a rough game

 In 2011, Gates told CNN: “The benefits [of vaccines] are there in terms of reducing sickness, reducing population growth.”  In a 2010 TED Talk he said “If we do a really great job on new vaccines, health care, reproductive health services, we could lower [population] by perhaps ten or fifteen percent.”
http://dean-w-arnold.com/articles-blogs/bill-gates-gathers-billionaires

But the globalists/Babylon/WEF transhumanism game has spread in many places, governments, universities, think tanks,. The following shows examples:

 

Interfacing Graphene-Based Materials With Neural Cells
    •    Bramini, Mattia ;
    •    Alberini, Giulio ;
    •    Colombo, Elisabetta ;
    •    Chiacchiaretta, Martina ;
    •    DiFrancesco, Mattia Lorenzo ;
    •    Maya-Vetencourt, José Fernando ;
    •    Maragliano, Luca ;
    •    Benfenati, Fabio ;
    •    Cesca, Fabrizia
Abstract
The scientific community has witnessed an exponential increase in the applications of graphene and graphene-based materials in a wide range of fields.  For what concerns neuroscience, the interest raised by these materials is two-fold. On one side, nanosheets made of graphene or graphene derivatives (graphene oxide, or its reduced form) can be used as carriers for drug delivery. Here, an important aspect is to evaluate their toxicity, which strongly depends on flake composition, chemical functionalization and dimensions.  On the other side, graphene can be exploited as a substrate for tissue engineering.  In this case, conductivity is probably the most relevant amongst the various properties of the different graphene materials, as it may allow to instruct and interrogate neural networks, as well as to drive neural growth and differentiation.  In this review we try to give a comprehensive view of the accomplishments and new challenges of the field, as well as which in our view are the most exciting directions to take in the immediate future.  These include the need to engineer multifunctional nanoparticles able to cross the blood-brain-barrier to reach neural cells, and to achieve on-demand delivery of specific drugs.  We describe the state-of-the-art in the use of graphene materials to engineer three-dimensional scaffolds to drive neuronal growth and regeneration in vivo, and the possibility of using graphene as a component of hybrid composites/multi-layer organic electronics devices.  Last but not least, we address the need of an accurate theoretical modeling of the interface between graphene and biological material, by modeling the interaction of graphene with proteins and cell membranes at the nanoscale, and describing the physical mechanism(s) of charge transfer by which the various graphene materials can influence the excitability and physiology of neural cells.  https://ui.adsabs.harvard.edu/abs/2019arXiv190308440B/abstract
……………………..............................            Graphene oxide induces dose‑dependent lung injury in rats
https://www.spandidos-publications.com › etm.2021.9893    by L Zhang · 2021 · Cited by 3 — The biological effects of graphene oxide (GO) have been extensively ... Graphene penetrates the blood-air, blood-brain and blood-placenta
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LPG EXHAUSTS breaching the BLOOD BRAIN BARRIER, POLL
https://captajitvadakayil.in › 2021/07/16 › vadakayil-on...
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Jul 16, 2021 — VADAKAYIL on REDUCED MAGNETISED GRAPHENE OXIDE and CARBON NANO TUBULES of LNG/ LPG EXHAUSTS breaching the BLOOD BRAIN BARRIER
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 In 2006 it was renamed again as Wuhan Institute of Technology (Chinese: 武汉工程大学) by the Ministry of Education.
Organization and administration
WIT has 15 schools:[1]
    •    School of Chemical Engineering and Pharmacy
    •    School of Mechanical & Electrical Engineering
    •    School of Material Science and engineering
    •    School of Environment and Civil Engineering
    •    School of Electrical and Electronic Engineering
    •    School of Economic management
    •    School of Law & Business
    •    School of computer science and engineering
    •    School of Science
    •    School of Foreign Languages
    •    School of Arts
    •    School of Adult Education
    •    International School
    •    Department of P.E.
    •    School of Telecommunication & Information Engineering
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Partners The PhD programme in Neurobiology involves several partners primarely located in Trieste and in Italy.  Our scientific projects are based on an extenive network of collaborations with international institutes in Europe, USA, China, Japan and Saudi Arabia.

www.topuniversities.com › universities › universityMasters Courses Offered by University of Trieste | Top ...
STUDENTS & STAFF. University of Trieste is one of the top Public universities in Trieste, Italy.  It is ranked #701-750 in QS Global World Rankings 2021.
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Participation to the academic                 activities of many ALADIN                Universities.  Furthermore, the University of Trieste participates in and contribu- tes to the organization of many other activities, sponsored by the other ALADIN Universities, Organizacija, Volume 39ReflectionsNumber 3, March 2006207part of co-operation is to bring newpeople into our research and development teams and to send our employees to partner universities, where they can get more practical and theoretical experience, more flexibility and adaptability in their work.  PhD student education– it is the second important part of work at the University of Economics -     Prague. What is the main goal in this part in the framework of ALADIN group for our school?  It is to offer the chance to our PhD students at first to present and to discuss their ideas on the international field, then to be members of international research and development teams (for example in living laboratories) and in the last level to take part on  educational process not only at the home university, but also at other partner universities of the ALADIN group. The General platform for starting and realizing of common projects and preparing publications with our newly found partners is the most important of co-operation. Here all previously described activities in the form of common projects could be integrated, supported either by EU or by local authorities. … globally known as the “Trieste System”:
the National Institute for Nuclear Physics - INFN (section of Trieste) www.ts.infn.it
the International Center for Theoretical Physics – ICTP www.ictp.ts.it
the International School for Advanced Studies – ISAS   (currently an independent University) www.sissa.it
the International Center for Genetic Engineering and Biotechnology – ICGEB www.icgeb.ts.it
the International Center forScience and High Technology –ICS www.ics.trieste.it
the Elettra Synchrotron www.elettra.ts.it
the National Institute for the Physics of Matter – INFM (sections of Trieste) www-dft.ts.infn.it/INFM
the National Institute for Oceanography and Experimental Geophysics – OGS www.ogs.trieste.it
the CNR Talassographic Institute – ITT www.itt.ts.cnr.it 
the Trieste Astronomic Observatory – OAT www.ts.astro.it
and many other institutions and hitech companies (see www.area.ts.it“ companies,  institutions & labs”)  These institutes are active in the fields of biotechnology, bioengineering,
neuroscience, information and communication technology,   agriculture, sustainable development, economics and other fields.  Currently, external researchers and professors and researhers from the University work together in all the institutions of Trieste.  This unique feature of the Trieste System allows a high level of research but also a strong range of academic education and training in most of the11 Higher Education in Clinical Engineering (SSIC-HECE) & Group of Bioengineering and ICT, University of Trieste, paolo.inchin-golo@bioing.units.it  
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