Anesthesiology
1996;84:1243-57
(c) 1996 American Society of Anesthesiologists, Inc.
Lippincott-Raven Publishers

Practice guidelines are systematically developed recommendations that assist the practitioner and patient in making decisions about health care. These recommendations may be adopted, modified, or rejected according to clinical needs and constraints.

Practice guidelines are not intended as standards or absolute requirements. The use of practice guidelines cannot guarantee any specific outcome. Practice guidelines are subject to revision from time to time as warranted by the evolution of medical knowledge, technology, and practice. The guidelines provide basic recommendations that are supported by analysis of the current literature and by a synthesis of expert opinion, open forum commentary, and clinical feasibility data (Appendix 1).

A. Definition of Cancer Pain. For these guidelines, cancer pain is defined as pain that is attributable to cancer or its therapy. The Task Force has not given preference to literature based on any particular system of definition or classification of cancer pain.

B. Purpose of Guidelines for Cancer Pain Management. The purpose of these guidelines is to: (1) optimize pain control; (2) minimize side effects, adverse outcomes, and costs; (3) enhance functional abilities and physical and psychological well-being; and (4) enhance the quality of life for cancer patients.

C. Focus. These guidelines focus on the knowledge base, skills, and range of interventions that are the essential elements of effective management of pain and pain-related problems in patients with cancer. The guidelines recognize that the management of cancer pain occurs within the broader context of supportive care, which also encompasses other quality of life concerns (e.g., functional status, psychosocial well-being).

The guidelines recognize that comprehensive pain management by anesthesiologists may not be feasible in every clinical setting. However, aspects of these guidelines may be useful when comprehensive pain management cannot be offered.

The Task Force recognizes that therapies used to modify the underlying cause of pain may improve analgesia and outcome. Commonly used approaches include radiotherapy, surgery, and chemotherapy. The decision to implement primary therapy should be based on a comprehensive assessment of risks and benefits and are outside the scope of these guidelines.

D. Application. The guidelines are intended for use by anesthesiologists and individuals who deliver care under the direct supervision of anesthesiologists. The guidelines apply to patients of all ages and with all types of cancer.

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I. Comprehensive Evaluation and Assessment of the Patient with Cancer Pain

The literature suggests that a comprehensive cancer pain evaluation is associated with improved analgesia. The Task Force and panel of consultants support the conduct of a comprehensive pain evaluation. In the opinion of the Task Force and consultants, effective cancer pain management requires a clear understanding of the etiology and pathophysiology of the pain.

Recommendations:

1. General Constructs. The Task Force identifies four fundamental features that should guide the comprehensive evaluation of the patient with cancer pain.

a. The patient's general medical condition and the extent of disease must be assessed.

b. A knowledge of common pain syndromes is a prerequisite for conducting a cancer pain evaluation. Common pain syndromes include but are not limited to bone metastases, abdominal (visceral) pain, neuropathic pain (e.g., peripheral neuropathies, acute herpes zoster and postherpetic neuralgia, plexopathies), and mucositis.

c. A knowledge of oncologic emergencies (e.g., hypercalcemia, spinal cord compression, cardiac tamponade, superior vena cava syndrome) is also required to conduct a comprehensive cancer pain evaluation.

d. A thorough knowledge of the modalities that can be employed in the treatment of painful crisis (i.e., pain emergency) is also necessary.

2. Elements. The Task Force identifies six essential features of a comprehensive evaluation and treatment plan. These features are outlined below (template 1).

a. History: A complete history includes a general medical and oncologic history with a description of the extent of disease and prognosis. A pain history should include: (1) the quality of the pain (e.g., "burning", "aching"), (2) pain intensity (i.e., numeric, categorical, or visual analog scales), (3) spatial relationships of the pain (i.e., location, areas of radiation), (4) factors that palliate or provoke pain, (5) temporal characteristics of the pain (i.e., continuous, episodic), (6) duration of the pain, (7) course of the pain (e.g., stable, progressive, "crescendo"), and (8) associated features of the pain (e.g., numbness, weakness, vasomotor changes).

b. Psychosocial evaluation: A psychosocial evaluation should include: (1) the presence of psychological symptoms (e.g., anxiety, depression), (2) indicators of psychiatric disorder (e.g., delirium, major depression), (3) investigation of the "meaning" of the pain to the patient and his or her significant others, (4) changes in mood state, (5) premorbid and current coping mechanisms, (6) family function, (7) the availability of psychosocial support systems, and (8) assessment of the patient's expectations and preconceptions regarding pain management (e.g., fear of addiction surrounding opioids, psychostimulants).

c. Physical examination: A physical examination should include general medical and neurologic examinations and a specific examination of the site of pain and surrounding anatomic regions.

d. Impression and differential diagnosis: The findings of the history and physical examination should be used to determine the probable etiology and pathophysiology of the pain.

e. Diagnostic evaluations: Additional diagnostic tests may be required to ascertain or confirm the etiology of the pain and its relationships to underlying disease processes.

f. Treatment plan: Once a definitive diagnosis has been made, a treatment plan should be formulated and discussed with the patient. The treatment plan should characterize the expected outcome, define contingencies, and outline a plan for reassessment.

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II. Longitudinal Monitoring of Pain

There is insufficient literature to evaluate the efficacy of the longitudinal monitoring of pain. The Task Force and consultants support the contention that the longitudinal monitoring of pain will result in improved pain management and reduced adverse effects from therapy (template 1).

Recommendations: The Task Force identifies three fundamental concepts in the longitudinal monitoring of pain.

1. Patient Self-report. Reports of pain made by the patient should be the primary source of pain assessment and should take precedence, whenever possible, over inferences and observations made by others. Continuous assessment over time (e.g., pain diaries) is appropriate for outpatients. For some age groups and populations (e.g., the cognitively or developmentally impaired), external observation may be preferable. Age-appropriate instruments should be used in children.

2. Rating Scale. The longitudinal monitoring of pain intensity should be based on rating scales that are easy to use and interpret. Typical examples of rating scales include discrete numeric scales (e.g., 0-10), categorical scales (none, mild, moderate, severe, worst possible), and continuous visual analog scales of pain or pain relief (template 2).

3. Frequency of Pain Ratings. Self-report should be obtained at regular intervals. Increased frequency and evaluation of self-reports may be indicated: (1) at the onset of new pain, (2) when established pain exhibits changes in pattern and/or intensity, or (3) when a major therapeutic intervention is performed.

The literature supports the concept that involvement of specialists from multiple disciplines results in effective analgesia and suggests that such involvement improves other health outcomes. The panel of consultants and Task Force members endorse the importance of collaboration between anesthesiologists and other health-care providers in the management of cancer pain.

Recommendations: Anesthesiologists who engage in cancer pain management should avail themselves of interdisciplinary expertise in their clinical environments. It is important to note that the patient's primary physician must be a part of the coordination of pain management. The Task Force recognizes that full interdisciplinary coordination of cancer pain treatment is not feasible in every clinical setting.

The guidelines conceptualize the pharmacologic management of cancer pain as a continuum from indirect drug delivery (i.e., systemic analgesia) to direct drug delivery (i.e., neuraxial drug administration and neuroablation; (template 3). Indirect drug delivery systems rely on blood-borne carriage of analgesic to receptors after (1) systemic absorption, (2) formation of a depot for sustained and continuous release, or (3) administration into the blood stream. Direct drug delivery systems involve administration of an agent to the neuraxis or in the vicinity of "target" neural tissue.

Recommendations for the oral administration of analgesics are provided by the World Health Organization (WHO) analgesic ladder (template 4). These American Society of Anesthesiologists guidelines provide evidence and recommendations for cancer pain management involving the oral and other routes of administration. The literature provides supportive evidence for specific elements of the paradigm (template 5).

A. Indirect Delivery Systems: Systemic Analgesia

a. Oral pharmacologic interventions: The literature suggests and consultant opinion supports the view that oral pharmacologic interventions applied according to the WHO analgesic ladder are associated with adequate analgesia. The literature indicates an increased risk of adverse sequelae with the use of oral opioids (Appendix 2).

b. Rectal and transdermal analgesia: The literature suggests that rectal and transdermal modes of analgesia are effective alternatives to oral analgesics. The Task Force supports the use of these analgesic modalities, when appropriate, before employment of more invasive systemic therapies.

c. Subcutaneous and intravenous drug delivery: The literature suggests that subcutaneous or intravenous administration of opioids is effective for patients requiring continuous infusions and does not increase the risk of adverse effects. Subcutaneous administration provides blood levels similar to intravenous infusion, and the comparative risks and benefits of the continuous parenteral techniques have not been evaluated.

Recommendations:

1. General Recommendations. Oral medications should be used as the first line approach in most patients when initiating analgesic therapy. Because it is not effective in all patients and may not be optimal therapy in painful crisis (i.e., the pain emergency), the indications, risks, and potential benefits of alternative interventions must be understood and assessed.

Any proposed systemic regimen must be individualized for the patient, and inflexible reliance should not be placed on any "standard" mixture of medications and/or dosing regimens. For patients with moderate or severe pain, opioid therapy is recommended. Once an opioid and a route of administration are chosen, the dose should be increased until a favorable response occurs or when unmanageable or intolerable adverse effects ensue. There is no predetermined maximum dose of an opioid. Dose titration may be required periodically because of the natural history of the primary disease or the development of tolerance. When pain is continuous or occurs frequently, medication generally should be administered around-the-clock with additional "rescue" doses available for breakthrough pain. The practitioner should be aware of the potential adverse sequelae of opioids and their appropriate treatment.

When considering changing opioids or routes of administration, dose adjustments should be made to correct for differences in potency. Apparent differences in potency among opioids are the result of physicochemical and pharmacokinetic differences rather than pharmacodynamic distinctions (template 6). When tolerance to a particular opioid develops, another opioid may be substituted at approximately 50-75% of the equianalgesic dose, because cross-tolerance is incomplete. The size of the reduction should be based on the severity of pain, the presence of adverse effects, and the medical status of the patient. Based on clinical observation, a switch to methadone should be done with a reduction of 75% of the equianalgesic dose.

Adjuvant agents should be used as coanalgesics (e.g., corticosteroids, antidepressants) or to treat adverse drug effects. These agents may be added at any stage (template 7).

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2. Specific Recommendations.

a. Oral medications: Oral medications such as acetaminophen, acetylsalicylic acid or other nonsteroidal antiinflammatory drugs (NSAIDs) should be employed first for mild to moderate pain. (Note: the simultaneous use of more than one NSAID or the concomitant use of an NSAID with a glucocorticoid is not recommended because the risk of toxicity is increased, and additional analgesia is not achieved.) If pain is not relieved or increases or if moderate pain is present at presentation, an opioid conventionally used for moderate pain (e.g., codeine, dihydrocodeine, oxycodone (compounded with a coanalgesic), or hydrocodone) should be used, usually combined with a nonopioid analgesic. When increasing opioid dose, an increment of 25-50% is usually the minimum required to observe effect. If pain is not relieved, increases, or is severe at presentation, an opioid conventionally used for severe pain (e.g., morphine, hydromorphone, methadone, oxycodone (not compounded with a coanalgesic), fentanyl, or levorphanol) should be selected. (Note: Besides consideration of a change in opioid, an increase in pain intensity should prompt a reevaluation of the cause of pain.) When analgesia with acceptable adverse effects is no longer attained with the oral route of administration or when oral administration is no longer viable (inability to swallow and/or absorb medication), an alternate systemic route of administration should be chosen. (Note: The enteral route should be used in patients with percutaneous feeding tubes and inability to swallow, as long as absorption still occurs.) If dose-limiting toxicity precludes effective therapy, a trial of a different opioid, a reduction of adverse effects by optimization of adjuvants, neuraxial drug delivery, or neuroablative therapy should be considered.

b. Rectal and transdermal: Use of an alternative route of administration, specifically rectal or transdermal, should be chosen before use of invasive therapies. Rectal administration usually is considered when oral therapy is temporarily unavailable (e.g., nausea and vomiting refractory to therapy), although long-term use is effective in some patients. Transdermal fentanyl should be used in patients with stable pain states who are (1) noncompliant with oral medication, (2) unable to swallow or absorb, or (3) may benefit from a trial of fentanyl.

c. Subcutaneous and intravenous administration: The subcutaneous route of administration should be used in (1) patients unable to swallow or absorb opioids who may benefit from a continuous infusion of opioid and (2) similar patients with dynamic pain states requiring frequent "rescue" doses for breakthrough pain. Subcutaneous administration of opioids may be used in the home setting. The recommendations for intravenous administration are the same as for subcutaneous administration. Intravenous administration may be preferred when the patient has permanent venous access. (Note: Intramuscular injection is not recommended as either short- or long-term therapy for cancer pain management because of the attendant discomfort, variable blood concentrations, and fluctuating levels of analgesia.)

B. Direct Delivery Systems: Neuraxial Drug Delivery and Neuroablation

Opioids and local anesthetics can be delivered directly to the vicinity of neural tissue, obviating the need for systemic absorption as a means to reach receptor sites. Other potential agents for neuraxial drug delivery are under development. Neuroablation refers to the chemical, thermal, or surgical destruction of neural tissue.

Neuroablation is preceded by diagnostic neural blockade. Regional analgesic techniques are referred to in these guidelines as neural blockade (e.g., intercostal blocks, celiac plexus blocks) and are distinct from neurolytic blocks. Neural blockade is used alone for short-term pain management with specific indications (see below). The Task Force is supportive of the efficacy of neural blockade for prognostic purposes. (Note: Sufficient literature is not available to assess the effectiveness of neural blockade as either a prognostic procedure or a long-term analgesic modality for the treatment of cancer pain.)

a. Neuraxial drug delivery: The literature is supportive of the efficacy of neuraxial analgesic delivery (i.e., epidural, subarachnoid, intraventricular). Epidural or subarachnoid drug administration may be performed by either percutaneous catheterization, reservoir, or implantation of a catheter and pump. Although the literature suggests that neuraxial techniques are not associated with an increased incidence of adverse effects, the Task Force and consultants suggest that adverse effects may be possible (e.g., catheter-site infections).

b. Neuroablation: The literature suggests and consultants and Task Force members support the view that neuroablation by chemical and thermal neurolysis or surgery can provide long-term control of severe cancer pain without a substantial incidence of adverse effects. Examples of chemical neuroablative procedures include but are not limited to intercostal neurolysis, neurolytic celiac plexus block, neurolytic superior hypogastric plexus block, neurolytic ganglion impar (ganglion of Walther) block, craniofacial neurolytic techniques, and subarachnoid rhizolysis. Examples of thermal neuroablative techniques include radiofrequency ablation (heat) and cryoanalgesia (cold).

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Recommendations:

1. General Recommendations. When adequate analgesia cannot be achieved or intolerable side effects occur with indirect methods of drug delivery, direct drug delivery systems should be considered. In certain specific circumstances, neuraxial drug delivery or neuroablative therapies should be considered at the initiation of therapy or early in the natural history of the pain (see below). Neuraxial drug delivery and neuroablative therapies should not be used: (1) in individuals who are unmotivated or noncompliant or do not possess the cognitive functioning necessary to understand the risks and benefits and (2) when an appropriate logistical system does not exist. Patients must have access to a logistical system that provides the resources and availability of personnel to respond to patient needs on an around-the-clock basis. The establishment of an office or network with professional support may be necessary. For long-term therapies, appropriate home care must be available and functionally integrated into the office, hospital, and community.

2. Specific Recommendations.

a. Neuraxial drug delivery: Neuraxial drug delivery should be used: (1) when severe pain cannot be controlled with systemic drugs because of dose-limiting toxicity, (2) when there is immediate need for local anesthetic (some neuropathic pains), (3) after failed neuroablation, or (4) patient preference indicates its use. The choice between epidural or subarachnoid catheterization is determined in part by patient life expectancy. When extended life expectancy is anticipated, subarachnoid catheter placement should be considered because epidural catheters may become obstructed. The presence of epidural metastases necessitates subarachnoid catheterization. Before insertion of an indwelling neuraxial drug delivery system, efficacy and appropriate dose range should be ascertained by trial injection or use of a temporary delivery system. Patients should have access to "rescue" doses for breakthrough pain. "Rescue" doses may be given by any route of administration as deemed appropriate by the practitioner. Intraventricular administration of opioids may be considered in patients with head and neck cancer and Ommaya reservoirs. (Note: Neural blockade should be used before neuraxial drug delivery because of (1) the presence of pain therapeutically amenable to neural blockade (e.g., myofascial pain, sympathetically-maintained pain, pain of acute herpes zoster); or (2) patient preference, when appropriate.)

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b. Neuroablation: Neuroablative techniques should be initiated (1) when systemic therapies have failed to provide adequate pain control or when adverse side effects from systemic therapies are unacceptable; (2) after failure of neuraxial drug administration; (3) early in the natural history of the cancer pain in the presence of selected focal somatic lesions (e.g., rib metastases), visceral (e.g., cancer of the pancreas), or neuropathic (e.g., craniofacial) pain that is believed to be highly responsive to neuroablation with limited risk; or (4) patient preference indicates use of neuroablative techniques, if appropriate. Except for the aforementioned specific indications, chemical, radiofrequency (thermal), and surgical neuroablation should be deferred until anticipated life expectancy is short-term, thereby minimizing the potential for deafferentation pain. On the other hand, consideration of life expectancy is moot with cryoanalgesia because of the potential for nerve regeneration associated with the technique. The cryoanalgesic procedure often must be repeated because the endoneurium is spared, allowing regrowth over time. After performance of successful chemical, thermal, or surgical neurolysis, opioid administration should not be immediately curtailed to avoid precipitation of withdrawal. Dosage should be immediately reduced, and opioids should be weaned to avoid respiratory depression, which may occur in the setting of abrupt pain relief. Neural blockade should be used prognostically to determine the possible efficacy of neuroablation. However, even with proper needle placement under fluoroscopic guidance, successful neural blockade does not ensure the subsequent success of a neurodestructive procedure. Neural blockade should be performed at the time of potential neuroablation and should not be performed as a separate procedure. If analgesia is not achieved with neural blockade or significant adverse sequelae result, neuroablation should be reconsidered. Definitive neuroablation should be performed with the aid of imaging techniques when feasible or with direct visualization of the intended neural target in the case of open surgical ablation.

The literature supports the efficacy of interventions designed to manage symptoms related to primary disease and its treatment. In addition, the literature suggests that specific interventions used to treat the adverse effects of pain therapy are efficacious. Adverse drug effects directly resulting from cancer pain therapies include but are not limited to sedation, nausea and vomiting, pruritus, constipation, urinary retention, and respiratory depression. (Note: Respiratory depression is rare in the cancer patient receiving chronic opioid therapy (Appendix 2)).

The literature does not suggest that management of symptoms or adverse effects has an effect on analgesia.

The Task Force and consultants are supportive of the value of managing cancer-related symptoms and adverse drug effects as part of the comprehensive management of cancer pain.

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Recommendations:

1. General Recommendations. Adverse effects should be promptly identified and assessed, and appropriate remedies should be offered. Opioids should not be withheld from cancer patients for fear of producing respiratory depression, tolerance, physical dependence, or addiction.

2. Specific Recommendations.

a. Constipation: All patients with an increased risk for constipation should receive prophylaxis (Appendix 2). Prophylactic or symptomatic therapy should involve the use of bulk agents, osmotic laxatives (e.g., magnesium or sodium salts, lactulose or sorbitol), and/or stimulant cathartics (e.g., senna or bisacodyl). A stool softener may be concomitantly used with the aforementioned agents. Occasionally, patients require enemas.

b. Sedation: Sedation should be treated by (1) eliminating contributory factors such as nonessential drugs and metabolic disturbances, (2) reducing the dose of an opioid by 25-50% if analgesia is satisfactory, (3) lowering the requirement for opioids by the addition of a nonopioid analgesic or adjuvant analgesic, (4) switching to another opioid, (5) the use of psychostimulants, or (6) considering more invasive modalities if sedation is refractory to therapy.

c. Nausea and vomiting: Persistent nausea is rare, and prophylactic therapy is not indicated. Transitory nausea and vomiting should be treated initially with standard antiemetics, such as promethazine, prochlorperazine, haloperidol, metoclopramide, or hydroxyzine. In some cases, ondansetron or meclizine can be helpful. Some patients may benefit from the use of low-dose corticosteroid, alternative treatment for gastroparesis (i.e., cisapride), or a benzodiazepine (i.e., lorazepam). Treatment of factors contributing to nausea (e.g., constipation) should be considered when appropriate.

d. Mental clouding: The treatment of cognitive impairment should mirror the management of sedation. The addition of low-dose haloperidol occasionally may be necessary for confusional states induced by opioids. Psychostimulants can be administered to reverse mental clouding in the absence of sedation but should not be administered to agitated patients.

e. Myoclonus: Myoclonus is not usually a clinical problem, and reassurance should be given to patients regarding its benign nature. However, if myoclonus impairs function, prevents sleep, or increases pain, clonazepam or valproate should be administered. A reduction in opioid dose or a switch to a different opioid should be considered in the face of refractory or severe myoclonus.

f. Pruritus: Pruritus is rarely a problem with chronic opioid administration, and consideration should be given to an initial trial of diphenhydramine if it occurs.

g. Urinary retention: Urinary retention is also rare with chronic opioid administration and should be treated by administration of a direct cholinomimetic agent, such as bethanecol.

h. Respiratory depression: The least amount of naloxone should be administered to preserve analgesia and avoid withdrawal (Appendix 2). Because of the short half-life of naloxone, a continuous infusion may be necessary.

The literature suggests that psychosocial interventions are effective in improving analgesia and the quality of life for cancer pain patients. The Task Force and panel of consultants offer similar support. Psychosocial interventions for the management of cancer pain include pain diaries, hypnosis, biofeedback, relaxation training, psychotherapy, and behavior management. Recognition is given to the nonspecific effects of listening and showing concern for the welfare of the patient. Management of the psychosocial consequences of cancer pain includes the use of nonpharmacologic interventions (e.g., psychotherapy and pastoral counseling), psychotropic medications, and antidepressants.

Recommendations: A psychosocial assessment should be conducted initially as an integral part of the comprehensive pain evaluation. Results of the psychosocial assessment should be considered when formulating a pain treatment plan. Pain diaries and counseling should be considered to enhance medication compliance, if needed. The anesthesiologist should recognize that pharmacologic and neurolytic techniques may not be fully effective in controlling pain and that relaxation training, hypnosis, biofeedback, and behavior therapy are important adjuncts. The anesthesiologist should collaborate with psychologists and other health professionals when psychosocial interventions are indicated. The anesthesiologist should recognize that psychosocial manifestations related to cancer (but not to cancer pain) may require referral to appropriate mental health professionals.

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VII. Home Parenteral Therapy

The literature suggests that home parenteral therapy is effective for analgesia without notable risk of adverse effects. The panel of consultants and Task Force members support the importance of home parenteral therapy in increasing analgesia and enhancing patient quality of life. Home parenteral therapy provides an infrastructure for the logistical support and clinical management of complex drug delivery systems in a nonhospital setting. Home parenteral therapy includes subcutaneous, intravenous, and neuraxial drug delivery techniques, either on an outpatient basis or with the assistance of a home health-care provider. The coordination of home parenteral therapy may be accomplished by various providers (e.g., hospitals, clinics, or home health-care professionals).

Recommendations: Before changing from the oral route of administration, the anesthesiologist should ascertain the availability of family and professional support systems. The patient and family must be educated in the use of the home therapy system. The anesthesiologist should determine whether the patient and/or significant others are motivated and competent to care for sophisticated delivery systems. An assessment must be made as to whether appropriate professional services and supplies are obtainable in specific locales, because special planning may be required in rural areas. Communication among the patient, the home health-care professional, and the prescribing physician must be maintained at all times.

The need for supportive care intensifies for patients and their families at the end of life. The literature, Task Force members, and consultants are supportive of the efficacy of palliative therapies for cancer patients approaching the end of life. End-of-life care is intended to improve patient comfort and quality of life by means of palliative therapies, including but not limited to anxiolytics, skin care, mouth care, massage, and appetite stimulants. Palliative therapies may be provided in the form of comprehensive programs, such as hospice or nursing-care outreach programs.

Recommendations: The management of cancer pain must be integrated into a comprehensive care system that may include hospice and psychosocial support for patients and their families. Assessing and monitoring a patient's palliative care needs are essential parts of the evaluative/therapeutic process. When cancer patients are approaching the end of life, the anesthesiologist should integrate pain management with palliative care needs. Collaboration with palliative care providers is recommended to maximize patient comfort and improve patient and family quality of life.

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The literature suggests that child-specific interventions are associated with improved analgesia and health outcomes. The Task Force and consultants are supportive of the effectiveness of pediatric cancer pain therapies in improving analgesia and quality of life. Age-appropriate assessment includes behavioral observation (e.g., facial expressions, crying) and self-reports using age-appropriate scales (e.g., visual analog scale, facial pain scale). Pharmacologic interventions designed for children's use include but are not limited to (1) adjustment of dosage to those levels specific for children and (2) interventions designed to be less invasive or to alleviate patient fears or anxieties about their pain therapy (e.g., topical anesthetics as premedication). Psychological and other nonpharmacologic interventions include those designed specifically for children or adult interventions modified to be applicable to children.

Recommendations: The anesthesiologist should give special attention to the assessment of pain in pediatric patients. For children unable to communicate verbally, observation of patient behavior should be the primary assessment tool. For children who can communicate verbally, age-appropriate pain scales are the recommended self-report instruments when evaluating the efficacy of pain therapy. Observation should be used as an adjunct to self-report.

Administration of oral medications to children should follow the schema of the WHO analgesic ladder, with particular attention paid to age-appropriate dosing regimens. Liquids or suspensions should be employed whenever possible, because many children find them more palatable than pills. (Note: Continuous-release morphine preparations cannot be crushed and still maintain their continuous release properties.) Every attempt should be made to minimize repetitive exposure to needles, if possible. Patient-controlled analgesia (intravenous or subcutaneous) is a viable alternative when children are of sufficient cognitive age. Invasive systemic therapies and direct delivery systems should be used when oral and noninvasive analgesic deliveries do not achieve sufficient analgesia, or side effects make their continued use untenable. Psychological and other nonpharmacologic methods of pain management should be considered as adjuvants.

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Developed by the Task Force on Pain Management, Cancer Pain Section: F. Michael Ferrante, M.D., F.A.B.P.M. (Chair), Philadelphia, Pennsylvania; Marshall Bedder, M.D., F.R.C.P.(C.), Portland, Oregon; Robert A. Caplan, M.D., Seattle, Washington; Hui-Ming Chang, M.D., Houston, Texas; Richard T. Connis, Ph.D. (Methodologist), Woodinville, Washington; Patricia Harrison, M.D., Buffalo, New York; Robert N. Jamison, Ph.D, Boston, Massachusetts; Elliot J. Krane, M.D., Stanford, California; Srdjan Nedeljkovic, M.D., Boston, Massachusetts; Richard Patt, M.D., Houston, Texas; and Russell K. Portenoy, M.D., New York, New York.

Submitted for publication November 28, 1995. Accepted for publication December 1, 1995. Supported by the American Society of Anesthesiologists, under the direction of James F. Arens, M.D., Chairman of the Ad-Hoc Committee on Practice Parameters. Approved by the House of Delegates, October 22, 1995. A list of the articles used to develop these guidelines is available by writing to the American Society of Anesthesiologists.

Address reprint requests to the American Society of Anesthesiologists: 520 North Northwest Highway, Park Ridge, Illinois 60068-2573.

Key words: Pain: cancer. Practice guidelines: cancer pain management. Cancer: supportive care; symptom management.

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