Sentences with phrase «damage to body cells»
When they steal electrons, free radicals cause damage to body cells and the DNA inside of them.
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Free radicals cause damage to body cells.
Left unchecked, free radicals can cause damage to body cells that can lead to chronic or life - threatening diseases such as arthritis and some forms of cancer.
Antioxidants protect the body by neutralizing highly charged particles, called free radicals, that cause damage to body cells.
Turmeric, also known as curcuma, is a spice that has a wide range of antioxidant and anti-inflammatory properties, and by adding it to the whole oats you can help your body to destroy the free radicals that cause damage to the body cells.
As we know the oxidation reactions may cause damage to our body cells, therefore, reducing them can help us fight against the most deadly disease - Cancer.
Antioxidants are dietary substances including some nutrients such as beta carotene, vitamins C and E and selenium, that can prevent damage to your body cells or repair damage that has been done.
Not exact matches
The cells of your body have their own little wills to live, so they will carry you along to some extent; but if you do not want to live, if you do not get any satisfaction out of living, you'll not live long, and you'll do a lot of damage to yourself psychologically.
The damage that is caused by constant high insulin levels can wreak havoc on your cells and lead to your body attacking itself in an effort to correct the situation.
Oxidation also creates free radicals that can damage the cells of our bodies so it is best to avoid them.
Foods rich in anti-oxidants are very important for the body to balance the oxidative stress is encounters each day and protect the skin cells from free radical damage.
Over a lifetime, an overactive immune system will contribute to an overproduction of AGE's, advanced glycation end products, initiating oxidative reactions within cells that will gradually damage organs throughout the body.
Eggplant is loaded with phytonutrients that act as antioxidants that help to reduce the number of free radicals in the body which damage cells and may contribute to certain diseases, including some cancers and heart diseases.
Toxins can build up in your body leading to cell damage which causes early aging.
Luckily, our body is designed to produce antioxidants to prevent such threats from causing significant damage to our cells.
Free radicals are produced in the body naturally from things like: exposure to sun, exercise, damage to cell (we can not avoid this!).
Antioxidants fight free radicals in the body, which are produced in the body -LCB- exposure to sun, exercise, damage to cell -RCB-.
They're also abundant in phytochemicals and antioxidants, compounds that work to protect the body from oxidative stress and cell damage.
Increased acid levels in the body damages cells, and is linked to cancers.
Our bodies use antioxidants to «mop up» free radicals that can damage our cells.
All of which your body uses as antioxidants to prevent damage to your cells.
These «triggers» can cause unwelcome byproducts to accumulate in the body and damage red blood cells.
As a result of this, their bodies will release a lot of free radicals that if not eliminated, will cause damage to the surrounding cells and tissues.
Antioxidants rid the body of of free radicals which damage the body's cells in later life and contribute to conditions like heart disease and cancer.
The purpose of catalase in living cells is to protect them from oxidative damage, which can occur when cells or other molecules in the body come into contact with oxidative compounds.
Free radicals are compounds composed of unstable atoms generated both by the body and environmental sources such as smoking and pollution that damage cells, possibly leading to increased disease susceptibility and aging.
Also known as the «Guardian of the Genome,» p53 fights cancer by causing damaged cells to die or by halting the growth of mutant cells before they become cancerous and spread to the rest of the body.
Conventional transplant conditioning employs radiation and / or high - dose cytotoxic drugs (also known as alkylators) to destroy the bone marrow and blood and immune cells; it also causes widespread cellular damage throughout the body.
Being obese or having a higher body mass index (BMI) while carrying a BRCA (BReast CAncer gene) mutation is positively linked with higher levels of damage to the DNA in normal breast gland cells, new research suggests.
But the drug stayed bound to the diamond until it reached the tumor, so it didn't damage cells elsewhere in the body, and the animals survived.
For instance, in autoimmune disease, effector T cells are overly activated and cause damage to body.
In sickle cell anemia, a single genetic mutation leads to abnormal, crescent - shaped red blood cells that clot in tiny blood vessels throughout the body, causing severe pain and eventual organ damage.
In addition to suppressing the mature blood cells battling against the infection, malfunctioning of this signaling system results in permanent damage to the body's blood producing cells — called hematopoietic stem cells — that are located in the bone marrow.
Our body has a system to repair DNA damage (DNA repair mechanism), so why a normal cell turns into a cancer cell and why radiation exposure causes cancer have not been clarified.
Since embryonic stem cells can differentiate into any type of tissue, they have the potential to treat an almost unending array of medical conditions — replacing damaged or lost body parts or tissues, slowing degenerative diseases, even growing new organs.
Oxidants, generally referred to as free radicals, are biologically reactive molecular fragments that can damage cells of the body.
Chemotherapies are potent toxins delivered into the bloodstream to kill tumor cells throughout the body by damaging DNA in rapidly dividing cells.
One of the genes that MM41 blocks — the BCL - 2 gene — is involved in regulating apoptosis, the body's natural process which forces cells to die if they become too damaged or unhealthy to be repaired.
In this case, it was not by using a special formula of transcription factors, but by inducing damage to tell the body to repair itself and that it needs new cells of a certain type to do that.
«Autophagy,» which means «self - eating» based on its Greek roots, is the normal physiological process the body's cells use to remove viruses, bacteria, and damaged material from the cell.
Instead of trying to fix the double - strand breaks when only a few cells are damaged, the body may simply opt to eliminate them.
«From a health perspective, oxidative stress in the cells causes different types of damage in the body, for example, skin ageing or various infections, contributing to illnesses such as arthritis and Alzheimer's,» says Harri Latva - Mäenpää.
RIPK1, the researchers found, inflicts damage by directly attacking the body's myelin production plants — nerve cells known as oligodendrocytes, which secrete the soft substance, rich in fat and protein that wraps around axons to support their function and shield them from damage.
Day in and day out, in our bodies, the DNA in cells is damaged for a variety of reasons, and thus intercellular DNA - repair systems are fundamental to the maintenance of life.
Pain Amplifier A pain signal is just your body's way of alerting you to damage in your cells.
Many tissues of our bodies, such as our skin, can heal because they contain stem cells that can divide and differentiate into the type of cells needed to repair damaged tissue.
The idea is that the drug, being within the nano - hydrogels, is transported directly to cancer cells where it can be released without damaging other parts of the body, because hydrogels offer the possibility of dosing a myriad of active substances on the site desired and can be administered as dry or swollen hydrogels by different routes: oral, nasal, buccal, rectal, transdermal, vaginal, ocular and parental.
Dying cells in a tumor (upper left) or damaged tissue release DNA fragments that course through blood and that contain markers that point to their origin in the body.
The all - powerful potential of stem cells to become any kind of cell is what makes them so promising for restoring diseased or damaged tissues throughout the body — and also what makes them so difficult for scientists to control.
The challenge for the future now lies in finding a suitable type of «grit» for this black ice that slows down the proliferation of leukemia cells to normal levels without damaging the other healthy cells in the body.