French research simplification policy through PIDs : research information openness as a consequence (proceedings)
Both the second French National Plan for Open Science and the Higher Education and Research Ministry data road map, published in 2021, explicitly mention the use of international persistent identifiers (PIDs), like ORCID and ROR, to strengthen the researchers digital identities and extend the reach of their work. Recently, the Ministry’s data road map played a role in designing a policy for administrative simplification that relies on better data circulation. This method relies on PIDs, which are the world’s unique way to connect researchers, research outputs, institutions, and grants. The policy has two major objectives: reduce administrative burden and track research engagement and impact. A plan to effectively adopt PIDs will be designed in 2024 by representatives from French research organisations, funders, assessors, national IT and IST specialists, and international PID providers like ORCID and DataCite. In parallel the Ministry has decided to support OpenAlex, the fully open bibliographic database. The adoption of PIDs in conjunction with the support to OpenAlex, shapes the third objective : research information openness, as the Barcelona Declaration states it. However, redirecting an organisation data curation efforts from closed proprietary databases to OpenAlex hinders the quality of the former, and the rankings they enable, potential causing reputational damage to the organisation. In summary : administrative burden reduction, research productions precise tracking and information openness can be enhanced by the same move if the link to the need for open information based institutions ranking is evidenced and publicised.
Journal of clinical lipidology
Saturated fats and cardiovascular health: Current evidence and controversies
Kevin C. Maki, Mary R. Dicklin, Carol F. Kirkpatrick
A diet high in saturated fatty acids (SFA) is a suspected contributor to atherosclerotic cardiovascular disease (ASCVD) risk, in large part because of an effect to raise the low-density lipoprotein cholesterol (LDL-C) concentration. Most dietary guidance from health authorities advocates limiting intake of SFA, particularly for people with clinical ASCVD, dyslipidemia, or diabetes mellitus. However, recent reviews have highlighted controversies regarding SFA intake and cardiovascular health. This brief editorial commentary includes a discussion of the evidence regarding SFA intake and cardiovascular health, outlines gaps in the available evidence, and proposes tentative conclusions based on what is known today about SFA consumption and ASCVD risk. Results from observational studies demonstrate that dietary patterns with lower average intakes of SFA are associated with favorable cardiovascular outcomes. Additionally, although the number of randomized controlled trials testing the effects of reducing SFA intake on ASCVD outcomes is limited, the available evidence supports the view that replacing SFA with unsaturated fatty acids, particularly polyunsaturated fatty acids, may reduce ASCVD risk. Beyond raising LDL-C and atherogenic lipoprotein particle concentrations, higher intakes of SFA may influence pathways affecting inflammation, cardiac rhythm, hemostasis, apolipoprotein CIII production, and high-density lipoprotein function. However, the impacts of these effects on ASCVD risk remain uncertain. In the authors' view, the totality of the evidence supports the current recommendation to limit SFA intake to
Zenodo
REFLOW Architecture and Manual for Distributed Network Setup and Maintenance
Mayel de Borniol
report
July 9, 2021
This deliverable provides an introduction and a manual to the REFLOW OS, a system designed to operate federated nodes constituting the REFLOW network backend infrastructure. It is targeted for adoption by the Free and Open Source communities at large
Mayel boosted

The http://openscience.network project is more than a #federated digital space. It's a network to collectively discover, produce and participate to the most relevant #openscience discussions on the fediverse and beyond.

In the public homepage, the editorial team pins posts for anyone to read - as an alternative to the most recent activities (often meaningless to the general audience )

Imagine every university, collective and lab owning their federated digital space and radically transforming their usual social networking presence in powerful ways:

- Curate and organize discussions in topics, moving beyond feeds and toward structured journals composed of federated discussions and links

- Discover and read papers directly from the scientist social profile


- Collaborate on new ideas in the open, instead of being siloed inside centralized platforms, publish papers from the fediverse

And this is only the beginning! Support us building the next infrastructure for open science!