Disease: Constipation

Constipation facts

  • Constipation is defined medically as fewer than three stools per week and severe constipation as less than one stool per week.
  • Some of the symptoms of constipation include lower abdominal discomfort, infrequent bowel movements, straining to have a bowel movement, hard or small stools, rectal bleeding and/or anal fissures caused by hard stools, and physiological distress and/or obsession with having bowel movements.
  • Constipation usually is caused by the slow movement of stool through the colon.
  • There are many causes of constipation including medications, poor bowel habits, low fiber diets, abuse of laxatives, hormonal disorders, and diseases primarily of other parts of the body that also affect the colon.
  • The two disorders limited to the colon that cause constipation are colonic inertia and pelvic floor dysfunction.
  • High levels of estrogen and progesterone during pregnancy may cause constipation.
  • Medical evaluation of constipation should be done when constipation is of sudden onset, severe, worsening, associated with other worrisome symptoms such as loss of weight, or is not responding to simple, safe treatments.
  • Medical evaluation of constipation may include a history, physical examination, blood tests, abdominal X-rays, barium enema, colonic transit studies, defecography, anorectal motility studies, and colonic motility studies.
  • The goal of therapy for constipation is one bowel movement every two to three days without straining.
  • Treatment of constipation may include dietary fiber, non-stimulant laxatives, stimulant laxatives, enemas, suppositories, biofeedback training, and surgery.
  • Stimulant laxatives, including herbal laxatives, should be used as a last resort because they may permanently damage the colon and worsen constipation.

What is constipation?

Constipation means different things to different people. For many people, it simply means infrequent stools. For others, however, constipation means hard stools, difficulty passing stools (straining), or a sense of incomplete emptying after a bowel movement. The cause of each of these symptoms of constipation vary, so the approach to each should be tailored to each specific person.

Constipation also can alternate with diarrhea. This pattern commonly occurs as part of the irritable bowel syndrome (IBS). At the extreme end of the constipation spectrum is fecal impaction, a condition in which stool hardens in the rectum and prevents the passage of any stool (although occasionally diarrhea may occur even with the obstruction).

The number of bowel movements generally decreases with age. Most adults have bowel movements between three and 21 times per week, and this would be considered normal. The most common pattern is one bowel movement a day, but this pattern is seen in less than half the people. Moreover, most people are irregular and do not have bowel movements every day or the same number of bowel movements each day.

What causes constipation?

Theoretically, constipation can be caused by the slow passage of digesting food through any part of the intestine. Most of the time, however, the slowing occurs in the colon.

Medications that cause constipation

A frequently over-looked cause of constipation is medications. The most common offending medications include:

  • Narcotic pain medications such as codeine (for example, Tylenol #3), oxycodone (for example, Percocet), and hydromorphone (Dilaudid);
  • Antidepressants such as amitriptyline (Elavil, Endep) and imipramine (Tofranil)
  • Anticonvulsants such as phenytoin (Dilantin) and carbamazepine (Tegretol)
  • Iron supplements
  • Calcium channel blocking drugs (CCBs) such as diltiazem (Cardizem) and nifedipine (Procardia)
  • Aluminum-containing antacids such as aluminum hydroxide suspension (Amphojel) and aluminum carbonate (Basaljel)

In addition to the medications listed above, there are many others that can cause constipation. Simple measures for treating the constipation (for example, increasing dietary fiber) caused by medications often are effective, and discontinuing the medication may not be not necessary. If simple measures don't work, it may be possible to substitute a less constipating medication. For example, a nonsteroidal ant-inflammatory drug (for example, ibuprofen) may be substituted for narcotic pain medications, or one of the newer and less constipating antidepressant medications.

Other causes of constipation

Habit

Bowel movements are under voluntary control. This means that the normal urge people feel when they need to have a bowel movement can be suppressed. Although occasionally it is appropriate to suppress an urge to defecate (for example, when a bathroom is not available), doing this too frequently can lead to a disappearance of urges and result in constipation.

Diet

Fiber is important in maintaining a soft, bulky stool. Diets that are low in fiber can, therefore, cause constipation. The best natural sources of fiber are fruits, vegetables, and whole grains.

Laxatives

One suspected cause of severe constipation is the over-use of stimulant laxatives (senna [Senokot], castor oil, and many herbs). An association has been shown between the chronic use of stimulant laxatives and damage to the nerves and muscles of the colon, possibly resulting in constipation. It is not clear, however, whether the laxatives have caused the damage or whether the damage existed prior to the use of laxatives. Nevertheless, because of the possibility that stimulant laxatives can damage the colon, most experts recommend that stimulant laxatives be used as a last resort after non-stimulant treatments have failed.

Hormonal disorders

Hormones can affect bowel movements. For example:

  • Too little thyroid hormone (hypothyroidism) and too much parathyroid hormone (by raising the calcium levels in the blood) can cause constipation.
  • At the time of a woman's menstrual periods, estrogen and progesterone levels are high and may cause constipation. However, this is rarely a prolonged problem.
  • High levels of estrogen and progesterone during pregnancy also can cause constipation.
Diseases that affect the colon

There are many diseases that can affect the function of the muscles and/or nerves of the colon. These include diabetes, scleroderma, intestinal pseudo-obstruction, Hirschsprung's disease, and Chagas disease. Cancer or narrowing (stricture) of the colon that blocks the colon can decrease the flow of stool.

Central nervous system diseases

Some diseases of the brain and spinal cord may cause constipation, including Parkinson's disease, multiple sclerosis, and spinal cord injuries.

Colonic inertia

Colonic inertia is a condition in which the nerves or muscles of the colon do not work normally. As a result, the contents of the colon are not propelled through the colon normally. The cause of colonic inertia is unclear. In some cases, the muscles or nerves of the colon are diseased. Colonic inertia also may be the result of the chronic use of stimulant laxatives. In most cases, however, there is no clear cause for constipation.

Pelvic floor dysfunction

Pelvic floor dysfunction (also known as outlet obstruction or outlet delay) refers to a condition in which the muscles of the lower pelvis that surround the rectum (the pelvic floor muscles) do not work normally. These muscles are critical for defecation (bowel movement). It is not known why these muscles fail to work properly in some people, but they can make the passage of stools difficult even when everything else is normal.

What are constipation symptoms?

Symptoms of constipation include:

  • Infrequent bowel movements
  • Straining to have bowel movements
  • Hard and/or small stools
  • Sense of incomplete evacuation after bowel movements
  • Lower abdominal discomfort
  • Abdominal bloating, occasionally distension
  • Anal bleeding or fissures from the trauma caused by hard stools
  • Occasionally diarrhea due to obstruction of the colon by hard stool
  • Rarely colonic perforation
  • Psychological distress and/or obsession with having bowel movements
  • Possible aggravation of diverticular disease, hemorrhoids and rectal prolapse

How is constipation evaluated (diagnosed)?

A careful history and physical examination is important in all patients with constipation. There are many tests that can be used to evaluate constipation. Most patients need only a few basic tests. The other tests are reserved for individuals who have severe constipation or whose constipation does not respond easily to treatment.

Medical History

A careful medical history from a patient with constipation is critical for many reasons, but particularly because it allows the physician to define the type of constipation. This, in turn, directs the diagnosis and treatment. For example, if defecation is painful, the physician knows to look for anal problems such as a narrowed anal sphincter or an anal fissure. If small stools are the problem, there is likely to be a lack of fiber in the diet. If the patient is experiencing significant straining, then pelvic floor dysfunction is likely.

The medical history also uncovers medications and diseases that can cause constipation. In these cases, the medications can be changed and the diseases can be treated.

A careful dietary history-which may require keeping a food diary for a week or two-can reveal a diet that is low in fiber and may direct the physician to recommend a high-fiber diet. A food diary also allows the physician to evaluate how well a patient increases his dietary fiber during treatment.

Physical examination

A physical examination may identify diseases (for example, scleroderma) that can cause constipation. A rectal examination with the finger may uncover a tight anal sphincter that may be making defecation difficult. If a stool-filled colon can be felt through the abdominal wall, it suggests that constipation is severe. Stool in the rectum suggests a problem with the anal, rectal, or pelvic floor muscles.

Blood tests

Blood tests may be appropriate in evaluating patients with constipation. More specifically, blood tests for thyroid hormone (to detect hypothyroidism) and for calcium (to uncover excess parathyroid hormone) may be helpful.

Abdominal X-ray

Large amounts of stool in the colon usually can be visualized on simple X-ray films of the abdomen, and the more severe the constipation, more stool is visualized.

Barium enema

A barium enema (lower gastrointestinal [GI] series) is an X-ray study in which liquid barium is inserted through the anus to fill the rectum and colon. The barium outlines the colon on the X-rays and defines the normal or abnormal anatomy of the colon and rectum. Tumors and narrowings (strictures) are among the abnormalities that can be detected with this test.

Colonic transit (marker) studies

Colonic transit studies are simple X-ray studies that determine how long it takes for food to travel through the intestines. For transit studies, individuals swallow capsules for one or more days. Inside the capsules are many small pieces of plastic that can be seen on X-rays. The gelatin capsules dissolve and release the plastic pieces into the small intestine. The pieces of plastic then travel (as would digesting food) through the small intestine and into the colon. After 5 or 7 days, an X-ray of the abdomen is taken and the pieces of plastic in the different parts of the colon are counted. From this count, it is possible to determine if and where there is a delay in the colon.

In non-constipated individuals, all of the plastic pieces are eliminated in the stool and none remain in the colon. When pieces are spread throughout the colon, it suggests that the muscles or nerves throughout the colon are not working, which is typical of colonic inertia. When pieces accumulate in the rectum, it suggests pelvic floor dysfunction.

Defecography

Defecography is a modification of the barium enema examination. For this procedure, a thick paste of barium is inserted into the rectum of a patient through the anus. X-rays then are taken while the patient defecates the barium. The barium clearly outlines the rectum and anus and demonstrates the changes taking place in the muscles of the pelvic floor during defecation. Thus, defecography examines the process of defecation and provides information about anatomical abnormalities of the rectum and pelvic floor muscles during defecation.

Ano-rectal motility studies

Ano-rectal motility studies, which complement defecography tests, provide an assessment of the function of the muscles and nerves of the anus and rectum. For ano-rectal motility studies, a flexible tube, approximately an eighth of an inch in diameter, is inserted through the anus and into the rectum. Sensors within the tube measure the pressures that are generated by the muscles of the anus and rectum. With the tube in place, the patient performs several simple maneuvers such as voluntarily tightening the anal muscles. Ano-rectal motility studies can help determine if the muscles of the anus and rectum are working normally. When the function of these muscles is impaired, the flow of stool is obstructed, thereby causing a condition similar to pelvic floor dysfunction.

Magnetic resonance imaging defecography

The newest test for evaluating defecation and its disorders magnetic resonance imaging defecography and is similar to barium defecography. However, magnetic resonance imaging (MRI) is used instead of X-rays to provide images of the rectum during defecation. MRI defecography appears to be an excellent way to study defecation, but the procedure is expensive and somewhat cumbersome. As a result, it is used in only a few institutions that have a particular interest in constipation and abnormalities of defecation.

Colonic motility studies

Colonic motility studies are similar to ano-rectal motility studies in many aspects. A very long, narrow (one-eighth inch in diameter), flexible tube is inserted through the anus and passed through part or the entire colon during a procedure called colonoscopy. Sensors within the tube measure the pressures that are generated by the contractions of the colonic muscles. These contractions are the result of coordinated activity of the colonic nerves and muscles. If the activity of the nerves or muscles is abnormal, the pattern of colonic pressures will be abnormal. Colonic motility studies are most useful in defining colonic inertia. These studies are considered research tools, but they can be helpful in making decisions regarding treatment in patients with severe constipation.

What treatments are available for constipation?

There are many treatments for constipation. The best approach relies on a clear understanding of the underlying cause.

Home remedies, diet, and OTC medications to treat constipation

Dietary fiber (bulk-forming laxatives)

The best way of adding fiber to the diet is increasing the quantity of fruits and vegetables that are eaten. This means a minimum of five servings of fruits or vegetables every day. For many people, however, the amount of fruits and vegetables that are necessary may be inconveniently large or may not provide adequate relief from constipation. In this case, fiber supplements can be useful.

Fiber is defined as material made by plants that is not digested by the human gastrointestinal tract. Fiber is one of the mainstays in the treatment of constipation. Many types of fiber within the intestine bind to water and keep the water within the intestine. The fiber adds bulk (volume) to the stool and the water softens the stool.

There are different sources of fiber and the type of fiber varies from source to source. Types of fiber can be categorized in several ways, for example, by their source.

The most common sources of fiber include:

  • fruits and vegetables,
  • wheat or oat bran,
  • psyllium seed (for example, Metamucil, Konsyl),
  • synthetic methyl cellulose (for example, Citrucel), and
  • polycarbophil (for example, Equalactin, Konsyl Fiber).

Polycarbophil often is combined with calcium (for example, Fibercon). However, in some studies, the calcium-containing polycarbophil was not as effective as the polycarbophil without calcium.

A lesser known source of fiber is an extract of malt (for example, Maltsupex). However, this extract may soften stools in ways other than increasing fiber.

Increased gas (flatulence) is a common side effect of high-fiber diets. The gas occurs because the bacteria normally present within the colon are capable of digesting fiber to a small extent. The bacteria produce gas as a byproduct of their digestion of fiber. All fibers, no matter what their source, can cause flatulence. However, since bacteria vary in their ability to digest the various types of fiber, the different sources of fiber may produce different amounts of gas. To complicate the situation, the ability of bacteria to digest one type of fiber can vary from individual to individual. This variability makes the selection of the best type of fiber for each person more difficult.

Different sources of fiber should be tried one by one. The fiber should be started at a low dose and increased every one to two weeks until either the desired effect is achieved or troublesome flatulence interferes. Fiber does not work overnight, so each fiber should be tried over a few weeks, if possible. If flatulence occurs, the dose of fiber can be reduced for a few weeks and the higher dose can then be tried again. It generally is said that the amount of gas that is produced by fiber decreases when the fiber is ingested for a prolonged period of time, although, this has never been studied. If flatulence remains a problem and prevents the dose of fiber from being raised to a level that affects the stool satisfactorily, it is time to move on to a different source of fiber.

When increasing amounts of fiber are used, it is recommended that greater amounts of water be consumed (for example, a full glass with each dose). In theory, the water prevents "hardening" of the fiber and blockage (obstruction) of the intestine. This seems like simple and reasonable advice. However, ingesting larger amounts of water has never been shown to have a beneficial effect on constipation, with or without the addition of fiber. There is already a lot of water in the intestine and any extra water that is digested will be absorbed and excreted in the urine. However, it is reasonable to drink enough fluids to prevent dehydration that would cause reduced intestinal water.

There are reasons not to take fiber or to take specific types of fiber. Due to concern about obstruction, persons with narrowings (strictures) or adhesions (scar tissue from previous surgery) of their intestines should not use fiber unless it has been discussed with their physician. Some fiber laxatives contain sugar, so patients with diabetes may need to select sugar-free products.

Lubricant laxatives

Lubricant laxatives contain mineral oil as either the plain oil or an emulsion (combination with water) of the oil. The oil stays within the intestine, coats the particles of stool, and presumably prevents the removal of water from the stool. This retention of water in the stool results in softer stool. Mineral oil generally is used only for the short-term treatment of constipation since its long-term use has several potential disadvantages.

The oil can absorb fat-soluble vitamins from the intestine and, if used for prolonged periods, may lead to deficiencies of these vitamins. This is of particular concern in pregnancy during which an adequate supply of vitamins is important for the fetus. In the very young or very elderly in whom the swallowing mechanism is not strong or is impaired by strokes, small amounts of the swallowed oil may enter the lungs and cause a type of pneumonia called lipid pneumonia. Mineral oil also may decrease the absorption of some drugs such as warfarin (Coumadin) and oral contraceptives, thereby decreasing their effectiveness. Despite these potential disadvantages, mineral oil can be effective when short-term treatment is necessary.

Emollient laxatives (stool softeners)

Emollient laxatives are generally known as stool softeners. They contain a compound called docusate (for example, Colace). Docusate is a wetting agent that improves the ability of water within the colon to penetrate and mix with stool. This increased water within the stool softens the stool, although studies have not shown docusate to be consistently effective in relieving constipation. Stool softeners often are used in the long-term treatment of constipation. It may take a week or more for docusate to be effective. The dose should be increased after one to two weeks if no effect is seen.

Although docusate generally is safe, it may increase the absorption of mineral oil and some medications from the intestine. Absorbed mineral oil collects in tissues of the body, for example, the lymph nodes and the liver, where it causes inflammation. It is not clear if this inflammation has any important consequences, but it generally is felt that prolonged absorption of mineral oil should not be allowed. The use of emollient laxatives is not recommended together with mineral oil or with certain prescription medications. Emollient laxatives are commonly used when there is a need to soften the stool temporarily and make defecation easier (for example, after surgery, childbirth, or heart attacks). They are also used for individuals with hemorrhoids or anal fissures.

Hyperosmolar laxatives

Hyperosmolar laxatives are undigestible, unabsorbable compounds that remain within the colon and retain the water that already is in the colon. The result is softening of the stool. The most common hyperosmolar laxatives are lactulose (for example, Kristalose), sorbitol, and polyethylene glycol (for example, MiraLax), and they are available by prescription only. These laxatives are safe for long-term use and are associated with few side effects.

Hyperosmolar laxatives may be digested by colonic bacteria and turned into gas, which may result in unwanted abdominal bloating and flatulence. This effect is dose-related and less with polyethylene glycol. Therefore, gas can be reduced by reducing the dose of the laxative. In some cases, the gas will decrease over time.

Saline laxatives

Saline laxatives contain non-absorbable ions such as magnesium, sulfate, phosphate, and citrate [for example, magnesium citrate (Citroma), magnesium hydroxide, sodium phosphate). These ions remain in the colon and cause water to be drawn into the colon. Again, the effect is softening of the stool.

Magnesium also may have mild stimulatory effects on the colonic muscles. The magnesium in magnesium-containing laxatives is partially absorbed from the intestine and into the body. Magnesium is eliminated from the body by the kidneys. Therefore, individuals with impaired kidney function may develop toxic levels of magnesium from chronic (long duration) use of magnesium-containing laxatives.

Saline laxatives act within a few hours. In general, potent saline laxatives should not be used on a regular basis. If major diarrhea develops with the use of saline laxatives and the lost fluid is not replaced by the consumption of liquids, dehydration may result. For constipation, the most frequently-used and mildest of the saline laxatives is milk of magnesia. Epsom Salt is a more potent saline laxative that contains magnesium sulfate.

Stimulant laxatives

Stimulant laxatives cause the muscles of the small intestine and colon to propel their contents more rapidly. They also increase the amount of water in the stool, either by reducing the absorption of the water in the colon or by causing active secretion of water in the small intestine.

The most commonly-used stimulant laxatives contain cascara (castor oil), senna (for example, Ex-Lax, Senokot), and aloe. Stimulant laxatives are very effective, but they can cause severe diarrhea with resulting dehydration and loss of electrolytes (especially potassium). They also are more likely than other types of laxatives to cause intestinal cramping. There is concern that chronic use of stimulant laxatives may damage the colon and worsen constipation, as previously discussed. Bisacodyl (for example, Dulcolax, Correctol) is a stimulant laxative that affects the nerves of the colon which, in turn, stimulate the muscles of the colon to propel its contents. Prunes also contain a mild colonic stimulant.

Enemas

There are many different types of enemas. By distending the rectum, all enemas (even the simplest type, the tap water enema) stimulate the colon to contract and eliminate stool. Other types of enemas have additional mechanisms of action. For example, saline enemas cause water to be drawn into the colon. Phosphate enemas (for example, Fleet phosphosoda) stimulate the muscles of the colon. Mineral oil enemas lubricate and soften hard stool. Emollient enemas (for example, Colace Microenema) contain agents that soften the stool.

Enemas are particularly useful when there is impaction, which is hardening of stool in the rectum. In order to be effective, the instructions that come with the enema must be followed. This requires full application of the enema, appropriate positioning after the enema is instilled, and retention of the enema until cramps are felt. Defecation usually occurs between a few minutes and one hour after the enema is inserted.

Enemas are meant for occasional rather than regular use. The frequent use of enemas can cause disturbances of fluids and electrolytes in the body. This is especially true of tap water enemas. Soapsuds enemas are not recommended because they can seriously damage the rectum.

Suppositories

As is the case with enemas, different types of suppositories have different mechanisms of action. There are stimulant suppositories containing bisacodyl (for example, Dulcolax). Glycerin suppositories are believed to have their effect by irritating the rectum. The insertion of the finger into the rectum when the suppository is placed may itself stimulate a bowel movement.

Combination products

There are many products that combine different laxatives. For example, there are oral products that combine senna and psyllium (Perdiem), senna and docusate (Senokot-S), and senna and glycerin (Fletcher's Castoria). One product even combines three laxatives, senna-like casanthranol, docusate, and glycerin (Sof-lax Overnight). These products may be convenient and effective, but they also contain stimulant laxatives. Therefore, there is concern about permanent colonic damage with the use of these products, and they probably should not be used for long-term treatment unless non-stimulant treatment fails.

Prescription drugs to treat constipation

Lubiprostone (Amitiza)

Lubiprostone (Amitiza) is a selective chloride channel activator that increases secretion of chloride ions from the cells of the intestinal lining into the intestinal lumen. Sodium ions and water then follow the chloride ions into the lumen, and the water softens the stool. The FDA approved lubiprostone for the treatment of chronic constipation in both men and women in February 2006. At a dose of 24 micrograms twice a day, lubiprostone significantly and promptly increased bowel movements, improved stool consistency, and decreased straining. The most common side effect of initial clinical studies was mild to moderate nausea in 32% of patients treated with lubiprostone, compared to 3% of the controls. More long term studies of efficacy and side effects are needed to determine the place of lubiprostone in the treatment of constipation.

Linaclotide (Linzess)

Linaclotide (Linzess) is an oral drug that is not absorbed from the intestine. It stimulates the cells lining the small intestine to secrete fluid into the intestine. The increase in fluid secretion leads to an increased number of bowel movements. In addition, when constipation is associated with the abdominal pain of IBS, the pain also is reduced. Although the improvement in pain may be due to the improvement in constipation, linaclotide has been shown also to reduce the sensitivity of intestinal pain nerves, and this mechanism of action also may account for the decrease in pain.

Linaclotide is moderately effective, and its effectiveness depends on how a favorable response is defined. In the studies leading up to its approval, linaclotide was associated with a predefined response of an increase in bowel movements and a decrease in pain in approximately one-third of patients as compared with 17% of patients who received placebo. The response was better when pain and constipation were considered separately, with responses of approximately 50% for either.

The only common side effect of linaclotide is diarrhea. It should not be used in children below the age of six because of serious toxicity (death) to very young mice in animal studies, and should be avoided in children ages six through 17.

Miscellaneous drugs

Several prescribed drugs that are used to treat medical diseases consistently cause (as a side effect) loose stools, even diarrhea. There actually are several small studies that have examined these drugs for the treatment of constipation.

Colchicine

Colchicine is a drug that has been used for decades to treat gout. Most patients who take colchicine note a loosening of their stools. Colchicine has also been demonstrated to relieve constipation effectively in patients without gout.

Misoprostol (Cytotec)

Misoprostol (Cytotec) is a drug used primarily for preventing stomach ulcers caused by nonsteroidal anti-inflammatory drugs such as ibuprofen. Diarrhea is one of its consistent side-effects. Several studies have shown that misoprostol is effective in the short term treatment of constipation. Misoprostol is expensive, and it is not clear if it will remain effective and safe with long-term use. Therefore, its role in the treatment of constipation remains to be determined.

Orlistat (Xenical)

Orlistat (Xenical) is a drug that is used primarily for reducing weight. It works by blocking the enzymes within the intestine that digest fat. The undigested fat is not absorbed, which accounts for the weight loss. Undigested fat is digested by bacteria within the intestine and the products of this bacterial digestion promote the secretion of water. The products of digestion also may affect the intestine in other ways, for example, by stimulating the intestinal muscles. In fact, in studies, orlistat has been shown to be effective in treating constipation. Orlistat has few important side effects, which is consistent with the fact that only very small amounts of the drug are absorbed from the intestine.

It is unclear if these prescribed drugs should be used for the treatment of constipation. Although it is difficult to recommend them specifically just for the treatment of constipation, they might be considered for constipated individuals who are overweight, have gout, or need protection from nonsteroidal anti-inflammatory drugs.

Other treatments for constipation

Biofeedback

Most of the muscles of the pelvis surrounding the anus and rectum are under some degree of voluntary control. Thus, biofeedback training can teach patients with pelvic floor dysfunction how to make their muscles work more normally and improve their ability to defecate. During ano-rectal biofeedback training, a pressure-sensing catheter is placed through the anus and into the rectum. Each time a patient contracts the muscles, the muscles generate a pressure that is sensed by the catheter and recorded on a screen. By watching the pressures on the screen and attempting to modify them, patients learn how to relax and contract the muscles more normally.

Exercise

People who lead sedentary lives are more frequently constipated than people who are active. Nevertheless, limited studies of exercise on bowel habit have shown that exercise has minimal or no effect on the frequency of bowel movements. Thus, exercise can be recommended for its many other health benefits, but not for its effect on constipation.

Surgery

For individuals with problematic constipation that is due to diseases of the colon or laxative abuse, surgery is the ultimate treatment. During surgery, most of the colon, except for the rectum (or the rectum and part of the sigmoid colon), is removed. The cut end of the small intestine is attached to the remaining rectum or sigmoid colon. In patients with colonic inertia, surgery is reserved for those who do not respond to all other therapies. If the surgery is to be done, there must be no disease of the small intestinal muscles. Normal small intestinal muscles are evidenced by normal motility studies of the small intestine itself.

Electrical pacing

Electrical pacing is still in its experimental phases. Electrical pacing may be done using electrodes implanted into the muscular wall of the colon. The electrodes exit the colon and are attached to an electrical stimulator. Alternatively, stimulation of the sacral skin can be used to stimulate nerves going to the colon. These techniques are promising, but much more work lies ahead before their role in treating constipation, if any, has been defined.

What is the approach to the evaluation and treatment of constipation?

There are several principles in approaching the evaluation and treatment of constipation.

  • The first principle is to differentiate between acute (recent onset) and chronic (long duration) constipation. Thus, with acute constipation or constipation that is worsening, it is necessary to assess for the cause early so as not to overlook a serious illness that should be treated urgently.
  • The second principle is to start treatment early and use the treatments that have the least potential for harm. This will prevent constipation from worsening, and it also will prevent potential damage to the colon that can be caused by the frequent use of stimulant laxatives.
  • The third principle is to know when it is time to evaluate the cause of chronic constipation. Evaluation for the cause of chronic constipation needs to be done if there is no response to the simple treatments.

The goal of treatment in constipation should not be a bowel movement every day, but a bowel movement every two to three days without difficulty (without straining).

Start with the simple things.

  • Don't suppress urges to defecate. When the urge comes, find a toilet.
  • With the assistance of your physician and pharmacist, determine if there are drugs that you are taking that could be contributing to the constipation. See if the drugs can be discontinued or changed.
  • Increase the fiber in your diet by consuming more fruits, vegetables, and whole grains. (There are other health benefits from this recommendation as well.)
  • It may be difficult to get enough fiber in the diet to effectively treat constipation, so don't hesitate to take fiber supplements if necessary (wheat bran, psyllium, etc.).
  • Use increasing amounts of fiber and/or change the type of fiber consumed until there is a satisfactory result.
  • Don't expect fiber to work overnight. Allow weeks for adequate trials.

What if constipation does not respond to these simple, safe measures? These efforts should not be discontinued but other measures should be added. If the constipation is infrequent, that is, every few weeks (as it can be when due to the menstrual cycle), it probably doesn't matter what other measures are added-emollient, saline, or hyper-osmolar laxatives, enemas, and suppositories. Even stimulant laxatives every four to six weeks are unlikely to damage the colon. Unfortunately, the tendency when using stimulant laxatives is to unconsciously increase the frequency of their use. Before you know it, you're taking them every week, or more often, and permanent damage might result.

If constipation is a continuous rather than an intermittent problem, probably the safest laxatives to take on a regular basis are the hyper-osmolar laxatives. Their use should be supervised by a physician. As with fiber, increasing doses of different hyper-osmolar laxatives should be tried over several weeks until a satisfactory type and dose of laxative is found. Hyper-osmolar laxatives, however, can be expensive. Milk of magnesia is the mildest of the saline laxatives, is inexpensive, and provides a good alternative. Most patients can adjust the dose of milk of magnesia to soften the stool adequately without developing diarrhea or leakage of stool.

Prunes and prune juice have been used for many years to treat mild constipation. There is no evidence that the mild stimulant effects of prunes or prune juice damage the colon.

Stronger stimulant laxatives usually are recommended only as a last resort after non-stimulant treatments have failed.

Many people take herbs to treat their constipation because they feel more comfortable using a "natural" product. Unfortunately, most of these herbal preparations contain stimulant laxatives and their long term use raises the possibility that they also may damage the colon.

What causes constipation?

Theoretically, constipation can be caused by the slow passage of digesting food through any part of the intestine. Most of the time, however, the slowing occurs in the colon.

Medications that cause constipation

A frequently over-looked cause of constipation is medications. The most common offending medications include:

  • Narcotic pain medications such as codeine (for example, Tylenol #3), oxycodone (for example, Percocet), and hydromorphone (Dilaudid);
  • Antidepressants such as amitriptyline (Elavil, Endep) and imipramine (Tofranil)
  • Anticonvulsants such as phenytoin (Dilantin) and carbamazepine (Tegretol)
  • Iron supplements
  • Calcium channel blocking drugs (CCBs) such as diltiazem (Cardizem) and nifedipine (Procardia)
  • Aluminum-containing antacids such as aluminum hydroxide suspension (Amphojel) and aluminum carbonate (Basaljel)

In addition to the medications listed above, there are many others that can cause constipation. Simple measures for treating the constipation (for example, increasing dietary fiber) caused by medications often are effective, and discontinuing the medication may not be not necessary. If simple measures don't work, it may be possible to substitute a less constipating medication. For example, a nonsteroidal ant-inflammatory drug (for example, ibuprofen) may be substituted for narcotic pain medications, or one of the newer and less constipating antidepressant medications.

Other causes of constipation

Habit

Bowel movements are under voluntary control. This means that the normal urge people feel when they need to have a bowel movement can be suppressed. Although occasionally it is appropriate to suppress an urge to defecate (for example, when a bathroom is not available), doing this too frequently can lead to a disappearance of urges and result in constipation.

Diet

Fiber is important in maintaining a soft, bulky stool. Diets that are low in fiber can, therefore, cause constipation. The best natural sources of fiber are fruits, vegetables, and whole grains.

Laxatives

One suspected cause of severe constipation is the over-use of stimulant laxatives (senna [Senokot], castor oil, and many herbs). An association has been shown between the chronic use of stimulant laxatives and damage to the nerves and muscles of the colon, possibly resulting in constipation. It is not clear, however, whether the laxatives have caused the damage or whether the damage existed prior to the use of laxatives. Nevertheless, because of the possibility that stimulant laxatives can damage the colon, most experts recommend that stimulant laxatives be used as a last resort after non-stimulant treatments have failed.

Hormonal disorders

Hormones can affect bowel movements. For example:

  • Too little thyroid hormone (hypothyroidism) and too much parathyroid hormone (by raising the calcium levels in the blood) can cause constipation.
  • At the time of a woman's menstrual periods, estrogen and progesterone levels are high and may cause constipation. However, this is rarely a prolonged problem.
  • High levels of estrogen and progesterone during pregnancy also can cause constipation.
Diseases that affect the colon

There are many diseases that can affect the function of the muscles and/or nerves of the colon. These include diabetes, scleroderma, intestinal pseudo-obstruction, Hirschsprung's disease, and Chagas disease. Cancer or narrowing (stricture) of the colon that blocks the colon can decrease the flow of stool.

Central nervous system diseases

Some diseases of the brain and spinal cord may cause constipation, including Parkinson's disease, multiple sclerosis, and spinal cord injuries.

Colonic inertia

Colonic inertia is a condition in which the nerves or muscles of the colon do not work normally. As a result, the contents of the colon are not propelled through the colon normally. The cause of colonic inertia is unclear. In some cases, the muscles or nerves of the colon are diseased. Colonic inertia also may be the result of the chronic use of stimulant laxatives. In most cases, however, there is no clear cause for constipation.

Pelvic floor dysfunction

Pelvic floor dysfunction (also known as outlet obstruction or outlet delay) refers to a condition in which the muscles of the lower pelvis that surround the rectum (the pelvic floor muscles) do not work normally. These muscles are critical for defecation (bowel movement). It is not known why these muscles fail to work properly in some people, but they can make the passage of stools difficult even when everything else is normal.

What are constipation symptoms?

Symptoms of constipation include:

  • Infrequent bowel movements
  • Straining to have bowel movements
  • Hard and/or small stools
  • Sense of incomplete evacuation after bowel movements
  • Lower abdominal discomfort
  • Abdominal bloating, occasionally distension
  • Anal bleeding or fissures from the trauma caused by hard stools
  • Occasionally diarrhea due to obstruction of the colon by hard stool
  • Rarely colonic perforation
  • Psychological distress and/or obsession with having bowel movements
  • Possible aggravation of diverticular disease, hemorrhoids and rectal prolapse

How is constipation evaluated (diagnosed)?

A careful history and physical examination is important in all patients with constipation. There are many tests that can be used to evaluate constipation. Most patients need only a few basic tests. The other tests are reserved for individuals who have severe constipation or whose constipation does not respond easily to treatment.

Medical History

A careful medical history from a patient with constipation is critical for many reasons, but particularly because it allows the physician to define the type of constipation. This, in turn, directs the diagnosis and treatment. For example, if defecation is painful, the physician knows to look for anal problems such as a narrowed anal sphincter or an anal fissure. If small stools are the problem, there is likely to be a lack of fiber in the diet. If the patient is experiencing significant straining, then pelvic floor dysfunction is likely.

The medical history also uncovers medications and diseases that can cause constipation. In these cases, the medications can be changed and the diseases can be treated.

A careful dietary history-which may require keeping a food diary for a week or two-can reveal a diet that is low in fiber and may direct the physician to recommend a high-fiber diet. A food diary also allows the physician to evaluate how well a patient increases his dietary fiber during treatment.

Physical examination

A physical examination may identify diseases (for example, scleroderma) that can cause constipation. A rectal examination with the finger may uncover a tight anal sphincter that may be making defecation difficult. If a stool-filled colon can be felt through the abdominal wall, it suggests that constipation is severe. Stool in the rectum suggests a problem with the anal, rectal, or pelvic floor muscles.

Blood tests

Blood tests may be appropriate in evaluating patients with constipation. More specifically, blood tests for thyroid hormone (to detect hypothyroidism) and for calcium (to uncover excess parathyroid hormone) may be helpful.

Abdominal X-ray

Large amounts of stool in the colon usually can be visualized on simple X-ray films of the abdomen, and the more severe the constipation, more stool is visualized.

Barium enema

A barium enema (lower gastrointestinal [GI] series) is an X-ray study in which liquid barium is inserted through the anus to fill the rectum and colon. The barium outlines the colon on the X-rays and defines the normal or abnormal anatomy of the colon and rectum. Tumors and narrowings (strictures) are among the abnormalities that can be detected with this test.

Colonic transit (marker) studies

Colonic transit studies are simple X-ray studies that determine how long it takes for food to travel through the intestines. For transit studies, individuals swallow capsules for one or more days. Inside the capsules are many small pieces of plastic that can be seen on X-rays. The gelatin capsules dissolve and release the plastic pieces into the small intestine. The pieces of plastic then travel (as would digesting food) through the small intestine and into the colon. After 5 or 7 days, an X-ray of the abdomen is taken and the pieces of plastic in the different parts of the colon are counted. From this count, it is possible to determine if and where there is a delay in the colon.

In non-constipated individuals, all of the plastic pieces are eliminated in the stool and none remain in the colon. When pieces are spread throughout the colon, it suggests that the muscles or nerves throughout the colon are not working, which is typical of colonic inertia. When pieces accumulate in the rectum, it suggests pelvic floor dysfunction.

Defecography

Defecography is a modification of the barium enema examination. For this procedure, a thick paste of barium is inserted into the rectum of a patient through the anus. X-rays then are taken while the patient defecates the barium. The barium clearly outlines the rectum and anus and demonstrates the changes taking place in the muscles of the pelvic floor during defecation. Thus, defecography examines the process of defecation and provides information about anatomical abnormalities of the rectum and pelvic floor muscles during defecation.

Ano-rectal motility studies

Ano-rectal motility studies, which complement defecography tests, provide an assessment of the function of the muscles and nerves of the anus and rectum. For ano-rectal motility studies, a flexible tube, approximately an eighth of an inch in diameter, is inserted through the anus and into the rectum. Sensors within the tube measure the pressures that are generated by the muscles of the anus and rectum. With the tube in place, the patient performs several simple maneuvers such as voluntarily tightening the anal muscles. Ano-rectal motility studies can help determine if the muscles of the anus and rectum are working normally. When the function of these muscles is impaired, the flow of stool is obstructed, thereby causing a condition similar to pelvic floor dysfunction.

Magnetic resonance imaging defecography

The newest test for evaluating defecation and its disorders magnetic resonance imaging defecography and is similar to barium defecography. However, magnetic resonance imaging (MRI) is used instead of X-rays to provide images of the rectum during defecation. MRI defecography appears to be an excellent way to study defecation, but the procedure is expensive and somewhat cumbersome. As a result, it is used in only a few institutions that have a particular interest in constipation and abnormalities of defecation.

Colonic motility studies

Colonic motility studies are similar to ano-rectal motility studies in many aspects. A very long, narrow (one-eighth inch in diameter), flexible tube is inserted through the anus and passed through part or the entire colon during a procedure called colonoscopy. Sensors within the tube measure the pressures that are generated by the contractions of the colonic muscles. These contractions are the result of coordinated activity of the colonic nerves and muscles. If the activity of the nerves or muscles is abnormal, the pattern of colonic pressures will be abnormal. Colonic motility studies are most useful in defining colonic inertia. These studies are considered research tools, but they can be helpful in making decisions regarding treatment in patients with severe constipation.

What treatments are available for constipation?

There are many treatments for constipation. The best approach relies on a clear understanding of the underlying cause.

Home remedies, diet, and OTC medications to treat constipation

Dietary fiber (bulk-forming laxatives)

The best way of adding fiber to the diet is increasing the quantity of fruits and vegetables that are eaten. This means a minimum of five servings of fruits or vegetables every day. For many people, however, the amount of fruits and vegetables that are necessary may be inconveniently large or may not provide adequate relief from constipation. In this case, fiber supplements can be useful.

Fiber is defined as material made by plants that is not digested by the human gastrointestinal tract. Fiber is one of the mainstays in the treatment of constipation. Many types of fiber within the intestine bind to water and keep the water within the intestine. The fiber adds bulk (volume) to the stool and the water softens the stool.

There are different sources of fiber and the type of fiber varies from source to source. Types of fiber can be categorized in several ways, for example, by their source.

The most common sources of fiber include:

  • fruits and vegetables,
  • wheat or oat bran,
  • psyllium seed (for example, Metamucil, Konsyl),
  • synthetic methyl cellulose (for example, Citrucel), and
  • polycarbophil (for example, Equalactin, Konsyl Fiber).

Polycarbophil often is combined with calcium (for example, Fibercon). However, in some studies, the calcium-containing polycarbophil was not as effective as the polycarbophil without calcium.

A lesser known source of fiber is an extract of malt (for example, Maltsupex). However, this extract may soften stools in ways other than increasing fiber.

Increased gas (flatulence) is a common side effect of high-fiber diets. The gas occurs because the bacteria normally present within the colon are capable of digesting fiber to a small extent. The bacteria produce gas as a byproduct of their digestion of fiber. All fibers, no matter what their source, can cause flatulence. However, since bacteria vary in their ability to digest the various types of fiber, the different sources of fiber may produce different amounts of gas. To complicate the situation, the ability of bacteria to digest one type of fiber can vary from individual to individual. This variability makes the selection of the best type of fiber for each person more difficult.

Different sources of fiber should be tried one by one. The fiber should be started at a low dose and increased every one to two weeks until either the desired effect is achieved or troublesome flatulence interferes. Fiber does not work overnight, so each fiber should be tried over a few weeks, if possible. If flatulence occurs, the dose of fiber can be reduced for a few weeks and the higher dose can then be tried again. It generally is said that the amount of gas that is produced by fiber decreases when the fiber is ingested for a prolonged period of time, although, this has never been studied. If flatulence remains a problem and prevents the dose of fiber from being raised to a level that affects the stool satisfactorily, it is time to move on to a different source of fiber.

When increasing amounts of fiber are used, it is recommended that greater amounts of water be consumed (for example, a full glass with each dose). In theory, the water prevents "hardening" of the fiber and blockage (obstruction) of the intestine. This seems like simple and reasonable advice. However, ingesting larger amounts of water has never been shown to have a beneficial effect on constipation, with or without the addition of fiber. There is already a lot of water in the intestine and any extra water that is digested will be absorbed and excreted in the urine. However, it is reasonable to drink enough fluids to prevent dehydration that would cause reduced intestinal water.

There are reasons not to take fiber or to take specific types of fiber. Due to concern about obstruction, persons with narrowings (strictures) or adhesions (scar tissue from previous surgery) of their intestines should not use fiber unless it has been discussed with their physician. Some fiber laxatives contain sugar, so patients with diabetes may need to select sugar-free products.

Lubricant laxatives

Lubricant laxatives contain mineral oil as either the plain oil or an emulsion (combination with water) of the oil. The oil stays within the intestine, coats the particles of stool, and presumably prevents the removal of water from the stool. This retention of water in the stool results in softer stool. Mineral oil generally is used only for the short-term treatment of constipation since its long-term use has several potential disadvantages.

The oil can absorb fat-soluble vitamins from the intestine and, if used for prolonged periods, may lead to deficiencies of these vitamins. This is of particular concern in pregnancy during which an adequate supply of vitamins is important for the fetus. In the very young or very elderly in whom the swallowing mechanism is not strong or is impaired by strokes, small amounts of the swallowed oil may enter the lungs and cause a type of pneumonia called lipid pneumonia. Mineral oil also may decrease the absorption of some drugs such as warfarin (Coumadin) and oral contraceptives, thereby decreasing their effectiveness. Despite these potential disadvantages, mineral oil can be effective when short-term treatment is necessary.

Emollient laxatives (stool softeners)

Emollient laxatives are generally known as stool softeners. They contain a compound called docusate (for example, Colace). Docusate is a wetting agent that improves the ability of water within the colon to penetrate and mix with stool. This increased water within the stool softens the stool, although studies have not shown docusate to be consistently effective in relieving constipation. Stool softeners often are used in the long-term treatment of constipation. It may take a week or more for docusate to be effective. The dose should be increased after one to two weeks if no effect is seen.

Although docusate generally is safe, it may increase the absorption of mineral oil and some medications from the intestine. Absorbed mineral oil collects in tissues of the body, for example, the lymph nodes and the liver, where it causes inflammation. It is not clear if this inflammation has any important consequences, but it generally is felt that prolonged absorption of mineral oil should not be allowed. The use of emollient laxatives is not recommended together with mineral oil or with certain prescription medications. Emollient laxatives are commonly used when there is a need to soften the stool temporarily and make defecation easier (for example, after surgery, childbirth, or heart attacks). They are also used for individuals with hemorrhoids or anal fissures.

Hyperosmolar laxatives

Hyperosmolar laxatives are undigestible, unabsorbable compounds that remain within the colon and retain the water that already is in the colon. The result is softening of the stool. The most common hyperosmolar laxatives are lactulose (for example, Kristalose), sorbitol, and polyethylene glycol (for example, MiraLax), and they are available by prescription only. These laxatives are safe for long-term use and are associated with few side effects.

Hyperosmolar laxatives may be digested by colonic bacteria and turned into gas, which may result in unwanted abdominal bloating and flatulence. This effect is dose-related and less with polyethylene glycol. Therefore, gas can be reduced by reducing the dose of the laxative. In some cases, the gas will decrease over time.

Saline laxatives

Saline laxatives contain non-absorbable ions such as magnesium, sulfate, phosphate, and citrate [for example, magnesium citrate (Citroma), magnesium hydroxide, sodium phosphate). These ions remain in the colon and cause water to be drawn into the colon. Again, the effect is softening of the stool.

Magnesium also may have mild stimulatory effects on the colonic muscles. The magnesium in magnesium-containing laxatives is partially absorbed from the intestine and into the body. Magnesium is eliminated from the body by the kidneys. Therefore, individuals with impaired kidney function may develop toxic levels of magnesium from chronic (long duration) use of magnesium-containing laxatives.

Saline laxatives act within a few hours. In general, potent saline laxatives should not be used on a regular basis. If major diarrhea develops with the use of saline laxatives and the lost fluid is not replaced by the consumption of liquids, dehydration may result. For constipation, the most frequently-used and mildest of the saline laxatives is milk of magnesia. Epsom Salt is a more potent saline laxative that contains magnesium sulfate.

Stimulant laxatives

Stimulant laxatives cause the muscles of the small intestine and colon to propel their contents more rapidly. They also increase the amount of water in the stool, either by reducing the absorption of the water in the colon or by causing active secretion of water in the small intestine.

The most commonly-used stimulant laxatives contain cascara (castor oil), senna (for example, Ex-Lax, Senokot), and aloe. Stimulant laxatives are very effective, but they can cause severe diarrhea with resulting dehydration and loss of electrolytes (especially potassium). They also are more likely than other types of laxatives to cause intestinal cramping. There is concern that chronic use of stimulant laxatives may damage the colon and worsen constipation, as previously discussed. Bisacodyl (for example, Dulcolax, Correctol) is a stimulant laxative that affects the nerves of the colon which, in turn, stimulate the muscles of the colon to propel its contents. Prunes also contain a mild colonic stimulant.

Enemas

There are many different types of enemas. By distending the rectum, all enemas (even the simplest type, the tap water enema) stimulate the colon to contract and eliminate stool. Other types of enemas have additional mechanisms of action. For example, saline enemas cause water to be drawn into the colon. Phosphate enemas (for example, Fleet phosphosoda) stimulate the muscles of the colon. Mineral oil enemas lubricate and soften hard stool. Emollient enemas (for example, Colace Microenema) contain agents that soften the stool.

Enemas are particularly useful when there is impaction, which is hardening of stool in the rectum. In order to be effective, the instructions that come with the enema must be followed. This requires full application of the enema, appropriate positioning after the enema is instilled, and retention of the enema until cramps are felt. Defecation usually occurs between a few minutes and one hour after the enema is inserted.

Enemas are meant for occasional rather than regular use. The frequent use of enemas can cause disturbances of fluids and electrolytes in the body. This is especially true of tap water enemas. Soapsuds enemas are not recommended because they can seriously damage the rectum.

Suppositories

As is the case with enemas, different types of suppositories have different mechanisms of action. There are stimulant suppositories containing bisacodyl (for example, Dulcolax). Glycerin suppositories are believed to have their effect by irritating the rectum. The insertion of the finger into the rectum when the suppository is placed may itself stimulate a bowel movement.

Combination products

There are many products that combine different laxatives. For example, there are oral products that combine senna and psyllium (Perdiem), senna and docusate (Senokot-S), and senna and glycerin (Fletcher's Castoria). One product even combines three laxatives, senna-like casanthranol, docusate, and glycerin (Sof-lax Overnight). These products may be convenient and effective, but they also contain stimulant laxatives. Therefore, there is concern about permanent colonic damage with the use of these products, and they probably should not be used for long-term treatment unless non-stimulant treatment fails.

Prescription drugs to treat constipation

Lubiprostone (Amitiza)

Lubiprostone (Amitiza) is a selective chloride channel activator that increases secretion of chloride ions from the cells of the intestinal lining into the intestinal lumen. Sodium ions and water then follow the chloride ions into the lumen, and the water softens the stool. The FDA approved lubiprostone for the treatment of chronic constipation in both men and women in February 2006. At a dose of 24 micrograms twice a day, lubiprostone significantly and promptly increased bowel movements, improved stool consistency, and decreased straining. The most common side effect of initial clinical studies was mild to moderate nausea in 32% of patients treated with lubiprostone, compared to 3% of the controls. More long term studies of efficacy and side effects are needed to determine the place of lubiprostone in the treatment of constipation.

Linaclotide (Linzess)

Linaclotide (Linzess) is an oral drug that is not absorbed from the intestine. It stimulates the cells lining the small intestine to secrete fluid into the intestine. The increase in fluid secretion leads to an increased number of bowel movements. In addition, when constipation is associated with the abdominal pain of IBS, the pain also is reduced. Although the improvement in pain may be due to the improvement in constipation, linaclotide has been shown also to reduce the sensitivity of intestinal pain nerves, and this mechanism of action also may account for the decrease in pain.

Linaclotide is moderately effective, and its effectiveness depends on how a favorable response is defined. In the studies leading up to its approval, linaclotide was associated with a predefined response of an increase in bowel movements and a decrease in pain in approximately one-third of patients as compared with 17% of patients who received placebo. The response was better when pain and constipation were considered separately, with responses of approximately 50% for either.

The only common side effect of linaclotide is diarrhea. It should not be used in children below the age of six because of serious toxicity (death) to very young mice in animal studies, and should be avoided in children ages six through 17.

Miscellaneous drugs

Several prescribed drugs that are used to treat medical diseases consistently cause (as a side effect) loose stools, even diarrhea. There actually are several small studies that have examined these drugs for the treatment of constipation.

Colchicine

Colchicine is a drug that has been used for decades to treat gout. Most patients who take colchicine note a loosening of their stools. Colchicine has also been demonstrated to relieve constipation effectively in patients without gout.

Misoprostol (Cytotec)

Misoprostol (Cytotec) is a drug used primarily for preventing stomach ulcers caused by nonsteroidal anti-inflammatory drugs such as ibuprofen. Diarrhea is one of its consistent side-effects. Several studies have shown that misoprostol is effective in the short term treatment of constipation. Misoprostol is expensive,

Source: http://www.rxlist.com

Bowel movements are under voluntary control. This means that the normal urge people feel when they need to have a bowel movement can be suppressed. Although occasionally it is appropriate to suppress an urge to defecate (for example, when a bathroom is not available), doing this too frequently can lead to a disappearance of urges and result in constipation.

Source: http://www.rxlist.com

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