122 research outputs found
The Evolving Role of Youth Workers
In reviewing the field of youth development, of which youth workers are a part, it is clear it has had a long and complex history that is intertwined with other disciplines. More recently youth workers have experienced a transformation of sorts, with youth programs in the past being seen exclusively as a place to play and have fun, whereas today’s expectations include a much broader focus on the overall positive development of young people. This evolution has been heavily influenced by a number of societal changes that have placed increasing demands on youth programs. Today’s youth workers are faced with the responsibility to promote a young person’s development which often includes supporting academic success and graduation from high school, reducing risk-taking behaviors, increasing positive health attitudes, and more. Youth workers have seen their role change dramatically over the past 20 years with greater demands and increased accountability
The Evolving Role of Youth Workers
In reviewing the field of youth development, of which youth workers are a part, it is clear it has had a long and complex history that is intertwined with other disciplines. More recently youth workers have experienced a transformation of sorts, with youth programs in the past being seen exclusively as a place to play and have fun, whereas today’s expectations include a much broader focus on the overall positive development of young people. This evolution has been heavily influenced by a number of societal changes that have placed increasing demands on youth programs. Today’s youth workers are faced with the responsibility to promote a young person’s development which often includes supporting academic success and graduation from high school, reducing risk-taking behaviors, increasing positive health attitudes, and more. Youth workers have seen their role change dramatically over the past 20 years with greater demands and increased accountability
Engaging Youth in Evaluation: Using Clickers for Data Collection
Now, more than ever, evaluation is an essential component for all programs. Although the need for outcome data is clear, collecting data from youth populations is often difficult, particularly among youth who are vulnerable and/or disenfranchised. While the use of paper-and-pencil (PAP) surveys is a commonly used method of data collection, different technological methods, such as online surveys, text messaging, and personal digital assistants (PDA’s), are increasingly employed in data collection efforts. This article explores the use of audience response systems (“clickers”) as an innovative data collection method that is especially suited for use with youth. In this paper we examine qualitative findings from key informant interviews regarding data collected from youth participants on a youth program quality measure using clicker technology. Findings from the study indicate that the use of clickers may increase youth engagement in and improve the efficiency of the data collection process
The Evolving Role of Youth Workers
In reviewing the field of youth development, of which youth workers are a part, it is clear it has had a long and complex history that is intertwined with other disciplines. More recently youth workers have experienced a transformation of sorts, with youth programs in the past being seen exclusively as a place to play and have fun, whereas today’s expectations include a much broader focus on the overall positive development of young people. This evolution has been heavily influenced by a number of societal changes that have placed increasing demands on youth programs. Today’s youth workers are faced with the responsibility to promote a young person’s development which often includes supporting academic success and graduation from high school, reducing risk-taking behaviors, increasing positive health attitudes, and more. Youth workers have seen their role change dramatically over the past 20 years with greater demands and increased accountability
Learning from Demonstration and Safe Cobotics Using Digital Twins
The use of collaborative robots, or cobots, is nowadays continually increasing, especially in the small- and medium-sized manufacturing sector. For each particular use case, the integration and deployment of a cobot into a collaborative workspace faces a certain number of challenges. Programming industrial robots, for example, can be a relatively complex and time-consuming task. In this paper we report an accurate method to robot programming by using an optimized “learning from demonstration” technique. The operator/programmer performs in real-time the corresponding task to be automatized, and by means of a tracker sensor the programmer’s motions are captured and transmitted to the robot; the robot registers the trajectories and is now able to reproduce the human movements with high accuracy. Another fundamental issue for cobot deployment is safety. In this paper, we also present a virtual/augmented reality (VR/AR) environment to facilitate the design and operation of cobots in order to maximize human safety. The virtual reality environment operates as an aide tool during the design phase. The human operator and the robot’s digital twin work side-by-side while executing a collaborative task in a virtual reality space. Their movements are controlled and registered, and after a given period of test time, the data is analyzed to suggest modifications to ensure a safe workspace (collision free) and to increase productivity. For the regular real-time cobot operation, an augmented reality environment was developed, again, with the purpose of assuring a safe human-robot collaboration. The augmented reality environment keeps tracking permanently the cobot and the human manipulations. This system produces audio and visual alarm signals in unsafe situations and is also able to take actions, such as slowing down or stopping the robot, to preserve the physical integrity of the human operator
Pd@TiO2/carbon nanohorn electrocatalysts: reversible CO2 hydrogenation to formic acid
Direct conversion of carbon dioxide to formic acid at thermodynamic equilibrium is an advantage of enzymatic catalysis, hardly replicated by synthetic analogs, but of high priority for carbon-neutral energy schemes. The bio-mimetic potential of totally inorganic Pd@TiO2 nanoparticles is envisioned herein in combination with Single Walled Carbon NanoHorns (SWCNHs). The high surface nano-carbon entanglement templates a wide distribution of \u201chard-soft\u201d bimetallic sites where the small Pd nanoparticles (1.5 nm) are shielded within the TiO2 phase (Pd@TiO2), while being electrically wired to the electrode by the nanocarbon support. This hybrid electrocatalyst activates CO2 reduction to formic acid at near zero overpotential in the aqueous phase (onset potential at E < 120.05 V vs. RHE, pH = 7.4), while being able to evolve hydrogen via sequential formic acid dehydrogenation. The net result hints at a unique CO2 \u201ccircular catalysis\u201d where formic acid versus H2 selectivity is addressable by flow-reactor technology
Engaging Youth in Evaluation: Using Clickers for Data Collection
Now, more than ever, evaluation is an essential component for all programs. Although the need for outcome data is clear, collecting data from youth populations is often difficult, particularly among youth who are vulnerable and/or disenfranchised. While the use of paper-and-pencil (PAP) surveys is a commonly used method of data collection, different technological methods, such as online surveys, text messaging, and personal digital assistants (PDA’s), are increasingly employed in data collection efforts. This article explores the use of audience response systems (“clickers”) as an innovative data collection method that is especially suited for use with youth. In this paper we examine qualitative findings from key informant interviews regarding data collected from youth participants on a youth program quality measure using clicker technology. Findings from the study indicate that the use of clickers may increase youth engagement in and improve the efficiency of the data collection process
Patients presenting with miliaria while wearing flame resistant clothing in high ambient temperatures: a case series
<p>Abstract</p> <p>Introduction</p> <p>Clothing can be a cause of occupational dermatitis. Frequent causes of clothing-related dermatological problems can be the fabric itself and/or chemical additives used in the laundering process, friction from certain fabrics excessively rubbing the skin, or heat retention from perspiration-soaked clothing in hot working environments. To the best of our knowledge, these are the first reported cases of miliaria rubra associated with prolonged use of flame resistant clothing in the medical literature.</p> <p>Case presentation</p> <p>We report 18 cases (14 men and 4 women, with an age range of 19 to 37 years) of moderate to severe skin irritation associated with wearing flame resistant clothing in hot arid environments (temperature range: 39 to 50°C, 5% to 25% relative humidity). We describe the medical history in detail of a 23-year-old Caucasian woman and a 31-year-old African-American man. A summary of the other 16 patients is also provided.</p> <p>Conclusions</p> <p>These cases illustrate the potential serious nature of miliaria with superimposed <it>Staphylococcus </it>infections. All 18 patients fully recovered with topical skin treatment and modifications to their dress ensemble. Clothing, in particular blend fabrics, must be thoroughly laundered to adequately remove detergent residue. While in hot environments, individuals with sensitive skin should take the necessary precautions such as regular changing of clothing and good personal hygiene to ensure that their skin remains as dry and clean as possible. It is also important that they report to their health care provider as soon as skin irritation or rash appears to initiate any necessary medical procedures. Miliaria rubra can take a week or longer to clear, so removal of exposure to certain fabric types may be necessary.</p
Sca-1+ cardiac fibroblasts promote development of heart failure
The causative effect of GM-CSF produced by cardiac fibroblasts to development of heart failure has not been shown. We identified the pathological GM-CSF-producing cardiac fibroblast subset and the specific deletion of IL-17A signaling to these cells attenuated cardiac inflammation and heart failure. We describe here the CD45−CD31−CD29+mEFSK4+PDGFRα+Sca-1+periostin+ (Sca-1+) cardiac fibroblast subset as the main GM-CSF producer in both experimental autoimmune myocarditis and myocardial infarction mouse models. Specific ablation of IL-17A signaling to Sca-1+periostin+ cardiac fibroblasts (PostnCreIl17rafl/fl) protected mice from post-infarct heart failure and death. Moreover, PostnCreIl17rafl/fl mice had significantly fewer GM-CSF-producing Sca-1+ cardiac fibrob-lasts and inflammatory Ly6Chi monocytes in the heart. Sca-1+ cardiac fibroblasts were not only potent GM-CSF producers, but also exhibited plasticity and switched their cytokine production profiles depending on local microenvironments. Moreover, we also found GMCSF-positive cardiac fibroblasts in cardiac biopsy samples from heart failure patients of myocarditis or ischemic origin. Thus, this is the first identification of a pathological GMCSF-producing cardiac fibroblast subset in human and mice hearts with myocarditis and ischemic cardiomyopathy. Sca-1+ cardiac fibroblasts direct the type of immune cells infiltrating the heart during cardiac inflammation and drive the development of heart failure
Convenient genotyping of nine bovine K-casein variants
K-casein gene polymorphisms are of major importance in the dairy
industry due to their association with different quality and productive
traits (i.e., milk protein). Several methods for genotyping this gene
have been proposed; however, none are focused on the simultaneous
discrimination of nine K-casein variants. A strategy based on PCR-RFLP
was designed to characterize nine K-casein variants (A, B, C, E, F2, G,
H, I and J) and used to genotype three cattle populations: Gyrholando
(3/8 Gyr x 5/8 Holstein), Charolais and Carora. The B variant was the
most frequent in the Charolais and Carora breeds, with allelic
frequencies of 0.60 and 0.59, respectively. In the Gyrholando breed,
four variants were found, with the A variant being the most frequent
and E and H the least. The genotyping strategy was effective in
detection and differentiation of K-casein variants, and it is proposed
for use in laboratories with minimal molecular biology equipment for
genotyping and evaluation of the phenotypic effects of nine K-casein
variants on milk production and quality
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