Qualitative Study on At-Risk Hispanic Adolescents engaged in Social Emotional Learning and Mindfulness Practices

The following study highlights the importance of Social Emotional Learning (SEL) and provides a descriptive overview of the Collaborative for Academic Social and Emotional Learning (CASEL) organization competencies at both the national and state level. Qualitative data was collected during a study conducted on at-risk Hispanic high school students who engaged in a mindfulness yoga program. Adolescents voluntarily participated in 12 weeks of mindfulness yoga (24 classes) and provided post essay responses to questions associated with the five core competencies of SEL: self-awareness, self-management, social awareness, relationship skills, and responsible decision making. Evidence aligned with SEL competencies after 24 mindfulness yoga sessions through implicit yoga instruction (absence of explicit direct instruction) were coded and reported accordingly. Overall, findings indicate consistencies with previous research on mindfulness yoga programs in the schools of the impactful benefits of healthy behaviors and mental wellness for adolescents at risk. Documented conclusions from this study showcase an increased positive impact on SEL categories of self-awareness, self-management, and decision making

Radiologic contrast-Induced transmetallation In mineral rich fruits: X-ray imaging to Understand Heat Cycling during Climate Change and Map Metal Redistribution in Biological media for Biomedical Applications

Heat cycling due to climate change can affect hydrated protein or carbohydrate functions, the latter is not well studied. The project started with involving the study of heat-stressed carbohydrate behavior when bulk water was partly stripped from carbohydrates in model microwaved fruits and vegetables, like apples and sweet potatoes (that are mineral-rich) and was set in mineral exchange competition with toxic metals like Gadolinium and chelating complexes like iodinated EDTA. These are common radiologic contrast medias that strongly absorb x-rays and are currently implicated in man-made environmental toxins. Our goal was to map diffusion of injected heavy atoms as well as that of native minerals as a possible result of a metal exchange or “transmetallation”. This is a new concept for metal ion-induced toxicity and our work perhaps is the first imaging demonstration of transmetallation in live biological media. The second phase involved detection of transmetallation in one fruit model, fresh apples, but expressed in four different apple varieties common in North America consisting of different PH and mineral balances. These fruits were treated with contrast media and radiographed under mammography equipment with low kV x rays. This was another way to explore transmetallation induced by toxic heavy atoms from the medical industry for carbohydrate systems with different amounts of iron, magnesium, potassium in their biochemical pools. Low kV x-rays are sensitive to small mineral differences in model biological media and may provide insight to in vivo applications as in various tumors with different pH differences or in infection with metal-dependent bacterial growth. Differential x-ray absorption maps due to radiologic contrast-induced transmetallation could reveal different grades for tumors and help guide treatment plans. Low dual kV CT systems are available today and our work may help develop new tumor grading and infection management using metal chelation to starve metal-dependent bacteria

Developing Ionic Nanomaterials for Biomedical Applications: Surface Chemistry and Morphologic Imaging

Microscopic properties of various radiologic contrast materials are studied for weak to strong surface interactions in model fruits. These interactions are imaged under various ionic environments as present in multiple, common fruit systems. Low and high X-ray energies may show different imaging noise reflective of scattered radiation from iron, manganese, and other metal ions in fruits. This will be compared with MRI image noise on similar systems obtainable from collaborating MRI research students (see Bleidis Buitrago et al, in this poster session)

Imaging of Transmetallation and Chelation Phenomena Involving Radiological Contrast Agents in Mineral-Rich Fruits

Exogenous heavy metals or non-metallic waste products, for example lanthanide or iodinated contrast media for radiological procedures, may interfere with the biochemical pools in patients and in common food sources, creating an excess buildup of exogenous compounds which may reach toxic levels. Although the mechanisms are unknown, our experiments were designed to test if this toxicity can be attributed to “transmetallation” or “chelation” reactions freeing up lanthanides or chelated transition metals in acidic fruits used as phantoms representing the biologically active and mineral-rich carbohydrate matrix. The rapid breakdown of stable contrast agents have been reported at a lower pH. The interaction of such agents with native metals was examined by direct imaging of contrast infused fresh apples and sweet potatoes using low energy X-rays (40–44 kVp) and by magnetic resonance imaging at 1.5 and 3T. The stability of the exogenous agents seemed to depend on endogenous counterions and biometals in these fruits. Proton spin echo MR intensity is sensitive to paramagnetic minerals and low energy X-ray photons are sensitively absorbed by photoelectric effects in all abundant minerals and were compared before and after the infusion of radiologic contrasts. Endogenous iron and manganese are believed to accumulate due to interactions with exogenous iodine and gadolinium in and around the infusion spots. X-ray imaging had lower sensitivity (detection limit approximately 1 part in 104), while MRI sensitivity was two orders of magnitude higher (approximately 1 part in 106), but only for paramagnetic minerals like Mn and Fe in our samples. MRI evidence of such a release of metal ions from the native pool implicates transmetallation and chelation reactions that were triggered by infused contrast agents. Since Fe and Mn play significant roles in the function of metalloenzymes, our results suggest that transmetallation and chelation could be a plausible mechanism for contrast induced toxicity in vivo

Moderate to severe gambling problems and traumatic brain injury: A population-based study

Traumatic brain injury (TBI) is a common injury characterized by a change in brain function after an external blow to the head and is associated with substance abuse, psychological distress, risk-taking, and impulsivity. Convenience and clinical samples have also linked TBI to problem gambling, but have not ruled out confounding variables such as hazardous drinking and psychological distress. This study examines the relationship between TBI and moderate to severe problem gambling in a general population probability sample controlling for hazardous drinking and psychological distress. The data were obtained from a 2015–2016 cross-sectional general population telephone survey of adults ages 18+from Ontario, Canada (N = 3809). Logistic regression was used to estimate the association as adjusted odds ratios (AOR). Moderate to severe problem gambling was independently associated with a history of TBI after adjusting for potential confounders (AOR: 2.80), and had a statistically significant relationship with psychological distress (AOR = 2.74), hazardous drinking (AOR = 2.69), and lower educational levels (AOR = 0.37). This study provides further data to suggest a link between TBI and moderate to severe problem gambling; however, more research is needed to determine if there is a causal relationship or the potential implications for prevention and treatment

Moderate to severe gambling problems and traumatic brain injury: A population-based study

Traumatic brain injury (TBI) is a common injury characterized by a change in brain function after an external blow to the head and is associated with substance abuse, psychological distress, risk-taking, and impulsivity. Convenience and clinical samples have also linked TBI to problem gambling, but have not ruled out confounding variables such as hazardous drinking and psychological distress. This study examines the relationship between TBI and moderate to severe problem gambling in a general population probability sample controlling for hazardous drinking and psychological distress. The data were obtained from a 2015–2016 cross-sectional general population telephone survey of adults ages 18+from Ontario, Canada (N = 3809). Logistic regression was used to estimate the association as adjusted odds ratios (AOR). Moderate to severe problem gambling was independently associated with a history of TBI after adjusting for potential confounders (AOR: 2.80), and had a statistically significant relationship with psychological distress (AOR = 2.74), hazardous drinking (AOR = 2.69), and lower educational levels (AOR = 0.37). This study provides further data to suggest a link between TBI and moderate to severe problem gambling; however, more research is needed to determine if there is a causal relationship or the potential implications for prevention and treatment

Population gene introgression and high genome plasticity for the zoonotic pathogen Streptococcus agalactiae

The influence that bacterial adaptation (or niche partitioning) within species has on gene spillover and transmission among bacteria populations occupying different niches is not well understood. Streptococcus agalactiae is an important bacterial pathogen that has a taxonomically diverse host range making it an excellent model system to study these processes. Here we analyze a global set of 901 genome sequences from nine diverse host species to advance our understanding of these processes. Bayesian clustering analysis delineated twelve major populations that closely aligned with niches. Comparative genomics revealed extensive gene gain/loss among populations and a large pan-genome of 9,527 genes, which remained open and was strongly partitioned among niches. As a result, the biochemical characteristics of eleven populations were highly distinctive (significantly enriched). Positive selection was detected and biochemical characteristics of the dispensable genes under selection were enriched in ten populations. Despite the strong gene partitioning, phylogenomics detected gene spillover. In particular, tetracycline resistance (which likely evolved in the human-associated population) from humans to bovine, canines, seals, and fish, demonstrating how a gene selected in one host can ultimately be transmitted into another, and biased transmission from humans to bovines was confirmed with a Bayesian migration analysis. Our findings show high bacterial genome plasticity acting in balance with selection pressure from distinct functional requirements of niches that is associated with an extensive and highly partitioned dispensable genome, likely facilitating continued and expansive adaptation

Sheridan School of Architectural Technology Volume 2 [S2017]

Welcome to Sheridan’s School of Architectural Technician/Technology printed portfolio volume 2. A combination of student work as well as faculty research has once again been been amalgamated into a print and digital portfolio showing the academic excellence of our program. Student work in the book is largely from the course CADD 39788 Architectural Computer Visualisation with a few projects from other courses making guest appearances. Our faculty research section near the back of the book offers insights into the professional interests and engagements of Sheridan professors.https://source.sheridancollege.ca/fast_books/1002/thumbnail.jp