0
wht are two ways that antioxidants react with cáncer cels
Wiki User
∙ 11y ago
Add your answer:
Earn +20 pts
List 3 ways to reduce the development of skin cancer?
You can reduce your chances of developing skin cancer by wearing sunblock, avoiding the sun and eating foods that have antioxidants in them. You should practice sun avoidance year around.
Why do scientist research cancer?
Scientists research cancer to find a way to see the symptoms of cancer before you actually react to it. They want to try to find out ways to cure it and avoid it, like crooked backs.
Ways To Heal Cancer And Diseases?
There are three primary ways to treat cancer: chemotherapy, radiation, and surgery. Chemotherapy uses medication that are toxic to rapidly dividing cells, like cancer cells. Radiation works similarly, but exposed the diseased part of the body to radioactive waves. Surgery is removal of the tumor, when possible.
What are three ways that cancer can be treated?
sometimes its hard to find out that you have cancer but some people that have cancer sometimes they get over it and don't have cancer again because sometimes they get special treatments, thanks Bi ma peepssometimes its hard to find out that you have cancer but some people that have cancer sometimes they get over it and don't have cancer again because sometimes they get special treatments, thanks Bi ma peeps
What are two ways active immunity is produced?
1. mother to fetus2. Through exposure to the antigen(virus, toxins,or cancer cells).
Are there ways to prevent uterine cancer?
the ways to prevent uterus cancer
Why do you need for anti oxidants?
Antioxidants are important in a healthy diet and lifestyle. Antioxidants can be found in certain foods, or you can take supplements. Most people choose to take supplements in addition to eating healthy to make sure they get the proper amount. There are several different types of supplements you can take to help you get the right amount without causing any damage. When you get the right amount of antioxidants in your diet it can benefit you in many ways. The first benefit is that it will help keep your cells healthy. When your cells are healthy you can fight off diseases better. If you do get sick, this will help you recover from your illness quicker. It is easier to stay healthy when your cells can fight damage and are healthy too. Antioxidants also help when you get injured. When you suffer from an injury, antioxidants will help you heal faster. Your injury can be anything from a paper cut to a broken bone. An injury is also likely to be less severe in a person who takes antioxidants than a person who doesn't. You may also notice that you are more tired when you have a lack of antioxidants. The right amount of antioxidants makes you healthier, and gives you more energy. Once you start getting the right amount of antioxidants and vitamins in your body you will be able to notice the difference.
How can cells cause the body harm?
Body Cells work in many different ways eg sperm cells are the only cells that can move without the brain/brain cells telling them to. It can only do this because it has a tail to help it swim to the egg/egg cells to be fertilized. Cancer cells however are not good and can harm the body in many different ways. Don't look on this page because its rubbish :D
In what ways do cancer cells differ from other cells?
Cancer cells differ from normal cells in several key ways: Uncontrolled Growth: Cancer cells grow and divide uncontrollably, forming tumors. Normal cells, on the other hand, undergo regulated growth and division, only dividing when necessary for tissue repair or replacement. Lack of Apoptosis: Cancer cells evade apoptosis, the programmed cell death that occurs in normal cells to remove damaged or unnecessary cells. This allows cancer cells to survive and accumulate, contributing to tumor growth. Insensitivity to Signals: Cancer cells may ignore signals from neighboring cells or the body's immune system that would normally regulate cell growth and division. This insensitivity allows cancer cells to proliferate unchecked. Angiogenesis: Cancer cells stimulate the formation of new blood vessels (angiogenesis) to supply nutrients and oxygen to the growing tumor. Normal cells do not typically induce angiogenesis in the absence of injury or physiological need. Metastasis: Cancer cells have the ability to invade nearby tissues and spread to distant organs through the bloodstream or lymphatic system, a process known as metastasis. Normal cells remain localized and do not spread throughout the body in the same way. Genomic Instability: Cancer cells often have genetic mutations or chromosomal abnormalities that result in genomic instability. This genetic instability contributes to tumor heterogeneity and can drive cancer progression and treatment resistance. Altered Metabolism: Cancer cells exhibit altered metabolism, favoring glycolysis (the breakdown of glucose) even in the presence of oxygen, a phenomenon known as the Warburg effect. This metabolic shift provides cancer cells with the energy and building blocks needed for rapid proliferation. Immune Evasion: Cancer cells may evade detection and destruction by the immune system through various mechanisms, such as downregulating immune recognition molecules or secreting immunosuppressive factors. This immune evasion allows cancer cells to survive and proliferate in the body. Overall, cancer cells exhibit multiple hallmarks of malignancy that distinguish them from normal cells, reflecting their dysregulated behavior and aberrant biology. Understanding these differences is crucial for developing effective strategies for cancer prevention, diagnosis, and treatment.
How do cancer cells differ from ordinary cells?
Cancer cells differ from ordinary cells in several key ways: Uncontrolled Growth: Cancer cells have lost the normal regulatory mechanisms that control cell growth and division. Unlike ordinary cells, which undergo a controlled process of cell division (known as the cell cycle), cancer cells can divide uncontrollably, leading to the formation of tumors. Abnormal Cell Structure: Cancer cells often have abnormal structures and morphology compared to ordinary cells. They may have irregular shapes, enlarged nuclei, and disorganized internal structures. These abnormalities can affect their function and behavior. Loss of Contact Inhibition: Normal cells exhibit a phenomenon called contact inhibition, where they stop dividing when they come into contact with neighboring cells. Cancer cells lose this ability and continue to divide and grow even when surrounded by other cells, leading to the formation of dense tumor masses. Ability to Invade and Metastasize: Cancer cells have the ability to invade surrounding tissues and spread to distant organs through a process called metastasis. Ordinary cells typically remain confined to their original location and do not spread throughout the body in the same way. Altered Metabolism: Cancer cells often exhibit altered metabolism compared to ordinary cells. They may rely more heavily on glycolysis (a process that breaks down glucose for energy) even in the presence of oxygen, a phenomenon known as the Warburg effect. This altered metabolism allows cancer cells to sustain their rapid growth and proliferation. Genetic Mutations: Cancer cells typically harbor genetic mutations or alterations that drive their abnormal behavior. These mutations can affect genes involved in cell growth, division, DNA repair, and cell death pathways, among others. These genetic changes can accumulate over time, leading to the development and progression of cancer. Immune Evasion: Cancer cells have the ability to evade detection and destruction by the immune system, allowing them to proliferate unchecked. They may express molecules that suppress immune responses or evade immune surveillance mechanisms, enabling them to survive and thrive within the body. Overall, cancer cells differ from ordinary cells in multiple ways, reflecting their aberrant behavior and dysregulated biology. Understanding these differences is crucial for developing effective strategies for cancer prevention, diagnosis, and treatment.
Cancer is a disorder in which some cells have lost the ability to control their?
Cancer is a disorder in which cells in a certain area of the body, primarily areas of the body where cells multiply often (such as skin cells), lose their ability to duplicate properly. It has nothing to do with how they die.
Who can get brain cancer?
once every 2 year or months
