click for large version
Table 3. Common etiologies of pain and recommended medication treatment options
*EPS: extrapyramidal symptoms
The various insults and pathways that can cause vomiting are quite complex. The medullary vomiting center (VC) receives vestibular, peripheral (via splanchnic and vagal nerves), and higher cortical inputs and is the final common pathway in the vomiting reflex. The chemoreceptor trigger zone (CTZ) near the fourth ventricle receives input from the vagal and splanchnic nerves, and generates output to the VC.
General dietary recommendations are to avoid sweet, fatty, and highly salted or spiced foods. Small portions of bland foods without strong odors are best tolerated.7 Constipation commonly contributes to nausea and vomiting and should be managed with disimpaction, enemas, and laxatives as tolerated. Imaging may be required to make the important distinction between partial and complete bowel obstruction, as the treatments differ. Surgical procedures, such as colostomy or placement of a venting gastrostomy tube, can relieve pain and vomiting associated with complete bowel obstruction.
Back to the Case
The patient is found to have a fecal impaction on rectal exam, but vomiting persists after disimpaction and enema use. Imaging documents a complete bowel obstruction at the site of a palpable mass in the right upper quadrant and multiple large hepatic metastases. Octreotide is initiated to decrease intestinal secretions and peristalsis. Steroids are given to decrease tumor burden and associated inflammation in the intestine and liver, as well as to relieve distension of the hepatic capsule. Haloperidol is used in low doses to control episodes of nausea.
Review of the Data: Dyspnea
Dyspnea is a common symptom faced by patients at EOL. An estimated 50% of patients who are evaluated in acute-care hospitals seek treatment for the management of this often-crippling symptom.10 Unfortunately, as disease burden progresses, the incidence of dyspnea increases towards EOL, and the presence and severity of dyspnea is strongly correlated with mortality.
It is imperative for providers to appreciate that dyspnea is a subjective symptom, similar to pain. The presence and severity of dyspnea, therefore, depends on patient report. Given its subjective nature, the degree of dyspnea experienced by a patient might not correlate with objective laboratory findings or test results. In practice, the severity of dyspnea is commonly assessed with a numeric rating scale (0-10), verbal analogue scale, or with verbal descriptors (mild, moderate, severe). It is important to determine the underlying etiology of the dyspnea and, if possible, to target interventions to relieve the underlying cause. However, at the end of life, the burdens of invasive studies to determine the exact cause of dyspnea might outweigh the benefits, and invasive testing might not correlate with patients’ and families’ goals of care. In that instance, the goal of treatment should be aggressive symptom management and providers should use clinical judgment to tailor therapies based on the patient’s underlying illness, physical examination, and perhaps on noninvasive radiological or laboratory findings. Below are nonpharmacological and pharmacological interventions that can be employed to help alleviate dyspnea in the actively dying patient.
Nonpharmacological Management
A handheld fan aimed near the patient’s face has been shown to reduce the sensation of dyspnea.11 This relatively safe and inexpensive intervention has no major side effects and can provide improvement in this distressing symptom.
Often, the first line of therapy in the hospital setting for a patient reporting dyspnea is the administration of oxygen therapy. However, recent evidence does not show superiority of oxygen over air inhalation via nasal prongs for dyspnea in patients with advanced cancer or heart failure.12,13