The Needle is Moving in CA K-8 Science: Integration with ELA, Integration of the Sciences, and Returning Science as a K-8 Core Subject

This first EII evaluation publication discusses one of the major shifts above, namely the shift to integrated instruction. The integration of science and ELA is the focus of one section, and the integration of the science disciplines (i.e., earth/space, life, and physical) inherent in the MS Integrated Model is the focus of the second. Also discussed at length in this publication is a fundamental shift that is not listed above, but is equally, if not more, important: the need to teach science in the first place. In order for any of the targeted shifts to take place, teachers must devote time to teaching science on a regular basis

Economic cost of smoking in people with mental disorders in the UK

Background Smoking is the largest preventable cause of death in the UK and imposes a huge economic burden on society. Both the prevalence and extent of smoking are significantly higher among people with mental disorders than among the general population. Aims To estimate the economic costs of the health effects of cigarette smoking among people with mental disorders in the UK from a societal perspective. Methods This study uses the WHO's economics of tobacco toolkit to assess the costs of the health effects of cigarette smoking among people with mental disorders in 2009/10 in the UK. Based on the cost of illness approach, direct healthcare costs, indirect morbidity costs and indirect mortality costs due to smoking-related diseases were calculated to estimate the avoidable economic burden of smoking in people with mental disorders. Results The estimated economic cost of smoking in people with mental disorders was £2.34 billion in 2009/10 in the UK, of which, about £719 million (31% of the total cost) was spent on treating diseases caused by smoking. Productivity losses due to smoking-related diseases were about £823 million (35%) for work-related absenteeism and £797 million (34%) was associated with premature mortality. Conclusions Smoking in people with mental disorders in the UK imposes significant economic costs. The development and implementation of smoking cessation interventions in this group should therefore be a high economic and clinical priority

The Synergy of Science and English Language Arts: Means and Mutual Benefits of Integration

The California K-8 NGSS Early Implementers Initiative (known in short as the Early Implementers Initiative) is equipping teachers to richly integrate science and English language arts (ELA). In fact, the Common Core State Standards (CCSS) as well as the Next Generation Science Standards (NGSS) clearly call for such integration.The nature of the NGSS and their recommended instructional approaches readily enable powerful ELA learning for all students. In a dramatic departure from science instruction that emphasizes scientific information and facts, NGSS science has students working as scientists to make sense of phenomena in the natural world. The NGSS approach requires a lot of lively discussion, critical reading, and thoughtful writing and drawing. Initiative teachers have clearly demonstrated that integrated science instruction is accessible to English learners and that these learners get strong ELA benefits from science instruction.While the Initiative equips teachers to integrate science and ELA, it does not call for all science instruction to be a concerted blending of science and ELA. Indeed, teachers reported that half of their science instructional time was stand-alone science.As a member of the State Board of Education commented during an advisory board meeting for the Initiative's evaluation: "Everyone is saying you should integrate science and ELA, but what does that actually look like in the classroom?" This report -- intended for state and district leaders, including principals -- addresses that question and several others highlighted below. To get answers, the evaluation team observed all key professional development sessions and 20 classroom lessons, surveyed over 500 teachers, interviewed Initiative leaders, and more

Nano-scale behavior of irradiated nano-structured alloys

Future fast neutron fusion and fission nuclear systems will be subjected to levels of radiation damage from fast neutrons which is significantly higher than the current generation of nuclear power stations. This will require innovative materials solutions to allow long term mechanical stability of reactors. One proposed class of materials are nanostructured alloys where the large number of interfaces allow for recombination defects and reduce the degree of radiation hardening seen. However their response under irradiation has not thoroughly been studied. In this work, two irradiated nanostructured alloys have been studied W-5%Re in both a nanostructured and annealed variant and a novel Hf-Ti-Ta-V-Zr high entropy alloy. I will outline the benefits nanostructured materials offer under irradiation and some of the problems and challenges in measuring their mechanical properties after irradiation and relating this to the nano-structure using XRD, TEM, HR-EBSD and atom probe tomography. Rolled tungsten 5 wt% rhenium sheet was studied in two microstructural variants: (a) as received with a high dislocation density (mean value of 1.4×1014lines/m2), measured using HR-EBSD, and pancake shaped grains with a thickness of≈200nm and (b) annealed at 1400oC for 24 hours to produce equiaxed grains with average grain size of ≈90 µm and low dislocation density (with a mean value of 4.8×1013 lines/m2). Both materials were ion implanted with 2MeV W+ ions at 300oC to damage levels from 0.07, to 33 displacements per atom (dpa). Nanoindentation was used to measure the change in hardness after implantations. Irradiation induced hardening saturated in the as-received material at an increase of 0.4dpa from the unimplanted hardness of 8GPa at 0.4dpa. In the annealed material saturation does not occur by 13dpa and the hardness change of 1.3GPa from the unimplanted hardness of 6.2GPa was over four times higher. At 33dpa both material types showed a further increase in hardening. In these samples Atom probe tomography showed clustering of Re in ≈4nm precipitates with a rhenium concentration of ≈11%. In both cases the number density and volume fraction are similar at ≈3100 x1000/µm3 and volume fraction of ≈13%. These differences in radiation response are likely to be due to the high damage sink density in the as-received microstructure in the form of dislocation networks, as even in the as-received material the average grain size is too large to provide sufficient sinks. Initially this provides a large sink network for radiation damage resulting in less hardening in the rolled material. However at 33dpa the formation of rhenium clusters occurs at similar levels in both material conditions. These dominate the hardening mechanisms and result in secondary hardening at high damage levels. The difficulties in extracting hardness values from 200nm deep ion implanted layers will be discussed, with reference to minimizing the influence of the substrate material and how changes in pile up effects in irradiated materials can change mechanical responses, and proposed methods to minimize these. High entropy alloys have been proposed as potential nuclear materials as high configurational entropy may provide resistance to radiation damage. We have produced a novel high entropy alloy (Hf-Ti-Ta-V-Zr) in which is single phase on casting but two high entropy phases (one bcc and one hcp) are produced during heat treatment. This material then has a nano-lamella structure with an average lamella thickness of 200nm. Samples of the as cast single phase material, the dual phase high entropy alloy and single crystal vanadium were ion irradiated with V+ ions at 300oC to a dose of 5e14 ions/cm2. In the vanadium control samples the hardness as measured using CSM-nanoindentation was seen to increase from 2GPa in the unimplanted condition to 3.5GPa in the ion irradiated condition. The high entropy alloy in both the as cast and heat treated condition showed no increase in hardness after irradiation, demonstrating the intrinsic resistance to radiation damage of HEA’s. These studies show the ability of nanostructured alloys to have improved irradiation hardening resistance over conventional alloys. However challenges still remain in the production of large scale engineering components in such materials

Intrinsic high aerobic capacity protects against lipid induced hepatic insulin resistance [abstract]

Hepatic steatosis is commonly linked to hepatic insulin resistance. However, recent studies have found that increased hepatic triacylglycerol (TAG) accumulation is not always associated with impaired hepatic insulin signaling, leading to a hypothesis that partitioning of lipids into TAG in the liver matched with high rates of fatty acid oxidation (FAO) under high lipid exposure conditions may protect against hepatic insulin resistance. We examined this hypothesis in the livers of high and low capacity running (HCR/LCR) rats which were created by artificial selection based on differences in intrinsic aerobic capacity

Evaluation of a novel intervention providing insight into the tobacco industry to prevent the uptake of smoking in school-aged children: a mixed-methods study

Objectives: Evidence from the US Truth® campaign suggests that interventions focusing on tobacco industry practices and ethics may be effective in preventing youth smoking uptake. We developed, piloted and evaluated a school-based intervention based on this premise. Methods: Exploratory study Students in Years 7–8 (aged 11–13) in two UK schools received Operation Smoke Storm, comprising three 50-minute classroom-based sessions in Year 7, an accompanying family booklet and a 1-hour classroom-based booster session in Year 8. We compared the risk and odds of ever smoking and susceptibility to smoking in Year 8 students in study schools post-intervention compared with students in control schools. Focus groups and interviews with students, teachers and parents evaluated the acceptability of the intervention. Results: In intervention schools the combined prevalence of ever smoking and susceptibility increased from 18.2% in Year 7 to 33.8% in Year 8. There was no significant difference in the odds of a Year 8 student in an intervention school being an ever smoker or susceptible never smoker compared with controls [adjusted OR 1.28, 95%CI 0.83-1.97, p=0.263] and no significant difference in the odds of ever smoking (aOR 0.82, 95%CI 0.42-1.58, p=0.549). Teachers highlighted differences by academic ability in how well the messages presented were understood. Use of the family component was low but was received positively by parents who engaged with it. Conclusions: Operation Smoke Storm is an acceptable resource for delivering smoking-prevention education but it does not appear to have reduced smoking and susceptibility

Translational Approach to Examine the Importance of Aerobic Fitness on Nonalcoholic Fatty Liver Disease [abstract]

Comparative Medicine - OneHealth and Comparative Medicine Poster Session.Low cardiorespiratory fitness, independent of physical activity levels, is the best predictor of early mortality and is linked to type 2 diabetes and CVD. In the absence of exercise training, it is believed that genetic inheritance accounts for up to 70% of the variation in intrinsic aerobic fitness. Recent cross-sectional reports in humans also have linked low aerobic fitness with nonalcoholic fatty liver disease (NAFLD). NAFLD, fatty liver not due to alcohol consumption, encompasses a gamut of liver maladaptations and is a primary cause of chronic liver disease and liver-related morbidity and mortality. NAFLD occurs in ~30% of US adults, 75-100% of obese and extremely obese individuals, and is considered the hepatic component of the metabolic syndrome. Despite the recent observations in humans between low fitness and NAFLD, there is a paucity of mechanistic information detailing this link. In order to address this important clinical problem, we have developed an interdisciplinary team across multiple institutions and fields of study and have taken a translational approach, employing both novel whole animal model studies and isolated primary hepatocyte cell culture experiments, to gain mechanistic insight into the human observational studies. We have utilized a novel rat model in which rats are artificially selected over several generations for high and low intrinsic endurance capacity, resulting in high capacity runners (HCR) with high aerobic fitness and low capacity runners (LCR) with significantly lower aerobic fitness (Science, 307:418-20, 2005). These rats display contrasting phenotypes without the influence of exercise training, making them an excellent model to mechanistically assess the role of aerobic fitness on NAFLD. Utilizing this model, we have provided the first mechanistic evidence that the LCR rats have reduced hepatic mitochondrial content and oxidative capacity, increased hepatic de novo lipogenic profiles, and develop hepatic steatosis with progression to greater fibrosis and apoptosis compared to the HCR rats. The LCR rats also are unable to maintain systemic insulin sensitivity following exposure to high-fat feeding. However, since it is impossible to completely eliminate the influence of peripheral factors on liver metabolism, we have subsequently isolated primary hepatocytes from HCR and LCR rats. We have observed a similar phenotype in the primary hepatocytes from LCR animals, with significant reductions in fatty acid oxidation and the inability to maintain insulin signaling in response to lipid exposure compared with HCR hepatocytes. These findings have important clinical implications, as low aerobic fitness due to physical inactivity and/or genetic inheritability may lead to increased susceptibility to NAFLD, and suggest that the clinical measurement of aerobic fitness may serve as a valuable prognostic tool. We are currently conducting a human clinical trial to assess the efficacy of exercise in improving aerobic fitness and reducing NAFLD, and because exercise is the proven method to increase aerobic fitness, it should remain the cornerstone therapy for fatty liver disease

Yorkshire Enhanced Stop Smoking study (YESS): a protocol for a randomised controlled trial to evaluate the effect of adding a personalised smoking cessation intervention to a lung cancer screening programme

Introduction:Integration of smoking cessation (SC) into lung cancer screening (LCS) is essential to optimise clinical and cost effectiveness. The most effective way to use this “teachable moment” is unclear. The Yorkshire Enhanced Stop Smoking study (YESS) will measure the effectiveness of a SC service integrated within the Yorkshire Lung Screening Trial (YLST) and will test the efficacy of a personalised SC intervention, incorporating incidental findings detected on the low-dose computed tomography scan performed as part of YLST.Methods and analysis: Unless explicitly declined, all smokers enrolled in YLST will see a Smoking Cessation Practitioner (SCP) at baseline and receive smoking cessation support over 4-weeks comprising behavioural support, pharmacotherapy and/or a commercially available e-cigarette. Eligible smokers will be randomised (1:1 in permuted blocks of random size up to size 6) to receive either an enhanced, personalised smoking cessation support package, including CT scan images, or continued SBP. Anticipated recruitment is 1040 smokers (January 2019 – December 2020). The primary objective is to measure 7-day point prevalent carbon monoxide (CO) validated smoking cessation after 3-months. Secondary outcomes include CO validated cessation at 4-weeks and 12-months, self-reported continuous cessation at 4-weeks, 3-month and 12-months, attempts to quit smoking and changes in psychological variables, including perceived risk of lung cancer, motivation to quit smoking tobacco, confidence and efficacy beliefs (self and response) at all follow up points. A process evaluation will explore under which circumstances and on which groups the intervention works best, test intervention fidelity and theory test the mechanisms of intervention impact.Ethics and dissemination: This study has been approved by the East Midlands-Derby Research Ethics Committee (18/EM/0199) and the Health Research Authority/Health and Care Research Wales. Results will be disseminated through publication in peer-reviewed scientific journals, presentation at conferences and via the YLST website. Trial registration number: ISRCTN63825779; NIH ClinicalTrials.gov NCT0375011

Predicting the factors influencing the inter- and intra-specific survival rates of riverine fishes implanted with acoustic transmitters.

Biotelemetry is a central tool for fisheries management, with the implantation of transmitters into animals requiring refined surgical techniques that maximise retention rates and fish welfare. Even following successful surgery, long-term post-release survival rates can vary considerably, although knowledge is limited for many species. The aim here was to investigate the post-tagging survival rates in the wild of two lowland river fish species, common bream Abramis brama and northern pike Esox lucius, following their intra-peritoneal double-tagging with acoustic transmitters and passive integrated transponder (PIT) tags. Survival over a two-year period was assessed using acoustic transmitter data in Cox proportional hazards models. Post-tagging survival rates were lowest in the reproductive periods of both species, but in bream, fish tagged just prior to spawning actually had the highest subsequent survival rates. Pike survival was influenced by sex, with males generally surviving longer than females. PIT tag detections at fixed stations identified bream that remained active, despite loss of an acoustic transmitter signal. In these instances, loss of the acoustic signal occurred up to 215 days post-tagging and only during late spring or summer, indicating a role of elevated temperature, while PIT detections occurred between 18 and 359 days after the final acoustic detections. Biotelemetry studies must thus always consider the date of tagging as a fundamental component of study designs in order to avoid tagged fish having premature end points within telemetry studies