Your Stomach, Part 3 by plzchuckle ..... Barefooters' Library
Date: 11/6/2013 11:37:14 AM ( 11 y ago)
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BY - Jon Barron
In the last newsletter (part 3 in our series on the digestive system), we concluded our discussion of the anatomy and physiology of the stomach from a natural health perspective. In this issue, we take the logical next step and explore in detail the things that can go wrong with your stomach. Amusingly, the common stomach ache is not one of them. When most people complain of a stomach ache, they put their hands over their transverse colons -- the source of the problem -- and an area we will cover in great detail later in our series on the digestive system. But for now, our focus will be on stomach/duodenal specific problems. These include:
So, without further ado…
Peptic ulcers
Most people do not understand ulcers. They think they are either caused by too much stomach acid (not true) or caused by the bacteria H. pylori (only partially true). They also think most ulcers occur in the stomach (gastric ulcers), which again is not true. In fact, about 60% of all peptic ulcers occur in the duodenum, where stomach acid is actually neutralized shortly after making its appearance -- which surprisingly contributes to the problem.
Quite simply, a peptic ulcer is any ulceration in acid-exposed areas in the duodenum or stomach. Stomach acid itself is not the culprit here. After all, strong stomach acid is a normal part of digestion. In fact the key to understanding peptic ulcers lies in two words found in the definition above: "acid-exposed." The bottom line is that peptic ulcers occur when the mucous that lines every square inch of the stomach and duodenum and that protects them from the corrosive effects of stomach acid is somehow worn away from an area of tissue -- exposing that tissue to the burning effects of the acid. Peptic ulcers, then, are caused not by stomach acid, but by damage to the body's protective mucosal lining.
This can have several causes:
Helicobacter pylori (H. pylori) is considered the primary culprit. Although somewhat resistant to stomach acid, H. pylori bacteria cannot really withstand a full onslaught of undiluted acid. Therefore, it lives under the mucosal layer lining the stomach, but does not actually invade it. It thus protects itself from the gastric juices, which can destroy it. H. pylori further protects itself by secreting urease, an enzyme that breaks down urea into ammonia and carbon dioxide; the ammonia in turn neutralizes stomach acid. This helps it survive short bursts of exposure to less than full strength stomach acid as it makes its way through the stomach and on into the duodenum. As the organism thrives and expands its colony under the mucosal lining, it causes the lining to inflame. This causes a thinning and breakdown of the mucous layer that protects the lining. The lining of the duodenum or stomach is now exposed to acid and pepsin, and ulcers may develop.
So again, stomach acid does not directly cause the stomach ulcer, and -- here's an important point -- can actually kill the bacteria if it is strong enough and is present before the bacteria can establish itself under the mucosa. If stomach acid is diminished for any reason (such as regular use of proton pump inhibitors, excessive use of antacids, or regular consumption of large amounts of liquids with meals), this can allow the bacteria the opportunity to survive long enough to establish itself in the mucosal lining protected from stomach acid. This can lead to a very interesting paradox.
Currently, proton pump inhibitor drugs are your physician's primary option for treating ulcers (along with Antibiotics to kill the H. pylori) since they prevent your stomach from producing the stomach acid that is eating away at the exposed tissue. But without sufficient stomach acid, the bacteria can resist lower levels of stomach acid. That's why the standard medical treatment for H. pylori requires Antibiotics to kill the bacteria. The problem with this form of treatment, however, is that it may actually make the condition worse. What a quandary! In addition, when discussing H. pylori, it should be mentioned that only a small minority of people (5-10%) who have H. pylori in their system ever develop a peptic ulcer. Not just a quandary -- but a paradox too!
The other two primary causes of peptic ulcers are non-steroidal inflammatory drugs (NSAIDS) and "social" drugs such as nicotine from smoking, alcohol, and caffeine. Many NSAIDS (especially aspirin) and corticosteroids irritate the stomach lining and can also cause ulcers. As for smoking, people who smoke are more likely to develop a peptic ulcer than people who do not smoke, and their ulcers heal more slowly. As for spicy foods and being stressed, they can make your ulcer "feel" worse, but there is no established link between them and the actual formation of peptic ulcers.
An alternative approach to ulcers
Supplemental digestive enzymes help digest so much of your meal during the 40-60 minutes of pre-digestion that your body requires a less sustained release of acid in the actual digestion phase. (Note: the strength of the stomach acid released is undiminished, only the time of exposure is reduced.) This means that taking digestive enzymes will lessen the amount of time that your stomach and duodenum are exposed to acid -- but without raising pH when the acid is actually present. Those who suffer from chronic low levels of acid need not worry. Digestive enzyme supplements help here too by breaking down so much food in the pre-digestion phase that less acid is actually required overall. And over time, decreased demand results in increased reserve capability.
In addition, protease released with the stomach acid or present in the supplemental enzymes will begin breaking down the protective coating of the H. pylori bacteria. In other words, the protease will actually begin to digest the bacteria, rendering it vulnerable to stomach acid. However, for those with a severe existing ulcer, the protease may begin to digest damaged mucosal tissue because its protective coating is missing. This can cause noticeable discomfort for several days. To avoid this, when using digestive enzyme supplements, start with very small amounts of the supplement with your meals and build up slowly.
And then there's mastic!
Mastic, which is widely used in Mediterranean cooking as a sweetening agent, offers a couple of interesting health benefits. First, studies now indicate that in addition to having direct antimicrobial activity, mastic renders H. pylori vulnerable to your body's immune system. Mastic also enhances your body's ability to regenerate the epithelial cells of your gastrointestinal lining. The net result is that mastic can help prevent and relieve a number of digestive disorders, including heartburn, gas, bloating, dyspepsia, nausea, and of course, peptic ulcers.
Acid reflux
Acid reflux disease, also known as Gastroesophageal reflux disease or GERD, is defined as chronic symptoms or mucosal damage produced by the abnormal reflux of food and digestive juices (chyme) back up into the esophagus. This is commonly due to malfunctions in the lower esophageal sphincter that is supposed to prevent reflux from the stomach, back up into the esophagus -- and to loss of control of acid production during the digestive process. Surprisingly, most treatments deal only with the second factor, not the first.
Before we can actually cover the causes of acid reflux and what you can do about it, we need to quickly review from the last newsletter, the phases of acid release, the regulating mechanisms that govern its release, and the triggers your body uses to signal for increased production of stomach acid. Understanding these triggers becomes the key to managing them and also exposes the flaws in the basic medical approach.
As we discussed last issue, there are three phases of stomach acid release. To quickly review:
Cephalic phase
Thirty percent of stomach acid is released by the anticipation of eating and the smell or taste of food. This is known as the cephalic phase, and as we will discuss in a bit, this is both governed and triggered by the vagus nerve. The vagus nerve starts in the medulla oblongata of the brain, runs down through the neck and then connects to virtually every organ in the body except the adrenal glands. As such it plays a major role in the digestive process -- both sensing what's happening in the stomach and signaling the stomach to prepare for the ingestion of food.
Gastric phase
Sixty percent of all stomach acid is released during the second phase of digestion, the gastric phase. This phase is triggered by the distention of the stomach -- primarily the lower part of the stomach (the antrum) as chyme (the mixture of food and digestive juices) makes its way through the digestive process -- and by the presence of proteins in the stomach. It is also triggered by a sudden rise in pH as stomach acid is diluted and if there is too little calcium in the blood. These four triggers cause gastrin, the primary regulator of stomach acid production, to be released. As we discussed in the last newsletter, gastrin is released into the bloodstream by the G cells located in the antrum of the stomach. Once in the bloodstream, gastrin circulates around body -- ultimately reaching the cells of the stomach wall via the rich blood network that supports the stomach and bathes all of the cells in the stomach wall. Once there, gastrin works by stimulating the pariatel cells and the gastric chief cells to produce stomach acid and pepsinogen respectively as needed for digestion. In addition, gastrin causes the lower esophageal sphincter to constrict, thus inhibiting the backup of chyme and stomach acid into the esophagus. Disrupting this signaling mechanism causes the sphincter to relax, thus making it more prone to reflux.
Since these triggers for the release of stomach acid are so important, let's review them in a little more detail.
Intestinal phase
And finally, ten percent of stomach acid is released during the last phase of digestion, the intestinal phase. This is triggered when chyme begins leaving the stomach and causes distension of the duodenum. More importantly, though, the presence of chyme in the duodenum starts triggering the inhibition of gastrin release -- and ultimately the inhibition of stomach acid production. This is regulated by the fact that the presence of chyme in the duodenum triggers the release of a number of hormones, including somatostatin, secretin, VIP, glucagon, calcitonin, and, of course, the appropriately named gastro inhibitory peptide.
Solutions to excess stomach acid
So now that we know the mechanisms that regulate the production of stomach acid and the triggers that lead to excess production in the stomach, we should be able to look at the alternatives for alleviating the condition -- and what problems they might present.
Antacids
As we discussed last issue, once you understand the triggers involved in the production of stomach acid, you can instantly understand the problem with using antacids such as Tums and Rolaids. Although they effectively can neutralize excess stomach acid short term, the very act of raising pH in the stomach while food is present tells the body to produce more acid to compensate for the reduced acid levels. Thus, although you may get short term release from antacids, it is likely to be followed by another round of excess stomach acid.
Drinking water
Drinking water to dilute excess stomach acid presents pretty much the same problem as using antacids. It will neutralize excess stomach acid short term, but by raising pH while the stomach is still distended, it will merely trigger the subsequent production of even more stomach acid.
Which brings up another issue associated with drinking water (or other liquids) while eating.
Drinking too much liquid while eating will dilute stomach juices from the get go. Not only does that interfere with digestion, it also immediately triggers the stomach to produce more stomach acid and is a primary factor in the onset of acid reflux disease. A little bit of water, wine, tea, whatever with your meal does not present a problem. Once you go beyond 8 ounces, however, problems start to develop. The more you drink, the greater the problems. Or to put it another way, three slices of pepperoni pizza sluiced down with an entire pitcher of root beer is a prescription for disaster.
Proton pump inhibitors
"Proton pump inhibitors" is the name of class of drugs that includes familiar names such as Nexium, Prilosec, and Prevacid. Right now, within the medical community -- and within the public at large -- proton pump inhibitors are among the hottest drugs in use. This is a testament both to the extent of digestive problems in the developed world and in the ability of these drugs to effectively stop production of excess stomach acid. How do they accomplish this miracle?
Without going into technical details, suffice it to say that proton pump inhibitors act by blocking an enzyme system that controls the final stage of the release of stomach acid from the parietal cells. Block the enzyme system, and you stop the release of stomach acid. How effective are proton pump inhibitors in stopping the release of stomach acid?
Quite simply, proton pump inhibitors can reduce gastric acid secretion by up to 99%.
Problem solved! If you had acid reflux before, you do not now. Even if some chyme is still backing up into the esophagus, it's not a problem since there's no stomach acid present. For doctors, it's the perfect solution. It works like a charm, and their patients are happy.
However, since it doesn't address the actual problem behind acid reflux and merely suppresses a symptom (which is in fact what most drugs do), it should not be surprising that there is a physical cost to regular use of these drugs.
But even more significantly, there is a fundamental problem with suppressing the production of stomach acid. Hydrochloric acid is not just "something" in the stomach; it is an essential component of the digestive process. Suppressing the symptoms of acid reflux by eliminating 99% of all stomach acid production presents a fundamental disruption of the digestive process. As you may remember from the last newsletter, hydrochloric acid is required for the digestion of proteins; it unwinds them so that pepsin can break them down. It is also required for the absorption of nutrients, particularly of vitamin B12. And it is required for the utilization and absorption of minerals such as calcium. Specifically, suppressing the production of stomach acid through the long term use of proton pump inhibitor drugs will lead to:
Incomplete digestion
Stomach acid denatures (unfolds) proteins so that they can actually be broken down by pepsin during digestion. Without being unfolded, they resist digestion. Without sufficient stomach acid present, this process won't happen and the digestion of your food -- particularly proteins -- will be incomplete. This can result in long term deficiencies. In addition, since proteins now enter the intestinal tract not fully digested, this puts incredible stress on your pancreas (the digestive organ last resort, as it were) to produce vast quantities of protein digesting enzymes to try and compensate. And of course, the incomplete digestion of complex proteins (particularly those found in wheat, corn, and dairy) is a major factor in the onset of food allergies .
In addition, HCL kills many micro-organisms, such as the ones that travel into the digestive tract from the human mouth or come breeding in the food itself -- as with contaminated meat or produce. Without sufficient stomach acid present, you are that much more likely to succumb to food poisoning and stomach flus -- not to mention H. pylori and peptic ulcers, as we discussed earlier.
It is the presence of HCL in both the stomach and the duodenum that stimulates the flow of hormones, bile juices, and pancreatic juices in preparation for release into the small intestine. The less HCL produced, the less pancreatic juices are signaled for. Combine low HCL with no digestive enzymes being consumed with your food, and you have guaranteed lack of proper digestion (not just for proteins, but for fats too since the trigger for the release of bile has been disrupted).
Poor B12 absorption
Intrinsic factor is a protein made by the parietal cells in the stomach. It is made and released concurrently as the parietal cells make and release stomach acid. Effectively, the same things that trigger the release of stomach acid trigger the release of intrinsic factor -- and more to the point, the same things that inhibit the release of stomach acid, such as proton pump inhibitors, inhibit the release of intrinsic factor.
Why is this important?
Because intrinsic factor is essential if your body is to absorb and utilize vitamin B12. The mechanism is simple. Intrinsic factor, if it's present, binds with vitamin B12 in your food and/or supplements. This happens in the duodenum, and it accomplishes two things:
Without intrinsic factor, most B12 could never reach the ileum, and even that which made it there could not be swapped out with transcobalamin II and thus utilized by the body. This means that if there is an intrinsic factor shortage, you will suffer from a B12 shortage, no matter how much you supplement.
The primary symptom of B12 shortage is pernicious anemia, a decrease in red blood cells that occurs when the body cannot properly absorb vitamin B12 from the gastrointestinal tract.
Symptoms of anemia can include:
Not surprisingly, pernicious anemia is a known side effect of the long term usage of proton pump inhibitors. And in fact, the problem is even worse than described above. In addition to causing B12 shortages, long term use of proton pump inhibitors leads to iron deficiency, which further exacerbates the problem by causing iron deficiency anemia -- as we will now discuss.
Poor mineral absorption
Hydrochloric acid is essential for separating minerals from the foods that bind them. Or, if the minerals are already separated, as in supplements, low HCL levels in the stomach allow the minerals to recombine with the chyme into compounds that are difficult to absorb. Some minerals are more prone to this problem than others. Of the major minerals, iron, zinc, and calcium absorption in particular are directly affected by low acid levels.
In addition, if the stomach produces too little stomach acid, minerals such as calcium remain insoluble and cannot be ionized, which is necessary for assimilation in the intestines. Ionization is the process whereby an atom changes its structure so that it can combine with other elements. This is why chelated calcium, like many other chelates, is much more absorbable than raw calcium. The bottom line is that proper stomach acid levels are essential for ionic bonding which is necessary for intestinal uptake. The proper level of hydrochloric acid in the stomach is so important that its lack in the digestive process can account for as much as an 80% loss of available calcium absorption.
That means that regular users of proton pump inhibitor drugs are prone to be deficient in these minerals. In addition, sufficient stomach acid is essential for the absorption of most trace minerals. And considering that most people get almost none of these essential micronutrients in their diets to begin with, deficiencies of trace minerals is epidemic among people who suppress stomach acid production.
Natural Health Alternatives
Fortunately, proton pump inhibitor drugs are not the only solution to acid reflux disease. There are natural alternatives. These include:
For more on stomach acid and digestion, check out my 2007 newsletter on the subject.
And while discussing acid reflux disease, it's important not to forget the physical contributors to the problem
As we discussed in our overview of the digestive system, there are steps you can take to help alleviate hiatal hernias.
As for the esophageal sphincter, getting the release of stomach acid back into proper alignment and timing, can go a long way to helping the sphincter close properly -- as can avoiding overeating.
Satiety/Weight Gain
The human stomach can stretch quite a bit to accommodate a large meal, but also tends to collapse quickly after being stretched, which can cause hunger to return quite soon after a large meal. How much can it stretch? An unbelievable amount!! After a Thanksgiving dinner, it can stretch almost down to your pelvis. Then it empties -- eventually -- and you feel hungry again.
Grazing (eating a number of small meals throughout the day) on the other hand, does not overstretch the stomach, and keeps some food in there most of the day, which means you are constantly sending satiety signals to the brain. In other words, 6 small snack/meals will keep you feeling more satiated than 3 large meals -- or any large meals, for that matter.
There's more
In addition to the problems we've already discussed relative to B12 and minerals, the symptoms of HCL deficiency include:
The bottom line is that despite the fact that proton pump inhibitor drugs can help eliminate the short term "symptoms" of acid reflux disease, they create a whole range of problems of their own associated with reduced stomach acid production and should not be used long term.
One final note on low stomach acid is that this is not just a concern for people who use antacids or proton pump inhibitor drugs. It is a major problem for the elderly. After a lifetime of eating enzyme deficient foods and forcing the stomach to overcompensate with extra high acid production, eventually the body's capacity to produce stomach acid breaks down. At that point, no matter what you do, the body can no longer produce enough stomach acid to properly digest foods or negotiate the absorption of vitamin B12 and minerals. That's one of the major reasons that so many of the elderly suffer from low blood counts and nutritional deficiencies -- particularly mineral deficiencies.
When it comes to stomach stretching, I always remember the possibly apocryphal stories of Diamond Jim Brady, the American businessman and financier of the later 1800's, whose eating bouts were legendary.
No doubt, his appetite for gourmet food was insatiable, and he gorged himself at restaurants and parties. And as legend would have it, a typical Brady breakfast would include: eggs, pancakes, pork chops, cornbread, fried potatoes, hominy, muffins, and a beefsteak. For refreshment, a gallon of orange juice -- or "golden nectar", as he called his favorite drink. Lunch might be two lobsters, deviled crabs, clams, oysters and beef, with a few pies for dessert. The usual evening meal began with an appetizer of two or three dozen oysters, six crabs, and a few servings of green turtle soup, followed by a main course of two whole ducks, six or seven lobsters, a sirloin steak, two servings of terrapin and a host of vegetables. For dessert, he enjoyed pastries and a two pound box of candy.
Apocryphal or not, his lifestyle eventually caught up with him. Brady first consulted doctors for stomach diseases brought on by his uncontrollable eating habits: diabetes, heart and urinary problems, and high blood pressure. His prostate was swollen beyond belief. And his stomach was six times the size of a normal person's stomach. After treatment at Johns Hopkins in Baltimore helped clean the prostate,Brady went back to New York and lived lavishly for another five years.
But on April 13, 1917, Brady died of a heart attack resulting from complications of his diseases. He left most of his wealth to Johns Hopkins and New York Hospital to help found medical institutes in his name.
Good health and good appetite!
Conclusion
And here we conclude our discussion of the stomach.
When next we continue with our series on the digestive system, we will pick up with a discussion of those organs just outside the alimentary canal that play key roles in the digestive process, including the:
In some ways, these are three of the most fascinating organs in the body -- and three organs that are highly amenable to improvement through detoxing and flushing. Doctors absolutely do not understand the concept of detoxing when it comes to these organs, but we will explore the detox protocol using medical terminology and points of reference so that it will finally be understandable to them -- as well as to you.
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