub 1.9}Mo{sub 7.4}W{sub 1.6}B{sub 15.2}C{sub 3.8}Si{sub 2.4}) and SAM1651 (Fe{sub 48}Mo{sub 14}Cr{sub 15}Y{sub 2}C{sub 15}B{sub 6}) have been produced as melt-spun ribbons, drop-cast ingots and thermal-spray coatings. Chromium (Cr), molybdenum (Mo) and tungsten (W) additions provided corrosion resistance, while boron (B) enabled glass formation. Earlier electrochemical studies of melt-spun ribbons and ingots of these amorphous alloys demonstrated outstanding passive film stability. More recently thermal-spray coatings of these amorphous alloys have been made and subjected to long-term salt-fog and immersion tests. Good corrosion resistance has been observed during salt-fog testing. Corrosion rates were measured in situ with linear polarization, while simultaneously monitoring the open-circuit corrosion potentials. Reasonably good performance was observed. The sensitivity of these measurements to electrolyte composition and temperature was determined. The high boron content of SAM2X5 also made it an effective neutron absorber, and suitable for criticality control applications
Cross-Modality Multi-Atlas Segmentation Using Deep Neural Networks
Both image registration and label fusion in the multi-atlas segmentation
(MAS) rely on the intensity similarity between target and atlas images.
However, such similarity can be problematic when target and atlas images are
acquired using different imaging protocols. High-level structure information
can provide reliable similarity measurement for cross-modality images when
cooperating with deep neural networks (DNNs). This work presents a new MAS
framework for cross-modality images, where both image registration and label
fusion are achieved by DNNs. For image registration, we propose a consistent
registration network, which can jointly estimate forward and backward dense
displacement fields (DDFs). Additionally, an invertible constraint is employed
in the network to reduce the correspondence ambiguity of the estimated DDFs.
For label fusion, we adapt a few-shot learning network to measure the
similarity of atlas and target patches. Moreover, the network can be seamlessly
integrated into the patch-based label fusion. The proposed framework is
evaluated on the MM-WHS dataset of MICCAI 2017. Results show that the framework
is effective in both cross-modality registration and segmentation
Mayor frecuencia de aberraciones cromosómicas en linfocitos expuestos o no a mitomicina C, de mujeres posmenopáusicas obesas en comparación con mujeres no obesas del departamento del Cauca, Colombia
Introduction. Epidemiological studies indicate that obesity is associated with an increased risk of 20-25% with several types of cancer.Objective. The frequency of chromosome aberrations was evaluated in lymphocytes frompostmenopausal obese and non-obese women.Materials and methods. Twenty obese and 20 non-obese women, all post-menopause, were recruited.The groups were matched according to age (± 5 years) and place of origin. After signing the consentform, women were interviewed using a structured questionnaire, and a blood sample (5 ml) was drawninto vacutainer tubes. From each sample, lymphocyte cell cultures were established with and without mitomycin C (challenge assay). Afterwards, the frequency of chromosome aberrations were recordedfor each group and treatment. Data were analyzed using the statistical program SPSS, v. 14.0.Results. Obese women had a higher frequency of chromosome aberrations when compared with nonobesewomen. After exposing the cell cultures to mitomycin C, obese women presented an increasein the number of total chromosome aberrations in comparison to non-obese women (3.7± 0.6 vs.2.70±0.6; p=0.001).Conclusions. The higher frequency of chromosome aberrations in lymphocytes from postmenopausalobese women compared to non-obese women suggested differences in the DNA repair capacity. Thismay indicate an association between genomic instability and the higher incidence of cancer in thispopulation.Introducción. Los estudios epidemiológicos indican que la obesidad está asociada en el 25 al 30 %con varios tipos de cáncer.Objetivo. Evaluar la frecuencia de aberraciones cromosómicas en linfocitos de mujeresposmenopáusicas obesas y no obesas, mediante la prueba de reto celular (challenge assay) comobiomarcador de inestabilidad genómica.Materiales y métodos. Cuarenta mujeres posmenopáusicas fueron incluidas en el estudio (20 obesasy 20 no obesas). Los grupos fueron pareados según edad (± 5 años) y procedencia. Después de la firmavoluntaria del consentimiento informado, las mujeres fueron entrevistadas y se les tomó una muestra de5 ml de sangre periférica. Se establecieron cultivos de linfocitos con tratamiento con mitomicina C y sinél (prueba de reto celular) y, posteriormente, se registró la frecuencia de aberraciones cromosómicaspara cada grupo y tratamiento.Resultados. En general, las mujeres obesas presentaron una mayor frecuencia de aberracionescromosómicas en comparación con las no obesas. Después de exponer los cultivos celularesa mitomicina C, las mujeres obesas presentaron un incremento en el número de aberracionescromosómicas totales en comparación con las no obesas (3,74±0,63 Vs. 2,70±0,61; p=0,001).Conclusiones. La mayor frecuencia de aberraciones cromosómicas en los linfocitos de mujeresposmenopáusicas obesas que en no obesas, sugiere diferencias en la capacidad de reparación delADN, lo cual podrÃa explicar la asociación entre la inestabilidad genómica y la mayor incidencia decáncer en esta población. doi: http://dx.doi.org/10.7705/biomedica.v32i3.412
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