Constipation and Obstipation in Small Animals

Peristaltic waves are responsible for the aboral movement of fecal material in the colon. Giant, migrating waves that occur intermittently throughout the day move this matter farther and more rapidly. These waves constitute the “gastrocolic reflex” and are common after ingestion of a meal. A reduction or loss of these waves may contribute to constipation. Similarly, an increase in segmentation wave activity may predispose to constipation. However, diet is the most important local factor affecting colonic function. Older, overweight cats and cats with chronic kidney disease or previous episodes of constipation are at increased risk of constipation.

Chronic constipation may be due to intraluminal, extraluminal, or intrinsic (ie, neuromuscular) factors. Intraluminal obstruction is most common and is due to the inability to pass poorly digested, often firm matter (eg, hair, bones, litter) mixed with fecal material secondary to a lack of water intake or reluctance to defecate (due to stress, a dirty litter box, pain, or a tumor).

Extraluminal obstruction may be caused by compression of the colon or rectum from a narrowed pelvic inlet (caused by poorly healed pelvic fractures, enlarged sublumbar lymph nodes or prostate gland, or colonic stricture).

Finally, some animals (usually cats) with chronic constipation or obstipation may have megacolon, likely caused by a lesion of the neuromuscular bed of the colon. The etiology of megacolon often remains undiagnosed. Other diseases that affect neuromuscular control of the colon and rectum include hypothyroidism, dysautonomia, lesions of the spinal cord (eg, Manx sacral spinal cord deformity) or pelvic nerves, and hypokalemia and hypercalcemia. Some drugs (eg, opioids, diuretics, antihistamines, anticholinergic agents, sucralfate, aluminum hydroxide, potassium bromide, and calcium channel-blocking agents) promote constipation via differing mechanisms.

The classic clinical signs of constipation are tenesmus and the passage of firm, dry feces. If the passage of feces is hindered by an enlarged prostate or sublumbar lymph nodes, the feces may appear thin or “ribbon-like” in appearance. Abdominal palpation and rectal examination can confirm the presence of large volumes of retained fecal matter. Passed feces are often putrid. Some animals are quite ill and also have lethargy, depression, anorexia, vomiting (especially cats), and abdominal discomfort.

• History and physical examination

Constipation is diagnosed based on history of inability to defecate and retained feces in the colon on physical examination or on radiographs (in obese animals). A thorough history is essential to rule out iatrogenic causes (eg, medication, radiation) and previous trauma (eg, pelvic fracture). Rectal examination, neurologic examination, blood work, imaging studies (ie, radiographs, ultrasonography, colonoscopy) help rule out specific causes of constipation. Some diseases, such as megacolon in cats, are idiopathic.

A history of dietary indiscretion and physical evidence of retained feces confirms the diagnosis. Detailed information regarding the duration of constipation and influencing factors may help determine the cause, as will a history of ingestion of indigestible material that may increase fecal bulk or cause pain that can terminate the defecation reflex. Other historical factors that may be relevant include recent surgery, previous pelvic trauma, and possibly radiation therapy. A complete neurologic examination with special emphasis on caudal spinal cord function should be performed to identify neurologic causes of constipation, eg, spinal cord injury, pelvic nerve trauma, and Manx sacral spinal cord deformity.

Abdominal palpation and rectal examination, including evaluation of the prostate and sublumbar lymph nodes, should be performed to determine the presence of perineal hernia, foreign material, pain, or masses. Plain abdominal radiographs may help establish the inciting factor(s) of fecal retention and give some indication of what the feces contain (eg, bones). A barium enema, ultrasonography, or colonoscopy may facilitate demonstration of obstructive lesions or predisposing causes of chronic constipation.

A CBC, biochemical profile including a serum T₄ level, urinalysis, and detailed neurologic examination should be completed in cases of chronic or recurring constipation.

• Dietary changes, enemas, fecal removal under anesthesia

Constipation is treated with diet changes and, if necessary, enemas or mechanical removal of feces under general anesthesia. Depending on the suspected cause of constipation, diet change with a prokinetic agent may be recommended.

Affected animals should be adequately hydrated. Mild constipation can often be treated by dietary adjustment consisting of avoidance of dietary indiscretion, ready access to water and high-fiber diets, and use of suppository laxatives. Continued or longterm use of laxatives should be discouraged unless absolutely necessary to avoid constipation.

A number of pediatric rectal suppositories are available for management of mild constipation. They include dioctyl sodium sulfosuccinate (DSS; emollient laxative), glycerin (lubricant laxative), and bisacodyl (stimulant laxative). The use of suppositories requires a compliant pet and a willing owner. Suppositories can be used alone or in conjunction with oral laxative therapy.

Mild to moderate or recurrent episodes of constipation may require administration of enemas or manual extraction of impacted feces, or both. Types of enemas include warm tap water (5–10 mL/kg), warm isotonic saline (5–10 mL/kg) with or without a mild soap to act as an irritant, DSS (5–10 mL/cat), mineral oil (5–10 mL/cat), or lactulose (5–10 mL/cat). Enema solutions should be administered slowly with a 10–12 French rubber catheter or feeding tube under sedation. Phosphate-containing enemas must be avoided in cats.

If enemas are unsuccessful, manual extraction of impacted feces may be needed. After adequate rehydration, the animal should be anesthetized with an endotracheal tube in place to prevent aspiration in case the colonic manipulation induces vomiting. Complete removal of all feces may require 2–3 attempts over as many days. Concurrent fluid and electrolyte abnormalities should also be corrected.

Laxatives are classified as bulk-forming, lubricant, emollient, osmotic, or stimulant types. Most act on fluid transport mechanisms and colonic motor stimulation. They should be avoided in the presence of dehydration. Bulk-forming laxatives are added to the diet. These products are dietary fiber supplements of poorly digestible polysaccharides and celluloses derived principally from cereal grains, wheat bran, and psyllium. They absorb water, soften feces, add bulk, stretch the colonic smooth muscle, and improve contractility. Many constipated cats respond to dietary supplementation with one of these products. Dietary fiber is preferable because it is well tolerated, more effective, and more physiologic than other laxatives. Commercial fiber-supplemented diets are available, or the pet owner may add psyllium (1–4 tsp/meal), wheat bran (1–2 tbsp/meal), or pumpkin (1–4 tbsp/meal) to canned food. Animals should be well hydrated before starting fiber supplementation to minimize the potential for impaction of fiber in the constipated colon.

Emollient laxatives are anionic detergents that increase the miscibility of water and lipids in digesta, thereby enhancing lipid absorption and impairing water absorption. DSS and disoctyl calcium sulfosuccinate are emollient laxatives available in oral and enema form. Docusate sodium (cats: 50-mg capsule/day; dogs: 50-mg capsule, 1–4/day) and docusate calcium (cats: 50-mg capsule, 1–2/day; dogs: 50-mg capsule, 2–3/day) are other examples of emollient laxatives.

Mineral oil and white petroleum are lubricant laxatives that impede colonic water absorption and permit greater ease of fecal passage. These effects are moderate, and lubricant laxatives are beneficial only in mild cases of constipation. Mineral oil use should be limited to rectal administration because of the risk of aspiration pneumonia with oral administration.

Hyperosmotic laxatives consist of poorly absorbed polysaccharides (eg, lactulose, 0.5 mL/kg, PO, 2–3 times daily), magnesium salts (eg, magnesium citrate, magnesium hydroxide, magnesium sulfate), and the polyethylene glycols. Lactulose is the most effective agent of this group. The organic acids produced from lactulose fermentation stimulate colonic fluid secretion and propulsive motility. Lactulose osmotically retains water in the bowel to soften fecal material. It is also useful in management of hepatic encephalopathy because it decreases luminal pH, reduces bacterial production of ammonia, and favors formation of ammonium ions that are poorly absorbed. Stimulant laxative products (eg, bisacodyl [cats and small dogs: 5 mg; medium-sized dogs: 10 mg; large dogs: 15–20 mg]) increase the propulsive activity of the bowel. They are contraindicated in the presence of bowel obstruction.

Colonic prokinetic agents (eg, cisapride) enhance colonic propulsive motility by activating colonic smooth muscle 5-hydroxytryptamine-2A receptors in a number of species. Anecdotal experience suggest that cisapride (0.1–0.5 mg/kg, PO, 2–3 times daily) effectively stimulates colonic propulsive motility in cats with mild to moderate idiopathic constipation. Higher dosages (up to 1 mg/kg) may be necessary in cats with moderate to severe constipation. No significant adverse effects have been reported in cats treated with cisapride at dosages of 0.1–1 mg/kg, PO, 2–3 times daily). Cats with longstanding obstipation and megacolon are not likely to improve with cisapride therapy.

Ranitidine and nizatidine, H₂-receptor antagonists, are reported to stimulate colonic motility by inhibiting acetylcholinesterase. They stimulate motility by increasing the amount of acetylcholine available to bind smooth muscle muscarinic cholinergic receptors.

To prevent recurrence, high-fiber diets are recommended, ready access to water should be maintained, and frequent opportunities to defecate allowed. One uncontrolled study demonstrated that psyllium-enriched extruded dry diets were efficient in the management of chronic colitis in cats. Randomized control trials are necessary before recommending this type of diet routinely.

Cases of simple intraluminal obstruction due to dietary indiscretion respond well to bowel evacuation and prevention of this habit in the future. Chronic constipation unresponsive to medical management (eg, some cats with megacolon) may respond to subtotal or total colectomy. Colectomy with colocolonic, ileocolonic, or jejunocolonic anastomosis may be performed depending on the extent of the disease. Mild to moderate diarrhea may occasionally persist for weeks to months after surgery, and some cats may have recurrent constipation. Pelvic osteotomy without colectomy has been recommended for cats with pelvic fracture malunion and hypertrophic megacolon of < 6 months duration. In such cases, pathologic hypertrophy may be reversible with early pelvic osteotomy. Subtotal colectomy is recommended in cats with pelvic fractures if hypertrophy and clinical signs have persisted for >6 months. In these cases, hypertrophy is followed by muscular degeneration and pathologic dilatation, and pelvic osteotomy alone will not provide relief from obstipation.

• Also see pet health content regarding constipation in dogs and cats.