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Hello! Let me give you a rough rundown of your question.
First of all, stem cells for ** brain atrophy has been proven to be effective, 80% of patients on the clinical surface have obvious improvement after a course of treatment, 15% of patients have symptom relief 6-12 months after the second course of treatment, and some patients have not improved significantly, I can give you an answer to the principle involved in this middle:
Cerebellar atrophy is caused by a variety of diseases, if it is progressive, and the cerebellar atrophy causes the first child to exist for a long time, and plays a role, then the effect of stem cells will be discounted, just like stem cells have been growing, but the first child is constantly engulfing, so that the tug of war between the two sides, if the first child is more, the growth of stem cells is restricted, then the patient's symptom improvement is limited or not obvious, if the first child is less, the stem cell growth is good, then the patient effect is more obvious.
I don't know if you're happy with this explanation?
That's why some of you say it's good and some people say it's bad.
Then answer your three questions:
Clause. 1. Can stem cell transplantation restore people to self-care? This problem is not good, that is, I just said the principle, stem cells only play a role in replacing damaged cells to repair the function of tissues and organs, patients to live independently, but also must adhere to the best training for a long time, just like you have regrown a hand, you always have to learn to control him, in order to apply it freely.
Clause. Second, I can't evaluate how other hospitals are, I can only say that my hospital has successful cases for patients like you, and my hospital is in Wuhan, Hubei, I don't know if you are interested.
Clause. 3. In fact, if you want to know the actual situation of this disease, it is very simple, you can come directly to our hospital to have a look, our hospital has such a patient, you can communicate with him or communicate with our experts.
Please send the patient's medical records, CT, MRI reports, etc. to my mailbox.
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I don't copy, I'll introduce you to a doctor, you can try it yourself, anyway, don't need money, medical communication worry-free**have**Doctor, you can consult the situation of this disease online, you can ask in detail, maybe it will help you.
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Summary. Glad you asked: For the improvement of cerebellar atrophy in medicine, in addition to physical improvement, surgical improvement, and drug improvement, stem cells are **expected** brain atrophy.
Scientists have found that stem cells** can repair cerebellar atrophy, improve clinical symptoms such as memory loss, headache and dizziness, unresponsiveness, unsteady walking, and sluggishness in patients with cerebral atrophy, and effectively improve their quality of life, so that patients can achieve basic self-care. Compared with traditional improvement programs, what are the advantages of stem cells in cerebellar atrophy? 1. Stem cells have the potential for self-replication and multi-directional differentiation Stem cells, as seed cells, can differentiate and regenerate neurons after transplantation into the patient's body, and can also activate endogenous neural stem cells, promote the regeneration of neurons, and rebuild the central nervous system network of the brain, so that the symptoms of limb mobility disorders and intellectual development disorders that are controlled by damage to the central nervous system can be comprehensively improved.
2. Stem cells have secretory effects Stem cells have autocrine and paracrine effects, which can stimulate their own or surrounding cells to secrete various cytokines, promote the growth of brain cells, and supplement the reduced brain cells, thereby restoring the normal function of nerve cells and improving brain cognition. And it plays an increasingly important role in clinical research. Scientists are also constantly exploring more stem cell-related improvement programs to bring hope to more patients with cerebellar atrophy.
Glad you asked: For the improvement of cerebellar atrophy in medicine, in addition to physical improvement, surgical improvement, and drug improvement, stem cells are **expected** brain atrophy. Scientists have found that stem cells** can repair cerebellar atrophy, improve clinical symptoms such as memory loss, headache and dizziness, unresponsiveness, unsteady walking, and sluggishness in patients with cerebral atrophy, and effectively improve their quality of life, so that patients can achieve basic self-care.
Compared with traditional improvement programs, what are the advantages of stem cells in cerebellar atrophy? 1. Stem cells have the potential for self-replication and multi-directional differentiation Stem cells, as seed cells, can differentiate and regenerate neurons after transplantation into the patient's body, and can also activate endogenous neural stem cells, promote the regeneration of neurons, and rebuild the central nervous system network of the brain, so that the symptoms of limb mobility disorders and intellectual development disorders that are controlled by damage to the central nervous system can be comprehensively improved. 2. Stem cells have secretory effects Stem cells have autocrine and paracrine effects, which can stimulate their own or surrounding cells to secrete various cytokines, promote the growth of brain cells, and supplement the reduced brain cells, thereby restoring the normal function of nerve cells and improving brain cognition.
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Can the cerebellar atrophy gate be transplanted with stem cells**? If the cerebellar atrophy gate is performed, stem cell transplantation can be used appropriately, but whether to use this method for ** must be examined in the hospital first, and the doctor will decide whether to use it. The following will be a detailed explanation of cerebellar atrophy, hoping to understand more about the disease and actively respond to the disease**.
1 First of all, cerebellar atrophy may be diverse, it may be due to genetics or acquired extracerebral injury, or it may be due to some brain diseases, such as encephalitis, etc., or it may also lead to cerebellar atrophy.
2 Secondly, if the patient has unhealthy lifestyle habits for a long time, such as excessive hand smoking or long-term alcohol abuse and staying up late, it may also lead to the appearance of cerebellar atrophy, and some accidental factors such as gas poisoning can lead to the occurrence of diseases.
3 Finally, the main cause of this disease is caused by long-term chronic ischemia of cerebral blood vessels, so if the deformation ability of red blood cells begins to decline, then the effective blood perfusion of blood vessels is insufficient, and it will be easy to put the brain in a state of hypoxia, which must be paid attention to.
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Let's take a look at the experts.
Stem cell brain atrophy has the following advantages over the traditional one:
1. Activate various factors in the body that are conducive to cell regeneration and promote the recovery of cell function (short-term effect). It is the most important of the advantages of brain atrophy.
Second, improving the immunity in the body can also be regarded as an advantage of brain atrophy.
3. Make the cells around the necrotic lesions, especially the semi-apoptotic cells, no longer degenerate and die (penumbra theory), and gradually restore their function (short-term effect).
Fourth, the softened, denatured, and necrotic cells can restore part of their functions under the action of stem cells. This is very useful for working with brain atrophy.
The above is the expert's introduction to stem cell transplantation**brain atrophy. The incidence of cerebral atrophy is very high, so patients have a correct understanding of cerebral atrophy. Good luck soon**!
For more information, please visit the topic of cerebral atrophy.
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Patients can try to use nerve cell transplantation, which is green, effective, safe, and small, and is currently the best for brain atrophy. By repairing damaged nerve cells, activating dormant nerve cells, realizing the self-differentiation of nerve cells, and replacing damaged and dead nerve cells, the quality of life is improved.
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The success rate is not high! Brain atrophy can be maintained if it is well controlled.
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Experts from the Stem Cell Center of Hubei Zhongshan Hospital pointed out that stem cell brain atrophy only takes 7 days to take effect at the earliest.
Because the regenerative ability of stem cells is very weak, once damaged, they cannot be restored on their own. And there is a blood-brain barrier in the nervous system, which is difficult for general drugs to cross, resulting in many diseases of the nervous system that cannot be **. How to repair damaged stem cells and rebuild nerve function has become the key to various neurological diseases.
The emergence of this high-tech stem cell has broken through the bottleneck of traditional **. The transplanted stem cells can cross the blood-brain barrier of the nervous system with the blood circulation, differentiate and regenerate stem cells and glial cells according to the needs of the body, supplement and replace the apoptotic and damaged stem cells, and make patients with cerebral palsy, cerebral atrophy, paralysis, stroke, brain injury and other incurable diseases desperate.
Brain atrophy can be effective in as little as 7 days.
Taking brain atrophy patients as an example, stem cells as seed cells, transplanted into the patient's body, can differentiate and regenerate neurons, can also activate endogenous embryonic stem cells, and at the same time, through paracrine action, promote the growth of stem cells, replenish the reduced brain cells, so as to restore the normal function of stem cells, improve brain cognitive dysfunction and various reduced functions, provide a new method for brain atrophy patients, and improve their quality of life. Neurostem cells** have been clinically reported in patients with cerebral atrophy who have received them, and 80% of patients have experienced improvements in brain atrophy and cerebellar dysfunction symptoms.
Experts said that in the clinical application of stem cells, cerebellar atrophy has the most obvious effect. The cerebellum mainly maintains the body's balance, and after a stem cell transplant, the patient's symptoms will improve in about 7 days at the earliest. If the patient is not long-lived, or is not old or in good health, after stem cell transplantation, he can no longer shake when walking, and his balance ability is enhanced; Ataxia symptoms such as choking on eating and drinking can also be significantly improved.
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