![\"The](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/07\/human-heart.jpg\")
History Of The Human Heart In Science<\/strong><\/h2>\nWe have been discussing the heart throughout history. So much so, we’ve seen some wild assumptions about how or why we have one. Ancient Egyptians believed organs had a will of their own and could move around the body, funny enough. Some people who went to medical professionals for help at the time experienced what some would call early witchcraft magic. This did nothing, but the assumption that it did and the fact that not all conditions were serious, left people assuming these actions helped.<\/p>\n
Plato disagreed somewhat with Socrates on the heart, as he felt that reasoning began in the brain but the passions came from one’s heart. They both come from the brain, technically. Aristotle’s Philosophy also shaped how people felt about the inner workings of the heart<\/a>. It was in his philosophy that we get the term “heartfelt.” He believed the heart collected sensory input from the peripheral organs through blood vessels. This is clearly not true. However, the fact that most people felt this way was likely due to their lack of medical experience, especially when it came to dissection.<\/p>\n<\/p>\n![\"Hippocrates](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/06\/hippocrates-ac-odyssey.jpg\")
Hippocrates AC Odyssey. Photo Credit: YouTube<\/em><\/figcaption><\/figure>\nHippocrates’ Discoveries On The Heart and Cardiology In General<\/strong><\/h2>\nGreek Physician Hippocrates made major discoveries<\/a> during his time. He is credited with more discoveries about the human body than any man in history. Though some of his concepts have since been expanded upon or switched up, mostly due to modern knowledge and equipment that he never had access to.<\/p>\nHe is technically considered the first cardiologist or heart expert, as he discovered several heart-related diseases. He also discovered blood vessels and how they operated, while disproving the myth of the heart being the place our mental capacity comes from.<\/p>\n
<\/p>\n![\"Hippocrates](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/hippocrates-statue.jpg\")
Hippocrates statue. Photo Credit: Ugis Riba\/Shutterstock<\/em><\/figcaption><\/figure>\nHippocratic Heart Discoveries And Research<\/strong><\/h2>\nHippocrates even wrote a book all about the human heart simply called The Heart<\/em>. It is the first time<\/a> that the four chambers and four valves are mentioned, along with the Great Vessels. He also described what the heart looked like, claiming it looked similar to a pyramid. Hippocrates also claimed the color was dark red too, which is pretty much accurate.<\/p>\nMeanwhile, he also referenced that the heart worked as a muscle, becoming the first person in history to make this connection. Today, we know that Hippocrates was not entirely wrong or right about his muscle comment. Yet this was not due to being off by any means. He claimed it worked as a muscle due to how he and others knew muscles to work in their time. We’d later discover other forms of muscle, how they work, and much more.<\/p>\n
<\/p>\n![\"Erasistratus](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/erasistratus-the-physician-discovers-the-love-of-antiochus-for-stratonice.jpg\")
Erasistratus diagnosing Antiochus with unrequited love. Photo Credit: Wikimedia Commons<\/em><\/figcaption><\/figure>\nErasistratus Of Chios And His Major Discoveries Part 1<\/strong><\/h2>\nPhysician Erasistratus of Chios lived during the late BCE period between 304-250 B.C. During his life, he was heavily dedicated to the medical world, obsessed with the human body. Today, he is credited with being one of the major founders of modern neuroscience as he discovered several nerves.<\/a><\/p>\nHe then was the first to find out they worked for the brain and skeletal regions overall. Yet he was not just focused on the brain but also on several other areas of the body. He lived shortly after Hippocrates passed away, but also practiced in Alexandria. The two did not agree on everything but did have some similarities.<\/p>\n
<\/p>\n![\"Erasistratus](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/erasistratus-of-chios-2.jpg\")
Erasistratus Discovering the Cause of Antiochus’ Disease. Photo Credit: Wikimedia Commons<\/em><\/figcaption><\/figure>\nErasistratus of Chios And His Major Discoveries Part 2<\/strong><\/h2>\nSadly, the destruction of the Library of Alexandria resulted in several writings by Erasistratus being destroyed. Most of the work we know today was referenced by Galen. Erasistratus, along with his fellow Herophilus, were among the few to perform dissections regularly until the Renaissance Era.<\/p>\n
It is due to this that they were able to fully describe the valves of the heart. They agreed with Hippocrates and others that the heart was not the center of sensations. Rather, Erasistratus claimed the human heart operated as a functioning pump<\/a> for the body. This is basically true, and we know that today. Yet imagine how hard it was to confirm something like this in the late B.C. era, without all the medical tools, equipment, and technology we have today.<\/p>\n<\/p>\n![\"Galen](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/galen-pig-vivisection.jpg\")
Galen Pig Vivisection. Photo Credit: Wikimedia Commons<\/em><\/figcaption><\/figure>\nGalen’s Controversial Studies<\/strong><\/h2>\nGreco-Roman Physician Galen has been mentioned by Science Sensei<\/em><\/a> in the past in both positive and negative ways. While it is true that Galen did discover a lot of useful things that are still true in medical science today, some of it was later disproven. It is likely down to the fact that Galen never once dissected a human being. Instead, he only dissected animals.<\/p>\nTherefore, when it came to the human heart or other organs, it was clear he did not know how they worked. That was likely due to the fact that getting a body to open up and dissect during his time was not as easy as one would want. It was also looked down upon. In some places, it was even illegal to open one up after a person’s death.<\/p>\n
<\/p>\n![\"Galen](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/galen-statue.jpg\")
Galen Statue. Photo Credit: Eray Adiguzel\/Shutterstock<\/em><\/figcaption><\/figure>\nGalen Might Be Controversial, But He Wasn’t Completely Wrong<\/strong><\/h2>\nHowever, in spite of the controversy surrounding Galen, he did discover one very important thing. Regarding the human heart, he was able to discover that arteries carried blood<\/a>. He managed to discover this while operating as a surgeon for Roman Gladiators. In this area, he was surely able to come across several men who were heavily injured.<\/p>\nIt’s unsurprising you’ll find out more information about the human body when operating on, well, humans. Seeing as Galen mostly dissected animals, and opening up dead bodies was still taboo in his time, injured gladiators were the perfect test subjects. They’d have wide open, exposed areas to examine for Galen. Allowing him to figure out the key point on arteries.<\/p>\n
<\/p>\n![\"Andreas](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/06\/andreas-vesalius.jpg\")
Andreas Vesalius portrayed with an arm of a cadaver he has dissected. Photo Credit: Everett Collection\/Shutterstock<\/em><\/figcaption><\/figure>\nAndreas Vesalius Spiked On Everybody<\/strong><\/h2>\nUnlike Galen who never dissected a human to know how the heart worked, Andreas Vesalius actually did. He was a fan of Galen’s originally, but when he discovered the many errors he made…Andreas spent the rest of his life trying to correct the wrongs. His impact on the study of our hearts<\/a> is massive.<\/p>\nOutside of possibly Hippocrates, no one discovered more than Vesalius about our bodies. Yet no one discovered more about the heart than him. His work mostly revolved around the Hippocratic theories on the heart, as well as those that Hippocrates proved during his time.<\/p>\n
<\/p>\n![\"Andreas](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/vesalius-statue.jpg\")
Andreas Vesalius Statue. Photo Credit: Pascale Vanschoonbeek\/Shutterstock<\/em><\/figcaption><\/figure>\nAndreas Vesalius Pushed Against Hippocrates, And He Was Right<\/strong><\/h2>\nVesalius did make the discovery that went against Hippocrates a bit. Although he respected him as a physician, especially given his time, a lot of the theories Hippocrates had were pretty spot on. Others, however, were not. Regarding the heart being labeled as a muscle, Vesalius believed<\/a> the criteria for muscles were that they needed to be voluntarily moved.<\/p>\nIf this is true, then the heart working involuntarily meant it could not be a true muscle. Today, we’ve reclassified the muscular system into 3 parts including cardiac muscles. In addition to Hippocratic principles, Andreas also went against religious beliefs that claimed the human heart was the center of our soul. He never drew a specific conclusion on this to avoid religious backlash. This was something Hippocrates himself also avoided.<\/p>\n
<\/p>\n![\"Vesalius](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/06\/vesalius-experiment.png\")
Vesalius’ Brain Experiment. Photo Credit: Reddit<\/em><\/figcaption><\/figure>\nVesalius’ Full Heart-Related Discoveries<\/strong><\/h2>\nAndreas was the first to identify two chambers and two atria. He found that the right atrium was a continuation of the inferior and superior venae cavae. Meanwhile, the left atrium is a continuation of the pulmonary vein. He destroyed Galen’s theory regarding a hole being in the septum or heart. Perhaps his greatest discoveries in the world of medicine involve the vascular and circulatory systems<\/a>.<\/p>\nA fellow physician named Michael Servetus disproved Galen’s theory on a porous intraventricular septum but it never reached the major public due to where it was published. First in the Manuscript of Paris<\/em> and next in the Christianismi Restitutio. <\/em>The latter of which was declared a heresy by The Inquisition with the Catholic Church of the time.<\/p>\n<\/p>\n![\"Andreas](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/06\/andre-vesale.jpg\")
The 16th-century anatomist Andreas Vesalius. Photo Credit: Wikimedia Commons<\/em><\/figcaption><\/figure>\nVesalius Proved Servetus and Estienne Right<\/strong><\/h2>\nVesalius found one of only three remaining copies<\/a>, then published Servetus’s findings along with his own. He proved the septum is waterproof, then discovered and named the mitral valve while explaining blow flow. He then proved Charles Estienne’s findings on the valves of the hepatic veins.<\/p>\nVesalius added information on the Azygos Vein, then discovered the canal that connects to a fetus between the Umbilical Vein and Vena Cava. All of this is considered factual to this day and is taught to medical students all over the world. Without Andreas, we would have believed old thoughts for perhaps hundreds of more years.<\/p>\n
<\/p>\n![\"Human](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/07\/human-heart-examined.jpg\")
Human heart HUD display. Photo Credit: LuckyStep\/Shutterstock<\/em><\/figcaption><\/figure>\nWhat Does The Heart Actually Do?<\/strong><\/h2>\nEssentially, your heart is a muscular organ that is critical to the function of your body due to doing several different jobs<\/a>. First, it pumps blood through our blood vessels that are part of our circulatory system. This same blood carries oxygen as well as nutrients to areas throughout our body. It manages to do all of this while carrying metabolic waste such as carbon dioxide to the lungs.<\/p>\nWe then, of course, blow the CO2 out as we breathe. The number of things our blood has to do in our bodies alone can be intense. This is why when the heart does not operate or work well, our entire body feels it. We need it to pump blood properly just to remain conscious alone! It was not hard for people to figure out that our heart was critical to our bodies. This is why we’ve always tried to protect it for thousands of years.<\/p>\n
<\/p>\n![\"Heart](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/07\/heart-pulse.jpg\")
Heartbeat monitor pulse line. Photo Credit: Eric AJV\/Shutterstock<\/em><\/figcaption><\/figure>\nThe Heartbeat and Pulse<\/strong><\/h2>\nIn humans, most believe the first instance of life happens with a person’s heartbeat showing up. This is what you often see in an unborn child when soon-to-be mothers go to check up on the health of their child. Our heartbeat is often heard at the spot of our heart but people can actually feel this elsewhere too.<\/p>\n
When your “pulse” is taken at the doctor’s office, hospital, or by the EMT, they might check it in several ways. What they are looking for is your heart rate<\/a>, which is basically the number of times your heart is beating per minute. A pulse can be taken in several ways. On the neck, the wrist, or simply the heart itself among other places. There are also machines that can take this automatically.<\/p>\n<\/p>\n![\"Doctor](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/doctor-checking-heartbeat.jpg\")
Doctor Checking Heartbeat. Photo Credit: Rido\/Shutterstock<\/em><\/figcaption><\/figure>\nThere Are A Lot Of Things That Affect Our Heartbeat\/Pulse<\/strong><\/h2>\nWhile your doctor will likely tell you that you need to be around a specific number for your heartbeat\/pulse, these are only the recommended numbers. That is because we’ve judged how normal people happen to be, and make numbers to fit this accordingly. That is often why the acceptable numbers in this territory can be wide open. However, a lot of things can affect these numbers.<\/p>\n
The average heart rate or pulse will differ from person to person. It is determined by your sex, age, medication you’re taking, or if you have any conditions such as ADHD. Newborns, in fact, have the fastest heartbeats of any human being. The average heart should beat up to roughly 100,000 times<\/a> in a 24-hour period. Knowing your heartbeat and the rate at which it beats can be a huge asset to your overall health.<\/p>\n<\/p>\n![\"Heart](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/07\/heart-in-hand.jpg\")
Heart In Hand. Photo Credit: Natali_ Mis\/Shutterstock<\/em><\/figcaption><\/figure>\nParts Of The Human Heart<\/strong><\/h2>\nWe will be breaking this down into specific sections for you as there are quite a lot of parts to the heart. Each also does something highly important for your body. Since your heart is part of the circulatory system<\/a>, the job it does cannot be understated. You need it to live for a reason.<\/p>\nWe’ll explain the sections of the heart, what these areas do, and why they are key for your body to operate normally. Keep in mind that our heart helps our blood flow properly throughout the body. Anytime a part of the heart does not operate as it should…you could experience sometimes severe problems.<\/p>\n
Your heart is made up of specific Arteries, Veins, Chambers, Valves, Heart Walls, and Nerves. These sections are quite vast with some having more to do than others. Of course, the size as well as what each side of the heart happens to do is important as well. Let’s examine all of that now!<\/p>\n
<\/p>\n![\"Heart](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/07\/heart-location.jpg\")
3D illustration of Human Heart. Photo Credit: MDGRPHCS\/Shutterstock<\/em><\/figcaption><\/figure>\nHeart Size <\/strong><\/h2>\nThe size of the human heart can differ somewhat. Most hearts grow along with the person as they age. Hearts range around 5 inches (12 cm) in length, 3.5 inches (8 cm) wide, and 2.5 inches (6 cm) in thickness. Male and Female hearts weigh a bit differently<\/a>. Male hearts range from 10 to 12 ounces (280-340 grams) while Female hearts range from 8 to 10 ounces (230-280 grams)<\/p>\nWhile some sizes can be problematic and be a sign of sickness, this is not always the case. In fact, many athletes have bigger hearts. Since our hearts often work like muscles, a well-trained athlete can have a larger heart than average due to the amount of exercise they get. Like a skeletal muscle, the heart will get a bit larger the more exercise a person puts it through. Yet you do not want it to get too large, which is why you might hear about being healthy enough for specific activities.<\/p>\n
<\/p>\n![\"Heart](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/heart-xray.jpg\")
Heart Location X-Ray. Photo Credit: MDGRPHCS\/Shutterstock<\/em><\/figcaption><\/figure>\nHeart Shape and Location<\/strong><\/h2>\nThe shape was described as “like a pyramid” by Hippocrates but it’s often described as a Cone shape today. They aren’t too different clearly. Therefore no, the shape of our actual heart is not “heart-shaped,” funny enough. The location of our heart is toward the middle of our chest and lies behind the sternum and ribcage.<\/p>\n
However, the lower tip<\/a> of the heart is toward the left side of the sternum between our 4th and 5th ribs. This is likely why so many assume it’s located on the left side when it’s not. For years, we assumed the left side made the most sense. Yet there is no real reason for this except for how nerves made us feel it was toward the left. Therefore, when you pledge allegiance to the flag, your hand should go over the middle of your chest, not the far left.<\/p>\n<\/p>\n![\"Heart](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/07\/heart-chambers.jpg\")
Illustration of parts of the heart. Photo Credit: Zvitaliy\/Shutterstock<\/em><\/figcaption><\/figure>\nHeart Chambers <\/strong><\/h2>\nOur heart has four total chambers<\/a>. They are comprised of two upper chambers and two lower chambers, with the upper and lower doing different things. The upper chambers, known as the right and left atria, receive incoming blood from the body. Yet the lower chambers, known as the right and left ventricles, pump out blood from the heart to the body.<\/p>\nOur valves then serve as gatekeepers that allow proper flow with our blood and keep it going in the right direction. This is essential because if the valves did not do this our bodies could literally shut down. That is why, when even one does not operate correctly, surgery is required to fix it.<\/p>\n
<\/p>\n![\"Heart](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/shutterstock_1365476411.jpg\")
Structure of the heart valves. Photo Credit: Sakurra\/Shutterstock<\/em><\/figcaption><\/figure>\nHeart Valves<\/strong><\/h2>\nThere are also four valves too, one for every chamber. These are comprised of the Mitral Valve, Tricuspid Valve, Aortic Valve, and Pulmonic Valve. The Mitral and Tricuspid valves are located between the upper chambers while the Aortic and Pulmomic Valves are located between the lower chambers.<\/p>\n
Perhaps something you may not know here is that the sound of our heartbeat<\/a> is produced by the opening and closing of our heart valves. This can be quite weird and partly, even kind of trippy to the heart. One would assume the beat of the heart comes from other factors. Yet this is why doctors check your heartbeat when you go in to be seen. Valve issues result in several heart-related illnesses, and that means hearing your heartbeat can be critical for doctors to know how to help you.<\/p>\n<\/p>\n![\"Heart](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/07\/heart-wall.jpg\")
Red heart painted on a wall. Photo Credit: Robert Kneschke\/Shutterstock<\/em><\/figcaption><\/figure>\nHeart Walls and Layers<\/strong><\/h2>\nWhile most naturally assume there is only one heart wall, there are actually three total heart walls<\/a>. They come together to help form a thick heart that protects itself from possible damage. The external layer of the heart wall is called the Epicardium while the middle layer is known as the Myocardium. Finally, the inner layer is called the Endocardium. The Epicardium is thin and transparent, made from delicate connective tissue. The Myocardium is made of cardiac muscle tissue and tends to make up the majority of our overall cardiac wall. It’s also responsible for its own pumping action.<\/p>\nMeanwhile, the Endocardium is made of a thin layer of endothelium that overlies another thin layer of connective tissue. This provides a smooth overall lining for the four chambers of the heart, while also covering all four heart valves too. The Endocardium is also connected to and is continuous with the endothelial lining of the large blood vessels that are attached to the heart itself.<\/p>\n
<\/p>\n![\"Heart](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/shutterstock_157286378.jpg\")
Cross section diagram of Heart anatomy. Photo Credit: okili77\/Shutterstock<\/em><\/figcaption><\/figure>\nArteries Of The Human Heart Part 1<\/strong><\/h2>\nThe arteries of the human heart are as follows: The aorta, pulmonary trunk, right and left pulmonary arteries, right coronary artery, and the left main coronary artery. The aorta is located near the top section of the heart and happens to be the heart’s main artery<\/a>. It supplies oxygenated blood to our circulatory system.<\/p>\nWhen blood leaves the aortic valve, it travels through the aorta itself where it then exits our brain, muscles, and cells. Whenever you see “pulmonary” it tends to mean something related to the lungs. That is exactly what the pulmonary trunk, as well as the right and left pulmonary arteries, affect.<\/p>\n
<\/p>\n![\"Human](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/heart-arteries.jpg\")
Human Heart Arteries. Photo Credit: MDGRPHCS\/Shutterstock<\/em><\/figcaption><\/figure>\nArteries Of The Human Heart Part 2<\/strong><\/h2>\nThe pulmonary trunk<\/a> is located usually near the top right of the heart and then splits off into the right and left pulmonary arteries. The left is a bit smaller than the right but it does just as well as its “right” neighbor. They both pretty much do as you’d imagine, carry blood to the lung the name suggests.<\/p>\nThe right coronary artery and left main coronary artery each feed blood into their designed sections of the heart itself. The left is pumping to the left side and the right is pumping to the right. They both come out of the aortic valve with the left coming out of the left cusp of this valve and the right coming from the right cusp of the same valve.<\/p>\n
<\/p>\n![\"Heart](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/07\/heart-veins.jpg\")
Veins Of The Human Heart. Photo Credit: SciePro\/Shutterstock<\/em><\/figcaption><\/figure>\nVeins Of The Human Heart Part 1<\/strong><\/h2>\nThe veins of the human heart are as follows: Superior Vena Cava, Inferior Vena Cava, right and left pulmonary veins, Great Cardiac Vein, Middle Cardiac Vein, Small Cardiac Vein, and Anterior Cardiac Veins. The Vena Cava veins are pretty straightforward. The Superior<\/a> returns deoxygenated blood from the systematic circulation to our right atrium.<\/p>\nIt receives a venomous return from the upper half of the body. Meanwhile, this happens at the lower end regarding the Inferior. The Inferior also takes blood to the right atrium but it comes from the middle and lower parts of the body. Both of the Vena Cava are crucial to the function of our hearts.<\/p>\n
<\/p>\n![\"Heart](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/heart-blood-vessels-and-veins-etc..jpg\")
Heart blood vessels, veins & arteries. Photo Credit: Ustas7777777\/Shutterstock<\/em><\/figcaption><\/figure>\nVeins of The Heart Part 2<\/strong><\/h2>\nOf course, our Pulmonary Veins are similar to Pulmonary arteries. The right and left veins essentially make up four veins, with two flowing to each lung. They drain into the heart’s left atrium and are part of our pulmonary circulation. The Great, Middle and Small Cardiac Veins return deoxygenated blood from the myocardium to the right atrium.<\/p>\n
This same blood flows back to the lungs for reoxygenation and removal of carbon dioxide. All end at the Coronary Sinus too. The Anterior Cardiac Veins<\/a> mostly are comprised of between two and five small vessels that collect blood from the right ventricle and open into the right atrium. Yet it does not end at the Coronary Sinus but rather drains into the anterior wall of the right atrium.<\/p>\n<\/p>\n![\"Nerve](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/06\/nerve-cells-affected.jpg\")
3D render of nerve cells. Photo Credit: Ralwell\/Shutterstock<\/em><\/figcaption><\/figure>\nThe Human Heart Nerves and Sinus Node Part 1<\/strong><\/h2>\nThere are technically only two main nerves in the human heart. They are known as the Accelerans Nerve and Vagus Nerve<\/a>. Each is pretty important and likely does a lot more than you might think. Each nerve is affected by the nervous system, of course. Yet the heartbeat we have is set up by something known as a sinus node.<\/p>\nThis node is made up of a group of cells located in the wall of the right atrium. They have the ability to randomly produce electrical impulses that travel through the heart via its electrical conduction system. Ultimately, that causes our heart to contract. When a sinus node is not in play for someone, a pacemaker does the job for them.<\/p>\n
<\/p>\n![\"Heart](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/heart-nerves.jpg\")
Nervous or blood system. Photo Credit: Inozemtsev Konstantin\/Shutterstock<\/em><\/figcaption><\/figure>\nThe Human Heart Nerves and Sinus Node Part 2<\/strong><\/h2>\nWhen it comes to nerves, they are also affected by hormones in the blood and the amount of blood being returned to the heart. The Vagus Nerve is what slows down our heart rate<\/a>, as it uses acetylcholine to accomplish this. Meanwhile, the Accerlans Nerve speeds it up by using noradrenaline.<\/p>\nThis actually increases blood flow helping a person prepare for an increase in possible activity. These nerves are also part of the autonomic nervous system, which is part of the infamous “Fight or Flight” System. Medical professionals even have both Acetylcholine and Noradereline on hand to help in needed situations.<\/p>\n
<\/p>\n![\"Man](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/07\/man-having-heart-attack.jpg\")
Man Having Heart Attack. Photo Credit: Ground Picture\/Shutterstock<\/em><\/figcaption><\/figure>\nInteresting and Surprising Heart Facts<\/strong><\/h2>\nOne thing we always like to do when explaining an organ, especially one such as the heart, is to mention some compelling information you may not know.For example, did you know that the human heart pumps 2,000 gallons<\/a> of blood per day on average? You may also not know that a woman’s heart beats faster than a man’s on average.<\/p>\nMen and women are both capable of having heart trouble yet men are more likely to have heart attacks than women. Yet women are more than 40% of all heart attack deaths annually, meaning heart attacks affect them far worse. Women are also older than men are when they get heart attacks, which could also be a key reason for the higher fatality rate.<\/p>\n
<\/p>\n![\"Man](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/07\/man-and-woman-with-hearts.jpg\")
Young couple looking at each other and smiling. Photo Credit: George Rudy\/Shutterstock<\/em><\/figcaption><\/figure>\nHeart Differences In Men and Women Part 1<\/strong><\/h2>\nA woman’s heart tends to be smaller than a man’s. The walls that divide some of the chambers of the heart are thinner for women versus men too. While a woman’s heart pumps faster than a man’s<\/a>, it also ejects around 10% less blood with each squeeze of the heart. This can, sometimes, affect a woman’s cardio versus a man’s. However, as mentioned previously, a woman who exercises her heart can make it larger.<\/p>\nTheoretically, this can even her up with a regular man’s heart size. You already know that men might be more likely to get a heart attack while women die more from them. However, did you know the way in which each sex has a heart attack differs? Men often will have chest pain as well as pain radiating down the left arm. Meanwhile, women might get shortness of breath but could also have pain in the back, neck, or jaw accompanied by major fatigue or tiredness.<\/p>\n
<\/p>\n![\"Girl](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/04\/girl-touching-guy.jpg\")
Girl Touching Guy. Photo Credit: ShotPrime Studio\/Shutterstock<\/em><\/figcaption><\/figure>\nHeart Differences In Men and Women Part 2<\/strong><\/h2>\nWhy are men more likely to have a heart attack or high blood pressure? This could be due to how stress impacts men differently. When a woman is stressed, her pulse rate will rise while her heart pumps more blood. Yet when a man gets stressed<\/a>, the arteries of the man’s heart constrict, raising his blood pressure.<\/p>\nDue to societal pressures as well as those men put on themselves, stress is an issue among men worldwide. Therefore, high blood pressure is also higher among men too. This makes sense in theory. Of course, untreated long-term high blood pressure can lead to heart attacks. More and more women are also seeing heart problems directly related to stress. Yet due to most women being able to handle stress in a slightly healthier way heart-wise, heart attacks from stress are not as common.<\/p>\n
<\/p>\n![\"Young](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/07\/young-love.jpg\")
Young couple in love. Photo Credit: Marjan Apostolovic\/Shutterstock<\/em><\/figcaption><\/figure>\nHow The Heart Became Associated With Love Part 1<\/strong><\/h2>\nFor a, seemingly, endless period of time, we have connected the heart with love. However, there is no reason for this as we proved centuries ago that consciousness and emotions were all brain-driven. Ancient Egyptians, Chinese, and Romans all believed the heart and love had some connection.<\/p>\n
In fact, the Romans believed that a vein of the heart extended to the fourth finger on a person’s left hand. This is, of course, not actually the case. However, that is why when a person gets engaged or married, it is now a tradition to put the ring on a person’s left hand, on the fourth finger<\/a>.<\/p>\n<\/p>\n![\"Engagement](\"https:\/\/dev.sciencesensei.com\/wp-content\/uploads\/2020\/08\/engagement-ring.jpg\")
Bride wearing engagement ring. Photo Credit: New Africa\/Shutterstock<\/em><\/figcaption><\/figure>\nHow The Heart Became Associated With Love Part 2<\/strong><\/h2>\nSome believe love became connected to the heart due to how we react to someone we find attractive. When this happens, our brain releases hormones. This sends a message to our blood and heart that can cause hormones to be released from the autonomic nervous system. That is why men, for example, might get an erect penis.<\/p>\n
At the same time, both men and women might experience faster heartbeats due to the noradrenaline<\/a> released. It’s easy to see how, knowing this, ancient people believe there was a connection. While people did eventually realize the differences between the heart and brain, we continue to associate our hearts with the emotion of love. Sometimes, old habits die hard, or they don’t die at all.<\/p>\n<\/p>\n
<\/p>\n Greek Physician Hippocrates made major discoveries<\/a> during his time. He is credited with more discoveries about the human body than any man in history. Though some of his concepts have since been expanded upon or switched up, mostly due to modern knowledge and equipment that he never had access to.<\/p>\n He is technically considered the first cardiologist or heart expert, as he discovered several heart-related diseases. He also discovered blood vessels and how they operated, while disproving the myth of the heart being the place our mental capacity comes from.<\/p>\n <\/p>\n Hippocrates even wrote a book all about the human heart simply called The Heart<\/em>. It is the first time<\/a> that the four chambers and four valves are mentioned, along with the Great Vessels. He also described what the heart looked like, claiming it looked similar to a pyramid. Hippocrates also claimed the color was dark red too, which is pretty much accurate.<\/p>\n Meanwhile, he also referenced that the heart worked as a muscle, becoming the first person in history to make this connection. Today, we know that Hippocrates was not entirely wrong or right about his muscle comment. Yet this was not due to being off by any means. He claimed it worked as a muscle due to how he and others knew muscles to work in their time. We’d later discover other forms of muscle, how they work, and much more.<\/p>\n <\/p>\n Physician Erasistratus of Chios lived during the late BCE period between 304-250 B.C. During his life, he was heavily dedicated to the medical world, obsessed with the human body. Today, he is credited with being one of the major founders of modern neuroscience as he discovered several nerves.<\/a><\/p>\n He then was the first to find out they worked for the brain and skeletal regions overall. Yet he was not just focused on the brain but also on several other areas of the body. He lived shortly after Hippocrates passed away, but also practiced in Alexandria. The two did not agree on everything but did have some similarities.<\/p>\n <\/p>\n Sadly, the destruction of the Library of Alexandria resulted in several writings by Erasistratus being destroyed. Most of the work we know today was referenced by Galen. Erasistratus, along with his fellow Herophilus, were among the few to perform dissections regularly until the Renaissance Era.<\/p>\n It is due to this that they were able to fully describe the valves of the heart. They agreed with Hippocrates and others that the heart was not the center of sensations. Rather, Erasistratus claimed the human heart operated as a functioning pump<\/a> for the body. This is basically true, and we know that today. Yet imagine how hard it was to confirm something like this in the late B.C. era, without all the medical tools, equipment, and technology we have today.<\/p>\n <\/p>\n Greco-Roman Physician Galen has been mentioned by Science Sensei<\/em><\/a> in the past in both positive and negative ways. While it is true that Galen did discover a lot of useful things that are still true in medical science today, some of it was later disproven. It is likely down to the fact that Galen never once dissected a human being. Instead, he only dissected animals.<\/p>\n Therefore, when it came to the human heart or other organs, it was clear he did not know how they worked. That was likely due to the fact that getting a body to open up and dissect during his time was not as easy as one would want. It was also looked down upon. In some places, it was even illegal to open one up after a person’s death.<\/p>\n <\/p>\n However, in spite of the controversy surrounding Galen, he did discover one very important thing. Regarding the human heart, he was able to discover that arteries carried blood<\/a>. He managed to discover this while operating as a surgeon for Roman Gladiators. In this area, he was surely able to come across several men who were heavily injured.<\/p>\n It’s unsurprising you’ll find out more information about the human body when operating on, well, humans. Seeing as Galen mostly dissected animals, and opening up dead bodies was still taboo in his time, injured gladiators were the perfect test subjects. They’d have wide open, exposed areas to examine for Galen. Allowing him to figure out the key point on arteries.<\/p>\n <\/p>\n Unlike Galen who never dissected a human to know how the heart worked, Andreas Vesalius actually did. He was a fan of Galen’s originally, but when he discovered the many errors he made…Andreas spent the rest of his life trying to correct the wrongs. His impact on the study of our hearts<\/a> is massive.<\/p>\n Outside of possibly Hippocrates, no one discovered more than Vesalius about our bodies. Yet no one discovered more about the heart than him. His work mostly revolved around the Hippocratic theories on the heart, as well as those that Hippocrates proved during his time.<\/p>\n <\/p>\n Vesalius did make the discovery that went against Hippocrates a bit. Although he respected him as a physician, especially given his time, a lot of the theories Hippocrates had were pretty spot on. Others, however, were not. Regarding the heart being labeled as a muscle, Vesalius believed<\/a> the criteria for muscles were that they needed to be voluntarily moved.<\/p>\n If this is true, then the heart working involuntarily meant it could not be a true muscle. Today, we’ve reclassified the muscular system into 3 parts including cardiac muscles. In addition to Hippocratic principles, Andreas also went against religious beliefs that claimed the human heart was the center of our soul. He never drew a specific conclusion on this to avoid religious backlash. This was something Hippocrates himself also avoided.<\/p>\n <\/p>\n Andreas was the first to identify two chambers and two atria. He found that the right atrium was a continuation of the inferior and superior venae cavae. Meanwhile, the left atrium is a continuation of the pulmonary vein. He destroyed Galen’s theory regarding a hole being in the septum or heart. Perhaps his greatest discoveries in the world of medicine involve the vascular and circulatory systems<\/a>.<\/p>\n A fellow physician named Michael Servetus disproved Galen’s theory on a porous intraventricular septum but it never reached the major public due to where it was published. First in the Manuscript of Paris<\/em> and next in the Christianismi Restitutio. <\/em>The latter of which was declared a heresy by The Inquisition with the Catholic Church of the time.<\/p>\n <\/p>\n Vesalius found one of only three remaining copies<\/a>, then published Servetus’s findings along with his own. He proved the septum is waterproof, then discovered and named the mitral valve while explaining blow flow. He then proved Charles Estienne’s findings on the valves of the hepatic veins.<\/p>\n Vesalius added information on the Azygos Vein, then discovered the canal that connects to a fetus between the Umbilical Vein and Vena Cava. All of this is considered factual to this day and is taught to medical students all over the world. Without Andreas, we would have believed old thoughts for perhaps hundreds of more years.<\/p>\n <\/p>\n Essentially, your heart is a muscular organ that is critical to the function of your body due to doing several different jobs<\/a>. First, it pumps blood through our blood vessels that are part of our circulatory system. This same blood carries oxygen as well as nutrients to areas throughout our body. It manages to do all of this while carrying metabolic waste such as carbon dioxide to the lungs.<\/p>\n We then, of course, blow the CO2 out as we breathe. The number of things our blood has to do in our bodies alone can be intense. This is why when the heart does not operate or work well, our entire body feels it. We need it to pump blood properly just to remain conscious alone! It was not hard for people to figure out that our heart was critical to our bodies. This is why we’ve always tried to protect it for thousands of years.<\/p>\n <\/p>\n In humans, most believe the first instance of life happens with a person’s heartbeat showing up. This is what you often see in an unborn child when soon-to-be mothers go to check up on the health of their child. Our heartbeat is often heard at the spot of our heart but people can actually feel this elsewhere too.<\/p>\n When your “pulse” is taken at the doctor’s office, hospital, or by the EMT, they might check it in several ways. What they are looking for is your heart rate<\/a>, which is basically the number of times your heart is beating per minute. A pulse can be taken in several ways. On the neck, the wrist, or simply the heart itself among other places. There are also machines that can take this automatically.<\/p>\n <\/p>\n While your doctor will likely tell you that you need to be around a specific number for your heartbeat\/pulse, these are only the recommended numbers. That is because we’ve judged how normal people happen to be, and make numbers to fit this accordingly. That is often why the acceptable numbers in this territory can be wide open. However, a lot of things can affect these numbers.<\/p>\n The average heart rate or pulse will differ from person to person. It is determined by your sex, age, medication you’re taking, or if you have any conditions such as ADHD. Newborns, in fact, have the fastest heartbeats of any human being. The average heart should beat up to roughly 100,000 times<\/a> in a 24-hour period. Knowing your heartbeat and the rate at which it beats can be a huge asset to your overall health.<\/p>\n <\/p>\n We will be breaking this down into specific sections for you as there are quite a lot of parts to the heart. Each also does something highly important for your body. Since your heart is part of the circulatory system<\/a>, the job it does cannot be understated. You need it to live for a reason.<\/p>\n We’ll explain the sections of the heart, what these areas do, and why they are key for your body to operate normally. Keep in mind that our heart helps our blood flow properly throughout the body. Anytime a part of the heart does not operate as it should…you could experience sometimes severe problems.<\/p>\n Your heart is made up of specific Arteries, Veins, Chambers, Valves, Heart Walls, and Nerves. These sections are quite vast with some having more to do than others. Of course, the size as well as what each side of the heart happens to do is important as well. Let’s examine all of that now!<\/p>\n <\/p>\n The size of the human heart can differ somewhat. Most hearts grow along with the person as they age. Hearts range around 5 inches (12 cm) in length, 3.5 inches (8 cm) wide, and 2.5 inches (6 cm) in thickness. Male and Female hearts weigh a bit differently<\/a>. Male hearts range from 10 to 12 ounces (280-340 grams) while Female hearts range from 8 to 10 ounces (230-280 grams)<\/p>\n While some sizes can be problematic and be a sign of sickness, this is not always the case. In fact, many athletes have bigger hearts. Since our hearts often work like muscles, a well-trained athlete can have a larger heart than average due to the amount of exercise they get. Like a skeletal muscle, the heart will get a bit larger the more exercise a person puts it through. Yet you do not want it to get too large, which is why you might hear about being healthy enough for specific activities.<\/p>\n <\/p>\n The shape was described as “like a pyramid” by Hippocrates but it’s often described as a Cone shape today. They aren’t too different clearly. Therefore no, the shape of our actual heart is not “heart-shaped,” funny enough. The location of our heart is toward the middle of our chest and lies behind the sternum and ribcage.<\/p>\n However, the lower tip<\/a> of the heart is toward the left side of the sternum between our 4th and 5th ribs. This is likely why so many assume it’s located on the left side when it’s not. For years, we assumed the left side made the most sense. Yet there is no real reason for this except for how nerves made us feel it was toward the left. Therefore, when you pledge allegiance to the flag, your hand should go over the middle of your chest, not the far left.<\/p>\n <\/p>\n Our heart has four total chambers<\/a>. They are comprised of two upper chambers and two lower chambers, with the upper and lower doing different things. The upper chambers, known as the right and left atria, receive incoming blood from the body. Yet the lower chambers, known as the right and left ventricles, pump out blood from the heart to the body.<\/p>\n Our valves then serve as gatekeepers that allow proper flow with our blood and keep it going in the right direction. This is essential because if the valves did not do this our bodies could literally shut down. That is why, when even one does not operate correctly, surgery is required to fix it.<\/p>\n <\/p>\n There are also four valves too, one for every chamber. These are comprised of the Mitral Valve, Tricuspid Valve, Aortic Valve, and Pulmonic Valve. The Mitral and Tricuspid valves are located between the upper chambers while the Aortic and Pulmomic Valves are located between the lower chambers.<\/p>\n Perhaps something you may not know here is that the sound of our heartbeat<\/a> is produced by the opening and closing of our heart valves. This can be quite weird and partly, even kind of trippy to the heart. One would assume the beat of the heart comes from other factors. Yet this is why doctors check your heartbeat when you go in to be seen. Valve issues result in several heart-related illnesses, and that means hearing your heartbeat can be critical for doctors to know how to help you.<\/p>\n <\/p>\n While most naturally assume there is only one heart wall, there are actually three total heart walls<\/a>. They come together to help form a thick heart that protects itself from possible damage. The external layer of the heart wall is called the Epicardium while the middle layer is known as the Myocardium. Finally, the inner layer is called the Endocardium. The Epicardium is thin and transparent, made from delicate connective tissue. The Myocardium is made of cardiac muscle tissue and tends to make up the majority of our overall cardiac wall. It’s also responsible for its own pumping action.<\/p>\n Meanwhile, the Endocardium is made of a thin layer of endothelium that overlies another thin layer of connective tissue. This provides a smooth overall lining for the four chambers of the heart, while also covering all four heart valves too. The Endocardium is also connected to and is continuous with the endothelial lining of the large blood vessels that are attached to the heart itself.<\/p>\n <\/p>\n The arteries of the human heart are as follows: The aorta, pulmonary trunk, right and left pulmonary arteries, right coronary artery, and the left main coronary artery. The aorta is located near the top section of the heart and happens to be the heart’s main artery<\/a>. It supplies oxygenated blood to our circulatory system.<\/p>\n When blood leaves the aortic valve, it travels through the aorta itself where it then exits our brain, muscles, and cells. Whenever you see “pulmonary” it tends to mean something related to the lungs. That is exactly what the pulmonary trunk, as well as the right and left pulmonary arteries, affect.<\/p>\n <\/p>\n The pulmonary trunk<\/a> is located usually near the top right of the heart and then splits off into the right and left pulmonary arteries. The left is a bit smaller than the right but it does just as well as its “right” neighbor. They both pretty much do as you’d imagine, carry blood to the lung the name suggests.<\/p>\n The right coronary artery and left main coronary artery each feed blood into their designed sections of the heart itself. The left is pumping to the left side and the right is pumping to the right. They both come out of the aortic valve with the left coming out of the left cusp of this valve and the right coming from the right cusp of the same valve.<\/p>\n <\/p>\n The veins of the human heart are as follows: Superior Vena Cava, Inferior Vena Cava, right and left pulmonary veins, Great Cardiac Vein, Middle Cardiac Vein, Small Cardiac Vein, and Anterior Cardiac Veins. The Vena Cava veins are pretty straightforward. The Superior<\/a> returns deoxygenated blood from the systematic circulation to our right atrium.<\/p>\n It receives a venomous return from the upper half of the body. Meanwhile, this happens at the lower end regarding the Inferior. The Inferior also takes blood to the right atrium but it comes from the middle and lower parts of the body. Both of the Vena Cava are crucial to the function of our hearts.<\/p>\n <\/p>\n Of course, our Pulmonary Veins are similar to Pulmonary arteries. The right and left veins essentially make up four veins, with two flowing to each lung. They drain into the heart’s left atrium and are part of our pulmonary circulation. The Great, Middle and Small Cardiac Veins return deoxygenated blood from the myocardium to the right atrium.<\/p>\n This same blood flows back to the lungs for reoxygenation and removal of carbon dioxide. All end at the Coronary Sinus too. The Anterior Cardiac Veins<\/a> mostly are comprised of between two and five small vessels that collect blood from the right ventricle and open into the right atrium. Yet it does not end at the Coronary Sinus but rather drains into the anterior wall of the right atrium.<\/p>\n <\/p>\n There are technically only two main nerves in the human heart. They are known as the Accelerans Nerve and Vagus Nerve<\/a>. Each is pretty important and likely does a lot more than you might think. Each nerve is affected by the nervous system, of course. Yet the heartbeat we have is set up by something known as a sinus node.<\/p>\n This node is made up of a group of cells located in the wall of the right atrium. They have the ability to randomly produce electrical impulses that travel through the heart via its electrical conduction system. Ultimately, that causes our heart to contract. When a sinus node is not in play for someone, a pacemaker does the job for them.<\/p>\n <\/p>\n When it comes to nerves, they are also affected by hormones in the blood and the amount of blood being returned to the heart. The Vagus Nerve is what slows down our heart rate<\/a>, as it uses acetylcholine to accomplish this. Meanwhile, the Accerlans Nerve speeds it up by using noradrenaline.<\/p>\n This actually increases blood flow helping a person prepare for an increase in possible activity. These nerves are also part of the autonomic nervous system, which is part of the infamous “Fight or Flight” System. Medical professionals even have both Acetylcholine and Noradereline on hand to help in needed situations.<\/p>\n <\/p>\n One thing we always like to do when explaining an organ, especially one such as the heart, is to mention some compelling information you may not know.For example, did you know that the human heart pumps 2,000 gallons<\/a> of blood per day on average? You may also not know that a woman’s heart beats faster than a man’s on average.<\/p>\n Men and women are both capable of having heart trouble yet men are more likely to have heart attacks than women. Yet women are more than 40% of all heart attack deaths annually, meaning heart attacks affect them far worse. Women are also older than men are when they get heart attacks, which could also be a key reason for the higher fatality rate.<\/p>\n <\/p>\n A woman’s heart tends to be smaller than a man’s. The walls that divide some of the chambers of the heart are thinner for women versus men too. While a woman’s heart pumps faster than a man’s<\/a>, it also ejects around 10% less blood with each squeeze of the heart. This can, sometimes, affect a woman’s cardio versus a man’s. However, as mentioned previously, a woman who exercises her heart can make it larger.<\/p>\n Theoretically, this can even her up with a regular man’s heart size. You already know that men might be more likely to get a heart attack while women die more from them. However, did you know the way in which each sex has a heart attack differs? Men often will have chest pain as well as pain radiating down the left arm. Meanwhile, women might get shortness of breath but could also have pain in the back, neck, or jaw accompanied by major fatigue or tiredness.<\/p>\n <\/p>\n Why are men more likely to have a heart attack or high blood pressure? This could be due to how stress impacts men differently. When a woman is stressed, her pulse rate will rise while her heart pumps more blood. Yet when a man gets stressed<\/a>, the arteries of the man’s heart constrict, raising his blood pressure.<\/p>\n Due to societal pressures as well as those men put on themselves, stress is an issue among men worldwide. Therefore, high blood pressure is also higher among men too. This makes sense in theory. Of course, untreated long-term high blood pressure can lead to heart attacks. More and more women are also seeing heart problems directly related to stress. Yet due to most women being able to handle stress in a slightly healthier way heart-wise, heart attacks from stress are not as common.<\/p>\n <\/p>\n For a, seemingly, endless period of time, we have connected the heart with love. However, there is no reason for this as we proved centuries ago that consciousness and emotions were all brain-driven. Ancient Egyptians, Chinese, and Romans all believed the heart and love had some connection.<\/p>\n In fact, the Romans believed that a vein of the heart extended to the fourth finger on a person’s left hand. This is, of course, not actually the case. However, that is why when a person gets engaged or married, it is now a tradition to put the ring on a person’s left hand, on the fourth finger<\/a>.<\/p>\n <\/p>\n Some believe love became connected to the heart due to how we react to someone we find attractive. When this happens, our brain releases hormones. This sends a message to our blood and heart that can cause hormones to be released from the autonomic nervous system. That is why men, for example, might get an erect penis.<\/p>\n At the same time, both men and women might experience faster heartbeats due to the noradrenaline<\/a> released. It’s easy to see how, knowing this, ancient people believe there was a connection. While people did eventually realize the differences between the heart and brain, we continue to associate our hearts with the emotion of love. Sometimes, old habits die hard, or they don’t die at all.<\/p>\n <\/p>\nHippocrates’ Discoveries On The Heart and Cardiology In General<\/strong><\/h2>\n
Hippocratic Heart Discoveries And Research<\/strong><\/h2>\n
Erasistratus Of Chios And His Major Discoveries Part 1<\/strong><\/h2>\n
Erasistratus of Chios And His Major Discoveries Part 2<\/strong><\/h2>\n
Galen’s Controversial Studies<\/strong><\/h2>\n
Galen Might Be Controversial, But He Wasn’t Completely Wrong<\/strong><\/h2>\n
Andreas Vesalius Spiked On Everybody<\/strong><\/h2>\n
Andreas Vesalius Pushed Against Hippocrates, And He Was Right<\/strong><\/h2>\n
Vesalius’ Full Heart-Related Discoveries<\/strong><\/h2>\n
Vesalius Proved Servetus and Estienne Right<\/strong><\/h2>\n
What Does The Heart Actually Do?<\/strong><\/h2>\n
The Heartbeat and Pulse<\/strong><\/h2>\n
There Are A Lot Of Things That Affect Our Heartbeat\/Pulse<\/strong><\/h2>\n
Parts Of The Human Heart<\/strong><\/h2>\n
Heart Size <\/strong><\/h2>\n
Heart Shape and Location<\/strong><\/h2>\n
Heart Chambers <\/strong><\/h2>\n
Heart Valves<\/strong><\/h2>\n
Heart Walls and Layers<\/strong><\/h2>\n
Arteries Of The Human Heart Part 1<\/strong><\/h2>\n
Arteries Of The Human Heart Part 2<\/strong><\/h2>\n
Veins Of The Human Heart Part 1<\/strong><\/h2>\n
Veins of The Heart Part 2<\/strong><\/h2>\n
The Human Heart Nerves and Sinus Node Part 1<\/strong><\/h2>\n
The Human Heart Nerves and Sinus Node Part 2<\/strong><\/h2>\n
Interesting and Surprising Heart Facts<\/strong><\/h2>\n
Heart Differences In Men and Women Part 1<\/strong><\/h2>\n
Heart Differences In Men and Women Part 2<\/strong><\/h2>\n
How The Heart Became Associated With Love Part 1<\/strong><\/h2>\n
How The Heart Became Associated With Love Part 2<\/strong><\/h2>\n