FDA Regulation of Food Labeling

As one strolls down a grocery aisle, shift through the maze of cosmetic counters, or sits in front of the television, one is transported into various fantasies, identities, and scenarios. The power of advertisements and package designs to influence the consumers has grown tremendously over the years. Food and cosmetic manufacturers, cognizant of this power, have invested an enormous amount of their resources into the both advertising and packaging – so much so that a fissure has formed between the “image†and the “actuality†of the product. Manufacturers prey on the consumers becoming more impulsive and vulnerable, and the amplification of the product’s “image†has helped this cause. No agency or body of law is curtailing this growth and use of the power except the Food and Drug Administration. Through its stringent labeling regulations throughout this century, the FDA has limited how far the manufacturers can go with their package designs. By imposing its numerous requirements, the FDA has provided the consumers with an “awareness,†and room to dilute the appeal of the “image.†In this sense, the FDA is going far beyond the realm of its traditional role: a “policeman†who “serves the public interest†by “ensur[ing] that food is safe, pure, and wholesome…[and that] cosmetics are safe….†The FDA, like, the postmodern artist Barbara Kruger, is serving a significant cultural and political role. Please note that to keep this essay at a manageable length, I will discuss only foods and cosmetics to illustrate my theses

The ciliary GTPase Arl13b regulates cell migration and cell cycle progression

Acknowledgments We acknowledge Prof. Tamara Caspary from Emory University for kindly providing the cell lines, Linda Duncan from the University of Aberdeen Ian Fraser Cytometry Center for help with flow cytometry. MP was funded by the Scottish Universities Life Science Alliance (SULSA) and the University of Aberdeen. Funding This work was supported by grants from British Council China (Sino-UK higher Education for PhD studies) to YD and CM, The Carnegie Trust for the Universities of Scotland (70190) and The NHS Grampian Endowment Funds (14/09) to BL, and National Natural Science Foundation of China (31528011) to BL and YD.Peer reviewedPostprin

Vertically Resolved Analysis of the Madden-Julian Oscillation Highlights the Role of Convective Transport of Moist Static Energy

We simulate the Madden-Julian oscillation (MJO) over an aquaplanet with uniform surface temperature using the multiscale modeling framework (MMF) configuration of the Energy Exascale Earth System Model (E3SM-MMF). The model produces MJO-like features that have a similar spatial structure and propagation behavior to the observed MJO. To explore the processes involved in the propagation and maintenance of these MJO-like features, we perform a vertically resolved moist static energy (MSE) analysis for the MJO (Yao et al., 2022, https://doi.org/10.1175/jas-d-20-0254.1). Unlike the column-integrated MSE analysis, our method emphasizes the local production of MSE variance and quantifies how individual physical processes amplify and propagate the MJO's characteristic vertical structure. We find that radiation, convection, and boundary layer (BL) processes all contribute to maintaining the MJO, balanced by the large-scale MSE transport. Furthermore, large-scale dynamics, convection, and BL processes all contribute to the propagation of the MJO, while radiation slows the propagation. Additionally, we perform mechanism-denial experiments to examine the role of radiation and associated feedbacks in simulating the MJO. We find that the MJO can still self-emerge and maintain its characteristic structures without radiative feedbacks. This study highlights the role of convective MSE transport in the MJO dynamics, which was overlooked in the column-integrated MSE analysis

Hot Spine Loops and the Nature of a Late-Phase Solar Flare

The fan-spine magnetic topology is believed to be responsible for many curious features in solar explosive events. A spine field line links distinct flux domains, but direct observation of such feature has been rare. Here we report a unique event observed by the Solar Dynamic Observatory where a set of hot coronal loops (over 10 MK) connected to a quasi-circular chromospheric ribbon at one end and a remote brightening at the other. Magnetic field extrapolation suggests these loops are partly tracer of the evolving spine field line. Continuous slipping- and null-point-type reconnections were likely at work, energizing the loop plasma and transferring magnetic flux within and across the fan quasi-separatrix layer. We argue that the initial reconnection is of the "breakout" type, which then transitioned to a more violent flare reconnection with an eruption from the fan dome. Significant magnetic field changes are expected and indeed ensued. This event also features an extreme-ultraviolet (EUV) late phase, i.e. a delayed secondary emission peak in warm EUV lines (about 2-7 MK). We show that this peak comes from the cooling of large post-reconnection loops beside and above the compact fan, a direct product of eruption in such topological settings. The long cooling time of the large arcades contributes to the long delay; additional heating may also be required. Our result demonstrates the critical nature of cross-scale magnetic coupling - topological change in a sub-system may lead to explosions on a much larger scale.Comment: Accepted for publication in ApJ. Animations linked from pd

Melanocortin 1 receptor targeted imaging of melanoma with gold nanocages and positron emission tomography

Purpose: Melanoma is a lethal skin cancer with unmet clinical needs for targeted imaging and therapy. Nanoscale materials conjugated with targeting components have shown great potential to improve tumor delivery efficiency while minimizing undesirable side effects in vivo. Herein, we proposed to develop targeted nanoparticles for melanoma theranostics. Method: In this work, gold nanocages (AuNCs) were conjugated with α-melanocyte-stimulating hormone (α-MSH) peptide and radiolabeled with 64Cu for melanocortin 1 receptor-(MC1R) targeted positron emission tomography (PET) in a mouse B16/F10 melanoma model. Results: Their controlled synthesis and surface chemistry enabled well-defined structure and radiolabeling efficiency. In vivo pharmacokinetic evaluation demonstrated comparable organ distribution between the targeted and nontargeted AuNCs. However, micro-PET/computed tomography (CT) imaging demonstrated specific and improved tumor accumulation via MC1R-mediated delivery. By increasing the coverage density of α-MSH peptide on AuNCs, the tumor delivery efficiency was improved. Conclusion: The controlled synthesis, sensitive PET imaging, and optimal tumor targeting suggested the potential of targeted AuNCs for melanoma theranostics. </jats:sec

Eco-Centre|Eko Centar - Bosnia and Herzegovina 2013 summer global internship

The Eco Center of Blagaj was inaugerated in 2007 with the aim of contributing to nature conservation and increasing environmental awareness. It is a project under the non-profit organization Novi Val. Nine years after it was established, the youth club Novi Val started the project entitled Eco development in rural areas of Bosnia nad Herzegovina and Serbia. Within this project, Novi Val is carrying out activities through several programs: protection of the white vultures, development of cattle farming, protection of the indigenous Tornjak dog species, protection of the Velez Pramenka sheep, preservation of biodiversity, protection of cultural and historical monuments of Blagaj, as well as educational and ecotourism programs

Arts-Based Assessments and Projective Tests: An Interpretation of Self

This research seeks to understand the relationship between arts-based assessments and perception of self through exploration of participants’ interpretations of their own animal drawings. Subjects’ experiences with projective tests, personality assessments and tools, and art assessments were also examined for contextual understanding and comparison. To conduct this mixed methods pilot study, a survey was administered to alumni of the Loyola Marymount University Marital and Family Therapy Department. The findings suggest evidence of self- projection within arts-based assessment interpretation by way of metaphor, and highlight the potential for interpretation bias in therapeutic assessment, both in administration and perception. This pilot study has provided foundational information for future research, and suggests the following to be considered for continued exploration: styles of interpretation, framework of questions, usefulness of assessments, consistency of assessment interpretation, and how demographics plays a role in each of these elements

Carbon dioxide removal via weathering of sugarcane mill ash under different soil conditions

Sugarcane mill ash has been suggested as having high potential for carbon dioxide removal (CDR) via enhanced weathering (EW), but this had not been quantitatively assessed. The aims of this study were to 1) assess the CDR potential of various sugarcane mill ashes via EW, and 2) investigate the impact of soil conditions and mill ash properties on the CDR. This was done by characterising physical and chemical properties of five mill ashes from Australia and simulating weathering using a one-dimensional reactive transport model. The model was parameterised to simulate weathering of 100 t/ha of wet ash (47–65% water) or crushed basalt for 15 years under various combinations of soil pH and carbon dioxide partial pressure (pCO2). A sensitivity analysis was undertaken in a two-level factorial design to test the effect of pH, pH buffering, material surface area, infiltration rate, plant uptake of nutrients, organic matter cation exchange surfaces, and pCO2 on modelled CDR. The simulated CDR of the mill ashes was significantly less than the basalt (p 0.05). Weathering of mill ash removed 0.0–4.0 t CO2/ha (0.00–0.040 t CO2/t wet ash) cumulatively, similar to some basalts and olivine modelled in the literature. The theoretical maximum CDR of the mill ashes (based on amount of weatherable material applied) was achieved in around 5 years. The estimate of CDR varied by orders of magnitude depending on conditions. It was least when initial soil solution pH was lowest (4.5, unbuffered), pH was at 6.5 or less with constant buffering, and pCO2 was low (600 ppm). CDR was also significantly lower when calculated directly from accumulation of carbon in dissolved and solid phases rather than stoichiometrically from cation release. The effects of pH and pH buffering quantified here may explain low measured CDR from EW in field trials on acidic soils and highlight the need for more realistic modelling of pH buffering capacity. Overall, mill ash shows high potential for CDR via EW, especially if lifecycle benefits are considered, although this must be validated in the field