Conjugation of an oligonucleotide to Tat, a cell penetrating peptide, via click chemistry

Uptake of diagnostic and therapeutic oligonucleotides that specifically target disease can be enhanced by attachment of a cell penetrating peptide. Here we describe the covalent attachment of an oligonucleotide to Tat, a biologically important cell-penetrating peptide, via click chemistry

The State of Digital Media Data Research, 2024

The purpose of this report is to reflect on the state of digital media data research in 2024. This is the second in a series of reports on the state of digital media research, which we originally published in 2023. We reflect on changes to digital media research since our report in 2023. Specifically, we highlight the following trends: 1. From 2023 to 2024, access to digital media data changed drastically. Researchers were largely priced out of the Twitter API, and Pushshift–a commonly used archive for Reddit data–went private to comply with Reddit’s API policies. Meta also announced the imminent sunsetting of CrowdTangle, a transparency tool popular amongst researchers and journalists alike. At the same time, however, many platforms announced academic programs for data access, including the YouTube researcher program, TikTok’s Research API, and the Meta Content Library. 2. Federated social media platforms became more popular. Following Elon Musk’s purchase of Twitter, Twitter users flocked to Mastodon, Threads, BlueSky, and other federated (or soon to be federated) platforms. This presents unique challenges for researchers studying digital media data. As new platforms are created, researchers must build new tools to analyze them or wait for third parties or the platforms themselves to make data available. 3. Generative AI’s explosion may change how we study digital media. First, researchers using computational methods to measure social media content have turned to OpenAI’s ChatGPT and other Large Language Models (LLMs) to classify content. Second, researchers and civil society groups are increasingly concerned about the possibility for Generative AI to flood the information environment with fake content. 4. In February 2024, the EU Digital Services Act (DSA) went into effect, mandating that large platforms give researchers near real-time access to public data. We don’t yet know how these policies will impact data access in the United States, and it remains unclear what this data access will look like in practice. In the United States, legislative efforts to mandate researcher access stalled. While the last year brought many welcome and unwelcome changes to digital media data research, the findings in this report renew our encouragement that digital media data research should be guided by collaboration, transparency, preparation, and consistency.Journalism and Medi

Teaching with Digital 3D Models of Minerals and Rocks

The disruption to geoscience curricula due to the COVID-19 pandemic highlights the difficulty of making mineral and rock samples accessible to students online rather than through traditional lab classes. In spring 2020, our community had to adapt rapidly to remote instruction; this transition amplified existing disparities in access to geoscience education but can be a catalyst to increase accessibility and flexibility in instruction permanently. Fortunately, a rich collection of 3D mineral and rock samples is being generated by a community of digital modelers (e.g., Perkins et al., 2019)

The Fold Illusion: The Origins and Implications of Ogives on Silicic Lavas

Folds on the surfaces of mafic lavas are among the most readily recognized geological structures and are used as first-order criteria for identifying ancient lavas on Earth and other planetary bodies. However, the presence of surface-folds on the surface of silicic lavas is contested in this study and we challenge the widely accepted interpretation that silicic lava surfaces contain folds using examples from the western United States and Sardinia, Italy. We interpret the ridges and troughs on their upper surfaces, typically referred to as ‘ogives’ or ‘pressure ridges’, as fracture-bound structures rather than folds. We report on the absence of large-scale, buckle-style folds and note instead the ubiquitous presence of multiple generations and scales of tensile fractures comparable to crevasses in glaciers and formed in ways similar to already recognized crease structures. We report viscosity data and results of stress analyses that preclude folding (ductile deformation in compression) of the upper surface of silicic lavas at timescales of emplacement (weeks to months). Therefore, analysis of fold geometry (wavelength, amplitude, etc.) is erroneous, and instead the signal produced reflects the strength and thickness of the brittle upper surface stretching over a ductile interior. The presence of ogives on the surfaces of lavas on other planetary bodies may help to elucidate their rheological properties and crustal thicknesses, but relating to their tensile strength, not viscosity

Efficacy of Mentalization-Based Group Therapy for adolescents:A pilot randomised controlled trail

oai:ojs.pkp.sfu.ca:article/2647Background: Suicide is the leading cause of death in adolescents. Furthermore, up to one quarter of adolescents who self-harm will repeat self-harm within one year, highlighting the need for evidence-based prevention and treatment services. Mentalization Based Therapy (MBT) has yielded promising outcomes for individuals who self-harm, however to date only one study has examined MBT in adolescents, wherein the treatment protocol consisted of individual and family therapy. Currently, there has been no development or examination of MBT-A in a group format for adolescents. Methods/Design: The present study is a randomised controlled single blind feasibility trial that aims to (1) adapt the original explicit MBT introductory group manual for an adolescent population (MBT-Ai) and to (2) assess the feasibility of MBT-Ai through examination of consent rates, attendance, attrition and self-harm. Participants are adolescents presenting to Child and Adolescent Mental Health Services (CAMHS) with self-harming behaviors within the last 6 months. Young people will be randomised to a 12-week MBT-Ai group plus treatment as usual (TAU) or TAU alone. Participants will be assessed at baseline and at 12-, 24- and 36-weeks post-baseline. Discussion: This paper describes the development of a treatment manual and the protocol of a randomised controlled feasibility trial of MBT-Ai aimed at treating adolescents who self-harm. Further investigation of a full-scale trial will be necessary to instill benefits if pilot results suggest efficacy. Trial registration: NCT0277169

Clinical utility of vinblastine therapeutic drug monitoring for the treatment of infantile myofibroma patients:A case series

Infantile myofibroma is a rare, benign tumour of infancy typically managed surgically. In a minority of cases, more aggressive disease is seen and chemotherapy with vinblastine and methotrexate may be used, although evidence for this is limited. Chemotherapy dosing in infants is challenging, and vinblastine disposition in infants is unknown. We describe the use of vinblastine therapeutic drug monitoring in four cases of infantile myofibroma. Marked inter- and intrapatient variability was observed, highlighting the poorly understood pharmacokinetics of vinblastine in children, the challenges inherent in treating neonates, and the role of adaptive dosing in optimising drug exposure in challenging situations.</p

The Grizzly, February 16, 2006

Hoodoo Man Arthur Flowers Delivers Captivating Speech at Ursinus • USGA Holds First Meeting of Semester • Francophone Film Festival: Almost Peaceful • Georgetown Professor to Lecture at Ursinus • Getting to Know Your Glands • Spiritual Experiences in Paris • Meet the New Director of Facilities Services and Keep Current with Bomberger Renovations • Recycling Myths Revealed • Retraction on Parking Article • Broken Social Scene a Must Have for Indie Fans • Lone Senior Walks Off a Winnerhttps://digitalcommons.ursinus.edu/grizzlynews/1706/thumbnail.jp

Eccentric Viewing Training for Age-Related Macular Disease: Results of a Randomized Controlled Trial (the EFFECT Study)

PURPOSE: Eccentric viewing training for macular disease has been performed for > 40 years, but no large studies including control groups have assessed the benefits of this training. The EFFECT (Eccentric Fixation From Enhanced Clinical Training) study is a large randomized controlled trial of 2 types of eccentric viewing training. DESIGN: Randomized controlled trial. PARTICIPANTS: Two hundred adults with age-related macular disease. METHODS: Participants were randomized to either of the following: (1) a control group; (2) a group receiving supervised reading support; (3) a group receiving 3 sessions of training to optimize the use of their own preferred retinal locus; or (4) a group receiving 3 sessions of biofeedback training of a theoretically optimal trained retinal locus. All participants received standard low-vision rehabilitation. MAIN OUTCOME MEASURES: The primary outcome was patient-reported visual task ability measured on the Activity Inventory instrument at goal level. Secondary outcomes included reading performance and fixation stability. RESULTS: There was no difference between groups on change in task ability (F(3,174) = 1.48, P = 0.22) or on any of the secondary outcome measures. Visual acuity and contrast sensitivity fell in all groups, suggesting that disease progression outweighed any benefit of training. CONCLUSIONS: Eccentric viewing training did not systematically improve task ability, reading performance, or fixation stability in this study. Our results do not support the routine use of eccentric viewing training for people with progressing age-related macular disease, although this training may help people with end-stage disease. Rehabilitation of an inherently progressive condition is challenging. FINANCIAL DISCLOSURES: Proprietary or commercial disclosure may be found in the Footnotes and Disclosures at the end of this article

Galaxy And Mass Assembly (GAMA) : refining the local galaxy merger rate using morphological information

KRVS acknowledges the Science and Technology Facilities Council (STFC) for providing funding for this project, as well as the Government of Catalonia for a research travel grant (ref. 2010 BE-00268) to begin this project at the University of Nottingham. PN acknowledges the support of the Royal Society through the award of a University Research Fellowship and the European Research Council, through receipt of a Starting Grant (DEGAS-259586).We use the Galaxy And Mass Assembly (GAMA) survey to measure the local Universe mass-dependent merger fraction and merger rate using galaxy pairs and the CAS (concentration, asymmetry, and smoothness) structural method, which identifies highly asymmetric merger candidate galaxies. Our goals are to determine which types of mergers produce highly asymmetrical galaxies and to provide a new measurement of the local galaxy major merger rate. We examine galaxy pairs at stellar mass limits down to M* = 108 M⊙ with mass ratios of 4:1) the lower mass companion becomes highly asymmetric, whereas the larger galaxy is much less affected. The fraction of highly asymmetric paired galaxies which have a major merger companion is highest for the most massive galaxies and drops progressively with decreasing mass. We calculate that the mass-dependent major merger fraction is fairly constant at ∼1.3–2 per cent within 109.5 < M* < 1011.5 M⊙, and increases to ∼4 per cent at lower masses. When the observability time-scales are taken into consideration, the major merger rate is found to approximately triple over the mass range we consider. The total comoving volume major merger rate over the range 108.0 < M* < 1011.5 M⊙ is (1.2 ± 0.5) × 10−3 h370 Mpc−3 Gyr−1.Publisher PDFPeer reviewe