ndia: GLAQ prevents hypobaric hypoxia induced memory deficit

June 2, 2020/Defence Institute of Physiology& Allied Sciences(India)/Scientific Reports

Text/Wu Tingyao

The higher the altitude, the lower the air pressure, the more dilute the oxygen, the more affected the operation of physiological functions, the more likely it is to cause various health risks commonly known as altitude sickness.

These health risks can be just headaches, головокружение, тошнота, рвота, fatigue and other discomforts, and they can also develop into cerebral edema that affects cognition, motor, and consciousness functions, or pulmonary edema that affects respiratory function. How serious is the situation? Whether it can gradually recover after a rest or whether it will further deteriorate into irreversible damage or even become life-threatening depends on the ability of tissue cells in the body to adjust to changes in external oxygen concentration.

The occurrence and severity of altitude sickness vary from person to person, and it is most affected by the individual’s physical fitness. В принципе, altitudes above 1,500 meters (medium altitude) will begin to affect the human body; anyone including healthy adults who rashly reaches an altitude of 2,500 meters or more (high altitude) before the body adapts is prone to problems.

Whether it is careful planning of climbing heights or taking preventive drugs before departure, the purpose is to improve the body’s adaptability and prevent the occurrence of altitude sickness. But in fact, there is another option, that is takingГанодерма яркая.

According to a study published by the Defence Institute of Physiology and Allied Sciences (DIPAS) in June 2020 in the Scientific Reports, it was found that Ганодерма яркая aqueous extract (GLAQ) can reduce the damage of hypobaric hypoxia to cranial nerves and maintain the cognitive functions related to spatial memory.

Water maze– a good way to test the memory ability of rats

Before the experiment started, the researchers spent a few days training the rats to find a hidden platform submerged just below the water surface. (Figure 1).

Rats are good at swimming, but they don’t like water, so they will try to find a place to avoid water.

According to the swimming trajectory record in Figure 2, it can be found that the rats found the platform faster and faster from going around several times on the first day to the straight line on the sixth day (right third in Figure 2), showing that it has a good spatial memory ability.

After the platform was removed, the rat’s swimming path concentrated in the area where the platform was located (the first right in Figure 2), indicating that the rat did have a clear memory of where the platform was located.

Ганодерма яркая alleviates the effects of hypobaric hypoxia on spatial memory

These trained normal rats were divided into two groups. One group continued to live in an environment with normal air pressure and oxygen as the control group (Control) while the other group was sent to a low-pressure chamber to simulate a living at an ultra-high altitude of 25,000 feet or about 7620 meters in an environment of hypobaric hypoxia (HH).

For rats sent to the low-pressure chamber, one part of them were fed with aqueous extract ofГанодерма яркая (GLAQ) at a daily dose of 100, 200, или 400 mg/kg (HH+GLAQ 100, 200, или 400) while the other part of them were not fed withГанодерма яркая (HH group) as a control group.

This experiment lasted for a week. The day after the experiment ended, the five groups of rats were put in the water maze to see if they remembered the position of the platform. The result was shown in Figure 3:

The control group (Control) still remembered the location of the platform clearly and could find the platform at once; the memory ability of low-pressure chamber rats (HH) was significantly impaired, and their time to find the platform was more than twice that of the control group. But also living in the low-oxygen environment of the low-pressure chamber, the rats that ate the GLAQ had a significantly better memory of the platform, and the moreГанодерма яркая they ate, the time spent was closer to that of the normal control group.

Ганодерма яркая alleviates the effects of hypobaric hypoxia on spatial memory

These trained normal rats were divided into two groups. One group continued to live in an environment with normal air pressure and oxygen as the control group (Control) while the other group was sent to a low-pressure chamber to simulate a living at an ultra-high altitude of 25,000 feet or about 7620 meters in an environment of hypobaric hypoxia (HH).

For rats sent to the low-pressure chamber, one part of them were fed with aqueous extract ofГанодерма яркая (GLAQ) at a daily dose of 100, 200, или 400 mg/kg (HH+GLAQ 100, 200, или 400) while the other part of them were not fed withГанодерма яркая (HH group) as a control group.

This experiment lasted for a week. The day after the experiment ended, the five groups of rats were put in the water maze to see if they remembered the position of the platform. The result was shown in Figure 3:

The control group (Control) still remembered the location of the platform clearly and could find the platform at once; the memory ability of low-pressure chamber rats (HH) was significantly impaired, and their time to find the platform was more than twice that of the control group. But also living in the low-oxygen environment of the low-pressure chamber, the rats that ate the GLAQ had a significantly better memory of the platform, and the moreГанодерма яркая they ate, the time spent was closer to that of the normal control group.

Ганодерма яркая protects the brain and reduces brain edema and hippocampal gyrus damage.

The above experimental results show thatГанодерма яркая can indeed alleviate the spatial memory disorder caused by hypobaric hypoxia. Memory function is a manifestation of whether the structure and operation of the brain are normal. Поэтому, the researchers further dissected and analyzed the brain tissues of the experimental rats, and found that:

Hypobaric hypoxia can cause angioedema (increased permeability of capillaries allows a large amount of fluid to leak from blood vessels and accumulate in the interstitial spaces of the brain) and hippocampal gyrus (in charge of memory formation) damage, but these problems are relieved a lot on the rats that were fed with GLAQ in advance (Figure 5 и 6), indicating thatГанодерма яркая has the effect of protecting the brain.

The mechanism ofГанодерма яркая against hypobaric hypoxia

Why theГанодерма яркая aqueous extract can withstand the damage caused by hypobaric hypoxia? The results of further in-depth discussion are summarized in Figure 7. There are basically two general directions:

С одной стороны, the body’s physiological response when adapting to hypobaric hypoxia will be adjusted faster and better due to the intervention ofГанодерма яркая; on the other hand, Ганодерма яркая can directly regulate related molecules in the brain nerve cells by anti-oxidation and anti-inflammation, maintaining constant oxygen in the body, adjusting the brain’s neural circuits, and maintaining smooth nerve transmission so as to protect the nerve tissue and memory ability.

In the past, many studies have pointed out thatГанодерма яркая can protect brain nerves from various aspects such as Alzheimer’s disease, Parkinson’s disease, epilepsy, vascular embolism, accidental brain injury, and aging. Now this research from India adds another proof ofГанодерма яркая‘s “enhancing wisdom and memory” from the perspective of high altitude, low pressure and low oxygen.

In particular, the research unit Defence Institute of Physiology& Allied Sciences (DIPAS) is affiliated to the National Defense Research and Development Organization (DRDO) of the Indian Ministry of Defense. It has made in-depth explorations in the field of high altitude physiology for a long time. How to improve soldiers’ adaptability and combat effectiveness to high-altitude environments and pressures has always been the focus of its attention. This makes the results of this research more meaningful.

The active ingredients contained in theГанодерма яркая aqueous extract GLAQ used in this study include polysaccharides, phenols, flavonoids, and ganoderic acid A. Before publishing this study, the researcher had done a 90-day subchronic toxicity test of the extract and confirmed that even if its dose is as high as 1000 mg/kg, it will not have a negative impact on the tissues, organs and growth of rats. Поэтому, the minimum effective dose of 200 mg/kg in the above experiment is obviously safe.

Only when you are fully prepared can you enjoy the fun of climbing and experience the touch of being close to the skyline. If you have safeГанодерма яркая to cheer you up, you should be able to realize your wishes more safely.

[Источник] 

1. Purva Sharma, Rajkumar Tulsawani. Ганодерма яркая aqueous extract prevents hypobaric hypoxia induced memory deficit bymodulating neurotransmission, neuroplasticity and maintaining redox homeostasis. Sci Rep. 2020; 10: 8944. Published online 2020 Jun 2.

2. Purva Sharma, и др.. Pharmacological effects of Ганодерма яркая extract against high-altitude stressors and its subchronic toxicity assessment. J Food Biochem. 2019 Dec;43(12):e13081.

КОНЕЦ

Об авторе/ г-жа. У Тинъяо

У Тинъяо сообщает информацию из первых рук о Ганодерма с тех пор. 1999. Она является авторомЛечение с помощью Ганодерма (опубликовано в Народном медицинском издательстве в апреле 2017). 

★ Статья публикуется с исключительного разрешения автора..

★ Воспроизведение вышеуказанных работ не допускается., извлечены или использованы иным образом без разрешения автора.

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★ Оригинальный текст этой статьи был написан на китайском языке У Тинъяо и переведен на английский Альфредом Лю.. Если есть расхождения в переводе (English) и оригинал (китайский), оригинальный китайский будет иметь преимущественную силу. Если у читателей возникнут вопросы, пожалуйста, свяжитесь с первоначальным автором, РС. У Тинъяо.