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The heart is the organ that helps supply blood and oxygen to all parts of the body. Regina Bailey is a board-certified registered nurse, science writer and educator. Her work has been featured in “Kaplan AP Biology” and “The Internet for Cellular and Molecular Biologists. The heart is the organ that helps supply blood and oxygen to all parts of the body. The halves are, in turn, divided into four chambers. Atria: Upper two chambers of the heart. Ventricles: Lower two chambers of the heart.
Epicardium: The outer layer of the wall of the heart. Myocardium: The muscular middle layer of the wall of the heart. Endocardium: The inner layer of the heart. Cardiac conduction is the rate at which the heart conducts electrical impulses. Heart nodes and nerve fibers play an important role in causing the heart to contract. Atrioventricular Bundle: A bundle of fibers that carry cardiac impulses. Atrioventricular Node: A section of nodal tissue that delays and relays cardiac impulses.
Purkinje Fibers: Fiber branches that extend from the atrioventricular bundle. Sinoatrial Node: A section of nodal tissue that sets the rate of contraction for the heart. The Cardiac cycle is the sequence of events that occurs when the heart beats. Diastole phase: The heart ventricles are relaxed and the heart fills with blood. Systole phase: The ventricles contract and pump blood to the arteries. Heart valves are flap-like structures that allow blood to flow in one direction. Aortic valve: Prevents the backflow of blood as it is pumped from the left ventricle to the aorta.
Mitral valve: Prevents the backflow of blood as it is pumped from the left atrium to the left ventricle. Pulmonary valve: Prevents the backflow of blood as it is pumped from the right ventricle to the pulmonary artery. Tricuspid valve: Prevents the backflow of blood as it is pumped from the right atrium to the right ventricle. Blood vessels are intricate networks of hollow tubes that transport blood throughout the entire body. Aorta: The largest artery in the body, of which most major arteries branch off from.
Brachiocephalic artery: Carries oxygenated blood from the aorta to the head, neck, and arm regions of the body. Carotid arteries: Supply oxygenated blood to the head and neck regions of the body. Common iliac arteries: Carry oxygenated blood from the abdominal aorta to the legs and feet. Coronary arteries: Carry oxygenated and nutrient-filled blood to the heart muscle. Pulmonary artery: Carries deoxygenated blood from the right ventricle to the lungs. Subclavian arteries: Supply oxygenated blood to the arms. Brachiocephalic veins: Two large veins that join to form the superior vena cava.
Common iliac veins: Veins that join to form the inferior vena cava. Pulmonary veins: Transport oxygenated blood from the lungs to the heart. Venae cavae: Transport de-oxygenated blood from various regions of the body to the heart. The Anatomy of the Heart, Its Structures, and Functions. Coming to a Cleveland Clinic location? It also works with other body systems to control your heart rate and blood pressure. Your family history, personal health history and lifestyle all affect how well your heart works.
The heart is a fist-sized organ that pumps blood throughout your body. It’s the primary organ of your circulatory system. Your brain and nervous system direct your heart’s function. What does a heart diagram look like? Your heart’s main function is to move blood throughout your body. Controls the rhythm and speed of your heart rate.
How does your heart work with other organs? Your heart works with other body systems to control your heart rate and other body functions. Nervous system: Your nervous system helps control your heart rate. It sends signals that tell your heart to beat slower during rest and faster during stress. Endocrine system: Your endocrine system sends out hormones. These hormones tell your blood vessels to constrict or relax, which affects your blood pressure.