Why Are Antioxidants Good For The Body – FutureUniverseTV Presents How Antioxidants Can Improve Your Health

Why Are Antioxidants Good For The Body? FutureUniverseTV Presents How Antioxidants Can Improve Your Health.

Why Are Antioxidants Good For The Body
Why Are Antioxidants Good For The Body

There are antioxidants in almost everything; in superfoods, in skincare products, and even in chocolate and red wine. It is common for products that contain antioxidants to be marketed as essential for good health, claiming that they will prevent disease and reverse the effects of aging. Is their health benefit as great as we have been led to believe? Antioxidants are what they sound like. A wide range of molecules (atoms bound together by chemical bonds) are known as antioxidants, which protect other molecules from the process of oxidation.

The oxidation process can damage vital molecules in our cells, including DNA and proteins, which are responsible for many bodily functions. DNA is one of the most important molecules for cells to function properly, so if too many are damaged, the cell can malfunction or die. The importance of antioxidants can be attributed to this. In some cases, they are able to prevent or reduce this damage. Free radicals are highly reactive molecules in the body that cause uncontrolled oxidation. In order to maintain good health, it is important to consume products that contain antioxidants.

In what way does oxidation occur? The process of oxidation involves the transfer of electrons from one molecule to another. An electron is a subatomic particle (smaller than an atom) that is present in almost everything we see around us. It is possible to break bonds and change the structure of molecules during an oxidation reaction as electrons move. Free radicals are highly reactive and unstable due to their unpaired electrons.

The effects of oxidation are not universally negative. Life would not be possible without them, and they play an integral role in many important processes. During cellular respiration, glucose, a sugar found in food, is oxidized by oxygen, resulting in carbon dioxide, water, and energy. Coloured stains are transformed into colourless molecules by household bleaches.

Oxidation reactions that are less desirable include rusting of metals and oxidative food spoilage. Free radicals are what are they? A free radical is a molecule that contains an unpaired electron or electrons. The electron prefers to be paired, so unpaired electrons can result in unstable and highly reactive molecules. The free radical must steal an electron from another molecule in order to become stable. Upon losing an electron, a molecule becomes an oxidized free radical.

An electron can be stolen from another molecule by this new free radical, resulting in a chain reaction. In this process, the molecules are permanently altered, resulting in irreversible damage. An electron can be stolen from another molecule by a free radical, which then becomes a free radical. When an antioxidant is present, it can donate an electron to the free radical, stabilizing it and preventing the chain reaction from occurring.

Antioxidants sacrifice themselves and become free radicals instead of oxidizing the other molecule. But unlike most molecules, antioxidants are able to stabilize the unpaired electron and do not become highly reactive. As a result, the antioxidant is deactivated. During the chain reaction of a free radical, an antioxidant donates an electron and stops it.

The presence of free radicals is not always detrimental to your health. They are used by the body’s immune system due to their highly reactive and destructive nature. Various white blood cells, called phagocytes, are capable of engulfing foreign particles, such as bacteria, then sealing them off and releasing free radicals to destroy them. The body naturally generates free radicals, but lifestyle factors such as stress, poor diet, pollution, smoking and alcohol can increase their production.

Some free radicals can be handled by our bodies, but if too many are formed, the body’s normal defenses can be overwhelmed. Various diseases are believed to be caused by free radical damage. DNA damage caused by free radicals, for example, can lead to genetic mutations and the promotion of cancer. In light of the fact that all antioxidants are not created equal, if free radicals can cause ageing and disease, and antioxidants can neutralize them, then getting more antioxidants should be beneficial to your health, right?

I regret to inform you that it is not as simple as that. Yes, high antioxidant levels and low oxidative stress are associated with good health, but not all antioxidants are the same. In order to obtain antioxidants, it is important to consume a healthy diet. It is important to note that antioxidants come from a variety of sources. Several of these substances are produced naturally by the body, while others are found in the foods we consume. There is also the possibility of adding antioxidants (natural or synthetic) to foods that do not normally contain them, either for their (supposed) health benefits or to preserve the food (antioxidants also prevent food from oxidizing).

Antioxidants can be obtained by eating a healthy diet. Fruits, vegetables, grains, eggs, and nuts are all good sources of antioxidants. There is no evidence that antioxidants found in superfoods are more effective than those found in regular fruit and vegetables, so you would be better off saving your money.

In a healthy diet, antioxidants provide additional nutritional benefits. In addition, supplement use can cause problems due to the high levels of antioxidants present in the supplements. A superfood and a regular fruit or vegetable provide the same types of antioxidants. When too much of a good thing is present, it may be harmful. There are a number of reasons for this. It is important to note that high concentrations of antioxidants can cause unwanted side effects, such as nausea and headaches, or even reach toxic levels. Antioxidants act as pro-oxidants, increasing oxidation, protecting dangerous cells (such as cancer cells) and healthy cells, as well as reducing the health benefits of exercise. There is no magic pill to combat free radical damage, but a healthy diet can provide you with all the antioxidants you need.

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What Are The Benefits Of Vegetarian Diet – FutureUniverseTV Shares Powerful Health Tips

What Are The Benefits Of Vegetarian Diet. FutureUniverseTV Shares Powerful Health Tips.

What Are The Benefits Of Vegetarian Diet
What Are The Benefits Of Vegetarian Diet

Discover the benefits of a vegetarian diet. Choosing a vegetarian diet can be motivated by a variety of factors, including concern for the welfare of animals or the environment, cultural, religious and health considerations. The type of vegetarian diet that you choose is likely to be determined by your ‘why’.

A vegetarian diet excludes meat, poultry, game, fish, shellfish, and animal byproducts such as gelatin. There are various types of vegetarian diets, depending on what you eat.

Discover 2 different types of vegetarian diets. Lacto-ovo-vegetarians consume both dairy and eggs, while lacto-vegetarians consume only dairy products. A vegetarian diet that only includes eggs is known as an ovo-vegetarian diet. Vegetarian diets have a number of health benefits.

The health benefits of a carefully planned, plant-based diet that supplies all the essential nutrients you need are numerous regardless of your age, gender, or activity level. Non-meat eaters who consume predominantly plant-based diets have been reported to suffer from fewer cases of obesity, heart disease, and type 2 diabetes.

Those with high blood pressure may benefit from a vegetarian diet, as studies suggest that vegetarians have a lower incidence of elevated blood pressure. Vegetarians may also be at a lower risk of cancer in general, and vegans even more so.

As a general rule, a vegetarian diet based on whole foods contains fewer saturated fats and more folate, fibre, and protective antioxidants, such as vitamins C and E. Moreover, most vegetarians consume more fruits and vegetables than the recommended five daily servings. Plant-based foods rich in phytonutrients may contribute to the prevention of age-related eye conditions such as cataracts and age-related macular degeneration.

Additionally, plant-based diets are considered to be healthier for the environment. This is because they use fewer natural resources and, as such, are associated with less environmental damage. The importance of maintaining a balanced vegetarian diet. In addition to the numerous benefits of a well-planned vegetarian diet, if you consume processed vegetarian foods with high sugar, salt and fat intakes and few vegetables, fruits, whole grains, nuts, and seeds, you are unlikely to receive the nutrients you require. It is possible that vegetarian diets do not provide adequate amounts of calcium, vitamins D and B12, protein, and omega-3 essential fatty acids if they are not planned properly. You may need to consume more of the relevant food sources to maintain appropriate levels of minerals such as zinc, iron, and iodine.

Making use of fortified products, such as plant milks, breakfast cereals, and spreads, and consuming a wide variety of foods will contribute to a well-balanced diet.

Choosing a vegetarian diet that is well-balanced. A minimum of five portions of fruit and vegetables should be consumed each day. Include sources of protein such as eggs, dairy or fortified plant alternatives, soya, pulses, beans, nuts and seeds. As well as wholegrain versions of bread, rice and pasta, consider including wholegrain versions of these products.

When possible, choose cold-pressed, unsaturated oils as well as nuts and seeds, such as flax, chia, and walnuts, as well as eggs enriched with omega-3 fatty acids. Include mineral-rich foods such as beans, lentils, nuts, seeds, dried fruit, leafy greens, fortified cereals, and plant milks in your diet. Choosing plant alternatives that are fortified with calcium, vitamin B12, vitamin D, and possibly iodine could be a good idea if you avoid dairy products. Consult your GP or healthcare practitioner if you are concerned that your age, health, or an existing medical condition may interfere with your ability to obtain the nutrients you require.

You can contact me via https://wa.me/6593790483 for inquiries on healthy food advice and product recommendations to power up your health. Thanks for your support.

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Artificial Intelligence To Spot Breast Cancer – FutureUniverseTV Presents Tech News

Artificial Intelligence To Spot Breast Cancer. FutureUniverseTV Presents Tech News.

Artificial Intelligence To Spot Breast Cancer
Artificial Intelligence To Spot Breast Cancer
Digital pathology, an emerging method of diagnosis, can be used in conjunction with the Ki-67 standard comparison card for breast cancer.

An automatic artificial intelligence analysis has been proposed as a potential method for evaluating Ki-67 in a number of studies. Based on the results of this study, it appears that artificial intelligence counting and gold standard counting are highly consistent for Ki-67LI.

As a result of artificial intelligence, the International Breast Cancer Working Group’s standards for cell counting have been met.

As well as the range of cell numbers that the working group recommends have been met too. All automatic Ki-67 evaluation methods provide significantly greater sensitivity and specificity than manual methods.

Artificial intelligence software, however, has some disadvantages as well.

In studies, it has been demonstrated that the automatic evaluation method is less accurate for identifying tumor cells than the visual method. There is a possibility that some lymphocytes expressing Ki-67 may be identified as tumor cells, particularly in lymphocyte-rich tumors. The Ki-67LI is therefore overestimated as a result.

In this study, Ki-67LI was determined to be lower using AI than by the other three methods of interpretation.

Since breast cancer cells are heterogeneous, artificial intelligence cannot completely identify each tumor cell or can misidentify them, for example, by identifying interstitial cells as tumor cells, or ignoring positive tumor cells with blurred outlines and lighter staining, which results in low Ki-67LI levels. As reported in the Maeda study, the average Ki-67LI for visual assessment was 22 and the average Ki-67LI for AI count was 20.4. To address this problem, a study has proposed a semi-automatic method for evaluating Ki-67LI by manually labeling immunostained tumor cells and negative tumor cells in order to determine the accurate proliferation index value and then counting the cells automatically.

It is determined by dividing the total number of immunolabeled positive cells by the total number of tumor cells.

The gold standard in this study combined with breast pathology experts and artificial intelligence counting, to reduce the risk of Ki-67LI being overestimated or underestimated by avoiding computer errors in identifying tumor cells and human interpretation errors resulting from visual fatigue. Since breast cancer tumor cells are heterogeneous, most Ki-67 immunohistochemical sections have hot spots (high value-added areas) and cold spots (low value-added areas), and the hot spots include tumor margins and central hot spots.

It is inevitable that Ki-67LI results will vary depending on the interpretation area selected.

The International Breast Cancer Ki-67 Working Group recommended that hot spots in Ki-67 immunohistochemical staining sections be included in the interpretation area if there are hot spots. Based on the four methods used for interpreting Ki-67 in breast cancer, two hot spots and two non-hot spots were selected in this experiment. This method overcomes the effects of the selection of different evaluation areas on the repeatability of Ki-67 immunohistochemical interpretation of breast cancer caused by the selection of different evaluation areas. The results of this study show that artificial intelligence counting of Ki-67LI in heterogeneous tumors can minimize the impact of tumor heterogeneity on Ki-67LI and increase the consistency among pathologists significantly.

The average Ki-67LI value for breast cancer interpretation using the SRC, AI, and gold standard differed from the gold standard in the difference test.

In this case, the interpretation area may have been the cause of the difference. The experimental method selected three regions for Ki-67 immunohistochemistry; therefore, a multi-region analysis can still be performed to determine the differences between each of these regions and the gold standard. AI software for breast cancer Ki-67LI standardizes the interpretation area (multi-area average method), which is important for clinical applications of Ki-67.

Ki-67 assessment was updated by the International Breast Cancer Ki-67 Working Group (IKWG)

They talk about the analytical validity and clinical application status of Ki-67 immunohistochemical detection in breast cancer tissues, and recommends standardized visual assessments. To summarize, pathologists must determine a standardized method for interpreting Ki-67 in breast cancer cases.

The interpretation of Ki-67 immunohistochemistry by artificial intelligence software is highly accurate and repeatable.

The interpretation of breast cancer Ki-67 is performed in some pathology laboratories where artificial intelligence software has not yet become widely used, in order to ensure repeatability of interpretation results and to save time and energy. The breast cancer Ki-67 standard comparison card is used to ensure repeatability of interpretation results. Thus, it is expected that Ki-67 standard comparison cards will serve as a reference method for interpreting Ki-67 immunohistochemical results of breast cancer on a daily basis.

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