Nausea, Vomiting, Constipation, and Bowel Obstruction in Advanced Cancer
Frequency
Pathophysiology and Causes
Assessment
Management
Malignant Bowel Obstruction
Frequency
Nausea and vomiting is a common symptom in patients with advanced cancer,
occurring in approximately 21% to 68% of these patients.[1,2] The underlying
pathophysiology and treatment differs somewhat from nausea related to radiation
treatment or chemotherapy. Chronic nausea can significantly impair a patient’s
quality of life.
Pathophysiology and Causes
Chronic nausea in the setting of advanced cancer is often multifactorial in
origin.[1-3] Medications, including some that are frequently prescribed in the
setting of advanced cancer, such as opioids, nonsteroidal anti-inflammatory
drugs, and selective serotonin reuptake inhibitor (SSRI) antidepressants may be
responsible. In the case of opioids, nausea frequently resolves spontaneously
a few days after initiation of treatment. In some cases, however, it may
persist. Nausea resulting from the accumulation of active opioid metabolites
(morphine-6-glucuronide) has been described,[4] and patients with impaired
renal function may be at increased risk. Opioids invariably produce
constipation if prophylactic measures are not taken (namely the use of a
regular laxative regimen) and constipation is one of the most common causes of
nausea in patients with advanced cancer.[5-8] Opioid-induced gastrointestinal (GI)
motility problems may compound the problem of diminished GI
motility that many patients experience as part of the anorexia-cachexia
syndrome of advanced cancer. The autonomic dysfunction that often accompanies
this syndrome results in decreased GI motility, early satiety,
and chronic nausea.[9-11] Other causes of chronic nausea in these patients
include raised intracranial pressure (from metastatic brain disease or primary
brain tumors), metabolic abnormalities such as hypercalcemia, hyponatremia and
uremia, dehydration, malignant bowel obstruction, gastroduodenal ulcers, and infections of the mouth, pharynx, or esophagus.[12]
Nausea, like many other symptoms, may have psychological undercurrents that
either exacerbate or induce chronic nausea.
Assessment
A comprehensive history that includes determining the frequency and
effectiveness of bowel movements and laxative therapy is essential. Concurrent
medications should be reviewed and the frequency and nature of nausea and
vomiting should be documented. Examination should, among others, attempt to
exclude bowel obstruction, fecal impaction, dehydration, and raised
intracranial pressure. History and physical examination are poor at
determining the extent of constipation.[5] A plain flat-plate x-ray of the
abdomen can be very useful to this end.[13] Surgical x-ray views of the
abdomen may be helpful if a bowel obstruction is suspected. Investigations to
determine blood levels of electrolytes, calcium and renal parameters may also
be helpful.
Management
Management centers on identifying the underlying causes, addressing these when
possible, and controlling the symptoms.[1,2] A basic working knowledge of the
emetic pathways and identification of possible underlying causes should guide
antiemetic selection. Multiple antiemetic regimens have been proposed for the
management of chronic nausea in the setting of advanced cancer. Prospective
studies comparing one regimen with another are lacking. Metoclopramide or
domperidone are generally recommended as first-line agents because they improve
GI motility and act on the chemoreceptor trigger zone (as a
result of their antidopaminergic properties).[14] Metoclopramide can be
administered orally or parenterally (subcutaneously or intravenously [IV]) at doses
of 10 mg, 4 times a day, or on an every-4-hour basis, depending on the severity of
the nausea. Rescue doses should also be ordered on an as-needed basis to
manage the episodic worsening of nausea that may occur. Extrapyramidal-related
adverse effects are a potential complication of these medications, but appear
to occur infrequently. Domperidone, which is currently unavailable in the
United States, is associated with fewer of these adverse effects.
Unfortunately, this drug is not available in a parenteral formulation.
Dimenhydrinate (Dramamine) or antihistamine agents may be used if a complete
bowel obstruction is suspected (in which case prokinetic agents are
contraindicated) or if patients are intolerant to other antiemetic agents.
Haloperidol, a potent antidopamine agent, may be considered if bowel
obstruction is the underlying problem.[15] The phenothiazine drugs are
sometimes used,[16] but the high incidence of adverse effects, such as somnolence
and anticholinergic-related effects (orthostatic hypotension and confusion),
limit their role. Chlorpromazine has modest antiemetic activity but a high
incidence of sedation, postural hypotension, and anticholinergic adverse
effects, while piperazine derivatives such as prochlorperazine are stronger
antiemetics but cause more extrapyramidal side effects. Hyoscine butylbromide,
on the other hand, can be useful for patients experiencing colic from complete
bowel obstruction.
A continuous parenteral infusion of metoclopramide, at doses of 60 to 120 mg/day, may be helpful for patients with intractable chronic nausea.[17] The
judicious use of corticosteroids such as dexamethasone in selected patients may be useful in conjunction with a more traditional antiemetic, although one study has suggested that dexamethasone was not better than placebo in patients who were not controlled with metoclopramide.[18] The
exact mechanism of action and the optimal dose of corticosteroids for this
indication are not known.
In contrast to radiation therapy- or chemotherapy-induced nausea, the role of
5-HT3 receptor antagonists (such as ondansetron) is not clear in the setting of
chronic nausea in advanced cancer, but appears to be limited to a small number
of highly selected cases, specifically those that have failed all other
treatments.[19]
A case series study has suggested an antiemetic effect for olanzapine (an atypical antipsychotic) in advanced cancer patients being treated with opioids who are complaining of apparent opiate-induced nausea. However, further study and comparison with standard management are required.[20]
The management of constipation can be divided into general interventions and
therapeutic measures.[21] The general interventions include the prevention of
constipation by initiating regular laxative regimens, particularly in patients
on opioid treatment, and where possible, the elimination of medical factors
that may be contributing to constipation (e.g., discontinuation of nonessential
constipating drugs). Prophylactic laxative regimens may consist of stool
softeners such as docusate and bowel stimulants such as sennosides.
Occasionally lactulose may be added. If necessary, a hyperosmolar laxative such as lactulose or polyethylene glycol may be added.[22] These regimens should be reviewed on a
regular basis and their doses adjusted, depending on the regularity of bowel
movements. High-fiber diets, while generally recommended, may be difficult for
patients with very advanced cancer. Bulk agents such as psyllium or cellulose
are unsuitable for patients with advanced cancer because the high fluid intake
required with these agents is often intolerable to patients.
(Refer to the PDQ summaries on Gastrointestinal Complications and Pain for further information on the management of constipation caused by opioids.)
Therapeutic interventions for the routine management of constipation may be
administered orally or rectally. Oral laxatives include bulk agents, osmotic
agents, contact cathartics, and agents for colonic lavage. Saline laxatives,
including sodium salts (sodium phosphate) and magnesium salts (magnesium
citrate) may be useful to treat established constipation. Sodium phosphates
are generally administered rectally as an enema, but oral solutions are also
available. Magnesium citrate is generally administered orally and can be
especially useful if the constipation is primarily in the proximal bowel. The
contact cathartic bisacodyl, available as a suppository, may also be useful for
treating established constipation. Once the constipation is cleared, the
background laxative regimen (e.g., sennoside and docusate) should be reviewed
with the view of optimizing it. The action of the saline and magnesium salts
is not physiological and regular, ongoing administration should be avoided.
Saline laxatives should be used with caution in patients with renal impairment
or cardiac failure. Mineral oil enemas are used occasionally and act as both
lubricants and stool softeners. They may interfere with the absorption of
fat-soluble vitamins, however, and there is a risk of lipoid pneumonia in
debilitated patients. The use of enemas and rectal suppositories is usually
limited to the acute, short-term management of more severe episodes of
constipation. Patients with neurogenic bowel problems (e.g., patients with
irreversible spinal cord compression), however, often require regular, ongoing
treatment with suppositories as part of their bowel care. The rectal route is
contraindicated in patients with mucosal integrity/bowel-wall compromise.
(Refer to the PDQ summary on Gastrointestinal Complications for further information.)
There have been no adequate comparative studies between the
various laxatives to make evidence-based recommendations on which laxative
regimen is optimal. Patients with advanced cancer are at risk of becoming
constipated and generally require a regular bowel regimen, even if they are not
eating. This need is amplified when they are on opioid treatment. On occasion,
patients may present with a refractory narcotic bowel syndrome despite
aggressive bowel care. Methylnaltrexone, a quaternary derivative of naltrexone, is an opioid antagonist that does not cross the blood-brain barrier. Preliminary studies suggest that it may be effective when given subcutaneously in the management of opioid-associated constipation without causing opioid withdrawal.[23-25] Methylnaltrexone should be avoided in cases of bowel obstruction and suspected bowel obstruction. This has not been studied in children.
Malignant Bowel Obstruction
The initial approach to assessing and managing malignant bowel obstruction in
the advanced cancer patient involves determining whether the obstruction is
reversible or not, and whether the obstruction is partial or complete.[26-28]
Suitability for surgery such as resection or intestinal bypassing should be
assessed. Several medical options are available to improve the comfort of
patients with inoperable bowel obstructions.[29,30] Less aggressive surgical
procedures such as the insertion of a venting gastrostomy tube can provide
considerable relief. The creation of ostomies, where the obstruction is
complete and irreversible, may also provide relief. Nasogastric tubes may be
used temporarily until the obstruction resolves, but where the obstruction is
irreversible, other options such as the insertion of a gastrostomy tube should
be considered. Antiemetic agents with prokinetic properties are relatively
contraindicated in the presence of a complete obstruction, and alternative
agents such as an antihistamine or haloperidol may be required. Clinical
experience suggests that corticosteroids (e.g., dexamethasone at a starting
dose of 6–10 mg subcutaneously, 3–4 times a day) may be useful for malignant
bowel obstruction.[26,27] The optimal dose and duration of treatment has not
been clarified. Hydration and drugs such as opioids and antiemetics should be
administered via routes other than the oral route. The subcutaneous route can
be very convenient and effective for both hydration and opioid administration.
This route is as effective as IV administration, is less invasive, and
requires less maintenance than the IV route. Octreotide, a somatostatin
analog, can be useful at doses of 100 to 200 µg subcutaneously, 3 times
a day, for refractory obstruction.[26,27,31] In the United States, octreotide is often
administered as a continuous infusion. If the obstruction causes severe colic,
hyoscine butylbromide may be considered. The use of colonic endoluminal
stenting devices in selected patients is gaining increasing attention.[32,33]
References
-
Pereira J, Bruera E: Chronic nausea. In: Bruera E, Higginson I, eds.: Cachexia-Anorexia in Cancer Patients. New York, NY: Oxford University Press, 1996, pp 23-37.
-
Baines MJ: Nausea, vomiting, and intestinal obstruction. In: Fallon M, O'Neill B, eds.: ABC of Palliative Care. London: BMJ Books, 1998, pp 16-18.
-
Stephenson J, Davies A: An assessment of aetiology-based guidelines for the management of nausea and vomiting in patients with advanced cancer. Support Care Cancer 14 (4): 348-53, 2006.
[PUBMED Abstract]
-
Hagen NA, Foley KM, Cerbone DJ, et al.: Chronic nausea and morphine-6-glucuronide. J Pain Symptom Manage 6 (3): 125-8, 1991.
[PUBMED Abstract]
-
Bruera E, Suarez-Almazor M, Velasco A, et al.: The assessment of constipation in terminal cancer patients admitted to a palliative care unit: a retrospective review. J Pain Symptom Manage 9 (8): 515-9, 1994.
[PUBMED Abstract]
-
Derby S, Portenoy RK: Assessment and management of opioid-induced constipation. In: Portenoy RK, Bruera E, eds.: Topics in Palliative Care. Volume 1. New York, NY: Oxford University Press, 1997, pp 95-112.
-
Culpepper-Morgan JA, Inturrisi CE, Portenoy RK, et al.: Treatment of opioid-induced constipation with oral naloxone: a pilot study. Clin Pharmacol Ther 52 (1): 90-5, 1992.
[PUBMED Abstract]
-
Sykes NP: Oral naloxone in opioid-associated constipation. Lancet 337 (8755): 1475, 1991.
[PUBMED Abstract]
-
Bruera E, Catz Z, Hooper R, et al.: Chronic nausea and anorexia in advanced cancer patients: a possible role for autonomic dysfunction. J Pain Symptom Manage 2 (1): 19-21, 1987 Winter.
[PUBMED Abstract]
-
Thomas JP, Shields R: Associated autonomic dysfunction and carcinoma of the pancreas. Br Med J 4 (726): 32, 1970.
[PUBMED Abstract]
-
Schuffler MD, Baird HW, Fleming CR, et al.: Intestinal pseudo-obstruction as the presenting manifestation of small-cell carcinoma of the lung. A paraneoplastic neuropathy of the gastrointestinal tract. Ann Intern Med 98 (2): 129-34, 1983.
[PUBMED Abstract]
-
Ripamonti C, Bruera E: Chronic nausea and vomiting. In: Ripamonti C, Bruera E, eds.: Gastrointestinal Symptoms in Advanced Cancer Patients . New York, NY: Oxford University Press, 2002, pp 169-174.
-
Starreveld JS, Pols MA, Van Wijk HJ, et al.: The plain abdominal radiograph in the assessment of constipation. Z Gastroenterol 28 (7): 335-8, 1990.
[PUBMED Abstract]
-
Bruera E, Seifert L, Watanabe S, et al.: Chronic nausea in advanced cancer patients: a retrospective assessment of a metoclopramide-based antiemetic regimen. J Pain Symptom Manage 11 (3): 147-53, 1996.
[PUBMED Abstract]
-
Critchley P, Plach N, Grantham M, et al.: Efficacy of haloperidol in the treatment of nausea and vomiting in the palliative patient: a systematic review. J Pain Symptom Manage 22 (2): 631-4, 2001.
[PUBMED Abstract]
-
Kennett A, Hardy J, Shah S, et al.: An open study of methotrimeprazine in the management of nausea and vomiting in patients with advanced cancer. Support Care Cancer 13 (9): 715-21, 2005.
-
Bruera E, Brenneis C, Michaud M, et al.: Continuous Sc infusion of metoclopramide for treatment of narcotic bowel syndrome. Cancer Treat Rep 71 (11): 1121-2, 1987.
[PUBMED Abstract]
-
Bruera E, Moyano JR, Sala R, et al.: Dexamethasone in addition to metoclopramide for chronic nausea in patients with advanced cancer: a randomized controlled trial. J Pain Symptom Manage 28 (4): 381-8, 2004.
[PUBMED Abstract]
-
Pereira J, Bruera E: Successful management of intractable nausea with ondansetron: a case study. J Palliat Care 12 (2): 47-50, 1996 Summer.
[PUBMED Abstract]
-
Passik SD, Lundberg J, Kirsh KL, et al.: A pilot exploration of the antiemetic activity of olanzapine for the relief of nausea in patients with advanced cancer and pain. J Pain Symptom Manage 23 (6): 526-32, 2002.
[PUBMED Abstract]
-
Mancini I, Bruera E: Constipation in advanced cancer patients. Support Care Cancer 6 (4): 356-64, 1998.
[PUBMED Abstract]
-
Bosshard W, Dreher R, Schnegg JF, et al.: The treatment of chronic constipation in elderly people: an update. Drugs Aging 21 (14): 911-30, 2004.
[PUBMED Abstract]
-
Portenoy RK, Thomas J, Moehl Boatwright ML, et al.: Subcutaneous methylnaltrexone for the treatment of opioid-induced constipation in patients with advanced illness: a double-blind, randomized, parallel group, dose-ranging study. J Pain Symptom Manage 35 (5): 458-68, 2008.
[PUBMED Abstract]
-
Thomas J, Karver S, Cooney GA, et al.: Methylnaltrexone for opioid-induced constipation in advanced illness. N Engl J Med 358 (22): 2332-43, 2008.
[PUBMED Abstract]
-
Foss JF: A review of the potential role of methylnaltrexone in opioid bowel dysfunction. Am J Surg 182 (5A Suppl): 19S-26S, 2001.
[PUBMED Abstract]
-
Mercadante S: Assessment and management of mechanical bowel obstruction. In: Portenoy RK, Bruera E, eds.: Topics in Palliative Care. Volume 1. New York, NY: Oxford University Press, 1997, pp. 113-30.
-
Fainsinger RL: Integrating medical and surgical treatments in gastrointestinal, genitourinary, and biliary obstruction in patients with cancer. Hematol Oncol Clin North Am 10 (1): 173-88, 1996.
[PUBMED Abstract]
-
Ripamonti CI, Easson AM, Gerdes H: Management of malignant bowel obstruction. Eur J Cancer 44 (8): 1105-15, 2008.
[PUBMED Abstract]
-
Davis MP, Nouneh C: Modern management of cancer-related intestinal obstruction. Curr Pain Headache Rep 5 (3): 257-64, 2001.
[PUBMED Abstract]
-
Ripamonti C, Twycross R, Baines M, et al.: Clinical-practice recommendations for the management of bowel obstruction in patients with end-stage cancer. Support Care Cancer 9 (4): 223-33, 2001.
[PUBMED Abstract]
-
Mangili G, Franchi M, Mariani A, et al.: Octreotide in the management of bowel obstruction in terminal ovarian cancer. Gynecol Oncol 61 (3): 345-8, 1996.
[PUBMED Abstract]
-
Harris GJ, Senagore AJ, Lavery IC, et al.: The management of neoplastic colorectal obstruction with colonic endolumenal stenting devices. Am J Surg 181 (6): 499-506, 2001.
[PUBMED Abstract]
-
Spinelli P, Mancini A: Use of self-expanding metal stents for palliation of rectosigmoid cancer. Gastrointest Endosc 53 (2): 203-6, 2001.
[PUBMED Abstract]
Back to Top
< Previous Section | Next Section > |