White blood cells, specifically a type called phagocytes (which include neutrophils and macrophages), are responsible for sweeping up and digesting bacteria that enter the body. They identify, engulf, and destroy pathogens through a process called phagocytosis. Once the bacteria are engulfed, enzymes within the phagocytes break them down, effectively neutralizing the threat. This process is a crucial part of the body's immune response.
Cilia
The immune system. The first line of defence such as skin, mucus, and hair around entrences stop bacteria from entering your body. Additionally, tears from the eye wash away bacteria, ear wax stops bacteria in its path, and saliva has anti-bacterial properties in it. There are also cells with cilia in your throat which sweep the bacteria out of your mouth when you cough. The second line of defence is known as 'inflammation'. When the bacteria gets past your first line of defence, the second comes in. For example, when you accidently cut yourself, the sharp object probably has lots of bacteria on it. To fight this, your body sends a rush of blood to the area. Your white blood cells have the main job here. Macrophanges (a type of white blood cell) like phagocytes engulf the harmful bacteria and destroy and digest it usung lysosomes. Symptoms such as pain, swelling and fever are not actally because of the bacteria, but because your body is fighting back. When the blood is being rushed to the area, your blood vessels become bigger (vasodialation) causing swelling. The pinching and stretching also causes the pain. The third line of defence is the last and most powerful one of all. This line is usually for viruses, but can also be used on bad bacteria. It remembers the structure of the pathogen and can act fast when it strickes again. Other white blood cells called lymphocytes are activated. There are generally two types of lymphocytes: B cells and T cells. When a pathogen comes into the third line of defence, the B cells are activated. On the end of a B cell, there are antibodies. On the end of a pathogen, there is an antigen. B-cells all have different shaped antibodies and only one can attach onto the antigen of a pathogen. When the B-cells do find the right antibody, the T helper cells help it to reproduce millions of the same antibodies so that it can fight the pathogen (which meanwhile, was also reproducing). Most of these antibodies become plasma B-cells, which are used to kill the pathogen, however, others become memory B cells, which say in your body years. In case the pathogen strikes again, the memory B cells will know. There are also cytotoxic T cells which kill cells that have been infected. The lymphatic system also has a part. Basically, the blood vessels carry the pathogen to lymph nodes, which are at different places in your body, and store them. When your doctor checks for infections, they might prod the place just under your cheek, near your ear, where a pair of lymph nodes are. By the way, when you are vaccinated, a fragment of the virus is insered into your bloodstream and it triggers your B cells to reproduce. Those memory cells will stay, and you will be immune. The symptoms tha some people get is when it aso triggers the second like of defense. Hope I helped :) - Apoorva M
Paramecium feed mostly on bacteria, which are driven into the gullet by the cilia. feed on small organisms such as bacteria and even other smaller protozoa.I don't know if the process has a name.
well basically the ciliated cells line all the air passages in your lungs.they have tiny hairs which filter the air as it blows through the hairs also sweep mucus (snot) with trapped dust and bacteria up to the back of the throat where it is swallowed.
Paramecia feed on microorganisms like bacteria, algae, and yeasts. To gather food, the Paramecium uses its cilia to sweep prey organisms, along with some water, through the oral groove, and into the mouth opening.
Dont think they eat itthey just kill them
Yes, white blood cells are responsible for engulfing and digesting bacteria that enter the body. This process is known as phagocytosis, where the white blood cells detect, engulf, and destroy invading bacteria to help protect the body from infection.
Methylcellulose and psyllium are indigestable carbohydrates. They sweep and clean the intestines. Humans lack the enzyme necessary to break the bonds that link the saccharides together. Certain bacteria in ruumens and horses, for example, digest the cellulose for these animals. Termites can also digest cellulose.
The blood sweep is a tactical medical technique for rapidly assessing the downed victim while maintaining a reasonable degree of situational awareness.
Cilia
The cilia on the cells that line your windpipe help to sweep mucus, particles, and bacteria out of your respiratory tract to keep it clean and clear. This helps to protect your lungs from infections and maintain healthy respiratory function.
The immune system. The first line of defence such as skin, mucus, and hair around entrences stop bacteria from entering your body. Additionally, tears from the eye wash away bacteria, ear wax stops bacteria in its path, and saliva has anti-bacterial properties in it. There are also cells with cilia in your throat which sweep the bacteria out of your mouth when you cough. The second line of defence is known as 'inflammation'. When the bacteria gets past your first line of defence, the second comes in. For example, when you accidently cut yourself, the sharp object probably has lots of bacteria on it. To fight this, your body sends a rush of blood to the area. Your white blood cells have the main job here. Macrophanges (a type of white blood cell) like phagocytes engulf the harmful bacteria and destroy and digest it usung lysosomes. Symptoms such as pain, swelling and fever are not actally because of the bacteria, but because your body is fighting back. When the blood is being rushed to the area, your blood vessels become bigger (vasodialation) causing swelling. The pinching and stretching also causes the pain. The third line of defence is the last and most powerful one of all. This line is usually for viruses, but can also be used on bad bacteria. It remembers the structure of the pathogen and can act fast when it strickes again. Other white blood cells called lymphocytes are activated. There are generally two types of lymphocytes: B cells and T cells. When a pathogen comes into the third line of defence, the B cells are activated. On the end of a B cell, there are antibodies. On the end of a pathogen, there is an antigen. B-cells all have different shaped antibodies and only one can attach onto the antigen of a pathogen. When the B-cells do find the right antibody, the T helper cells help it to reproduce millions of the same antibodies so that it can fight the pathogen (which meanwhile, was also reproducing). Most of these antibodies become plasma B-cells, which are used to kill the pathogen, however, others become memory B cells, which say in your body years. In case the pathogen strikes again, the memory B cells will know. There are also cytotoxic T cells which kill cells that have been infected. The lymphatic system also has a part. Basically, the blood vessels carry the pathogen to lymph nodes, which are at different places in your body, and store them. When your doctor checks for infections, they might prod the place just under your cheek, near your ear, where a pair of lymph nodes are. By the way, when you are vaccinated, a fragment of the virus is insered into your bloodstream and it triggers your B cells to reproduce. Those memory cells will stay, and you will be immune. The symptoms tha some people get is when it aso triggers the second like of defense. Hope I helped :) - Apoorva M
Paramecium feed mostly on bacteria, which are driven into the gullet by the cilia. feed on small organisms such as bacteria and even other smaller protozoa.I don't know if the process has a name.
It depends on the type of bacteria, but most normally: Coughing expels bacteria from the lungs.
It is penicillin a bacteria.
well basically the ciliated cells line all the air passages in your lungs.they have tiny hairs which filter the air as it blows through the hairs also sweep mucus (snot) with trapped dust and bacteria up to the back of the throat where it is swallowed.
they are called cilia cells, they sway from side to side and sweep the egg down the fallopian tube.