意识、对数螺旋线、胶质细胞和大脑可塑性的猜想
The Conjecture of Consciousness, Logarithmic Spiral, Glial cells and Brain plasticity
大脑的对数螺旋线和学习和记忆有关,对数螺旋线是否和意识有关?参考他人的心脑的量子纠缠实验研究,心脏和大脑的螺旋线是否相关?
对于对数螺旋线的信息湍流传递的猜想,在不同脑区传递信息图像不变,但图像质量有所损失,并进行了公式推导,见图1。我们继续进行研究对数螺旋线和大脑可塑性的工作,螺旋线运动影响了胶质细胞,进而胶质细胞影响了大脑可塑性。我们考虑突触前和突触后的螺旋线的影响。
The logarithmic spiral of the brain is related to learning and memory, but is the logarithmic spiral related to consciousness? Referring to the heart-brain experimental study of quantum entanglement of other people, are the spirals of the heart and brain related?
The conjecture of the turbulent transmission of information in the logarithmic spiral does not change the image of information transmitted in different brain regions, but the image quality is lost, and the formula is derived, as shown in Fig. 1. We continue our work to study logarithmic spiral and brain plasticity, where the movement of spiral affects glial cells, which in turn affect brain plasticity. We consider the effects of the presynaptic and postsynaptic spirals.
1 模型的想象
1 The imagination of model
想象有助于理解模型。可以这么想象,神经元就是植物的主根,树突看成根系,突触就是生长的根,胶质细胞就是土壤。顺时针对数螺旋线和胶质细胞的组合就是湿润的土壤,使得土质疏松有利于根生长,逆时针对数螺旋线和胶质细胞的组合是干旱的土壤,使得土质坚硬不利于根生长。
The imaginations help to understand the model. Think of it this way, neuron is the taproot of plant, dendrite is the roots, synapse is a root that grow on, and glial cells is the soil. The combination of clockwise logarithmic spiral and glial cells is the moist soil, which makes the soil loose and conducive to root growth, and the combination of counterclockwise logarithmic spiral and glial cells is the arid soil, which makes the soil hard and not conducive to root growth.
2 对数螺旋线和大脑塑性
2 Logarithmic Spiral and Brain plasticity
Fig.1 Angles of logarithmic Spiral and loss of memory engram
在接下来的研究中我们考虑的都是右旋的螺旋线。顺时针的对数螺旋线可能使得胶质细胞疏松,而逆时针的对数螺旋线可能使得胶质细胞紧实。
我们把顺时针或逆时针对数螺旋线与突触前和突触后位置组合。这样一共4种情况,见图2(a)。
1.突触前是逆时针的对数螺旋线,突触后是逆时针的螺旋线。这样突触前后的胶质细胞都是对突触位置是抑制的。
2.突触前是顺时针的对数螺旋线,突触后是顺时针的螺旋线。这样突触前后的胶质细胞都是对突触位置是刺激的。使得突触自由改变。它可能是最好的情况。
3.突触前是顺时针的对数螺旋线,突触后是逆时针的螺旋线。这样突触前的胶质细胞是对突触位置是刺激的,这样突触后的胶质细胞是对突触位置是抑制的。突触生长趋势是向前生长。
4.突触前是逆时针的对数螺旋线,突触后是顺时针的螺旋线。这样突触前的胶质细胞是对突触位置是抑制的,这样突触后的胶质细胞是对突触位置是刺激的。突触生长趋势是向后生长。
我们把一个顺时针或逆时针对数螺旋线与一个突触前或突触后位置组合。这样一共4种情况,见图2(b)。
1.突触前是逆时针的对数螺旋线。这样突触后的胶质细胞是对突触位置是抑制的。突触生长趋势是向前生长。
2.突触前是顺时针的对数螺旋线。这样突触前后的胶质细胞是对突触位置是刺激的。突触生长趋势是向后生长。
3.突触后是逆时针的螺旋线。这样突触后的胶质细胞是对突触位置是抑制的。突触生长趋势是向前生长。
4.突触后是顺时针的螺旋线。这样突触后的胶质细胞是对突触位置是刺激的。突触生长趋势是向后生长。
如果考虑螺旋线左旋还是右旋,可能的情况还会增加一倍,图2分析的都是右旋的对数螺旋线。如果考虑左旋,顺时针的对数螺旋线可能使得胶质细胞紧实,而逆时针的对数螺旋线可能使得胶质细胞疏松。
我们进一步猜想对数螺旋线的运动是意识的产物,对数螺旋线运动是否就是我们的意识产生的声、光、电和流体作用的结果?一个是对数螺旋线通过湍流传递信息,另外对数螺旋线影响胶质细胞存储信息进而改变我们的大脑架构。
We're all thinking about the right-handed spiral in the following research. The clockwise logarithmic spiral may loosen glial cells, while the counterclockwise logarithmic spiral may make glial cells sturdy.
We combine clockwise or counterclockwise spirals with presynaptic and postsynaptic positions. In this way, there are 4 cases, see Fig. 2(a).
1. At presynaptic position, it has a counterclockwise logarithmic spiral. At postsynaptic position, there is a counterclockwise spiral. So that pre and postsynaptic glial cells are inhibited to the synaptic locations.
2. At presynaptic position, it has a clockwise logarithmic spiral. At postsynaptic position, there is a clockwise spiral. So that the glial cells with presynaptic and postsynaptic positions are excitatory to the synaptic locations. Makes synapses change freely, it could be the best case.
3. At presynaptic position, it has a clockwise logarithmic spiral. At postsynaptic position, there is a counterclockwise spiral. So that the presynaptic glial cells are excitatory to the synaptic position, so that the postsynaptic glial cells are inhibited by the synaptic position. And the synaptic growth trend is presynaptic growth.
4. At presynaptic position, it has a counterclockwise logarithmic spiral. At postsynaptic position, there is a clockwise spiral. So that presynaptic glial cells are inhibited by synaptic location, so that postsynaptic glial cells are excitatory to synaptic location. And synaptic growth trend is postsynaptic growth.
We combine one of the clockwise or counterclockwise logarithmic spiral with the one of the presynaptic or postsynaptic position. In this way, there are 4 cases, see Fig. 2(b).
5. At postsynaptic position, it has a counterclockwise logarithmic spiral. So that postsynaptic glial cells are inhibited to the synaptic locations. And the synaptic growth trend is presynaptic growth.
6. At postsynaptic position, it has a clockwise logarithmic spiral. So that the glial cells with postsynaptic positions are excitatory to the synaptic locations. And synaptic growth trend is postsynaptic growth.
7. At presynaptic position, there is a clockwise spiral. So that the presynaptic glial cells are excitatory to the synaptic position. And the synaptic growth trend is presynaptic growth.
8. At presynaptic position, there is a counterclockwise spiral. So that presynaptic glial cells are inhibited by synaptic location. And synaptic growth trend is postsynaptic growth.
(a) Both presynapse and postsynapse have a logarithmic spiral
(b)The presynapse or postsynapse only has a logarithmic spiral
Fig.2 The cases of interaction in logarithmic spiral and presynapse, postsynapse
If you consider whether the left or right-handed of the logarithmic spiral, the possible cases are doubled, Fig. 2 analyzes the right-handed logarithmic spiral. If we considered the left-handed logarithmic spiral, the clockwise logarithmic spiral may make glial cells sturdy, while the counterclockwise logarithmic spiral may loosen glial cells.
We further wonder if the logarithmic spiral motion is the products of consciousness, is the result of the action of sound, light, electricity, and fluid produced by our consciousness. One is the logarithmic spiral that transmits information through turbulence, and then the logarithmic spiral affects glial cells to store information and then changes our Brain architecture.
作者:陶俊波, 哈工大在读博士。
