Mind Science

1903 Submissions

[7] viXra:1903.0338 [pdf] submitted on 2019-03-18 14:01:37

Emergence of a New Type of Life and Alive Creature from Mixing Cells of Plants and Animals

Authors: Alireza Sepehri
Comments: 6 pages, 6 figures

In this research, we show that by mixing cells of plants and animals, a new type of alive creature or life is emerged. To this aim, we cut the skin of some quails and create a hole between skin and skeleton. We put some some beans and lentils in this hole and cover it by a black glue. We open the hole after a week and observe that a bridge of quail's cells is produced between beans and lentils. This bridge has the genus of the periosteum that covers the outer surface of all bones. In this periosteum, there are some stem cells that produce a collection of neuronal circuits. These circuits could join to each other and form a little brain. This brain can control all voluntary and non-voluntary actions of this new alive creature.
Category: Mind Science

[6] viXra:1903.0264 [pdf] submitted on 2019-03-13 07:57:34

Clever Battery Bio-Computer and Little Brain in Shell-Less Culture Systems of Chick Embryos

Authors: Alireza Sepehri
Comments: 10 pages, 11 figures

A shell less culture system for chick embryo could be used to produce a clever battery or bio-computer. In this system, after 50 hourses after incubatating, a heart is emerged which send blood molecules to each side and produces a biological current. This current carries charged particles and molecules and creates an electrical current and differences potential between center of heart and sides of shell-less vessels. If we put two metal bars in center and side of vessel, we can take electrical current and use of it industry. This causes that shell-less culture system plays the role of battery. This battery is clever and by closing another shell less culture system produce different currents. This is because that a collections of neurons are emerged on the heart in shell less cuture system which plays the role of a little brain. This little brain exchange information with medium and control voluntary actions of system For this reason, this system not only has the role of battery but also could be used as a bio-computer.
Category: Mind Science

[5] viXra:1903.0172 [pdf] submitted on 2019-03-09 07:03:46

Increasingly Complex Mini-Brains

Authors: George Rajna
Comments: 48 Pages.

Scientists of the D'Or Institute for Research and Education have improved the initial steps of a standard protocol and produced organoids displaying regionalized brain structures, including retinal pigmented cells. [27] Migrating cells must overcome physical barriers such as tight pores in finely meshed tissues. A recent study by a team of LMU biophysicists provides a new theory to describe how cells manoeuvre such confining environments. [26] A Virginia Commonwealth University researcher has developed a procedure for identifying the source of cells present in a forensic biological sample that could change how cell types are identified in samples across numerous industries. [25] In work at the National Institute of Standards and Technology (NIST) and the University of Maryland in College Park, researchers have devised and demonstrated a new way to measure free energy. [24] A novel technique developed by researchers at the ARC Centre of Excellence for Nanoscale BioPhotonics (CNBP) will help shine new light on biological questions by improving the quality and quantity of information that can be extracted in fluorescence microscopy. [23] Micro-computed tomography or "micro-CT" is X-ray imaging in 3-D, by the same method used in hospital CT (or "CAT") scans, but on a small scale with massively increased resolution. [22] A new experimental method permits the X-ray analysis of amyloids, a class of large, filamentous biomolecules which are an important hallmark of diseases such as Alzheimer's and Parkinson's. [12] Thumb through any old science textbook, and you'll likely find RNA described as little more than a means to an end, a kind of molecular scratch paper used to construct the proteins encoded in DNA. [20] Just like any long polymer chain, DNA tends to form knots. Using technology that allows them to stretch DNA molecules and image the behavior of these knots, MIT researchers have discovered, for the first time, the factors that determine whether a knot moves along the strand or "jams" in place. [19]
Category: Mind Science

[4] viXra:1903.0140 [pdf] submitted on 2019-03-08 23:35:24

Two Cases of the Fluent Disorder that Became Milder by Remedy for Fluvoxamine Long Term

Authors: Toshiro Takami
Comments: 11 Pages.

I experienced two cases that becoming milder happened of the fluent obstacle by remedy for Fluvoxamine long term. I was infected with a disorder more fluent than early childhood time with 2 cases. Third grade at a high school next, society anxiety disorder develop in case 1. Depressive disorders develop in case 2 recently. Becoming milder of fluent, affecting it took place accidentally by performing long-term remedy of fluvoxamine for those diseases (society anxiety disorder, depressive disorders) with 2 cases. As for case 1, case 2 needed seven months for ten months until a fluent obstacle slight illness recognized becoming it. I pass through 15 years or more than becoming milder of fluent, affecting it with 2 cases, but continue keeping the state that became milder so that it may be said that the fluent obstacle is remission.  The treatment of the fluency disorder is full of difficulty in the serious case in particular, and there are many a social dropout, social eremites, too. The medical therapy of the fluency disorder is hardly known in this country.
Category: Mind Science

[3] viXra:1903.0131 [pdf] submitted on 2019-03-07 08:49:57

EEG Look into the Brain

Authors: George Rajna
Comments: 51 Pages.

To determine whether activity in deep brain structures can be sensed using EEG, the researchers simultaneously recorded subcortical activity using the implanted electrodes and high-density (256-channel) EEG scalp electrodes. [33] Measuring optical blood flow in the resting human brain to detect spontaneous activity has for the first time been demonstrated by Wright State University imaging researchers, holding out promise for a better way to study people with autism, Alzheimer's and depression. [32]
Category: Mind Science

[2] viXra:1903.0130 [pdf] submitted on 2019-03-07 09:10:05

Black Box of Dendritic Computing

Authors: George Rajna
Comments: 53 Pages.

How do nerve cells compute? This fundamental question drives LMU neurobiologists led by Andreas Herz. They have now presented a novel method to disentangle complex neural processes in a much more powerful way than was previously possible. [34] To determine whether activity in deep brain structures can be sensed using EEG, the researchers simultaneously recorded subcortical activity using the implanted electrodes and high-density (256-channel) EEG scalp electrodes. [33]
Category: Mind Science

[1] viXra:1903.0055 [pdf] submitted on 2019-03-03 07:36:48

Using Spiral Waves of the Little Brain on the Heart for Designing New Neuronal Circuits in Brain

Authors: Alireza Sepehri
Comments: 11 pages, 10 figures

Recently, some authors have considered the spiral waves in neuronal systems and proposed a model for it. We generalize their consideration to radiated waves from the little brain on the heart of birds to design new neuranal circuits in brain. First, we put two chick embryos in an inductor and send a current by a generator. Radiated waves of chick embryos change the initial current and produce an oscillating current which can be observed by an scope. Using this system, we consider the exchanged spiral waves between two little brains on the hearts of two chick embryos and show that they have direct effects on the life, death and other activities of each other. We put two chick embryos of two different types in this inductor and control the process of formation of neuronal circuits. Each type has it's own circuits and thus, exchanged spiral waves between two chick embryos may change shape of neuronal circuits in each type. Comparing radiated signals of a chick embryo which was under radiation in this inductor with a normal chick embryo without experiencing external wave, we can consider differences between neuronal circuits.
Category: Mind Science