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6 reasons to care about your gut flora
April 11, 2019 08:12 AM
Gut flora is made up of the bacteria that resides in our intestines and stomach. While we are born with some of this, the rest can be affected through our diets. Having good bacteria helps eliminate what is not good and there are several examples. First, there is a link between good bacteria in the gut flora and our overall mental health. There is a lot of bacteria already identified, with some of the benefits not known yet and a deepening understanding is important. Bad bacteria can cause a number of diseases, but being healthy and eating appropriately can decrease the need things like probiotics, which people may needlessly use while on antibiotics. Finally, prebiotics found in foods that promote good gut flora can lead to a decrease in blood pressure.
"With probiotics, fermented foods and kombucha all trending in recent years, we wanted to find out what all the fuss was about when it comes to our gut health."
Read more: https://www.dw.com/en/6-reasons-to-care-about-your-gut-flora/a-47429707
The ketogenic diet: Why the HIGH FAT plan results in 'more effective weight loss'
February 09, 2017 07:59 AM
The ketogenic diet is high in fat and low in carbohydrates. It is believed that it can aid weight loss. When blood sugar is low in supply, the body is forced to use ketones it produces from fat for energy. By eating a high fat diet, the body is forced to switch to burning ketones for energy thus burning fat more efficiently.
"According to Diet Doctor, the ‘keto’ in a ketogenic diet comes from the fact that it makes the body produce small fuel molecules called ketones."
May 17, 2008 10:07 AM
Discovered by Phoebus Levene in 1905, D-ribose is a monosaccharide, and is a component of RNA that is needed for genetic transcription. It is a stereoisomer of ribose, and although not regarded as an essential nutrient since it is synthesized in the body, it is essential for life. It also takes part in human metabolism, helping to generate energy from food, and is a component of all living cells – animal or vegetable. It is contained in ATP and NADH and we could not live without it.
Because it is contained in all living organisms, D-ribose is a common component of the human diet, and required as a supplement only for specific needs. It for this reason that the human species developed and survived: the chemicals needed for life are either commonly found in nature or are manufactured by the body itself from other raw materials which themselves are common in our diet. The other stereoisomer is L-ribose, and this plays no part in human metabolism.
Energy is needed not only to enable us to walk and to run, but also to drive every part of human physiological activity, and all of the physical and chemical processes of life. Because of its nature energy cannot travel round the body in our bloodstream as if were a chemical entity, but must be released or generated where and when it is needed. For that reason every cell in our body contains an area called the mitochondria in which energy is generated. The molecule of energy, if there is such a thing, is called ATP, or adenosine triphosphate.
ATP controls the production of energy everywhere in the body, and allows muscles to contract and relax. This muscular activity is responsible for all movement, including the circulation of our blood through heart contractions, the diaphragm movement that creates the vacuum that allows us to breathe, and the operation of the digestive system by means of the peristaltic motion of the esophagus and the intestines. Each of the two ways in which ATP is generated involves D-ribose.
One is by means of D-ribose being used to produce new ATP, and the other is the recycling of used ATP. In the latter, D-ribose and ATP react to form ADP (adenosine diphosphate and D-ribose-5-phosphate with the release of energy. This diphosphate then reacts again with the ADP to produce new ATP and D-ribose. The reaction is catalyzed by an enzyme known as a ribokinase, a phosphotransferase that specifically catalyzes reactions involving phosphorus groups with an alcohol receptor group.
The heart muscle is operated by means of the calcium pump that depends upon both calcium and ATP for its operation. When ADP and phosphate are created by the effect of calcium and ATP coming together, then energy is provided to the muscle fibers of the heart. ADP then reacts with the phosphate and D-ribose in the presence of magnesium to reform the ATP. ATP is therefore essential for the continuation of the pumping action of the heart that maintains life in all mammals.
D-ribose is also part of the base of RNA and DNA, without which there could be no life. Because the cardiac muscle is easily depleted of ATP, the presence of D-ribose is of extreme importance and it has been proved that cardiac failure begins with the reduction in energy levels of the heart muscle that can be brought about by a lack of ATP in the muscle cells.
An important property of D-ribose is that it is unchanged by the liver, which is the chemical plant of your body in which a large part of the biochemistry needed for life takes place. This means that D-ribose can be taken in the diet and pass through the liver virtually unchanged, and then be transported in the bloodstream to where it is needed for the maintenance of ATP levels. that is why D-ribose is frequently given to treat heart attacks: because it can rapidly replace lost ATP and enable the calcium pump to get to work and keep the heart beating at its normal strength. Maintenance levels of this important sugar would not go amiss.
However, there are other uses to which the body can put this marvelous substance. Among these is the body’s ability to form Coenzyme A from it. This coenzyme is needed in the body for the breakdown of fatty acids, and many other chemical reactions, and also provides the raw material for many other necessary substances in human biochemistry.
Patients with low energy levels can frequently fail to be able to recover from illness. This is because that when illness stresses your body, your mitochondria become overwhelmed with work and begin to fail to produce sufficient ATP to keep the body going. Naturally, as your energy level drops, and your body cells are unable to respond to this, then the condition you are suffering from gets worse, and become stronger leading ultimately to possible death. Your immune system is put under a great deal of stress that uses up what little ATP you have left.
that is why when people start to get really ill, they tend to fade very rapidly: not because of the spread of the disease, but through a reduction in the ATP needed to provide the energy required for the body to fight the disease. Without an adequate supply of energy, your body would rapidly fade.
By taking a D-ribose supplement that passes unchanged right into your bloodstream and taken to where it is needed most, you body can rapidly generate sufficient ATP to keep up the fight against the agent that is making you ill. Your immune system is given a massive energy boost, and more importantly, your heart is kept beating. D-ribose is the answer to the prayer of many sick people, and also to athletes and bodybuilders needing quick bursts of energy. But what did they use before D-ribose was discovered to have the properties that it has?
At one time, it was adenosine monophosphate (that’s right, not ATP or ADP, but AMP) that was administered intravenously to those suffering from chronic fatigue, this substance being synthesized to ATP in the body over a period of time. However, it take a lot of time to be effective, and the injections had to be made daily into the muscle tissue, so it fell out of favor.
Then came an ATP supplement that could be taken orally, but the side effects were unpleasant, and that too went out of favor. However, towards the end of the 1990’s D-ribose was found to overcome all of these disadvantages, and not only be able to be taken orally, but also to work almost immediately by providing the mitochondria with a direct source of the sugar they need to generate energy.
It is now one of the most popular energy providing supplements on the market, and also a remedy for chronic fatigue that helps the patient to overcome energy-sapping medical conditions both directly and by providing the immune system with the energy needed to keep it operating effectively against masses of invading bacteria and viruses. There is nothing better than D-ribose for providing you with the energy boost that you need, whenever you require it, either to provide energy for your sport or to help you overcome illness.
November 18, 2005 05:45 PM
Not Just Good, WHEY GOOD.
Whey good gives you 23 grams of high quality protein in one serving. Mixes instantly—just stir and enjoy.
We didn’t add any thickeners or gums—whey good protein is simply a healthy blend of different whey proteins, fructooligosaccharides (FOS) and arabinogalactan sweetned with xylitol.
FOS was added for nutritive support as a prebiotic nutrient to bifidobacteria and lactobacillus.
Arabinogalactan is a natural soluble fiber added for its reputed ability to provide nutritive support for healthy digestion and immune health. Xylitol is a sweetener which doesn’t promote cavities.
CLA and the Catabolic Cascade
June 22, 2005 09:49 PM
CLA and the Catabolic Cascade
Next fall, when you or a friend goes to the doctor to get a flu shot, notice how a low-grade fever starts. Notice how rundown you or your friend begin to feel for a day or so after the shot. It is as if you are dealing with a small portion of the disease. In some respects you are, but, in reality, the icky, yucky feelings we associate with sickness come from our body’s own response to an invasion. When the immune system goes on the o f f e n s i ve, it puts out hormones called cytokines. T h o s e cytokines cause fever and pain.
Doctors call this process the catabolic cascade. It is our body that produces it. An extreme example might have been when Jim Henson, the wonderful creator of Kermit the Frog, got an extreme bacterial infection. He died within about 12 hours. Although the bacteria caused some severe reactions, it was his body’s intense catabolic response that may have been the direct cause of death.
Cytokines are involved in more than just stimulating the immune system, they are involved in how the body accumulates fat, in how veins accumulate deposits and in how our body during disease can sometimes cause dangerous, rapid weight loss. CLA changes how cytokines work, but how it does it is not certain.
Here’s an example of why this is important: When young animals get sick, their immune systems kick into action. Besides contracting a feve r, the animals’ growth slow s . Furthermore, weight and muscle mass can be lost, not just because of loss of appetite, but because of degradation of muscle tissue. For a poultry farmer, this can be significant. In organized farms, bacteria can abound and young chicks often face sickness. Because their immune systems are firing, the cytokines can stunt growth and, accordingly, stunt the farmer’s profits.
Dr. Mark Cook was working on this dilemma in 1990 and jogging at the campus of the Un i versity of Wi s c o n s i n - Madison. During one of his regular exercise sessions, he began chatting with Dr. Pariza. As researchers do, they began talking about their work. They decided to collaborate, seeing if CLA had an effect on this problem.
In 1993, the scientists at the University of Wisconsin-- Madison injected rat pups with endotoxin, the substances bacteria produce to do their damage.40 This injection activated their immune systems. They also did the same thing in two studies using chicks. In all three studies, the weight-loss was about half what it was during the other studies.
In a study published in 1994, re s e a rchers also injected endot oxin into mice. To some, they gave CLA, to others they didn’t After three days, the scientists weighed the mice and discove re d that those who also re c e i ved CLA in their diets lost much less weight. Indeed, after three days they weighed as much as the c o n t rol gro u p, which re c e i ved no endotoxin at all. The CLA - f e d g roup also had a much better appetite than those that re c e i ve d no CLA with endotoxin. They also had a higher muscle mass.41 Let’s repeat that. CLA gives a higher muscle mass in rats. Stop and think about the implications. Other studies have shown, and, we will get to them, that CLA also cuts the amount of food converted to fat. In an era of increasing battles with the bulge, CLA seems to show great promise. (that weight gain seems to be involved somehow with the immune system and cytokines indicates that working with cytokines may be how CLA affects body fat accumulation.) Yes, CLA can help cut the effects of immune stimulation, but does it do that at the expense of making our immune systems less effective? Does CLA affect how the body battles disease? Not from any evidence in any study. The 1993 studies measured several immune functions, and, if anything, the immune system worked better.42
Again, these are animal studies, not necessarily involved with how humans work. However, these studies involve more than one kind of animal, making it, again, more likely to be useful in humans.
Let’s speculate for a minute. When CLA cuts the catabolic cascade, doesn’t it make sense that the body would feel better, if only because the appetite is better? When CLA cuts weight loss, couldn’t that have immense benefits for patients suffering from long-term illnesses—including those illnesses that affect the immune system—who grow weak from a loss of muscle tone and from a loss of weight?
For the animal industry, of course, this nutrient clearly means better production methods and healthier animals. For those same animals, it seems possible to speculate that CLA may actually work as a growth factor for their young.43 For humans, this nutrient could mean feeling better and feeling stronger while the body fights off disease.
At the beginning of this booklet, we learned that CLA may be one of the most important nutrients discovered in recent years. The support for that statement should be clear. CLA, if the human studies hold true, could cut your risk for cancer, could lower your risk of heart disease, could help you feel better when you are ill, and improve muscle tone while decreasing body fat.
This research has one other interesting side effect. Cook says that during much of the research, graduate students helping in the work would continually report that animals were eating less. Indeed, the animals ate up to 30 percent less while gaining weight or helping the immune system.
If all animals in the world were fed CLA, and it cut feed intake by 30 percent, this would have strong implications on world starvation and feed efficiency. Especially in a world w h e re meat consumption may be growing. Cutting the amount of animal feed necessary to produce the same number of animals is vital. This, too, is a possible result of CLA.44