Short essay on Human Circulatory System

The organ system of human beings (and other animals) which is responsible for the transport of materials inside the body is called circulatory system. The various organs of the circulatory system in humans are: Heart, Arteries, Veins and Capillaries. Blood is also considered a part of the circulatory system.

So, the human circulatory system consists of the heart, arteries, veins, capillaries, and blood. In the circulatory system, the heart acts as a pump to push out blood. The arteries, veins and capillaries act as pipes (or tubes) through which the blood flows.

These tubes which carry blood are called blood vessels. Thus, there are three types of blood vessels in the human body: arteries, veins and capillaries. We will now describe all the parts of the circulatory system in detail.

The heart is roughly triangular in shape. It is made of special muscle called cardiac muscle. The size of our heart is about the same as our ‘clenched fist’. The heart has four compartments called ‘chambers’ inside it. The upper two chambers of heart are called atria (singular atrium), and the lower two chambers of heart are called ventricles.

The two atria receive blood from the two main veins. And the two ventricles transport blood to the entire body and the lungs. The left atrium is connected to the left ventricle through a valve V₁. Similarly, the right atrium is connected to the right ventricle through another valve V₂.

These valves prevent the backflow of blood into atria when the ventricles contract to pump blood out of the heart to the rest of the body. This is because when the ventricles contract, the valves V₁ and V₂ close automatically so that the blood may not go back into atria.

The job of heart is to pump blood around our body. All the atria and ventricles of the heart contract and relax (expand) at appropriate times and make the heart behave like a pump. Since ventricles have to pump blood into various organs with high pressure, they have thicker walls than atria. A sheath of tissue called ‘pericardium’ protects the muscular heart. The chambers of the heart are separated by a partition called septum.

The arteries, veins and capillaries are a kind of thin pipes (or tubes) through which blood flows in the body. Arteries, veins and capillaries are called blood vessels. Arteries are the thick walled blood vessels which carry blood from the heart to all the parts of the body.

Arteries have thick walls because blood emerges from the heart under high pressure. Arteries are found in the whole of our body. The main artery (called aorta) is connected to the left ventricle of the heart through a valve V₃.

The main artery carries oxygenated blood from the left ventricle to all the parts of the body (except the lungs). Another artery called pulmonary artery is connected to the right ventricle of the heart through another valve V₄. The pulmonary artery carries deoxygenated blood from the right ventricle to the lungs.

The capillaries are thin walled and extremely narrow tubes or blood vessels which connect arteries to veins. Thus, the capillaries are in-between the arteries and veins. The blood from arte enters the capillaries in the body. Every living cell of our body is close to a capillary. The walls of capillaries are only one-cell thick.

The various dissolved substances (like oxygen, food, etc.) present in blood pass into the body cells through the thin walls of the capillaries. At the same time, the waste substances (like carbon dioxide) formed in the cells enter into capillaries.

Thus, the exchange of various materials like oxygen, food, carbon dioxide, etc., between the blood and the body cells takes place through capillaries. The other end of capillaries is joined to some wider tubes called veins. The deoxygenated blood (or dirty blood) coming from the capillaries enters into veins.

Veins are the thin walled blood vessels which carry blood from all the parts of the body back to the heart. Veins do not need thick walls because the blood flowing through them is no longer under high pressure. Veins have valves in them which allow the blood in them to flow in only one direction (towards the heart).

The valves prevent the backflow of blood in veins. Veins are also found in the whole of our body. The pulmonary vein is connected to the left atrium of the heart. The pulmonary III carries oxygenated blood from lungs back to the heart. There is also a main vein (called vena cava). The main vein is connected to the right atrium of the heart.

The main vein carries deoxygenated blood from all the parts of the body (except lungs), back to the heart. Please note that the main differences between an artery and a vein are that an artery carries blood from the heart to the body organs whereas a vein carries blood from the body organs back to the heart.

We have just studied that the heart is a kind of pump which pumps blood around our body continuously, without stopping. Actually, heart is not a single pump. Heart is really a double pump. The left side of heart (left atrium and left ventricle) acts as one pumps which pumps blood into the whole body, except the lungs.

The right side of heart (right atrium and right ventricle) acts as another pump which pumps blood only into the lungs. We can see from that the left side of heart is completely separated from the right side by a partition called septum. So, the two pumps in the heart work independently. The separation of left and right sides of the heart is necessary to prevent the mixing of the oxygenated blood on the left side with the deoxygenated blood on the right side.

Before we describe the circulation of blood in the human body with the help of a diagram, we should keep the following two points in mind: First that the blood circulates in our body in two forms: oxygenated blood and deoxygenated blood.

The blood carrying oxygen in it is called oxygenated blood. We get oxygenated blood in the lungs where the fresh oxygen of air passes into the blood. The blood having no oxygen in it is called deoxygenated blood. The deoxygenated blood is formed in all the organs of the body (except the lungs).

This is because when the oxygenated blood passes through the organs of the body, the body cells use up its oxygen and make it deoxygenated. The deoxygenated blood, however, carries carbon dioxide in it (which is produced during respiration in body cells).

The second point to remember is that when blood circulates in the body, then it supplies oxygen, digested food and other chemicals (like hormones) to all the cells of the body. It also carries back waste products like carbon dioxide, etc., from the body cells.

The heart beats non-stop all the time. The heart beat is due to the rhythmic contraction and relaxation of the heart muscles which make up the atria and the ventricles. Please note that the two atria (left atrium and right atrium) contract together and relax together. Similarly, the two ventricles (left ventricle and right ventricle) contract together and relax together. The contraction of two atria is immediately followed by the contraction of the two ventricles.

The heart beats (or beating of heart) circulates the blood in the human body. We will now describe the circulation of blood in the human body with the help of a highly simplified diagram.

1. When the muscles of all the four chambers of the heart are relaxed, the pulmonary vein brings the oxygenated blood (oxygen-carrying blood) from the lungs into the left atrium of the heart.

2. When the left atrium contracts, the oxygenated blood is pushed into the left ventricle through the valve V₁.

3. When the left ventricle contracts, the oxygenated blood is forced into the main artery called ‘aorta’. This main artery then branches into smaller arteries which go into different body organs (except the lungs). The smaller arteries (called arterioles) further branch into capillaries (The smaller arteries and capillaries have not been shown in Figure 88 to keep the diagram simple).

4. The main artery carries blood to all the organs (or parts) of the body like head, chest, arms, stomach, intestines, liver, kidney, trunk and legs (except the lungs). When the oxygenated blood passes through the capillaries of the body organs, then it gives oxygen to the body cells. Since the blood loses oxygen here, we say that the blood has been deoxygenated. The blood also gives the digested food and other dissolved materials to the body cells. At the same time, carbon dioxide produced as a waste material during respiration enters into the blood. The deoxygenated blood (carrying carbon dioxide) from the body organs enters into the main vein called vena cava. The main vein carries the deoxygenated blood to the right atrium of the heart.

5. When the right atrium contracts, deoxygenated blood is pushed into the right ventricle through the valve V₂.

6. And when the right ventricle contracts, the deoxygenated blood are pumped into the lungs through the pulmonary artery. In the lungs, deoxygenated blood releases its carbon dioxide and absorbs fresh oxygen from air. So, the blood becomes oxygenated again. This oxygenated blood is again sent to the left atrium of heart by pulmonary vein for circulation in the body.

This whole process is repeated continuously. In this way, the blood keeps on circulating in our body without stopping due to which all the body parts keep on getting oxygen, digested food and other materials all the time. The blood circulation also keeps on removing waste products formed in the cells of the body.

The blood circulatory system in human beings is an example of double circulation. This can be explained as follows: A circulatory system in which the blood travels twice through the heart in one complete cycle of the body is called double circulation.

In the human circulatory system the pathway of blood from the heart to the lungs and back to the heart is called pulmonary circulation; and the pathway of blood from the heart to the rest of the body and back to the heart is called the systemic circulation. These two types of circulation taken together make double circulation.

The animals such as mammals (including human beings), and birds have four-chambered heart (which consists of two atria and two ventricles). In a four-chambered heart, the left side and right side of the heart are completely separated to prevent the oxygenated blood from mixing with deoxygenated blood Such a separation allows a highly efficient supply of oxygen to the body cells which is necessary for producing a lot of energy. This energy is useful in warm-blooded animals (like mammals and birds) which have high energy needs because they constantly require energy to maintain their body temperature. All the animals having four-chambered hearts have double circulation in which the blood passes through the heart ‘twice’ in one complete cycle of the body.

The animals such as amphibians and many reptiles are cold-blooded animals whose body temperature depends on the temperature in the environment. They do not need energy to maintain their body temperature and hence their requirement of energy is less.

The amphibians (like frogs) and reptiles (like lizards) have a three-chambered heart (which consists of two atria and one ventricle). Due to incomplete division within their heart, the oxygenated and deoxygenated bloods mix to some extent in amphibians and reptiles. This reduces the production of energy. The amphibians and reptiles have, however, a double circulation that delivers blood to the lungs and the rest of the body, respectively.

The fish has a two-chambered heart (which consists of one atrium and one ventricle). The fish does not have lungs, it has gills to oxygenate blood. In a fish, the heart pumps deoxygenated blood to the gills. Oxygenation of blood takes place in the gills.

The oxygenated blood from the gills is supplied to the body parts of the fish where oxygen is utilised and carbon dioxide enters into it making it deoxygenated. This deoxygenated blood returns to the heart to be pumped into gills again. The flow of blood in a fish is called single circulation because the blood passes through the heart of fish only once in one complete cycle of the body.