The human heart is an organ that pumps blood through the circulatory system’s veins, giving oxygen and nutrition to the tissues while also eliminating carbon dioxide and other pollutants.
The human heart is in the middle of the chest, just to the left of the sternum (breastbone). According to the Texas Heart Institute, it is wrapped in a double-walled sac called the pericardium that sits between your lungs. The pericardium protects and anchors the heart inside the chest. The outer layer, the parietal pericardium, and the inner layer, the serous pericardium, are lubricated by pericardial fluid. During contractions and movements of the lungs and diaphragm, the fluid lubricates the heart.
HOW DOES THE HUMAN HEART WORK
The pulmonary circuit and the systemic circuit are the two pathways via which the heart circulates blood.
According to the journal Biomedical Sciences, deoxygenated blood leaves the right ventricle of the heart via the pulmonary artery and travels to the lungs, while oxygenated blood returns to the left atrium of the heart via the pulmonary vein.The oxygenated blood in the systemic circuit exits the heart and travels through the left ventricle to the aorta, where it enters the arteries and capillaries to supply oxygen to the body’s tissues. Deoxygenated blood returns to the heart’s right atrium via veins and the venae cavae.
Function of work
The heart has four primary functions:
- Blood is pumped to other regions of the body to be oxygenated.
- Hormones and other important compounds are transported to various regions of the body through the circulatory system.
- Receiving deoxygenated blood and pumping it to the lungs for oxygenation while transporting metabolic waste items from the body.
- Blood pressure control is important.
Structure of the human heart
The heart is a muscular organ located behind and slightly to the left of the breastbone in the chest. It is about the size of a fist when closed. The heart is constantly pumping blood through the arteries and veins, which form a network of blood vessels. The cardiovascular system includes the heart and blood arteries that supply it.
The four chambers of the heart have their own function. The atria are the uppermost two chambers, whereas the ventricles are the lowermost two chambers. The right heart is composed of the right atrium and right ventricle, whereas the left heart is composed of the left atrium and left ventricle. Each septum separates the heart’s distinct chambers.
- The right atrium collects and pumps deoxygenated blood from the body to the right ventricle.
- The right ventricle receives blood from the right atrium and pumps it to the lungs, where oxygen is added.
- The left atrium receives and pumps oxygenated blood from the lungs to the left ventricle.
- The left ventricle is the heart’s most powerful chamber. It transports oxygen-rich blood throughout the body.
The four valves in the heart control the flow of blood into the heart, within the heart chambers, and out of the heart. The coronary arteries, which run along the heart’s surface, provide nutrition and oxygen to the heart. It’s also well-supplied by a web of nerve tissue that keeps the heartbeat rhythmic. The pericardium is a fluid-filled sac that surrounds the heart. The pericardium is a protective layer that produces fluid to lubricate the heart and reduce friction between the heart and the organs around it.
Function of Heart
The heart is the major organ in the circulatory system, and it is primarily responsible for blood circulation and nutrition transfer throughout the body. The heart’s significance as a crucial organ whose normal operation is constantly required is enhanced by this ongoing task.
The cardiac cycle, or heart’s blood pumping cycle, ensures that blood is circulated throughout the body. The oxygen distribution process starts when oxygen-depleted blood enters the heart through the right atrium, travels to the right ventricle, enters the lungs for oxygen replenishment and carbon dioxide release, and then returns to the left chambers for redistribution. The body circulates about 5.6 litres of blood each minute, and three cardiac cycles are completed per minute.
When a cardiovascular issue or disorder is detected, the performance of the heart may now be easily monitored. A heart-related ailment, for example, is characterised by a regular irregular heartbeat or beats per minute. This is due to the fact that a heartbeat is a manifestation of the heart’s two-phase oxygen-reloading mechanism.
The tricuspid and mitral valves close for a brief time during systole, while the aortic and pulmonary valves close for a longer time during diastole. When it comes to monitoring blood pressure, the systole-diastole connection is the gold standard. Examining the pulse rate is another approach to physically determine the heart’s regular functioning (beats per minute). The normal heart rate for an adult is 72 beats per minute, whereas children’s heart rates are typically higher.
Conclusion
The human heart is in the middle of the chest, just to the left of the sternum. HOW DOES THE HUMAN HEART WORK The pulmonary circuit and the systemic circuit are the two pathways via which the heart circulates blood. According to the journal Biomedical Sciences, deoxygenated blood leaves the right ventricle of the heart via the pulmonary artery and travels to the lungs, while oxygenated blood returns to the left atrium of the heart via the pulmonary vein. The oxygenated blood in the systemic circuit exits the heart and travels through the left ventricle to the aorta, where it enters the arteries and capillaries to supply oxygen to the body’s tissues. Blood pressure control is important.structure of the human heart The heart is a muscular organ located behind and slightly to the left of the breastbone in the chest. The heart is constantly pumping blood through the arteries and veins, which form a network of blood vessels. The right heart is composed of the right atrium and right ventricle, whereas the left heart is composed of the left atrium and left ventricle.