WE FLY THE PLANE WHILE WE BUILD IT - TOXICOLOGY AND REGULATION IN NANOMEDICINE - By Dr. Geanina Hagima

ANA MARIA MIHALCEA, MD, PHD
DEC 20

I am posting this article written by my colleague Dr. Geanina Hagima. She has been attacked in Romania as a conspiracy theorist for researching the presence of nanotechnology in the C19 bioweapon. Yet she has replicated much of my research of different vaccines which show self assembly nanotechnology and has done Electron microscopy and Mass Spectroscopy on Covid 19 vaccines, finding no mRNA. It is my knowingness, that those who tried to attack and discredit us, will soon be known as deceivers of the world. The truth is coming out, and nothing can stop that.

Here is her excellent article:

It is acknowledged in reputable journals that mRNA & Covid vaccines contain nanotechnology: Role of nanotechnology behind the success of mRNA vaccines for COVID-19 and Nanotechnology-based mRNA vaccines, but when a doctor like me says that, it's considered a conspiracy theory Breaking Fake News.

First it is useful to learn a little about nanotechnology, because although it is widely used in various fields, including medicine, more intensively in the last 20 years, few people, even specialists in their fields, are familiar with the term. Knowledge of this topic is essential to understand what has happened in the last four years, what is being pursued and what solutions we have. The more we ignore this extremely important topic, the fact that this field has long been funded to the tune of billions of euros, that nanotechnology is used in many products despite the lack of regulation and insufficient toxicological assessment, the easier it will be to divert our attention and waste time and energy without finding the causes and effective solutions to the current situation.

What is nanotechnology?
Although there is no unanimously accepted definition, the National Nanotechnology Initiative defines it as the manipulation of matter with at least one dimension sized from 1 to 100 nanometers (nm). Nanotechnology Definition

It is important to know that the properties of materials at the nanoscale differ significantly from those at a larger scale. Nanotechnology is therefore an area that needs to be well defined and regulated.

It is better to use the plural "nanotechnologies" as they include a wide range of technologies and applications - nanomedicine, nanoelectronics, consumer products (e.g. cosmetics, food). In addition to the advantages, nanotechnology raises many issues related to the toxicity and environmental impact of nanomaterials: The European Group on Ethics in Science and New Technologies to the European Commission Opinion on the ethical aspects of nanomedicine (p21).

History of nanotechnology
In 1959 physicist Richard Feynman predicted the possibility of synthesis by direct manipulation of atoms.
The term 'nanotechnology' was first used by Norio Taniguchi in 1974.
Nanotechnology became a field in the 1980s with the contribution of K. Eric Drexler.
Fulerenes were discovered in 1985 by Harry Kroto , Richard Smalley and Robert Curl, who together won the Nobel Prize for Chemistry in 1996.
The discovery of carbon nanotubes is attributed to Sumio Iijima in 1991.

In the early 2000s, the field attracted scientific, political and commercial attention. Controversy has arisen over the definitions and potential implications of nanotechnologies. Governments began to promote and fund nanotechnology research.

Funding
In the US, the National Nanotechnology Initiative created a size-based definition of nanotechnology and established funding for nanoscale research. The European equivalent of the US initiative is the European Framework Programmes for Research and Technological Development, which have funding in the billions of euros (Figure 1).

Of the funds allocated to these Framework Programmes for Research and Technological Development, nanotechnology has been allocated more than €1.36 billion (550 projects funded) through FP6 (2002-2006), about €3.5 billion through FP7 (2007 - 2013) and about €2 billion through FP8 (2014-2020). For FP9 (2021- 2027) I could not find any data on nanotechnology funding, which certainly received a few billion euros more than in previous years. The countries involved in FP9 are, in addition to EU Member States, non-EU countries such as: Albania, Armenia, Bosnia and Herzegovina, Faroe Islands, Georgia, Iceland, Israel, Kosovo, Moldova, Montenegro, New Zealand, Macedonia, Norway, Serbia, Tunisia, Turkey, Ukraine, UK .

Figure 1. The Framework Programmes for Research and Technological Development , also called Framework Programmes or abbreviated FP1 to FP9, are funding programmes created by the European Union / European Commission to support and encourage research in the European Research Area (ERA). Since 2014, the funding programmes have been called Horizon

More at the link, including story, photos, graphs, video, so it is loaded and you need to know!:

https://anamihalceamdphd.substack.com/p/we-fly-the-plane-while-we-build-it?
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Many Blessings,
CrystalRiver