Laxative
A
laxative is a preparation used for encouraging
defecation, or the expulsion of
feces. Laxatives are most often taken to treat
constipation. Certain stimulant, lubricant, and saline laxatives are used to evacuate the
colon for
rectal and bowel examinations. They are sometimes supplemented by
enemas.
Laxatives are often abused by
bulimics or
anorexics (nervosa). Laxative abuse is potentially serious since it can lead to
intestinal paralysis,
Irritable Bowel Syndrome (IBS),
pancreatitis, and other problems.
There are several types of laxatives, listed below. Some laxatives combine more than one type of active ingredient to produce a combination of the effects mentioned. Laxatives may be
oral or in
suppository form.
While there is no sex difference in
constipation from a medical point of view, advertisers tend to promote some brands as being "More for a lady" than others.
*Site of Action: Small and large intestine
*Onset of Action: 12 - 72 hoursAlso known as bulk-forming or bulking agents, these include
dietary fiber. Bulk-producing agents cause the stool to be bulkier and to retain more water, as well as forming an emollient gel, making it easier for
peristaltic action to move it along. Examples:
psyllium husk (
Metamucil), methylcellulose (Citrucel), polycarbophil,
apples. They should be taken with plenty of water. Bulk-producing agents have the gentlest of effects among laxatives and can be taken just for maintaining regular bowel movements.
*Site of Action: Small and large intestine
*Onset of Action: 12 - 72 hoursThese cause water and fats to penetrate the stool, making it easier to move along. Many of these quickly produce a tolerance effect and so become ineffective with prolonged use. Their strength is between that of the bulk producers and the stimulants, and they can be used for patients with occasional
constipation or those with anorectal conditions for whom passage of a firm stool is painful. Stool softeners include
docusate (Colace, Diocto).
*Site of Action: Colon
*Onset of Action: 6 - 8 hoursThese simply make the stool slippery, so that it slides through the intestine more easily. An example is
mineral oil, which also retards colonic absorption of water, softening the stool. Mineral oil may decrease the absorption of fat-soluble
vitamins (A, D, E and K).
These cause the intestines to concentrate more water within, softening the stool. There are two principal types, saline and hyperosmotic. Examples:
Milk of Magnesia,
Epsom salt.
Saline
*Site of Action: Small and large intestine
*Onset of Action: 0.5 - 3 hoursSaline laxatives attract and retain water in the intestinal lumen, increasing intraluminal pressure and thus softening the stool. They will also cause the release of
cholecystokinin, which stimulates the digestion of fat and protein. Saline laxatives may alter a patient's fluid and electrolyte balance. Examples: Dibasic
sodium phosphate,
magnesium citrate,
magnesium hydroxide (
Milk of magnesia),
magnesium sulfate, monobasic sodium phosphate,
sodium biphosphate.Sulfate salts are considered the most potent.
Hyperosmotic agents
*Site of Action: Colon
*Onset of Action: 0.5 - 3 hoursHyperosmotic laxatives include
Glycerin suppositories and
Lactulose. Lactulose works by the osmotic effect, which retains water in the colon, lowering the and increasing colonic peristalsis. Lactulose is also indicated in
Portal-systemic encephalopathy.
Glycerin suppositories work mostly by hyperosmotic action, but also the sodium stearate in the preparation causes local irritation to the colon.
*Site of Action: ColonThese stimulate
peristaltic action, and can be dangerous under certain circumstances. Stimulant laxatives act on the intestinal
mucosa or nerve plexus, they also alter water and
electrolyte secretion. They are the most severe among laxatives and should be used only in extreme conditions.
Castor oil may be preferred when more complete evacuation is required.
Examples:
Castor oil
*Site of Action: Small intestine
*Onset of Action:
Castor oil acts directly on intestinal mucosa or nerve plexus and alters water and electrolyte secretion. It is converted into ricinoleic acid (the active component) in the gut.
