2,444 research outputs found
Novel reinforcement in a token economy system
This is the publisher's version, also found at http://sped.org
Modifying the Attitudes of Nonhandicapped High School Students Toward Handicapped Peers
This is the publisher's version, also found at http://sped.org/ABSTRACT: Two curricuJar approaches for modifying nonhandicapped high school students'
attitudes toward their exceptional peers were compared. One curriculum was structured around
categories of exceptionality (e.g., mental retardation, sensory impairments] while the other
focused on generic concepts, including values, conformity, individual differences, and labeling
effects. Each curriculum was presented over a 10-week period and the effects assessed via two
pencil-paper attitude evaluation scales. Results revealed that both curricula positively modified
students' attitudes, with subjects exposed to the categorical curriculum demonstrating significantly
greater attitude changes. The data are interpreted relative to the issue of labeling and the
most effective means of positively modifying attitudes toward handicapped persons
A Survey: Services for Maladjusted School Children
There is strong evidence to support the contention that programs for meeting the needs of all behaviorally disordered and socially maladjusted school age children simply do not exist
Effect of an infant stimulation program on children
A planned stimulation program for infants with developmental problems utilizing individual program plans has greater beneficial effects than does traditional periodic follow-up care alone
The impact of latent CMV infection on NK-cell mobilization and expression of KLRG1 and CD57 in response to acute exercise.
Natural killer (NK) cells are cytotoxic effectors of the innate immune system that are able to distinguish healthy autologous cells from tumors and virally infected cells. NK-cells kill the targeted cells by releasing cytotoxic proteins, a process that is governed by inhibitory surface receptors, such as KLRG1. Additionally, activated NK-cells are able to proliferate in response to immunological stimuli, a process that is inhibited in NK-cells expressing the senescence marker CD57. Acute bouts of exercise are known to mobilize NK cells into the blood compartment, which could alter immunity; however, whether or not exercise alters NK-cell KLRG1 and CD57 expression has not been fully elucidated. Furthermore, as latent CMV infection is associated with an increased frequency of inhibitory NK cells, it is not known if CMV status influences NK-cell mobilization in response to acute exercise. PURPOSE: To examine the impact of latent CMV infection on the mobilization of NK-cells and their expression of KLRG1 and CD57 in response to acute exercise. METHODS: Otherwise healthy CMV seropositive (CMV+) and CMV seronegative (CMV-) males (age 23-35 years) completed a 30-min cycling protocol at 85% of maximum power. Lymphocytes isolated from whole blood before, immediately after, and one hour after exercise were surface-stained with monoclonal antibodies against CD3, CD56, KLRG1 and CD57 and analyzed by 4-color flow cytometry. RESULTS: Preliminary analysis of the data show a prodigious increase in the number of CD56 dim (mature, highly cytotoxic subset) NK-cells immediately after exercise in all subjects, which subsequently fell below pre-exercise values 1 hour later. In CMV- subjects, the proportion of CD56 bright (immature, mildly cytotoxic) NK cells was considerably higher 1 hour post-exercise than before exercise, but the number of cells changed very little suggesting that the increased proportion was due merely to the egress of CD56 dim NK cells. Interestingly, CMV seropositivity was associated with a near complete absence of CD56 bright NK cells that was unaffected by exercise. Neither exercise nor CMV status influenced the proportion of NK-cells expressing KLRG1 or CD57. CONCLUSION: Preliminary analysis of this data indicates that acute exercise preferentially mobilizes CD56 dim NK cells without altering KLRG1 and CD57 expression. Latent CMV infection is associated with a lowered proportion of CD56 bright NK-cells; however, the NK-cell response to exercise was not influenced by CMV status. Future work will examine the role of aging on NK-cell response to exercise and CMV status
Towards Optimal Patch Size in Vision Transformers for Tumor Segmentation
Detection of tumors in metastatic colorectal cancer (mCRC) plays an essential
role in the early diagnosis and treatment of liver cancer. Deep learning models
backboned by fully convolutional neural networks (FCNNs) have become the
dominant model for segmenting 3D computerized tomography (CT) scans. However,
since their convolution layers suffer from limited kernel size, they are not
able to capture long-range dependencies and global context. To tackle this
restriction, vision transformers have been introduced to solve FCNN's locality
of receptive fields. Although transformers can capture long-range features,
their segmentation performance decreases with various tumor sizes due to the
model sensitivity to the input patch size. While finding an optimal patch size
improves the performance of vision transformer-based models on segmentation
tasks, it is a time-consuming and challenging procedure. This paper proposes a
technique to select the vision transformer's optimal input multi-resolution
image patch size based on the average volume size of metastasis lesions. We
further validated our suggested framework using a transfer-learning technique,
demonstrating that the highest Dice similarity coefficient (DSC) performance
was obtained by pre-training on training data with a larger tumour volume using
the suggested ideal patch size and then training with a smaller one. We
experimentally evaluate this idea through pre-training our model on a
multi-resolution public dataset. Our model showed consistent and improved
results when applied to our private multi-resolution mCRC dataset with a
smaller average tumor volume. This study lays the groundwork for optimizing
semantic segmentation of small objects using vision transformers. The
implementation source code is available
at:https://github.com/Ramtin-Mojtahedi/OVTPS
The Impact of Latent Herpesvirus Infections on the Mobilization of Recent Thymic Emigrants and Extrathymic T-cells in Response to Acute Aerobic Exercise in Man
T-cells typically mature in the thymus gland, which eventually succumbs to age-related atrophy, resulting in a decreased naïve T-cell repertoire in middle to later years. Aged individuals and those with persistently reactivating herpesvirus infections have an increased reliance on the extrathymic maturation of T-cells due to the shrinking effects that age and latent viral infection has on the naïve T-cell repertoire. Acute bouts of aerobic exercise are known to mobilize T-cells that exhibit both a naïve and late-stage differentiation phenotype into the blood compartment; however, it is not known if recent thymic emigrants (RTE) or extrathymic T-cells contribute to the lymphocytosis associated with exercise. PURPOSE: To examine the impact of latent cytomegalovirus (CMV) and Epstein-Barr virus (EBV) infection on the mobilization of RTE and extrathymic T-cells in response to acute exercise. METHODS: Otherwise healthy CMV or EBV seropositive (CMV+ or EBV+) and CMV or EBV seronegative (CMV- or EBV-) males (age 23-35y) completed a 30-min cycling protocol at 85% of maximum power. Lymphocytes isolated from whole blood before, immediately after, and one hour after exercise were surface stained with monoclonal antibodies to identify phenotypes of RTE (CD103+/CD62L-) and extrathymic T-cells believed to mature in the liver (CD3+/CD25-/CD122+) and the epithelium of the small intestine (CD3+/CD4-/CD8-; TCRγδ+/ CD8αα+; CD3-/CD2+/CD7+). Cell populations were analyzed by flow cytometry and antibodies against CMV and EBV were determined in serum by ELISA. RESULTS: Preliminary analyses show that the proportion of RTE among the total CD3+/CD4+ or CD3+/CD8+ T-cell subsets did not change immediately after exercise, but was elevated above baseline 1h later due to the preferential egress of late stage differentiated T-cells. Neither CMV nor EBV status influenced the proportions of RTE in blood in response to exercise. T-cells mainly found in intestinal mucosa (i.e. CD3+/CD4-/CD8- and CD3-/CD2+/CD7+) were found to increase in blood immediately after exercise; an effect that appeared to be more pronounced in EBV but not CMV-infected subjects. CONCLUSION: An acute bout of aerobic exercise elicits the mobilization of T-cells exhibiting phenotype characteristics of extrathymically matured T-cells, suggesting that extrathymic T-cell mobilization contributes to the lymphocytosis associated with acute exercise. This effect appears to be amplified in subjects carrying a latent EBV but not CMV infection. Future research should attempt to establish the impact of long-term exercise and latent herpesvirus infections on the frequency of RTE and extrathymic T-cells in the aged, as this could have significant implications for age-associated immune dysfunction
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