So in reality our own so-called government’s have been secretly working towards mind control using experimental nanoparticles disguised as viruses and vaccines that are activated by a dipole moment and cause oxidative stress diseases as a side effect.
#J316FGSLTWTHGHOBSTWBOHSNPBHEL
So I'm wondering if Ultrasound can disrupt or activate these nanoparticles? hmmm....I lost 3 babies shortly after having the first ultrasound. They were alive during the ultrasound...but died within a week following. My 4th baby...no ultrasound (which the doctors were very unhappy about) as it was the only common thread my husband and I could think of....baby lived and carried normally! We caution everyone about them...but nobody listens and thinks we're nuts. All that is to say...could they use ultrasound or microwaves to activate the nanoparticles?
https://journals.aps.org/prapplied/abstract/10.1103/PhysRevApplied.10.024044
Phys. Rev. Applied 10, 024044 (2018) - Microwave-Pumped Electric-Dipole Resonance Absorption for Noninvasive Functional Imaging
Polar molecules (PMs) are ubiquitous and serve many important functions in living organisms, and abnormal PM metabolism is often associated with disease onset. The authors show that PMs other than water contribute substantially to microwave absorption by blood. This phenomenon is important for therm..
https://journals.aps.org/prapplied/abstract/10.1103/PhysRevApplied.10.024044
👉🏻these systems consist of nano/microvesicles composed by a biocompatible membrane, responsive to ultrasound-induced thermal or mechanical effects, and an aqueous core, filled up with a MRI detectable probe and a therapeutic agent. They offer the possibility to trigger and monitor in real time drug release in a spatio-temporal domain, with the expectation to predict the therapeutic outcome.
👉🏻The FDA approval of Doxil®/Caelyx® in 1995, a doxorubicin liposomal formulation,
https://www.frontiersin.org/articles/10.3389/fchem.2018.00157/full
Low-intensity ultrasound can modulate action potential firing in neurons in vitro and in vivo. It has been suggested that this effect is mediated by mechanical interactions of ultrasound with neural cell membranes. We investigated whether these proposed interactions could be reproduced for further study in a synthetic lipid bilayer system. We measured the response of protein-free model membranes to low-intensity ultrasound using electrophysiology and laser Doppler vibrometry.
We find that ultrasonic radiation force causes oscillation and displacement of lipid membranes, resulting in small (
