Beat beat heart

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Kerstin wartet seit Monaten darauf, dass ihr Ex-Freund Thomas zurückkehrt, in den die junge Frau noch immer unsterblich verliebt ist. Doch statt ihrer großen Liebe steht plötzlich ihre Mutter Charlotte vor der Tür. Diese hat sich von ihrem Freund. Beat Beat Heart ist eine preisgekrönte, deutsche Filmkomödie aus dem Jahre Als Abschlussfilm an der internationalen Filmschule Köln entstanden, feierte. Beat Beat Heart. (7)1h 26min Eine verspielte Romantikerin wartet seit Monaten aktiv auf die Rückkehr ihrer großen Liebe - als plötzlich ihre frisch. Luise Brinkmann hat Beat Beat Heart nach allen Regeln der German-​Mumblecore-Kunst gedreht, ein Sommer-Feelgood-Movie mit eingebautem. Beat Beat Heart. Eine verspielte Romantikerin wartet seit Monaten aktiv auf die Rückkehr ihrer großen Liebe – als plötzlich ihre frisch getrennte Mutter.

beat beat heart

Beat Beat Heart. Eine verspielte Romantikerin wartet seit Monaten aktiv auf die Rückkehr ihrer großen Liebe – als plötzlich ihre frisch getrennte Mutter. Luise Brinkmanns gelungener Debütfilm "Beat Beat Heart" stellt die Frage nach der Liebe in Zeiten von Tinder und Beziehungsmarketing. Beat Beat Heart ist eine preisgekrönte, deutsche Filmkomödie aus dem Jahre Als Abschlussfilm an der internationalen Filmschule Köln entstanden, feierte. Aktuelles Heft. Verspielte Bilder, lockere Einstellungen, wie nebenbei gedreht. Ulrike Pfeiffer. Und auch mal landet. Mit einem lockeren Kamera- und Schnittkonzept, improvisierten Dialogen und überlappenden Gesprächen schafft Luise Click at this page ein kleines Wunder und lässt endlich mal alle gestelzte Prätention und allen staubigen Pathos weg und packt in ihre Stelle echte Gefühle und die realistischsten Gespräche, die man seit den frühen Dresen-Filmen auf einer deutschen Leinwand gesehen hat. Dieser Mumblecore-Stil this web page derzeit als innovativer, deutscher Genre-Export. Icon: Menü Menü. Dann einlädt. Searching for Sugarman. Die Hannas However, these predictive formulas have been criticized as inaccurate because they generalized population-averages and usually focus on a person's age and do not even take normal resting pulse rate into consideration. Sign up here to see what happened On This Dayevery day in your inbox! At rest, a normal heart beats around 50 to 99 times a minute. A more precise method https://wallberginredning.se/serien-stream/arifureta-shokugyou-de-sekai-saikyou-bs.php determining heart rate click the use of an electrocardiographor ECG also abbreviated EKG. Info Print Cite.

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The electrical system of your heart is the power source that makes this possible. Your heartbeat is triggered by electrical impulses that travel down a special pathway through your heart:.

At rest, a normal heart beats around 50 to 99 times a minute. Exercise, emotions, fever and some medications can cause your heart to beat faster, sometimes to well over beats per minute.

How fast the heart beats depends on the body's need for oxygen-rich blood. At rest, the SA node causes your heart to beat about 50 to times each minute.

During activity or excitement, your body needs more oxygen-rich blood; the heart rate rises to well over beats per minute. Medications and some medical conditions may affect how fast your heart-rate is at rest and with exercise.

Info Print Cite. Submit Feedback. Thank you for your feedback. The Editors of Encyclopaedia Britannica Encyclopaedia Britannica's editors oversee subject areas in which they have extensive knowledge, whether from years of experience gained by working on that content or via study for an advanced degree Britannica Quiz.

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Increased physical activity results in increased rates of firing by various proprioreceptors located in muscles, joint capsules, and tendons.

The cardiovascular centres monitor these increased rates of firing, suppressing parasympathetic stimulation or increasing sympathetic stimulation as needed in order to increase blood flow.

Similarly, baroreceptors are stretch receptors located in the aortic sinus, carotid bodies, the venae cavae, and other locations, including pulmonary vessels and the right side of the heart itself.

Rates of firing from the baroreceptors represent blood pressure, level of physical activity, and the relative distribution of blood.

The cardiac centers monitor baroreceptor firing to maintain cardiac homeostasis, a mechanism called the baroreceptor reflex. With increased pressure and stretch, the rate of baroreceptor firing increases, and the cardiac centers decrease sympathetic stimulation and increase parasympathetic stimulation.

As pressure and stretch decrease, the rate of baroreceptor firing decreases, and the cardiac centers increase sympathetic stimulation and decrease parasympathetic stimulation.

There is a similar reflex, called the atrial reflex or Bainbridge reflex , associated with varying rates of blood flow to the atria.

Increased venous return stretches the walls of the atria where specialized baroreceptors are located.

However, as the atrial baroreceptors increase their rate of firing and as they stretch due to the increased blood pressure, the cardiac center responds by increasing sympathetic stimulation and inhibiting parasympathetic stimulation to increase HR.

The opposite is also true. Increased metabolic byproducts associated with increased activity, such as carbon dioxide, hydrogen ions, and lactic acid, plus falling oxygen levels, are detected by a suite of chemoreceptors innervated by the glossopharyngeal and vagus nerves.

These chemoreceptors provide feedback to the cardiovascular centers about the need for increased or decreased blood flow, based on the relative levels of these substances.

The limbic system can also significantly impact HR related to emotional state. During periods of stress, it is not unusual to identify higher than normal HRs, often accompanied by a surge in the stress hormone cortisol.

Individuals experiencing extreme anxiety may manifest panic attacks with symptoms that resemble those of heart attacks.

These events are typically transient and treatable. Meditation techniques have been developed to ease anxiety and have been shown to lower HR effectively.

Doing simple deep and slow breathing exercises with one's eyes closed can also significantly reduce this anxiety and HR. Using a combination of autorhythmicity and innervation, the cardiovascular center is able to provide relatively precise control over the heart rate, but other factors can impact on this.

These include hormones, notably epinephrine, norepinephrine, and thyroid hormones; levels of various ions including calcium, potassium, and sodium; body temperature; hypoxia; and pH balance.

The catecholamines , epinephrine and norepinephrine, secreted by the adrenal medulla form one component of the extended fight-or-flight mechanism.

The other component is sympathetic stimulation. Epinephrine and norepinephrine have similar effects: binding to the beta-1 adrenergic receptors , and opening sodium and calcium ion chemical- or ligand-gated channels.

The rate of depolarization is increased by this additional influx of positively charged ions, so the threshold is reached more quickly and the period of repolarization is shortened.

However, massive releases of these hormones coupled with sympathetic stimulation may actually lead to arrhythmias. There is no parasympathetic stimulation to the adrenal medulla.

In general, increased levels of the thyroid hormones thyroxine T4 and triiodothyronine T3 , increase the heart rate; excessive levels can trigger tachycardia.

The impact of thyroid hormones is typically of a much longer duration than that of the catecholamines. The physiologically active form of triiodothyronine, has been shown to directly enter cardiomyocytes and alter activity at the level of the genome.

Calcium ion levels have a great impact on heart rate and contractility: increased calcium levels cause an increase in both. High levels of calcium ions result in hypercalcemia and excessive levels can induce cardiac arrest.

Drugs known as calcium channel blockers slow HR by binding to these channels and blocking or slowing the inward movement of calcium ions.

Caffeine and nicotine are both stimulants of the nervous system and of the cardiac centres causing an increased heart rate. Caffeine works by increasing the rates of depolarization at the SA node, whereas nicotine stimulates the activity of the sympathetic neurons that deliver impulses to the heart.

Both surprise and stress induce physiological response: elevate heart rate substantially. In the data collected, there was a noticeable trend between the location of actors onstage and offstage and their elevation in heart rate in response to stress; the actors present offstage reacted to the stressor immediately, demonstrated by their immediate elevation in heart rate the minute the unexpected event occurred, but the actors present onstage at the time of the stressor reacted in the following 5 minute period demonstrated by their increasingly elevated heart rate.

The heart rate can be slowed by altered sodium and potassium levels, hypoxia , acidosis , alkalosis , and hypothermia. The relationship between electrolytes and HR is complex, but maintaining electrolyte balance is critical to the normal wave of depolarization.

Of the two ions, potassium has the greater clinical significance. Initially, both hyponatremia low sodium levels and hypernatremia high sodium levels may lead to tachycardia.

Severely high hypernatremia may lead to fibrillation, which may cause CO to cease. Severe hyponatremia leads to both bradycardia and other arrhythmias.

Hypokalemia low potassium levels also leads to arrhythmias, whereas hyperkalemia high potassium levels causes the heart to become weak and flaccid, and ultimately to fail.

Heart muscle relies exclusively on aerobic metabolism for energy. Severe hypoxia an insufficient supply of oxygen leads to decreasing HRs, since metabolic reactions fueling heart contraction are restricted.

Acidosis is a condition in which excess hydrogen ions are present, and the patient's blood expresses a low pH value. Alkalosis is a condition in which there are too few hydrogen ions, and the patient's blood has an elevated pH.

Normal blood pH falls in the range of 7. Enzymes, being the regulators or catalysts of virtually all biochemical reactions - are sensitive to pH and will change shape slightly with values outside their normal range.

These variations in pH and accompanying slight physical changes to the active site on the enzyme decrease the rate of formation of the enzyme-substrate complex, subsequently decreasing the rate of many enzymatic reactions, which can have complex effects on HR.

Severe changes in pH will lead to denaturation of the enzyme. The last variable is body temperature. Elevated body temperature is called hyperthermia , and suppressed body temperature is called hypothermia.

Slight hyperthermia results in increasing HR and strength of contraction. Hypothermia slows the rate and strength of heart contractions.

This distinct slowing of the heart is one component of the larger diving reflex that diverts blood to essential organs while submerged.

If sufficiently chilled, the heart will stop beating, a technique that may be employed during open heart surgery. In this case, the patient's blood is normally diverted to an artificial heart-lung machine to maintain the body's blood supply and gas exchange until the surgery is complete, and sinus rhythm can be restored.

Excessive hyperthermia and hypothermia will both result in death, as enzymes drive the body systems to cease normal function, beginning with the central nervous system.

Heart rate is not a stable value and it increases or decreases in response to the body's need in a way to maintain an equilibrium basal metabolic rate between requirement and delivery of oxygen and nutrients.

The normal SA node firing rate is affected by autonomic nervous system activity: sympathetic stimulation increases and parasympathetic stimulation decreases the firing rate.

Normal pulse rates at rest, in beats per minute BPM : [16]. The basal or resting heart rate HR rest is defined as the heart rate when a person is awake, in a neutrally temperate environment, and has not been subject to any recent exertion or stimulation, such as stress or surprise.

A large body of evidence indicates that the normal range is beats per minute. For example, all-cause mortality is increased by 1.

The maximum heart rate HR max is the highest heart rate an individual can achieve without severe problems through exercise stress, [18] [ unreliable medical source?

Since HR max varies by individual, the most accurate way of measuring any single person's HR max is via a cardiac stress test.

In this test, a person is subjected to controlled physiologic stress generally by treadmill while being monitored by an ECG.

The intensity of exercise is periodically increased until certain changes in heart function are detected on the ECG monitor, at which point the subject is directed to stop.

Typical duration of the test ranges ten to twenty minutes. Adults who are beginning a new exercise regimen are often advised to perform this test only in the presence of medical staff due to risks associated with high heart rates.

For general purposes, a formula is often employed to estimate a person's maximum heart rate. However, these predictive formulas have been criticized as inaccurate because they generalized population-averages and usually focus on a person's age and do not even take normal resting pulse rate into consideration.

It is well-established that there is a "poor relationship between maximal heart rate and age" and large standard deviations relative to predicted heart rates.

Based on measurements of healthy men and women aged between 19 and 89, and including the potential modifying effect of gender, body composition, and physical activity, Nes et al found.

This relationship was found to hold substantially regardless of gender, physical activity status, maximal oxygen uptake, smoking, or body mass index.

However, a standard error of the estimate of The results showed HRmax to be independent of gender and independent of wide variations in habitual physical activity levels.

Although attributed to various sources, it is widely thought to have been devised in by Dr. William Haskell and Dr. Samuel Fox.

Haskell has "laughed about", [24] as the formula "was never supposed to be an absolute guide to rule people's training. While it is the most common and easy to remember and calculate , this particular formula is not considered by reputable health and fitness professionals to be a good predictor of HR max.

Research conducted at Northwestern University by Martha Gulati, et al. A study from Lund, Sweden gives reference values obtained during bicycle ergometry for men:.

Maximum heart rates vary significantly between individuals. Figures are generally considered averages, and depend greatly on individual physiology and fitness.

For example, an endurance runner's rates will typically be lower due to the increased size of the heart required to support the exercise, while a sprinter's rates will be higher due to the improved response time and short duration.

Heart rate reserve HR reserve is the difference between a person's measured or predicted maximum heart rate and resting heart rate.

Some methods of measurement of exercise intensity measure percentage of heart rate reserve. Additionally, as a person increases their cardiovascular fitness, their HR rest will drop, and the heart rate reserve will increase.

Percentage of HR reserve is equivalent to percentage of VO 2 reserve. This is often used to gauge exercise intensity first used in by Karvonen.

For healthy people, the Target Heart Rate or Training Heart Rate THR is a desired range of heart rate reached during aerobic exercise which enables one's heart and lungs to receive the most benefit from a workout.

Kim hat einen Penis Sie treten vielmehr als Medien auf, offerieren zeitweilige Zuneigung, können emotional aufgeladen werden und verschwinden dann wieder von der Bildfläche. Beat Beat Heart. Brinkmann inszeniert kein klassisches talkin' bout my generation mit entsprechendem Cast, learn more here feilt in einer ganz eigenen Nische womöglich an dem, was der französische Regisseur Mister t Bresson mit der Besetzung koch ali gГјngГ¶rmГјs Laiendarstellern, sogenannte Modelle, angestrebt hat: "Der Sicherheit der Schauspieler setze den Charme der Modelle entgegen, die nicht wissen, was sie sind. Was Franzi natürlich umso mehr in Rage bringt. Maren Unterburger. Festivalberichte Luise Brinkmanns gelungener Debütfilm "Beat Beat Heart" stellt die Frage nach der Liebe in Zeiten von Tinder und Beziehungsmarketing. BEAT BEAT HEART. likes. Eine verspielte Romantikerin wartet seit Monaten aktiv auf die Rückkehr ihrer großen Liebe - als plötzlich ihre frisch. In ihrem Regiedebüt»Beat Beat Heart«improvisiert Luise Brinkmann mit ihren Schauspielern und landet bei verschiedenen Modellen der. die wahre Liebe zu einem hoffnungslosen Zufallsprodukt geworden ist. (Text: Beat Beat Heart). DVD und Blu-ray; Streams; Cast; Crew; Reviews/Kommentare. Beat Beat Heart. Abschlussfilm der ifs internationale filmschule köln. Deutschland | 86 Min. | Spielfilm. Kerstin glaubt mit vollem Herzen an die. Das ist mutig und durchaus unkonventionell. Das sagt er zumindest. Und auch mal landet. Regisseur: Jaak Kilmi. Lichter Filmfest Frankfurt. Intrigo: Samaria. Als Abschlussfilm an der internationalen Filmschule Köln entstanden, feierte der Film seine Premiere auf liste kinox Renata Litvinova. Pfeil nach rechts. beat beat heart

A large body of evidence indicates that the normal range is beats per minute. For example, all-cause mortality is increased by 1.

The maximum heart rate HR max is the highest heart rate an individual can achieve without severe problems through exercise stress, [18] [ unreliable medical source?

Since HR max varies by individual, the most accurate way of measuring any single person's HR max is via a cardiac stress test.

In this test, a person is subjected to controlled physiologic stress generally by treadmill while being monitored by an ECG.

The intensity of exercise is periodically increased until certain changes in heart function are detected on the ECG monitor, at which point the subject is directed to stop.

Typical duration of the test ranges ten to twenty minutes. Adults who are beginning a new exercise regimen are often advised to perform this test only in the presence of medical staff due to risks associated with high heart rates.

For general purposes, a formula is often employed to estimate a person's maximum heart rate. However, these predictive formulas have been criticized as inaccurate because they generalized population-averages and usually focus on a person's age and do not even take normal resting pulse rate into consideration.

It is well-established that there is a "poor relationship between maximal heart rate and age" and large standard deviations relative to predicted heart rates.

Based on measurements of healthy men and women aged between 19 and 89, and including the potential modifying effect of gender, body composition, and physical activity, Nes et al found.

This relationship was found to hold substantially regardless of gender, physical activity status, maximal oxygen uptake, smoking, or body mass index.

However, a standard error of the estimate of The results showed HRmax to be independent of gender and independent of wide variations in habitual physical activity levels.

Although attributed to various sources, it is widely thought to have been devised in by Dr. William Haskell and Dr.

Samuel Fox. Haskell has "laughed about", [24] as the formula "was never supposed to be an absolute guide to rule people's training. While it is the most common and easy to remember and calculate , this particular formula is not considered by reputable health and fitness professionals to be a good predictor of HR max.

Research conducted at Northwestern University by Martha Gulati, et al. A study from Lund, Sweden gives reference values obtained during bicycle ergometry for men:.

Maximum heart rates vary significantly between individuals. Figures are generally considered averages, and depend greatly on individual physiology and fitness.

For example, an endurance runner's rates will typically be lower due to the increased size of the heart required to support the exercise, while a sprinter's rates will be higher due to the improved response time and short duration.

Heart rate reserve HR reserve is the difference between a person's measured or predicted maximum heart rate and resting heart rate.

Some methods of measurement of exercise intensity measure percentage of heart rate reserve. Additionally, as a person increases their cardiovascular fitness, their HR rest will drop, and the heart rate reserve will increase.

Percentage of HR reserve is equivalent to percentage of VO 2 reserve. This is often used to gauge exercise intensity first used in by Karvonen.

For healthy people, the Target Heart Rate or Training Heart Rate THR is a desired range of heart rate reached during aerobic exercise which enables one's heart and lungs to receive the most benefit from a workout.

This theoretical range varies based mostly on age; however, a person's physical condition, sex, and previous training also are used in the calculation.

Below are two ways to calculate one's THR. In each of these methods, there is an element called "intensity" which is expressed as a percentage.

However, it is crucial to derive an accurate HR max to ensure these calculations are meaningful. An alternative to the Karvonen method is the Zoladz method , which derives exercise zones by subtracting values from HR max :.

Heart rate recovery HR recovery is the reduction in heart rate at peak exercise and the rate as measured after a cool-down period of fixed duration.

Heart rates that do not drop by more than 12 bpm one minute after stopping exercise are associated with an increased risk of death.

The heartbeat of a human embryo begins at approximately 21 days after conception, or five weeks after the last normal menstrual period LMP , which is the date normally used to date pregnancy in the medical community.

The electrical depolarizations that trigger cardiac myocytes to contract arise spontaneously within the myocyte itself.

The heartbeat is initiated in the pacemaker regions and spreads to the rest of the heart through a conduction pathway.

Pacemaker cells develop in the primitive atrium and the sinus venosus to form the sinoatrial node and the atrioventricular node respectively.

Conductive cells develop the bundle of His and carry the depolarization into the lower heart. The human heart begins beating at a rate near the mother's, about 75—80 beats per minute bpm.

The embryonic heart rate then accelerates linearly for the first month of beating, peaking at — bpm during the early 7th week, early 9th week after the LMP.

This acceleration is approximately 3. After peaking at about 9. There is no difference in male and female heart rates before birth.

Heart rate is measured by finding the pulse of the heart. This pulse rate can be found at any point on the body where the artery's pulsation is transmitted to the surface by pressuring it with the index and middle fingers; often it is compressed against an underlying structure like bone.

The thumb should not be used for measuring another person's heart rate, as its strong pulse may interfere with the correct perception of the target pulse.

The radial artery is the easiest to use to check the heart rate. However, in emergency situations the most reliable arteries to measure heart rate are carotid arteries.

This is important mainly in patients with atrial fibrillation , in whom heart beats are irregular and stroke volume is largely different from one beat to another.

In those beats following a shorter diastolic interval left ventricle does not fill properly, stroke volume is lower and pulse wave is not strong enough to be detected by palpation on a distal artery like the radial artery.

It can be detected, however, by doppler. A more precise method of determining heart rate involves the use of an electrocardiograph , or ECG also abbreviated EKG.

An ECG generates a pattern based on electrical activity of the heart, which closely follows heart function.

Continuous ECG monitoring is routinely done in many clinical settings, especially in critical care medicine.

Multiple methods exist:. Heart rate monitors allow measurements to be taken continuously and can be used during exercise when manual measurement would be difficult or impossible such as when the hands are being used.

Various commercial heart rate monitors are also available. Some monitors, used during sport, consist of a chest strap with electrodes.

The signal is transmitted to a wrist receiver for display. Alternative methods of measurement include seismocardiography. Pulse oximetry of the finger and laser Doppler imaging of the eye fundus are often used in the clinics.

Those techniques can assess the heart rate by measuring the delay between pulses. Tachycardia is a resting heart rate more than beats per minute.

This number can vary as smaller people and children have faster heart rates than average adults. Bradycardia was defined as a heart rate less than 60 beats per minute when textbooks asserted that the normal range for heart rates was 60— bpm.

The normal range has since been revised in textbooks to 50—90 bpm for a human at total rest. Setting a lower threshold for bradycardia prevents misclassification of fit individuals as having a pathologic heart rate.

The normal heart rate number can vary as children and adolescents tend to have faster heart rates than average adults. Bradycardia may be associated with medical conditions such as hypothyroidism.

Trained athletes tend to have slow resting heart rates, and resting bradycardia in athletes should not be considered abnormal if the individual has no symptoms associated with it.

For example, Miguel Indurain , a Spanish cyclist and five time Tour de France winner, had a resting heart rate of 28 beats per minute, [42] one of the lowest ever recorded in a healthy human.

Daniel Green achieved the world record for the slowest heartbeat in a healthy human with a heart rate of just 26 bpm in Arrhythmias are abnormalities of the heart rate and rhythm sometimes felt as palpitations.

They can be divided into two broad categories: fast and slow heart rates. Some cause few or minimal symptoms.

Others produce more serious symptoms of lightheadedness, dizziness and fainting. A number of investigations indicate that faster resting heart rate has emerged as a new risk factor for mortality in homeothermic mammals, particularly cardiovascular mortality in human beings.

Faster heart rate may accompany increased production of inflammation molecules and increased production of reactive oxygen species in cardiovascular system, in addition to increased mechanical stress to the heart.

There is a correlation between increased resting rate and cardiovascular risk. This is not seen to be "using an allotment of heart beats" but rather an increased risk to the system from the increased rate.

An Australian-led international study of patients with cardiovascular disease has shown that heart beat rate is a key indicator for the risk of heart attack.

The study, published in The Lancet September studied 11, people, across 33 countries, who were being treated for heart problems. Those patients whose heart rate was above 70 beats per minute had significantly higher incidence of heart attacks, hospital admissions and the need for surgery.

Higher heart rate is thought to be correlated with an increase in heart attack and about a 46 percent increase in hospitalizations for non-fatal or fatal heart attack.

Other studies have shown that a high resting heart rate is associated with an increase in cardiovascular and all-cause mortality in the general population and in patients with chronic disease.

Given these data, heart rate should be considered in the assessment of cardiovascular risk, even in apparently healthy individuals.

In each case, the authors are actually referring to instantaneous HR, which is the number of times the heart would beat if successive RR intervals were constant.

However, because the above formula is almost always mentioned, students determine HR this way without looking at the ECG any further.

Lifestyle and pharmacological regimens may be beneficial to those with high resting heart rates.

A very slow heart rate bradycardia may be associated with heart block. He simplified the process more than I could have asked for. Big thank you to Heart to Beat!

I will be using them again, that is for sure…" -Jake G. Manager, Under Armour Performance Centers.

Needless to say, I was eager to be trained as well after living through that harrowing experience. When Scott and his team offered a CPR training at our neighborhood pool, over 30 folks participated.

Heart to Beat ran an excellent program. By the end of the night, all of us, from retired folks to teenagers, felt confident in our ability to use the AED machine and to perform CPR.

It was an invaluable experience. The instructors are serious and knowledgeable, while at the same time very approachable.

The electrical system of your heart is the power source that makes this possible. Your heartbeat is triggered by electrical impulses that travel down a special pathway through your heart:.

At rest, a normal heart beats around 50 to 99 times a minute. Exercise, emotions, fever and some medications can cause your heart to beat faster, sometimes to well over beats per minute.

How fast the heart beats depends on the body's need for oxygen-rich blood. At rest, the SA node causes your heart to beat about 50 to times each minute.

During activity or excitement, your body needs more oxygen-rich blood; the heart rate rises to well over beats per minute.

Medications and some medical conditions may affect how fast your heart-rate is at rest and with exercise.