Atmospheric pressure 720 how does it affect a person. How atmospheric pressure affects a person and the body. How high atmospheric pressure affects a person

Humidity, temperature, atmospheric pressure, wind direction and speed. Illumination, air saturation with ozone, oxygen, dust, chemicals All of these things affect the body. Why do even cheerful, optimistic people in cloudy days feeling worse? Yes, because the body of any of us, when the weather changes, reconfigures all its biological systems. If, for example, there is a cold snap, the heat supply is reduced in it. And when falling atmospheric pressure pressure drops in the arteries. If the atmospheric pressure rises, the arterial pressure also rises. That is why, by the way, in clear weather, when there is usually high atmospheric pressure, many people have a headache.

Under normal conditions on the surface of the earth, annual fluctuations atmospheric air do not exceed 20-30 mm, and the daily allowance is 4-5 mm. Healthy people tolerate them easily and imperceptibly. Some patients are very sensitive to even such slight changes in pressure. So, with a decrease in pressure in people suffering from rheumatism, pain appears in the affected joints, in patients with hypertension, the state of health worsens, angina pectoris attacks are observed. In people with increased nervous excitability, sudden changes in pressure cause a feeling of fear, deterioration of mood and sleep.

A decrease in pressure is followed by cloudy, rainy weather, an increase is followed by dry weather, with a strong cooling in winter.

Atmospheric pressure imperceptibly for us mechanically irritates the receptors of the skin and mucous membranes. When it increases, the irritation of the receptors of the skin and mucous membranes also increases. As a result, the oxygen content in the blood decreases. And this causes an exacerbation of cardiovascular diseases.

A decrease in atmospheric pressure worsens the well-being of those who suffer from diseases. gastrointestinal tract. At the same time, the gases in it expand, causing bloating, the diaphragm rises and it becomes difficult to breathe. On such days, you should not eat foods that cause bloating: peas, beans, potatoes, cabbage.

It has been established that with a change in atmospheric pressure, a number of physiological changes occur, the leading pathogenetic link of which is the reaction of skin baroreceptors to external stimuli.

Temperature conditions significantly affect the processes of thermoregulation, metabolism, muscle and nervous activity, causing changes in biochemical and bioelectrical processes in tissues and organs. Great importance have air humidity and wind speed. The effect of wind on the body is mediated by a direct effect on the skin, contributing to its heating or cooling. However, this depends on the level relative humidity and air temperature. Some authors also associate with high atmospheric pressure (more than 750 mm Hg). In 32% of cases, exacerbation bronchial asthma was associated with an increase in atmospheric pressure, in 29% - with a change in the relative humidity of the air, in 64% - with a change in air temperature. In 25% of patients, exacerbations of bronchial asthma were observed with a combination of the influence of various climatic factors.

On the well-being of a person who has lived in a certain area for a long time, the usual, i.e. characteristic pressure should not cause a particular deterioration in well-being.

Staying in conditions of high atmospheric pressure is almost no different from normal conditions. Only with very high pressure there is a slight decrease in heart rate and a decrease in minimum blood pressure. Breathing becomes more rare, but deep. Hearing and smell slightly decrease, the voice becomes muffled, there is a feeling of a slightly numb skin, dryness of the mucous membranes, etc. However, all these phenomena are relatively easily tolerated.

More unfavorable phenomena are observed during changes in atmospheric pressure - an increase (compression) and especially its decrease (decompression) to normal. The slower the change in pressure occurs, the better and without adverse consequences the human body adapts to it.

Reduced atmospheric pressure as a professional factor occurs during the work of the flight crew, as well as when performing various kinds of work in mountainous areas (mining, road construction, mountaineering, etc.). The magnitude of the decrease in atmospheric pressure depends on the increase in altitude, where the flight is or are being performed. special work. By itself, the reduced barometric pressure factor can only be of some importance if the pressure is reduced very rapidly; the main role is played by the decrease in the partial pressure of oxygen as the atmospheric pressure decreases.

The lower the atmospheric pressure, the lower the partial pressure of oxygen in the air. A decrease in the partial pressure of oxygen leads to a decrease in its tension in the alveoli. From 100 mm Hg. Art., observed at normal atmospheric pressure, the oxygen tension in the alveolar air drops to 70 mm (height 2000 m) and up to 50-55 mm (height 4000-4500m). Most danger zone is the height of 8000-8500 m.

A drop in partial pressure in the lungs from 100 to 40 mm results in a decrease in blood oxyhemoglobin from 92 to 84%. In the future, this fall is even more steep and leads to a deterioration in oxygen supply to tissues (anoxemia).

Pathological phenomena that develop in the body when released into the atmosphere reduced pressure, especially with its rapid decrease, are associated with oxygen starvation of tissues, mainly the brain (flight sickness, mountain sickness).

The clinic of the disease has much in common with decompression sickness. Therefore, first of all, they appear in a strong muscle weakness, coordination disorder, decreased memory and attention, drowsiness, dizziness, nausea, vomiting, rapid breathing, tachycardia, bleeding from the nose, mouth, intestines. Eye symptoms are also associated with changes in the central nervous system. There is a decrease in visual acuity, visual fields, color perception and deep vision are disturbed. All these phenomena disappear when descending to a lower height or when pure oxygen is inhaled. The body carries out the fight against oxygen starvation with the help of compensatory-adaptive reactions. Respiratory movements become more frequent and deeper, cardiac activity intensifies, pulse quickens, blood flow accelerates, the number of red blood cells increases, hemoglobin content increases - all this taken together enhances the delivery of oxygen to the blood, and with it to the tissues.

Training significantly increases the body's resistance to oxygen deficiency. However, it should be borne in mind that permanent residence in highlands even for trained subjects it is limited to a height of 4000 m. Adaptation to work at such an altitude is very slow.

If you experience symptoms of decompression sickness while flying high altitudes pilots are advised to immediately begin their descent as soon as possible. more speed. Usually, the symptoms disappear when descending to 6500-7000 m. In case of severe phenomena, a landing is necessary, followed by a suspension from flights for 1-2 days.

The main preventive measure when working in conditions of low atmospheric pressure is the use of apparatus for inhaling pure oxygen, providing warm and comfortable clothing.

Of great importance is also a strict professional selection in the profession associated with staying in conditions of low partial oxygen content, periodic medical examination, as well as preliminary training in a pressure chamber, breathing exercises etc.

With a decrease in the partial pressure of oxygen, its tension in the alveolar air decreases. So, for example, if at normal atmospheric pressure the alveolar oxygen pressure is 100 mm Hg, then at an atmospheric pressure of 600 mm it will be 60 mm, and at a pressure of 350 mm (height 6000 m) - about 30 mm Hg. Art. In this regard, of course, blood oxygen saturation decreases, i.e., anoxemia sets in - the main cause of mountain sickness, or, more correctly, altitude sickness.

The state of anoxemia in altitude sickness, first of all, causes pathological phenomena from the higher nervous activity.

With reduced atmospheric pressure, there is an increase and deepening of breathing, an increase in heart rate (their strength is weaker), a slight drop in blood pressure, and changes in the blood are also observed in the form of an increase in the number of red blood cells. The basis of the adverse effect of low atmospheric pressure on the body is oxygen starvation. It is due to the fact that with a decrease in atmospheric pressure, the partial pressure of oxygen also decreases, therefore, with the normal functioning of the respiratory and circulatory organs, a smaller amount of oxygen enters the body.

We have no control over the weather. But to help your body survive this difficult period is not difficult at all. When forecasting a significant deterioration in weather conditions, and therefore sudden changes in atmospheric pressure, first of all, one should not panic, calm down, reduce physical activity as much as possible, and for those who have a rather difficult adaptation, it is necessary to consult a doctor about prescribing appropriate medications.

Every day in the weather forecast we hear a mention of the level of atmospheric pressure. And if a healthy person is usually not interested in these figures, then for a weather-dependent person they can be decisive in planning the whole day. This is due to the fact that pressure fluctuations in the atmosphere greatly affect the general well-being of hyper- and hypotensive patients, especially in situations where the arrow on the barometer tends to lower values. Therefore, let's see how low atmospheric pressure affects a person.

What is weather dependence?

First of all, you need to understand the concept of meteorological dependence. There are 3 forms of this unofficial "disease", which in total affects up to 75% of Russians:

• Weather sensitivity. The first stage is accompanied by only minor changes in the state of the person.
• Meteorological dependence. At the middle stage, there is a deterioration in well-being within tolerable limits.
• Meteopathy. The most difficult situation with the strongest dependence on the slightest fluctuations in the weather. In this case, a person has to turn to medication for help.

As you know, the level of meteorological dependence is determined by immunity and acquired diseases. Therefore, the better you will monitor your physical and psychological health ( proper nutrition, sports, sleep, etc.), the less the body will react to changes in atmospheric pressure.

The impact of barometric pressure on health

• A decrease in pressure in the atmosphere, on the contrary, contributes to cloudy weather and a deterioration in the well-being of hypotensive patients, who endure such a change the hardest.

This is due to the fact that with a decrease in atmospheric pressure, it also decreases in the vessels. Moreover, there is a decrease in the concentration of oxygen in the air, which makes it difficult to breathe. The pulse becomes more frequent as the heartbeats weaken. All this can adversely affect the already low blood pressure, lowering it to dangerous levels, at which fainting or exacerbation of existing diseases is possible. It is noteworthy that with a decrease in atmospheric pressure, the number of leukocytes (red blood cells) increases.

• The well-being of hypertensive patients in this case depends on whether they took medications that normalize pressure. If not, then most likely the person will feel great. Otherwise, the symptoms are similar to those described above.
• Deterioration in health can also be felt by people suffering from heart disease, as well as those who have problems with intracranial pressure. There may be a strong headache, shortness of breath, apathy and even pain associated with the gastrointestinal tract.

In addition to physical symptoms, there may also be abnormalities associated with a mental state. Mood swings, aggression, and even sleepwalking can also be associated with lower atmospheric pressure.

How to behave with symptoms of weather dependence?

To minimize the effect of weather on the body and protect your nerve cells, experts advise first of all to try to normalize blood pressure:

• Throughout the day, you need to drink as much liquid as possible: green tea or soothing infusions of medicinal herbs.
• Refrain from physical activity and avoid any conflict situations stress will only exacerbate the situation.

It is best to devote such days to relaxation, it can be either yoga classes or just relaxing walks in the green area. In the evening, take a contrast shower and go to bed earlier than usual.

If the weather changes, patients with hypertension also feel bad. Consider how atmospheric pressure affects hypertensive patients and meteorologically dependent people.

Weather dependent and healthy people

Healthy people do not feel any changes in the weather. Weather dependent people experience the following symptoms:

• Dizziness;
• Drowsiness;
• Apathy, lethargy;
• joint pain;
• Anxiety, fear;
• Violations of the gastrointestinal tract;
• fluctuations in blood pressure.

Often, health worsens in the fall, when there is an exacerbation of colds and chronic diseases. In the absence of any pathologies, meteosensitivity is manifested by malaise.

Unlike healthy people, weather-dependent people react not only to fluctuations in atmospheric pressure, but also to an increase in humidity, a sudden cooling or warming. The reason for this is often:

• low physical activity;
• The presence of diseases;
• Fall of immunity;
• Deterioration of the state of the central nervous system;
• Weak blood vessels;
• Age;
• Ecological situation;
• Climate.

As a result, the body's ability to quickly adapt to changes in weather conditions deteriorates.

If the atmospheric pressure is elevated (above 760 mm Hg), there is no wind and precipitation, they speak of the onset of an anticyclone. During this period, there are no sudden changes in temperature. The amount of harmful impurities in the air increases.

The anticyclone has a negative effect on hypertensive patients. An increase in atmospheric pressure leads to an increase in blood pressure. Working capacity decreases, pulsation and pains in the head, heart pains appear. Other symptoms of the negative influence of the anticyclone:

• Increased heart rate;
• Weakness;
• Noise in ears;
• redness of the face;
• Flashing "flies" before the eyes.

The number of white blood cells in the blood decreases, which increases the risk of infections.

Elderly people with chronic cardiovascular diseases are especially susceptible to the effects of the anticyclone.. With an increase in atmospheric pressure, the likelihood of a complication of hypertension increases - a crisis, especially if blood pressure rises to 220/120 mm Hg. Art. It is possible to develop other dangerous complications (embolism, thrombosis, coma).

Poor effect on patients with hypertension and low atmospheric pressure - a cyclone. It is characterized by cloudy weather, precipitation, high humidity. The air pressure drops below 750 mm Hg. Art. The cyclone has the following effect on the body: breathing becomes more frequent, the pulse quickens, however, the strength of heart beats is reduced. Some people experience shortness of breath.

With low air pressure, blood pressure also drops. Taking into account the fact that hypertensive patients take drugs to reduce pressure, the cyclone has a bad effect on well-being. The following symptoms appear:

• Dizziness;
• Drowsiness;
• Headache;
• Prostration.

In some cases, there is a deterioration in the functioning of the gastrointestinal tract.

With an increase in atmospheric pressure, patients with hypertension and weather-dependent people should avoid active physical exertion. Need more rest. Recommended low calorie diet containing an increased amount of fruit.

Even "neglected" hypertension can be cured at home, without surgery and hospitals. Just don't forget once a day...

If the anticyclone is accompanied by heat, it is also necessary to exclude physical exercise. If possible, stay in an air-conditioned room. Will be relevant low calorie diet. Increase the amount of foods rich in potassium in your diet.

Read also: What are the complications of hypertension?

To normalize blood pressure at low atmospheric pressure, doctors recommend increasing the amount of fluid consumed. Drink water, infusions of medicinal herbs. It is necessary to reduce physical activity, more rest.

Good sleep helps. In the morning, you can allow a cup of a drink containing caffeine. During the day, you need to measure the pressure several times.

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Influence of pressure and temperature change

A lot of health problems can be delivered to hypertensive patients and changes in air temperature. During the anticyclone period, combined with heat, the risk of cerebral hemorrhages and heart damage increases significantly.

Due to high temperature and high humidity, the oxygen content in the air decreases. This weather is especially bad for the elderly.

The dependence of blood pressure on atmospheric pressure is not so strong when heat is combined with low humidity and normal or slightly elevated air pressure.

However, in some cases such weather cause blood clotting. This increases the risk of blood clots and the development of heart attacks, strokes.

The well-being of hypertensive patients will worsen if atmospheric pressure rises simultaneously with a sharp drop in temperature. environment. With high humidity, strong wind hypothermia (hypothermia) develops. Excitation of the sympathetic department nervous system causes a decrease in heat transfer and an increase in heat production.

The reduction in heat transfer is caused by a decrease in body temperature due to vasospasm. The process contributes to an increase in the thermal resistance of the body. To protect against hypothermia of the extremities, the skin of the face constricts the vessels that are in these parts of the body.

If the cooling of the body is very sharp, a persistent vascular spasm develops. This can cause an increase in blood pressure. In addition, a sharp cold snap changes the composition of the blood, in particular, the amount of protective proteins decreases.

Above sea level

As you know, the higher from sea level, the lower the air density and the lower the atmospheric pressure. At an altitude of 5 km, it decreases by about 2 r. The influence of air pressure on the blood pressure of a person located high above sea level (for example, in the mountains) is manifested by such signs:

• Increased breathing;
• Acceleration of heart rate;
• Headache;
• Asphyxiation attack;
• Nosebleeds.

Read also: What causes high eye pressure

The basis of the negative impact of low air pressure is oxygen starvation, when the body receives less oxygen. In the future, adaptation occurs, and well-being becomes normal.

A person who constantly lives in such an area does not feel the effect of low atmospheric pressure. You should know that in hypertensive patients, when climbing to a height (for example, during flights), blood pressure can change dramatically, which threatens with loss of consciousness.

Underground

Under ground and water, air pressure is increased. Its effect on blood pressure is directly proportional to the distance one has to descend.

The following symptoms appear: breathing becomes deep and rare, heart rate decreases, but only slightly. The skin becomes slightly numb, the mucous membranes become dry.

The body of a hypertensive person, like an ordinary person, adapts better to changes in atmospheric pressure if they occur slowly.

Much more severe symptoms develop due to a sharp drop: increase (compression) and decrease (decompression). Under conditions of high atmospheric pressure, miners and divers work.

They descend and rise underground (under water) through locks, where the pressure rises / falls gradually. At elevated atmospheric pressure, the gases contained in the air dissolve in the blood. This process is called "saturation". When decompressed, they come out of the blood (desaturation).

If a person goes down great depth underground or under water in violation of the exclusion regime, the body will be oversaturated with nitrogen. Decompression sickness will develop, in which gas bubbles penetrate the vessels, causing multiple embolisms.

The first symptoms of the pathology of the disease are muscle and joint pain. In severe cases, eardrums burst, dizziness, labyrinthine nystagmus develops. Decompression sickness sometimes ends in death.

Meteopathy

Meteopathy is a negative reaction of the body to changes in the weather. Symptoms range from mild malaise to severe myocardial dysfunction that can cause permanent tissue damage.

The intensity and duration of manifestations of meteopathy depend on age, build, and the presence of chronic diseases. Some ailments last up to 7 days. According to medical statistics, 70% of people with chronic ailments and 20% of healthy people have meteopathy.

The reaction to a change in the weather depends on the degree of sensitivity of the body. The first (initial) stage (or meteosensitivity) is characterized by a slight deterioration in well-being, not confirmed by clinical studies.

The second degree is called meteorological dependence, it is accompanied by changes in blood pressure and heart rate. Meteopathy is the most severe third degree.

With hypertension, combined with meteorological dependence, the cause of deterioration of health can be not only fluctuations in atmospheric pressure, but also other environmental changes. Such patients need to pay attention to weather conditions and weather forecasts. This will allow you to take the measures recommended by the doctor in time.

Normal atmospheric pressure varies from 750 to 760 mm Hg. Art. For a year it can change by 30 mm, and for a day - 1-3 mm. Many people complain that they feel worse when the weather changes, calling themselves weather dependent. Also, similar symptoms occur in people with hypertension and hypotension.

Relationship between blood pressure and atmospheric pressure

Blood pressure shows how intensely blood is pushed out of the heart and how vascular resistance occurs. Mainly influenced by changes in anticyclones or cyclones. Symptoms vary depending on whether the person has high or low blood pressure.

Hypotensive patients usually suffer from low atmospheric pressure, but this does not affect hypertensive patients so much. But if heat accompanied by high humidity, the state of health often deteriorates and the pressure rises. This is the reason why it is harmful for hypertensive patients to play sports in the heat.

When climbing a mountain or immersing in water, the effect of atmospheric pressure on blood pressure is noticeable. Climbing to altitude often requires an oxygen mask. Symptoms such as respiratory pathology, nosebleeds, and rapid heartbeat are observed.

People who suffer from high blood pressure often faint because of this. During immersion in water, an increase in atmospheric pressure occurs, which can also harm hypertensive patients.

It is necessary to dive to depth through locks in which the pressure changes slowly. At high atmospheric pressure, the gases that are present in the air dissolve in the blood, which is called "saturation". Decompression provokes their exit from the blood. The process is called "desaturation".

When lowering under the ground or water in violation of the sluice mode, a supersaturation with nitrogen will occur. This can lead to decompression sickness. It consists in the penetration of gas bubbles into the vessels, which lead to the appearance of embolism in large quantities.

This problem is expressed in painful sensations in the joints and muscles. In the advanced stages, the eardrums burst, dizziness appears, and labyrinthine nystagmus develops. The disease can lead to death.

The cyclone comes from warm air and water evaporated from the ocean. The weather changes, becomes warmer, there are rains, high humidity. The amount of oxygen in the air decreases and carbon dioxide increases. The cyclone has a bad effect on people with diseases of the heart and blood vessels. It is expressed as a decrease in atmospheric pressure.

The anticyclone is expressed in clear, dry weather without wind. The air is standing, there are no clouds. This can take up to 5 days. If the duration exceeds 14 days, warm time year, fires often start due to abnormal heat and drought. An anticyclone is expressed by increased atmospheric pressure.

Hypertension and high atmospheric pressure

If atmospheric pressure exceeds 760 mm Hg. Art. , there is no wind and precipitation - an anticyclone is coming. At this time, there are no sudden temperature jumps, harmful impurities in the air increase.

This weather is negative impact for patients suffering from high blood pressure. The ability to work decreases, throbbing pains in the head are observed, the heart hurts.

You can also see symptoms such as:

The anticyclone has a particularly bad effect on pensioners suffering from diseases. of cardio-vascular system chronic nature. The risk of a crisis increases, especially with indicators of 220120 mm Hg. Art. It can also lead to coma, thrombosis, embolism.

Low atmospheric pressure and hypertension

Cyclone also provides Negative influence at high blood pressure. Outside the window is observed high humidity air, rain, overcast weather. The air pressure drops to less than 750 mmHg.

Often, hypertensive patients take medications, so low atmospheric pressure can cause the following symptoms:

With an anticyclone, hypertensive patients should not go in for sports, pay more attention to rest. Eat better low-calorie foods, eat more fruits. If heat is observed during the anticyclone, physical activity should be excluded. You need to make sure that the air conditioner is working in the room.

With a cyclone, you need to drink plenty of fluids, herbal decoctions. You need to sleep well, on awakening you can drink or tea. You need to check the pressure readings on the tonometer several times during the day.

Anticyclone and hypotension

The anticyclone has a negative effect on hypertensive patients, but hypotensive patients sometimes suffer from unpleasant symptoms. This can be explained by the adaptive properties of the organism. If hypotensive patients have at least a slight increase in pressure (even if for ordinary people this indicator is the norm), they tolerate it very badly.

Cyclone and hypotension

The cyclone is bad for the health of hypotensive patients. They show symptoms such as:

Complications from the influence of a cyclone are a hypotonic crisis and coma.

To improve well-being, you need to raise blood pressure. A sound sleep will help with this, when you wake up, you can drink a drink with caffeine, take a contrast shower. During the negative effects of a cyclone and an anticyclone, you need to drink more water, you can use ginseng tincture. Hypotension patients are very well influenced by hardening procedures.

Reactions to weather changes

A negative reaction to weather changes manifests itself in three stages:

The duration of symptoms and their intensity depend on weight, age, chronic diseases. Sometimes they can last a week. Meteopathy affects 70% of patients with chronic diseases and 30% of ordinary people.

Many factors can affect blood pressure indicators, including atmospheric pressure drop - a gaseous shell surrounding the planet, pressing with a certain force on the surface.

The question arises, how does low atmospheric pressure or high pressure affect a person? The most acceptable indicator for people is 760 mmHg. Minor fluctuations in any direction up to 10 mm do not affect SD and DD in any way, do not affect well-being.

In a healthy person, the condition will not worsen with a strong drop. However, this statement does not apply to hypertensive and hypotensive people, meteorologically dependent people. Changing weather conditions can provoke a sharp decrease or increase in blood pressure.

Fluctuations in the atmosphere negatively affect the functionality of the cardiovascular system, blood vessels, which leads to lability of indicators on the tonometer.

Atmospheric and blood pressure: the relationship

The norm of pressure in the atmosphere varies from 750 to 760 mm. However, such numbers are rare. With an increase, the weather improves, and the body of hypertensive patients and weather-dependent people begins to “rebel”.

If the atmospheric load decreases, then the weather is cloudy, and hypotensive patients feel much worse. They endure such changes the hardest.

This circumstance is due to the fact that a decrease in figures in the atmosphere leads to a decrease in the "pressure" in the blood vessels. In addition, the oxygen concentration decreases, which makes it difficult to work. respiratory system. The pulse quickens, while the rhythm of the heart slows down.

Together, these factors can lead to a sharp decrease in DM and DD in hypotensive patients, as a result, fainting or exacerbation of comorbidities.

Effect of atmospheric pressure on blood pressure:

• In hypotensive patients, with a decrease in atmospheric indicators, pressure drops sharply; their increase does not affect well-being.
• With a decrease in atmospheric load, hypertensive patients feel good; its growth provokes a number of negative symptoms, can lead to a hypertensive crisis, stroke and heart attack.
• If people have diseases of the cardiovascular system, then fluctuations in weather conditions do not pass without a trace. Symptoms: severe headache, increased intracranial pressure, shortness of breath, pain in a stomach.

Atmospheric indicators and air temperature also affect the mental state of a person - aggression, irritability and agitation, instability of the emotional state appear.

Effect on blood pressure of cyclones and anticyclones

During cyclones, the air temperature rises, precipitation, high humidity and cloudiness are observed. The level of oxygen decreases significantly, while the concentration of carbon dioxide increases.

Such weather conditions negatively affect the well-being of a person with chronically low blood pressure. Due to the lack of air, hypotension sufferers experience a spectrum of alarming symptoms.

In the body, blood circulation slows down, the frequency of pulse beats per minute decreases, internal organs and tissues suffer from lack of oxygen and nutrients. As a result, SD and DD are further reduced.

Upon the advent of the anticyclone, dry weather is established without wind. Accumulation of harmful impurities occurs in the air, gas pollution increases several times. How does high atmospheric pressure affect a person?

A healthy person will not notice a change in his condition. In hypertensive patients, there is a sharp jump in blood pressure, symptoms are revealed:

1. Heartbeat quickens.
2. Skin hyperemia.
3. General weakness.
4. Pulsation in the head.
5. Cloudy vision.
6. Noise and ringing in the ears.

Elderly people with a history of vascular and cardiovascular diseases are especially susceptible to drops. The likelihood of a hypertensive attack with neurovegetative disorders is increasing.

What increases BP?

The systolic and diastolic rate depends on many factors. These include smoking, drinking alcoholic beverages, hot season, diet, daily routine, etc. Hypertensive and hypotensive patients are forced to give up a lot in order to maintain the numbers within normal limits.

How does coffee affect a person's blood pressure? Coffee beans contain a high concentration of caffeine, a powerful herbal stimulant that has a tonic and invigorating effect.

The drink helps to increase blood "pressure" in hypertensive patients, but not for long. After a few hours, the numbers normalize on their own. If you drink the drink on a regular basis, each time the blood pressure will decrease more slowly, and then remain elevated. Coffee can be replaced with chicory.