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Ms. A, age 44, fell from a 3-foot stool while reaching for a high kitchen shelf and suffered severe neck flexion. Her initial pain persisted for weeks and then months, resulting in chronic neck pain aggravated by movement.
Over the past year, her doctor has prescribed numerous analgesics and muscle relaxants, including tramadol, hydrocodone, oxycodone, tizanidine, and nonsteroidal anti-inflammatory drugs (NSAIDs). Treatments at a pain clinic have included triggerpoint injections, cervical epidural corticosteroid injection, left-sided cervical medial branch blocks, transcutaneous electrical nerve stimulation, and physical therapy. None provided sustained relief.
During a pain clinic visit, Ms. A wept and said she was tired of living with pain. She acknowledged depression and agreed to psychiatric consultation.
As in Ms. A’s case, physicians often refer patients with chronic pain and affective symptoms for psychiatric evaluation. These patients are often fearful, angry, and suspicious of any suggestion that their physical discomfort has a psychiatric component. They typically believe their pain had a clear onset and therefore should have an end point. Many have experienced unproductive specialty evaluations and failed treatments.
To help you overcome these obstacles when treating patients with chronic pain and depression, we discuss:
- strategies to gain patients’ trust and build a therapeutic alliance
- how to assess their pain, depression, and suicide risk
- the role of psychotherapy in treating chronic pain
- and evidence for choosing effective, nonaddicting medications.
Psychiatric evaluation
Depression and pain are linked psychologically and biochemically, sharing neurotransmitters involved in both nociceptive pathways and mood, especially serotonin and norepinephrine.1,2 One-third to one-half of patients with chronic pain report comorbid depression,3 and more than one-half of depressed patients presenting to primary care physicians report only somatic symptoms—various pain complaints among the most common.4,5
Primary care doctors tend to refer chronic pain and depression cases to psychiatrists when:
- patients are preoccupied with medication, have not followed treatment recommendations, or do not respond to treatment as expected
- extensive medical evaluations reveal few or equivocal findings
- somatic complaints are vague and diffuse, or there is marked disparity between pain complaints/disability and objective findings.6,7
Assessing pain. In the initial assessment, validate the patient’s pain experience by asking about the location, quality, and severity of pain. The visual analogue scale (VAS) is commonly used to measure pain severity. The patient marks a spot on a line from “no pain” to “worst possible pain,” or—on a numbered VAS—from 0 (no pain) to 10 (extreme pain). The least and most severe pain over the preceding month can be ranked as baseline values.8
Be sensitive to the patient’s fear that you will attribute the pain to psychosocial issues or imply that “the pain is in your head.” Emphasize that you intend to evaluate the “whole person,” not just the part that hurts. Focus on how the pain affects the patient’s lifestyle—rather than its cause—and explore medication use patterns.
Assessing depression. The word “depression” is emotionally charged for chronic pain patients, who view affective symptoms—if they acknowledge them at all—as secondary to pain. They may strongly resist treatment for anything but pain. One way to defuse this defensiveness is to avoid attributing the pain to stress or depression.
Begin by assessing vegetative symptoms, which overlap in chronic pain and depression. The Beck Depression Inventory-II (Beck-II) may be a useful screening tool in a busy practice; the short form (13 questions) takes about 5 minutes to complete.9
Explore cognitive and behavioral symptoms such as concentration, pleasure and interest level, activity, and self-esteem. Review the chronology of pain onset, mood changes, and stressors (proximate, remote, and cumulative).
Seek clues to endogenous factors by asking about past affective episodes, response to antidepressants, and family history of psychopathology. Substances that may induce depression include reserpine, interferon, and antiparkinsonian agents. Screen for potential organic mood disorders, such as depression secondary to hypothyroidism, corticosteroid use, Parkinson’s disease, lupus, HIV infection, or cerebrovascular disease. Where appropriate, obtain collateral information from family or friends.
Assessing suicide risk. Chronic pain patients may be at greater risk of suicide than the general population. Besides pain, other risk factors for suicide—such as major depression, anxiety disorders, alcohol/substance abuse, sleep disturbances, male gender, diminished social support, and recent loss—are common among these patients.10,11
Screen chronic pain patients with suicidal ideation for these risk factors. Interventions include:
- aggressively treat associated depression, anxiety, or insomnia
- elicit support from family or other caregivers
- pay close attention to talk about suicide
- hospitalize when necessary
- and, of course, treat pain.
Case continued: No stranger to depression
Ms. A’s psychiatric assessments revealed a pain severity ranking of 9 on a 1-to-10 scale, frequent crying, hopelessness, disrupted sleep, low energy, limited ability to concentrate, and fleeting suicidal thoughts. Her history included counseling during her first marriage and severe depression after separation from her second husband 3 years ago. An 8-week trial of fluoxetine, 20 mg/d, did not improve her depression then.
On examination, she displayed obvious pain behavior, constantly shifting her neck position and moving about the room. Her affect was tearful and her mood depressed. She was taking the NSAID celecoxib, 100 mg bid, and the skeletal muscle relaxant tizanidine, 4 mg tid. She was no longer using opioids and had no history of alcohol or illicit drug abuse.
Based on this assessment, the psychiatrist diagnosed Ms. A as having pain disorder with medical and psychological features, including symptom amplification and depression.
Table 1
4 treatment goals for patients with chronic pain and depression
|
Educating the patient
As part of your assessment, explain the reciprocal effects of depression and pain. Acknowledge that:
- chronic pain is different from acute pain, although the patient’s pain experience is the same
- treatment often becomes part of the problem in chronic pain.
Doctors tend to apply acute pain treatments chronically, risking long-term effects of polypharmacy to achieve short-term relief. Depressed patients may be more likely than nondepressed patients to receive opioids for chronic pain,12 and opioids and benzodiazepines may have depressive effects, as reflected by DSM-IV-TR’s inclusion of criteria for “opioid-induced mood disorder” and “sedative-, hypnotic-, or anxiolytic-induced mood disorder.”
To reduce patients’ resistance to antidepressants, reiterate any history of cumulative stressors and affective episodes unrelated to pain. Try using an analogy, such as “stress and pain are like waves on a rock” that eventually damage mood and coping mechanisms, or depression complicating pain is like having “too much on one’s plate.”
Finally, help patients understand that chronic pain is managed, not cured. Encourage them to set treatment goals beyond reducing pain (Table 1) and to make the transition from “patient with pain” to “client managing pain.”
Table 2
Dosing antidepressants and anticonvulsants
for chronic pain and depression
Drug | Starting (mg/d) | Target (mg/d) | Administration tips |
---|---|---|---|
TCAs | Check serum levels for dosages ≥150 mg/d (nortriptyline 100 mg/d) to assess rapid metabolism, adherence, or toxic levels | ||
Amitriptyline | 10 to 25 | 75 to 300 | |
Clomipramine | 10 to 25 | 75 to 250 | |
Desipramine | 10 to 25 | 75 to 200 | |
Doxepin | 10 to 25 | 75 to 300 | |
Imipramine | 10 to 25 | 75 to 300 | |
Nortriptyline | 10 to 25 | 40 to 200 | |
SNRI | |||
Venlafaxine | 37.5 to 75 | 75 to 375 | Use XR form to minimize side effects and for once-daily dosing |
SSRIs | |||
Citalopram | 10 to 20 | 40 to 60 | |
Fluoxetine | 10 to 20 | 20 to 80 | May increase carbamazepine, TCA blood levels and inhibit efficacy of codeine, dihydrocodeine, and hydrocodone |
Paroxetine | 10 to 20 | 20 to 60 | Same as fluoxetine |
Anticonvulsants | |||
Carbamazepine | 200 | 800 to 1,200 | Check blood levels; may increase clomipramine levels, reduce acetaminophen, contraceptive levels |
Clonazepam | 0.5 | 1 to 2 | Habituating potential with chronic use |
Gabapentin | 300 to 900 | 3,600 to 4,800 | Blood monitoring not necessary |
Valproate | 250 | 750 to 2,500 (maximum dosage 60 mg/kg/d) | Check blood levels (trough plasma level 50 to 100 μg/mL) |
TCA: tricyclic antidepressant | |||
SNRI: serotonin-norepinephrine reuptake inhibitor | |||
SSRI: selective serotonin reuptake inhibitor |
Prescribing principles
Before adding any new pain medications, consider reducing dosages or discontinuing opioids or benzodiazepines and other substances the patient may be taking. Opioid use is associated with risks of dependence, addiction, and side effects including somnolence, cognitive impairment, and reduced activity that amplify depressive symptoms.
Benzodiazepines can generally be tapered by 10% per day, although you may need to extend the final taper over 3 to 4 days or longer, depending upon chronicity of use. Opioids may be tapered by 20% over 5 to 7 days. Breakthrough doses may be needed for marked withdrawal symptoms. Converting to longer half-life agents—such as clonazepam for benzodiazepines or methadone for opioids—often aids tapering, although other agents and strategies exist.13
To gauge patient attempts at self-medication, monitor use of alcohol or illicit drugs with urine screening. For patients with a substantial history of substance abuse or positive toxicology screens, monitor randomly every 2 to 4 weeks.
On the other hand, undertreated pain also may impair mood and function.1 If pain and mood improve and problematic drug-related behaviors resolve with increased opioid analgesia, consider maintaining opioids with regular re-evaluation of mood, coping, and medication adherence.11 Transfer from immediate-release to controlled-release opioids to reduce dosing frequency, clockwatching, and the likelihood of inter-dose pain escalation. In general, maintain and optimize the dosage of nonaddictive analgesics such as NSAIDs, anticonvulsants, or antidepressants.
Case continued: Switching medication
The psychiatrist started Ms. A on nortriptyline, 25 mg at bedtime, to be increased after 3 nights to 50 mg at bedtime. Tizanidine, which had been ineffective, was discontinued to reduce the risk of xerostomia and oversedation in combination with nortriptyline. If tolerated, nortriptyline was to be further increased by 25 mg every 3 days to an initial target dosage of 100 mg at bedtime. The psychiatrist explained to Ms. A that it might take 4 to 6 weeks to gauge the medication’s efficacy.
Psychoeducation addressed the importance of stress reduction, prioritizing commitments, and setting limits on other people’s expectations. The door was left open to future psychotherapeutic exploration of past cumulative stressors.
Because antidepressants may provide an analgesic effect,6,14 they are often used to treat affective symptoms in chronic pain. Headache and neuralgia tend to respond to antidepressants more robustly than do arthritis and low-back pain. Although some patients respond to low-dose antidepressants, a definitive trial requires full doses for 6 to 8 weeks (Table 2).
Matching a patient’s symptoms with medication side effects is useful when choosing antidepressants (Table 3). So-called “adverse” effects may have a corresponding benefit, depending on the clinical presentation. For example, a moreactivating antidepressant—such as the selective serotonin reuptake inhibitor (SSRI) fluoxetine—may help a patient with fatigue, whereas a moresedating agent—such as a tricyclic antidepressant (TCA) or mirtazapine—may improve sleep for a patient with insomnia.
Psychosocial therapies such as cognitive-behavioral therapy (CBT) or relaxation training (Table 4) may help patients with chronic pain to:
- process covert emotions such as fear and anger as well as guilt, loss, and disability
- reduce somatic preoccupation that is aggravating the pain
- adhere to treatment.
Evidence strongly supports using relaxation techniques to reduce chronic pain in many medical conditions and hypnosis to ameliorate cancer pain. CBT and biofeedback appear moderately effective in relieving chronic pain.15 CBT is significantly more effective than waiting list control conditions for relieving chronic nonheadache pain in measures of pain experience, mood/affect, cognitive coping and appraisal, pain behavior and activity level, and social role functioning.16
Pain and opioid medications can impair concentration and affective processing, so initial psychotherapy may need to be supportive while you provide other treatments and simplify medication regimens. Eventually the patient may be ready to address underlying issues that may be contributing to the pain syndrome, such as a history of abuse. However, it is important to address this potentially destabilizing subject only after carefully gauging a patient’s defenses and readiness.
Case continued: A bump in the road
The psychiatrist saw Ms. A 18 months later. Interim history revealed that her pain and mood improved on nortriptyline, 100 mg at bedtime. When she stopped taking nortriptyline 5 months earlier, her neck pain increased and she experienced a “deep blue mood.” Her physician restarted the nortriptyline.
At follow up, Ms. A reported no depressive symptoms and very little neck pain. The psychiatrist discussed with her depression’s relapse rate and the importance of continuing antidepressant therapy. As Ms. A was feeling much better and functioning normally, the psychiatrist decided additional psychotherapeutic intervention was not necessary.
Antidepressant options
TCAs provide analgesia via descending regulatory pathways by inhibiting serotonin and norepinephrine reuptake.17 When using TCAs for chronic pain, start with 10 to 25 mg at bedtime and increase by 10 to 25 mg every 3 to 7 days as tolerated. Increase incrementally until the pain responds or to the full antidepressant dosage (Table 2). Drug levels (when available) can help you provide an appropriate trial and monitor the patient’s adherence.
If the pain does not respond after 6 to 8 weeks, consider switching to another dual-action agent such as venlafaxine or to an SSRI.
SNRIs. Venlafaxine is a serotonin and norepineph-rine reuptake inhibitor (SNRI) with less-troublesome side effects than TCAs. It is structurally similar to tramadol18 and has combined serotonin and norepinephrine inhibition at dosages >75 mg/d. Although venlafaxine is not indicated for chronic pain, some studies have suggested possible benefits, including long-term analgesia, reduced polyneuropathic pain, and migraine prophylaxis.19-21 Venlafaxine may be a reasonable first or second choice for treating depression in patients with chronic pain, especially headache.14
Duloxetine—another SNRI—awaits FDA approval. Some studies have suggested that duloxetine improves painful physical symptoms as well as mood and functioning in major depression.22
SSRIs may be effective for certain types of pain, but the evidence is conflicting. Results of 41controlled trials support TCAs’ analgesic efficacy for neuropathic pain, headache, and central and post-stroke pain, whereas SSRIs’ analgesic efficacy varies from study to study. Comparisons of TCAs and SSRIs as analgesics uniformly show TCAs to be more effective, with the SSRIs often showing no analgesic effect.
Of three controlled trials of SSRIs for diabetic neuropathy, one showed fluoxetine similar to placebo, and two smaller studies showed paroxetine and citalopram more effective than placebo. Fluoxetine has shown analgesic effect for fibromyalgia in one study, but no effect in another. Citalopram showed no analgesic effect for fibromyalgia in another study.23
A prospective, double-blind study comparing fluoxetine, sertraline, paroxetine, and venlafaxine for migraines reported moderate to significant improvement in less than one-half of SSRI-treated patients vs two-thirds of venlafaxine-treated patients.21 SSRIs are no longer recognized by the International Headache Society as primary preventative medications for migraine.
Fluoxetine may help chronic daily headache, and paroxetine and citalopram may be useful for diabetic neuropathy. However, one cannot generalize that all SSRIs are similarly effective as analgesics.14
SSRIs have fewer side effects than TCAs and are less dangerous in overdose. In general, however, SSRIs are a second-line treatment for pain, to be used when dual-action agents pose disadvantageous side effects (Table 3) or have been poorly tolerated or ineffective.
Table 3
Antidepressant side effects:
Limitations and potential benefits in chronic pain
Side effects/agents | Problems | Conditions potentially benefited | Possible alternatives |
---|---|---|---|
Anticholinergic TCAs | Xerostomia, constipation, urinary slowing (esp. when combined with opioids) | Diarrhea-predominant irritable bowel syndrome | SSRIs, nefazodone, venlafaxine |
Sedation TCAs, mirtazapine, nefazodone, trazodone | Excessive sedation, cognitive impairment, driving risk (esp. when combined with opioids, benzodiazepines) | Pain with insomnia | SSRIs, venlafaxine, bupropion |
Insomnia SSRIs, venlafaxine | Pain with pre-existing insomnia; equivocal analgesic effects | Excess sedation related to depression, polypharmacy for pain | TCAs, mirtazapine, trazodone, nefazodone |
Orthostasis TCAs (esp. with methadone), nefazodone | Falls, especially in elderly patients | —— | Nortriptyline, SSRIs bupropion, venlafaxine |
Weight gain TCAs, mirtazapine | Pain patients are often sedentary, get limited exercise | Pain and depression with weight loss | Bupropion, fluoxetine |
Hypertension Bupropion, venlafaxine | Pre-existing hypertension | ? Hypotensive state | Citalopram (hypertensive side effects infrequent) |
Cardiac TCAs | ECG abnormalities, conduction delays, arrhythmias aggravate pre-existing cardiac abnormalities; avoid if recent MI | ——— | SSRIs, bupropion |
Overdose lethality TCAs | Prominent suicidal ideation | —— | SSRIs, venlafaxine |
Seizures Esp. maprotiline, clomipramine, bupropion | Lower seizure threshold, aggravation of seizure disorders | ——- | SSRIs |
Sexual dysfunction SSRIs | Pre-existing sexual dysfunction secondary to pain, medications, stress; equivocal analgesic effects | ——- | Bupropion, nefazodone, mirtazapine |
Table 4
How psychosocial therapies can help treat chronic pain and depression
Therapies | Purpose/benefits |
---|---|
Behavioral therapy | Increase activity and learn to balance activity with limitations Reduce pain behaviors and analgesic use Decrease dependency and secondary gain |
Cognitive-behavioral therapy | Identify automatic thoughts Challenge negative cognitions, catastrophizing Substitute and rehearse positive thoughts, capabilities Transition from patient role to self-care |
Couples’ therapy | Assist adaptation to role changes Diminish spousal solicitousness or excessive caretaking Increase communication |
Biofeedback, relaxation, imagery | Adjunctive role in pain management Reduce tension, comorbid anxiety |
Hypnosis | Dissociate awareness of pain Substitute, displace, reinterpret pain sensations |
Vocational rehabilitation | Increase activity, ability to distract Regain sense of control, identity, and productivity Increase socialization |
Pain management program | Multiple treatment effects Useful for complex pain with affective states |
Monoamine oxidase inhibitors (MAOIs) may have some efficacy for neuropathy and headache, but the need for a tyramine-free diet and potential for drug-drug interactions limit their usefulness. Co-administering an MAOI and meperidine is always contraindicated, as this combination can produce fever, delirium, seizures, circulatory collapse, and death. Similarly, avoid using an MAOI with any other antidepressant.
Others. Evidence is very limited on using other antidepressants such as trazodone, nefazodone, bupropion, and mirtazapine in chronic pain:
- Trazodone may help pediatric migraine, but it is not a consistent analgesic and may not be well-tolerated.
- Case reports suggest bupropion may help with headaches and chronic low-back pain.14
- Mirtazapine and trazodone may be useful adjuncts for treating insomnia in depressed patients with chronic pain.
Other options
Anticonvulsants appear useful for neuropathic pain and are appropriate for chronic pain patients who cannot tolerate TCAs.24 Like TCAs, anticonvulsants are not addictive. Unlike TCAs, anticonvulsants may help stabilize other affective illnesses that may coexist with chronic pain, including bipolar disorder, schizoaffective disorder, and impulsivity/aggression related to dementia or personality disorder.6 If the starting dosage is not effective within 1 week, increase gradually every 2 to 3 days to target dosages comparable to those for anticonvulsant efficacy.
Carbamazepine and gabapentin are recommended first-line medications for neuropathy. Carbamazepine is indicated for treating trigeminal neuralgia, although its cytochrome P-450 3A3/4 isoenzyme induction may reduce serum levels of acetaminophen, opioids, and oral contraceptives. Gabapentin, although not clearly beneficial for bipolar disorder, has anxiolytic effects and a benign side-effect profile, which may help patients with chronic pain.
Valproate can help prevent migraines. Clonazepam can help reduce anxiety and restless legs syndrome but may be habituating. Anticonvulsants’ common adverse effects include sedation, GI upset, dizziness, and fatigue.
Lithium has known efficacy for mood stabilization in bipolar disorder and can ameliorate cluster headaches.
Antipsychotics. Evidence is sparse on whether antipsychotics have analgesic activity. Their side effects generally limit their usefulness to treating pain in patients with psychosis or delirium.6
Stimulants such as dextroamphetamine and methylphenidate can be helpful adjuncts for treating depression, especially for medical inpatients who require a rapid therapeutic response. Stimulants may reduce fatigue or excessive sedation and improve concentration in patients receiving opioids for chronic pain. They also may have analgesic effects when combined with opioids. Potential adverse effects include appetite suppression, anxiety or agitation, confusion, tics, and addiction.6
Precautions. The muscle relaxant carisoprodol is associated with potential dependence and withdrawal. Cyclobenzaprine, another muscle relaxant, has a TCA-like structure and can be lethal in overdose. Baclofen can be useful for chronic pain related to spasticity, although psychotic depression and mania have been reported with abrupt withdrawal.6
Related resources
- American Academy of Pain Medicine. www.painmed.org/
- American Academy of Pain Management. www.aapainmanage.org
- Pain.com: continuing medical education for anesthesiology professionals. www.pain.com/index.cfm
- Kerns RD, Turk DC, Rudy TE. The West Haven-Yale Multidimensional Pain Inventory (WHYMPI). Pain 1985;13:345-56
Drug brand names
- Amitriptyline • Elavil
- Baclofen • Lioresal
- Bupropion • Wellbutrin
- Carbamazepine • Tegretol
- Carisoprodol • Soma
- Celecoxib • Celebrex
- Citalopram • Celexa
- Clomipramine • Anafranil
- Clonazepam • Klonopin
- Cyclobenzaprine • Flexeril
- Desipramine • Norpramin
- Dihydrocodeine • Synalgos-DC
- Doxepin • Sinequan
- Duloxetine • Cymbalta
- Fluoxetine • Prozac
- Gabapentin • Neurontin
- Hydrocodone • Vicodin, Lortab
- Imipramine • Tofranil
- Lithium • Eskalith CR, Lithobid
- Maprotiline • Ludiomil
- Meperidine • Demerol
- Methadone • Dolophine
- Mirtazapine • Remeron
- Nefazodone • Serzone
- Nortriptyline • Pamelor
- Oxycodone • OxyContin
- Paroxetine • Paxil
- Sertraline • Zoloft
- Tizanidine • Zanaflex
- Tramadol • Ultram
- Trazodone • Desyrel
- Valproate • Depakote
- Venlafaxine • Effexor, Effexor XR
Disclosure
The authors report no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
1. Campbell LC, Clauw DJ, Keefe FJ. Persistent pain and depression: a biopsychosocial perspective. Biol Psychiatry 2003;54:399-409.
2. Fishbain DA, Cutler R, Rosomoff HL, et al. Chronic painassociated depression: antecedent or consequence of chronic pain? A review. Clin J Pain 1997;13(2):116-37.
3. Banks SM, Kerns RD. Explaining high rates of depression in chronic pain: a diathesis-stress framework. Psychol Bull 1996;119:95-110.
4. Simon GE, VonKorff M, Piccinelli M, et al. An international study of the relation between somatic symptoms and depression. N Engl J Med 1999;341(18):1329-35.
5. Kroenke K, Price RK. Symptoms in the community. Prevalence, classification, and psychiatric comorbidity. Arch Intern Med. 1993;153:2474-80.
6. Leo RJ. Concise guide to pain management for psychiatrists. Arlington, Va: American Psychiatric Publishing, Inc., 2003.
7. Sullivan MD, Turner JA, Romano J. Chronic pain in primary care. Identification and management of psychosocial factors. J Fam Pract 1991;32(2):193-9.
8. Holmgren A, Wise MG, Bouckoms AJ. Pain management. In: Wise MG, Rundell JR (eds). Psychiatry in the medically ill (2nd ed). Washington, DC: American Psychiatric Publishing Inc., 2002;989-1013.
9. Naifeh KH. Psychometric testing in functional GI disorders in: Olden K (ed). Handbook of functional GI disorders. New York: Marcel Dekker, 1996;79-126.
10. Fishbain DA. The association of chronic pain and suicide. Semin Clin Neuropsychiatry 1999;4(3):221-7.
11. Fishbain DA. Medico-legal rounds: medical-legal issues and breaches of “standards of medical care” in opioid tapering for alleged opioid addiction. Pain Med 2002;3(2):135-42.
12. Doan BD, Wadden NP. Relationships between depressive symptoms and descriptions of chronic pain. Pain 1989;36:75-84.
13. Franklin JE, Leamon MH, Frances RJ. Substance-related disorders. In: Wise MG, Rundell JR (eds). Psychiatry in the medically ill (2nd ed). Washington DC: American Psychiatric Publishing, 2002;417-53.
14. Ansari A. The efficacy of newer antidepressants in the treatment of chronic pain: a review of current literature. Harv Rev Psychiatry 2000;7(5):257-77.
15. NIH Technology Assessment Panel. Integration of behavioral relaxation approaches into the treatment of chronic pain and insomnia. JAMA 1996;276(4):313-18.
16. Morley S, Eccleston C, Williams A. Systematic review and metaanalysis of randomized controlled trials of cognitive behaviour therapy and behaviour therapy for chronic pain in adults, excluding headache. Pain 1999;80:1-13
17. Magni G. On the relationship between chronic pain and depression when there is no organic lesion. Pain 1987;31:1-21.
18. Markowitz JS, Patrick KS. Venlafaxine-tramadol similarities. Med Hypotheses 1998;5:167-8
19. Bradley RH, Barkin RL, Jerome J, et al. Efficacy of venlafaxine for the long-term treatment of chronic pain with associated major depressive disorder. Am J Ther 2003;10(5):318-23.
20. Sindrup SH, Bach FW, Madsen C, et al. Venlafaxine vs. imipramine in painful polyneuropathy—a randomized controlled trial. Neurology 2003;60:1284-9.
21. Kathpal GS. Role of SSRIs in the management of migraine. Headache Quarterly 1998;9:265-6.
22. Mallinckrodt CH, Goldstein DJ, Detke MJ, et al. Duloxetine: a new treatment for the emotional and physical symptoms of depression. Primary Care Companion J Clin Psychiatry 2003;5(1):19-28.
23. Lynch ME. Antidepressants as analgesics: a review of randomized control trials. J Psychiatry Neurosci 2001;26-36.
24. Swerdlow M. Anticonvulsant drugs and chronic pain. Clin Neuropharmacol 1984;7(1):51-82.
Ms. A, age 44, fell from a 3-foot stool while reaching for a high kitchen shelf and suffered severe neck flexion. Her initial pain persisted for weeks and then months, resulting in chronic neck pain aggravated by movement.
Over the past year, her doctor has prescribed numerous analgesics and muscle relaxants, including tramadol, hydrocodone, oxycodone, tizanidine, and nonsteroidal anti-inflammatory drugs (NSAIDs). Treatments at a pain clinic have included triggerpoint injections, cervical epidural corticosteroid injection, left-sided cervical medial branch blocks, transcutaneous electrical nerve stimulation, and physical therapy. None provided sustained relief.
During a pain clinic visit, Ms. A wept and said she was tired of living with pain. She acknowledged depression and agreed to psychiatric consultation.
As in Ms. A’s case, physicians often refer patients with chronic pain and affective symptoms for psychiatric evaluation. These patients are often fearful, angry, and suspicious of any suggestion that their physical discomfort has a psychiatric component. They typically believe their pain had a clear onset and therefore should have an end point. Many have experienced unproductive specialty evaluations and failed treatments.
To help you overcome these obstacles when treating patients with chronic pain and depression, we discuss:
- strategies to gain patients’ trust and build a therapeutic alliance
- how to assess their pain, depression, and suicide risk
- the role of psychotherapy in treating chronic pain
- and evidence for choosing effective, nonaddicting medications.
Psychiatric evaluation
Depression and pain are linked psychologically and biochemically, sharing neurotransmitters involved in both nociceptive pathways and mood, especially serotonin and norepinephrine.1,2 One-third to one-half of patients with chronic pain report comorbid depression,3 and more than one-half of depressed patients presenting to primary care physicians report only somatic symptoms—various pain complaints among the most common.4,5
Primary care doctors tend to refer chronic pain and depression cases to psychiatrists when:
- patients are preoccupied with medication, have not followed treatment recommendations, or do not respond to treatment as expected
- extensive medical evaluations reveal few or equivocal findings
- somatic complaints are vague and diffuse, or there is marked disparity between pain complaints/disability and objective findings.6,7
Assessing pain. In the initial assessment, validate the patient’s pain experience by asking about the location, quality, and severity of pain. The visual analogue scale (VAS) is commonly used to measure pain severity. The patient marks a spot on a line from “no pain” to “worst possible pain,” or—on a numbered VAS—from 0 (no pain) to 10 (extreme pain). The least and most severe pain over the preceding month can be ranked as baseline values.8
Be sensitive to the patient’s fear that you will attribute the pain to psychosocial issues or imply that “the pain is in your head.” Emphasize that you intend to evaluate the “whole person,” not just the part that hurts. Focus on how the pain affects the patient’s lifestyle—rather than its cause—and explore medication use patterns.
Assessing depression. The word “depression” is emotionally charged for chronic pain patients, who view affective symptoms—if they acknowledge them at all—as secondary to pain. They may strongly resist treatment for anything but pain. One way to defuse this defensiveness is to avoid attributing the pain to stress or depression.
Begin by assessing vegetative symptoms, which overlap in chronic pain and depression. The Beck Depression Inventory-II (Beck-II) may be a useful screening tool in a busy practice; the short form (13 questions) takes about 5 minutes to complete.9
Explore cognitive and behavioral symptoms such as concentration, pleasure and interest level, activity, and self-esteem. Review the chronology of pain onset, mood changes, and stressors (proximate, remote, and cumulative).
Seek clues to endogenous factors by asking about past affective episodes, response to antidepressants, and family history of psychopathology. Substances that may induce depression include reserpine, interferon, and antiparkinsonian agents. Screen for potential organic mood disorders, such as depression secondary to hypothyroidism, corticosteroid use, Parkinson’s disease, lupus, HIV infection, or cerebrovascular disease. Where appropriate, obtain collateral information from family or friends.
Assessing suicide risk. Chronic pain patients may be at greater risk of suicide than the general population. Besides pain, other risk factors for suicide—such as major depression, anxiety disorders, alcohol/substance abuse, sleep disturbances, male gender, diminished social support, and recent loss—are common among these patients.10,11
Screen chronic pain patients with suicidal ideation for these risk factors. Interventions include:
- aggressively treat associated depression, anxiety, or insomnia
- elicit support from family or other caregivers
- pay close attention to talk about suicide
- hospitalize when necessary
- and, of course, treat pain.
Case continued: No stranger to depression
Ms. A’s psychiatric assessments revealed a pain severity ranking of 9 on a 1-to-10 scale, frequent crying, hopelessness, disrupted sleep, low energy, limited ability to concentrate, and fleeting suicidal thoughts. Her history included counseling during her first marriage and severe depression after separation from her second husband 3 years ago. An 8-week trial of fluoxetine, 20 mg/d, did not improve her depression then.
On examination, she displayed obvious pain behavior, constantly shifting her neck position and moving about the room. Her affect was tearful and her mood depressed. She was taking the NSAID celecoxib, 100 mg bid, and the skeletal muscle relaxant tizanidine, 4 mg tid. She was no longer using opioids and had no history of alcohol or illicit drug abuse.
Based on this assessment, the psychiatrist diagnosed Ms. A as having pain disorder with medical and psychological features, including symptom amplification and depression.
Table 1
4 treatment goals for patients with chronic pain and depression
|
Educating the patient
As part of your assessment, explain the reciprocal effects of depression and pain. Acknowledge that:
- chronic pain is different from acute pain, although the patient’s pain experience is the same
- treatment often becomes part of the problem in chronic pain.
Doctors tend to apply acute pain treatments chronically, risking long-term effects of polypharmacy to achieve short-term relief. Depressed patients may be more likely than nondepressed patients to receive opioids for chronic pain,12 and opioids and benzodiazepines may have depressive effects, as reflected by DSM-IV-TR’s inclusion of criteria for “opioid-induced mood disorder” and “sedative-, hypnotic-, or anxiolytic-induced mood disorder.”
To reduce patients’ resistance to antidepressants, reiterate any history of cumulative stressors and affective episodes unrelated to pain. Try using an analogy, such as “stress and pain are like waves on a rock” that eventually damage mood and coping mechanisms, or depression complicating pain is like having “too much on one’s plate.”
Finally, help patients understand that chronic pain is managed, not cured. Encourage them to set treatment goals beyond reducing pain (Table 1) and to make the transition from “patient with pain” to “client managing pain.”
Table 2
Dosing antidepressants and anticonvulsants
for chronic pain and depression
Drug | Starting (mg/d) | Target (mg/d) | Administration tips |
---|---|---|---|
TCAs | Check serum levels for dosages ≥150 mg/d (nortriptyline 100 mg/d) to assess rapid metabolism, adherence, or toxic levels | ||
Amitriptyline | 10 to 25 | 75 to 300 | |
Clomipramine | 10 to 25 | 75 to 250 | |
Desipramine | 10 to 25 | 75 to 200 | |
Doxepin | 10 to 25 | 75 to 300 | |
Imipramine | 10 to 25 | 75 to 300 | |
Nortriptyline | 10 to 25 | 40 to 200 | |
SNRI | |||
Venlafaxine | 37.5 to 75 | 75 to 375 | Use XR form to minimize side effects and for once-daily dosing |
SSRIs | |||
Citalopram | 10 to 20 | 40 to 60 | |
Fluoxetine | 10 to 20 | 20 to 80 | May increase carbamazepine, TCA blood levels and inhibit efficacy of codeine, dihydrocodeine, and hydrocodone |
Paroxetine | 10 to 20 | 20 to 60 | Same as fluoxetine |
Anticonvulsants | |||
Carbamazepine | 200 | 800 to 1,200 | Check blood levels; may increase clomipramine levels, reduce acetaminophen, contraceptive levels |
Clonazepam | 0.5 | 1 to 2 | Habituating potential with chronic use |
Gabapentin | 300 to 900 | 3,600 to 4,800 | Blood monitoring not necessary |
Valproate | 250 | 750 to 2,500 (maximum dosage 60 mg/kg/d) | Check blood levels (trough plasma level 50 to 100 μg/mL) |
TCA: tricyclic antidepressant | |||
SNRI: serotonin-norepinephrine reuptake inhibitor | |||
SSRI: selective serotonin reuptake inhibitor |
Prescribing principles
Before adding any new pain medications, consider reducing dosages or discontinuing opioids or benzodiazepines and other substances the patient may be taking. Opioid use is associated with risks of dependence, addiction, and side effects including somnolence, cognitive impairment, and reduced activity that amplify depressive symptoms.
Benzodiazepines can generally be tapered by 10% per day, although you may need to extend the final taper over 3 to 4 days or longer, depending upon chronicity of use. Opioids may be tapered by 20% over 5 to 7 days. Breakthrough doses may be needed for marked withdrawal symptoms. Converting to longer half-life agents—such as clonazepam for benzodiazepines or methadone for opioids—often aids tapering, although other agents and strategies exist.13
To gauge patient attempts at self-medication, monitor use of alcohol or illicit drugs with urine screening. For patients with a substantial history of substance abuse or positive toxicology screens, monitor randomly every 2 to 4 weeks.
On the other hand, undertreated pain also may impair mood and function.1 If pain and mood improve and problematic drug-related behaviors resolve with increased opioid analgesia, consider maintaining opioids with regular re-evaluation of mood, coping, and medication adherence.11 Transfer from immediate-release to controlled-release opioids to reduce dosing frequency, clockwatching, and the likelihood of inter-dose pain escalation. In general, maintain and optimize the dosage of nonaddictive analgesics such as NSAIDs, anticonvulsants, or antidepressants.
Case continued: Switching medication
The psychiatrist started Ms. A on nortriptyline, 25 mg at bedtime, to be increased after 3 nights to 50 mg at bedtime. Tizanidine, which had been ineffective, was discontinued to reduce the risk of xerostomia and oversedation in combination with nortriptyline. If tolerated, nortriptyline was to be further increased by 25 mg every 3 days to an initial target dosage of 100 mg at bedtime. The psychiatrist explained to Ms. A that it might take 4 to 6 weeks to gauge the medication’s efficacy.
Psychoeducation addressed the importance of stress reduction, prioritizing commitments, and setting limits on other people’s expectations. The door was left open to future psychotherapeutic exploration of past cumulative stressors.
Because antidepressants may provide an analgesic effect,6,14 they are often used to treat affective symptoms in chronic pain. Headache and neuralgia tend to respond to antidepressants more robustly than do arthritis and low-back pain. Although some patients respond to low-dose antidepressants, a definitive trial requires full doses for 6 to 8 weeks (Table 2).
Matching a patient’s symptoms with medication side effects is useful when choosing antidepressants (Table 3). So-called “adverse” effects may have a corresponding benefit, depending on the clinical presentation. For example, a moreactivating antidepressant—such as the selective serotonin reuptake inhibitor (SSRI) fluoxetine—may help a patient with fatigue, whereas a moresedating agent—such as a tricyclic antidepressant (TCA) or mirtazapine—may improve sleep for a patient with insomnia.
Psychosocial therapies such as cognitive-behavioral therapy (CBT) or relaxation training (Table 4) may help patients with chronic pain to:
- process covert emotions such as fear and anger as well as guilt, loss, and disability
- reduce somatic preoccupation that is aggravating the pain
- adhere to treatment.
Evidence strongly supports using relaxation techniques to reduce chronic pain in many medical conditions and hypnosis to ameliorate cancer pain. CBT and biofeedback appear moderately effective in relieving chronic pain.15 CBT is significantly more effective than waiting list control conditions for relieving chronic nonheadache pain in measures of pain experience, mood/affect, cognitive coping and appraisal, pain behavior and activity level, and social role functioning.16
Pain and opioid medications can impair concentration and affective processing, so initial psychotherapy may need to be supportive while you provide other treatments and simplify medication regimens. Eventually the patient may be ready to address underlying issues that may be contributing to the pain syndrome, such as a history of abuse. However, it is important to address this potentially destabilizing subject only after carefully gauging a patient’s defenses and readiness.
Case continued: A bump in the road
The psychiatrist saw Ms. A 18 months later. Interim history revealed that her pain and mood improved on nortriptyline, 100 mg at bedtime. When she stopped taking nortriptyline 5 months earlier, her neck pain increased and she experienced a “deep blue mood.” Her physician restarted the nortriptyline.
At follow up, Ms. A reported no depressive symptoms and very little neck pain. The psychiatrist discussed with her depression’s relapse rate and the importance of continuing antidepressant therapy. As Ms. A was feeling much better and functioning normally, the psychiatrist decided additional psychotherapeutic intervention was not necessary.
Antidepressant options
TCAs provide analgesia via descending regulatory pathways by inhibiting serotonin and norepinephrine reuptake.17 When using TCAs for chronic pain, start with 10 to 25 mg at bedtime and increase by 10 to 25 mg every 3 to 7 days as tolerated. Increase incrementally until the pain responds or to the full antidepressant dosage (Table 2). Drug levels (when available) can help you provide an appropriate trial and monitor the patient’s adherence.
If the pain does not respond after 6 to 8 weeks, consider switching to another dual-action agent such as venlafaxine or to an SSRI.
SNRIs. Venlafaxine is a serotonin and norepineph-rine reuptake inhibitor (SNRI) with less-troublesome side effects than TCAs. It is structurally similar to tramadol18 and has combined serotonin and norepinephrine inhibition at dosages >75 mg/d. Although venlafaxine is not indicated for chronic pain, some studies have suggested possible benefits, including long-term analgesia, reduced polyneuropathic pain, and migraine prophylaxis.19-21 Venlafaxine may be a reasonable first or second choice for treating depression in patients with chronic pain, especially headache.14
Duloxetine—another SNRI—awaits FDA approval. Some studies have suggested that duloxetine improves painful physical symptoms as well as mood and functioning in major depression.22
SSRIs may be effective for certain types of pain, but the evidence is conflicting. Results of 41controlled trials support TCAs’ analgesic efficacy for neuropathic pain, headache, and central and post-stroke pain, whereas SSRIs’ analgesic efficacy varies from study to study. Comparisons of TCAs and SSRIs as analgesics uniformly show TCAs to be more effective, with the SSRIs often showing no analgesic effect.
Of three controlled trials of SSRIs for diabetic neuropathy, one showed fluoxetine similar to placebo, and two smaller studies showed paroxetine and citalopram more effective than placebo. Fluoxetine has shown analgesic effect for fibromyalgia in one study, but no effect in another. Citalopram showed no analgesic effect for fibromyalgia in another study.23
A prospective, double-blind study comparing fluoxetine, sertraline, paroxetine, and venlafaxine for migraines reported moderate to significant improvement in less than one-half of SSRI-treated patients vs two-thirds of venlafaxine-treated patients.21 SSRIs are no longer recognized by the International Headache Society as primary preventative medications for migraine.
Fluoxetine may help chronic daily headache, and paroxetine and citalopram may be useful for diabetic neuropathy. However, one cannot generalize that all SSRIs are similarly effective as analgesics.14
SSRIs have fewer side effects than TCAs and are less dangerous in overdose. In general, however, SSRIs are a second-line treatment for pain, to be used when dual-action agents pose disadvantageous side effects (Table 3) or have been poorly tolerated or ineffective.
Table 3
Antidepressant side effects:
Limitations and potential benefits in chronic pain
Side effects/agents | Problems | Conditions potentially benefited | Possible alternatives |
---|---|---|---|
Anticholinergic TCAs | Xerostomia, constipation, urinary slowing (esp. when combined with opioids) | Diarrhea-predominant irritable bowel syndrome | SSRIs, nefazodone, venlafaxine |
Sedation TCAs, mirtazapine, nefazodone, trazodone | Excessive sedation, cognitive impairment, driving risk (esp. when combined with opioids, benzodiazepines) | Pain with insomnia | SSRIs, venlafaxine, bupropion |
Insomnia SSRIs, venlafaxine | Pain with pre-existing insomnia; equivocal analgesic effects | Excess sedation related to depression, polypharmacy for pain | TCAs, mirtazapine, trazodone, nefazodone |
Orthostasis TCAs (esp. with methadone), nefazodone | Falls, especially in elderly patients | —— | Nortriptyline, SSRIs bupropion, venlafaxine |
Weight gain TCAs, mirtazapine | Pain patients are often sedentary, get limited exercise | Pain and depression with weight loss | Bupropion, fluoxetine |
Hypertension Bupropion, venlafaxine | Pre-existing hypertension | ? Hypotensive state | Citalopram (hypertensive side effects infrequent) |
Cardiac TCAs | ECG abnormalities, conduction delays, arrhythmias aggravate pre-existing cardiac abnormalities; avoid if recent MI | ——— | SSRIs, bupropion |
Overdose lethality TCAs | Prominent suicidal ideation | —— | SSRIs, venlafaxine |
Seizures Esp. maprotiline, clomipramine, bupropion | Lower seizure threshold, aggravation of seizure disorders | ——- | SSRIs |
Sexual dysfunction SSRIs | Pre-existing sexual dysfunction secondary to pain, medications, stress; equivocal analgesic effects | ——- | Bupropion, nefazodone, mirtazapine |
Table 4
How psychosocial therapies can help treat chronic pain and depression
Therapies | Purpose/benefits |
---|---|
Behavioral therapy | Increase activity and learn to balance activity with limitations Reduce pain behaviors and analgesic use Decrease dependency and secondary gain |
Cognitive-behavioral therapy | Identify automatic thoughts Challenge negative cognitions, catastrophizing Substitute and rehearse positive thoughts, capabilities Transition from patient role to self-care |
Couples’ therapy | Assist adaptation to role changes Diminish spousal solicitousness or excessive caretaking Increase communication |
Biofeedback, relaxation, imagery | Adjunctive role in pain management Reduce tension, comorbid anxiety |
Hypnosis | Dissociate awareness of pain Substitute, displace, reinterpret pain sensations |
Vocational rehabilitation | Increase activity, ability to distract Regain sense of control, identity, and productivity Increase socialization |
Pain management program | Multiple treatment effects Useful for complex pain with affective states |
Monoamine oxidase inhibitors (MAOIs) may have some efficacy for neuropathy and headache, but the need for a tyramine-free diet and potential for drug-drug interactions limit their usefulness. Co-administering an MAOI and meperidine is always contraindicated, as this combination can produce fever, delirium, seizures, circulatory collapse, and death. Similarly, avoid using an MAOI with any other antidepressant.
Others. Evidence is very limited on using other antidepressants such as trazodone, nefazodone, bupropion, and mirtazapine in chronic pain:
- Trazodone may help pediatric migraine, but it is not a consistent analgesic and may not be well-tolerated.
- Case reports suggest bupropion may help with headaches and chronic low-back pain.14
- Mirtazapine and trazodone may be useful adjuncts for treating insomnia in depressed patients with chronic pain.
Other options
Anticonvulsants appear useful for neuropathic pain and are appropriate for chronic pain patients who cannot tolerate TCAs.24 Like TCAs, anticonvulsants are not addictive. Unlike TCAs, anticonvulsants may help stabilize other affective illnesses that may coexist with chronic pain, including bipolar disorder, schizoaffective disorder, and impulsivity/aggression related to dementia or personality disorder.6 If the starting dosage is not effective within 1 week, increase gradually every 2 to 3 days to target dosages comparable to those for anticonvulsant efficacy.
Carbamazepine and gabapentin are recommended first-line medications for neuropathy. Carbamazepine is indicated for treating trigeminal neuralgia, although its cytochrome P-450 3A3/4 isoenzyme induction may reduce serum levels of acetaminophen, opioids, and oral contraceptives. Gabapentin, although not clearly beneficial for bipolar disorder, has anxiolytic effects and a benign side-effect profile, which may help patients with chronic pain.
Valproate can help prevent migraines. Clonazepam can help reduce anxiety and restless legs syndrome but may be habituating. Anticonvulsants’ common adverse effects include sedation, GI upset, dizziness, and fatigue.
Lithium has known efficacy for mood stabilization in bipolar disorder and can ameliorate cluster headaches.
Antipsychotics. Evidence is sparse on whether antipsychotics have analgesic activity. Their side effects generally limit their usefulness to treating pain in patients with psychosis or delirium.6
Stimulants such as dextroamphetamine and methylphenidate can be helpful adjuncts for treating depression, especially for medical inpatients who require a rapid therapeutic response. Stimulants may reduce fatigue or excessive sedation and improve concentration in patients receiving opioids for chronic pain. They also may have analgesic effects when combined with opioids. Potential adverse effects include appetite suppression, anxiety or agitation, confusion, tics, and addiction.6
Precautions. The muscle relaxant carisoprodol is associated with potential dependence and withdrawal. Cyclobenzaprine, another muscle relaxant, has a TCA-like structure and can be lethal in overdose. Baclofen can be useful for chronic pain related to spasticity, although psychotic depression and mania have been reported with abrupt withdrawal.6
Related resources
- American Academy of Pain Medicine. www.painmed.org/
- American Academy of Pain Management. www.aapainmanage.org
- Pain.com: continuing medical education for anesthesiology professionals. www.pain.com/index.cfm
- Kerns RD, Turk DC, Rudy TE. The West Haven-Yale Multidimensional Pain Inventory (WHYMPI). Pain 1985;13:345-56
Drug brand names
- Amitriptyline • Elavil
- Baclofen • Lioresal
- Bupropion • Wellbutrin
- Carbamazepine • Tegretol
- Carisoprodol • Soma
- Celecoxib • Celebrex
- Citalopram • Celexa
- Clomipramine • Anafranil
- Clonazepam • Klonopin
- Cyclobenzaprine • Flexeril
- Desipramine • Norpramin
- Dihydrocodeine • Synalgos-DC
- Doxepin • Sinequan
- Duloxetine • Cymbalta
- Fluoxetine • Prozac
- Gabapentin • Neurontin
- Hydrocodone • Vicodin, Lortab
- Imipramine • Tofranil
- Lithium • Eskalith CR, Lithobid
- Maprotiline • Ludiomil
- Meperidine • Demerol
- Methadone • Dolophine
- Mirtazapine • Remeron
- Nefazodone • Serzone
- Nortriptyline • Pamelor
- Oxycodone • OxyContin
- Paroxetine • Paxil
- Sertraline • Zoloft
- Tizanidine • Zanaflex
- Tramadol • Ultram
- Trazodone • Desyrel
- Valproate • Depakote
- Venlafaxine • Effexor, Effexor XR
Disclosure
The authors report no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
Ms. A, age 44, fell from a 3-foot stool while reaching for a high kitchen shelf and suffered severe neck flexion. Her initial pain persisted for weeks and then months, resulting in chronic neck pain aggravated by movement.
Over the past year, her doctor has prescribed numerous analgesics and muscle relaxants, including tramadol, hydrocodone, oxycodone, tizanidine, and nonsteroidal anti-inflammatory drugs (NSAIDs). Treatments at a pain clinic have included triggerpoint injections, cervical epidural corticosteroid injection, left-sided cervical medial branch blocks, transcutaneous electrical nerve stimulation, and physical therapy. None provided sustained relief.
During a pain clinic visit, Ms. A wept and said she was tired of living with pain. She acknowledged depression and agreed to psychiatric consultation.
As in Ms. A’s case, physicians often refer patients with chronic pain and affective symptoms for psychiatric evaluation. These patients are often fearful, angry, and suspicious of any suggestion that their physical discomfort has a psychiatric component. They typically believe their pain had a clear onset and therefore should have an end point. Many have experienced unproductive specialty evaluations and failed treatments.
To help you overcome these obstacles when treating patients with chronic pain and depression, we discuss:
- strategies to gain patients’ trust and build a therapeutic alliance
- how to assess their pain, depression, and suicide risk
- the role of psychotherapy in treating chronic pain
- and evidence for choosing effective, nonaddicting medications.
Psychiatric evaluation
Depression and pain are linked psychologically and biochemically, sharing neurotransmitters involved in both nociceptive pathways and mood, especially serotonin and norepinephrine.1,2 One-third to one-half of patients with chronic pain report comorbid depression,3 and more than one-half of depressed patients presenting to primary care physicians report only somatic symptoms—various pain complaints among the most common.4,5
Primary care doctors tend to refer chronic pain and depression cases to psychiatrists when:
- patients are preoccupied with medication, have not followed treatment recommendations, or do not respond to treatment as expected
- extensive medical evaluations reveal few or equivocal findings
- somatic complaints are vague and diffuse, or there is marked disparity between pain complaints/disability and objective findings.6,7
Assessing pain. In the initial assessment, validate the patient’s pain experience by asking about the location, quality, and severity of pain. The visual analogue scale (VAS) is commonly used to measure pain severity. The patient marks a spot on a line from “no pain” to “worst possible pain,” or—on a numbered VAS—from 0 (no pain) to 10 (extreme pain). The least and most severe pain over the preceding month can be ranked as baseline values.8
Be sensitive to the patient’s fear that you will attribute the pain to psychosocial issues or imply that “the pain is in your head.” Emphasize that you intend to evaluate the “whole person,” not just the part that hurts. Focus on how the pain affects the patient’s lifestyle—rather than its cause—and explore medication use patterns.
Assessing depression. The word “depression” is emotionally charged for chronic pain patients, who view affective symptoms—if they acknowledge them at all—as secondary to pain. They may strongly resist treatment for anything but pain. One way to defuse this defensiveness is to avoid attributing the pain to stress or depression.
Begin by assessing vegetative symptoms, which overlap in chronic pain and depression. The Beck Depression Inventory-II (Beck-II) may be a useful screening tool in a busy practice; the short form (13 questions) takes about 5 minutes to complete.9
Explore cognitive and behavioral symptoms such as concentration, pleasure and interest level, activity, and self-esteem. Review the chronology of pain onset, mood changes, and stressors (proximate, remote, and cumulative).
Seek clues to endogenous factors by asking about past affective episodes, response to antidepressants, and family history of psychopathology. Substances that may induce depression include reserpine, interferon, and antiparkinsonian agents. Screen for potential organic mood disorders, such as depression secondary to hypothyroidism, corticosteroid use, Parkinson’s disease, lupus, HIV infection, or cerebrovascular disease. Where appropriate, obtain collateral information from family or friends.
Assessing suicide risk. Chronic pain patients may be at greater risk of suicide than the general population. Besides pain, other risk factors for suicide—such as major depression, anxiety disorders, alcohol/substance abuse, sleep disturbances, male gender, diminished social support, and recent loss—are common among these patients.10,11
Screen chronic pain patients with suicidal ideation for these risk factors. Interventions include:
- aggressively treat associated depression, anxiety, or insomnia
- elicit support from family or other caregivers
- pay close attention to talk about suicide
- hospitalize when necessary
- and, of course, treat pain.
Case continued: No stranger to depression
Ms. A’s psychiatric assessments revealed a pain severity ranking of 9 on a 1-to-10 scale, frequent crying, hopelessness, disrupted sleep, low energy, limited ability to concentrate, and fleeting suicidal thoughts. Her history included counseling during her first marriage and severe depression after separation from her second husband 3 years ago. An 8-week trial of fluoxetine, 20 mg/d, did not improve her depression then.
On examination, she displayed obvious pain behavior, constantly shifting her neck position and moving about the room. Her affect was tearful and her mood depressed. She was taking the NSAID celecoxib, 100 mg bid, and the skeletal muscle relaxant tizanidine, 4 mg tid. She was no longer using opioids and had no history of alcohol or illicit drug abuse.
Based on this assessment, the psychiatrist diagnosed Ms. A as having pain disorder with medical and psychological features, including symptom amplification and depression.
Table 1
4 treatment goals for patients with chronic pain and depression
|
Educating the patient
As part of your assessment, explain the reciprocal effects of depression and pain. Acknowledge that:
- chronic pain is different from acute pain, although the patient’s pain experience is the same
- treatment often becomes part of the problem in chronic pain.
Doctors tend to apply acute pain treatments chronically, risking long-term effects of polypharmacy to achieve short-term relief. Depressed patients may be more likely than nondepressed patients to receive opioids for chronic pain,12 and opioids and benzodiazepines may have depressive effects, as reflected by DSM-IV-TR’s inclusion of criteria for “opioid-induced mood disorder” and “sedative-, hypnotic-, or anxiolytic-induced mood disorder.”
To reduce patients’ resistance to antidepressants, reiterate any history of cumulative stressors and affective episodes unrelated to pain. Try using an analogy, such as “stress and pain are like waves on a rock” that eventually damage mood and coping mechanisms, or depression complicating pain is like having “too much on one’s plate.”
Finally, help patients understand that chronic pain is managed, not cured. Encourage them to set treatment goals beyond reducing pain (Table 1) and to make the transition from “patient with pain” to “client managing pain.”
Table 2
Dosing antidepressants and anticonvulsants
for chronic pain and depression
Drug | Starting (mg/d) | Target (mg/d) | Administration tips |
---|---|---|---|
TCAs | Check serum levels for dosages ≥150 mg/d (nortriptyline 100 mg/d) to assess rapid metabolism, adherence, or toxic levels | ||
Amitriptyline | 10 to 25 | 75 to 300 | |
Clomipramine | 10 to 25 | 75 to 250 | |
Desipramine | 10 to 25 | 75 to 200 | |
Doxepin | 10 to 25 | 75 to 300 | |
Imipramine | 10 to 25 | 75 to 300 | |
Nortriptyline | 10 to 25 | 40 to 200 | |
SNRI | |||
Venlafaxine | 37.5 to 75 | 75 to 375 | Use XR form to minimize side effects and for once-daily dosing |
SSRIs | |||
Citalopram | 10 to 20 | 40 to 60 | |
Fluoxetine | 10 to 20 | 20 to 80 | May increase carbamazepine, TCA blood levels and inhibit efficacy of codeine, dihydrocodeine, and hydrocodone |
Paroxetine | 10 to 20 | 20 to 60 | Same as fluoxetine |
Anticonvulsants | |||
Carbamazepine | 200 | 800 to 1,200 | Check blood levels; may increase clomipramine levels, reduce acetaminophen, contraceptive levels |
Clonazepam | 0.5 | 1 to 2 | Habituating potential with chronic use |
Gabapentin | 300 to 900 | 3,600 to 4,800 | Blood monitoring not necessary |
Valproate | 250 | 750 to 2,500 (maximum dosage 60 mg/kg/d) | Check blood levels (trough plasma level 50 to 100 μg/mL) |
TCA: tricyclic antidepressant | |||
SNRI: serotonin-norepinephrine reuptake inhibitor | |||
SSRI: selective serotonin reuptake inhibitor |
Prescribing principles
Before adding any new pain medications, consider reducing dosages or discontinuing opioids or benzodiazepines and other substances the patient may be taking. Opioid use is associated with risks of dependence, addiction, and side effects including somnolence, cognitive impairment, and reduced activity that amplify depressive symptoms.
Benzodiazepines can generally be tapered by 10% per day, although you may need to extend the final taper over 3 to 4 days or longer, depending upon chronicity of use. Opioids may be tapered by 20% over 5 to 7 days. Breakthrough doses may be needed for marked withdrawal symptoms. Converting to longer half-life agents—such as clonazepam for benzodiazepines or methadone for opioids—often aids tapering, although other agents and strategies exist.13
To gauge patient attempts at self-medication, monitor use of alcohol or illicit drugs with urine screening. For patients with a substantial history of substance abuse or positive toxicology screens, monitor randomly every 2 to 4 weeks.
On the other hand, undertreated pain also may impair mood and function.1 If pain and mood improve and problematic drug-related behaviors resolve with increased opioid analgesia, consider maintaining opioids with regular re-evaluation of mood, coping, and medication adherence.11 Transfer from immediate-release to controlled-release opioids to reduce dosing frequency, clockwatching, and the likelihood of inter-dose pain escalation. In general, maintain and optimize the dosage of nonaddictive analgesics such as NSAIDs, anticonvulsants, or antidepressants.
Case continued: Switching medication
The psychiatrist started Ms. A on nortriptyline, 25 mg at bedtime, to be increased after 3 nights to 50 mg at bedtime. Tizanidine, which had been ineffective, was discontinued to reduce the risk of xerostomia and oversedation in combination with nortriptyline. If tolerated, nortriptyline was to be further increased by 25 mg every 3 days to an initial target dosage of 100 mg at bedtime. The psychiatrist explained to Ms. A that it might take 4 to 6 weeks to gauge the medication’s efficacy.
Psychoeducation addressed the importance of stress reduction, prioritizing commitments, and setting limits on other people’s expectations. The door was left open to future psychotherapeutic exploration of past cumulative stressors.
Because antidepressants may provide an analgesic effect,6,14 they are often used to treat affective symptoms in chronic pain. Headache and neuralgia tend to respond to antidepressants more robustly than do arthritis and low-back pain. Although some patients respond to low-dose antidepressants, a definitive trial requires full doses for 6 to 8 weeks (Table 2).
Matching a patient’s symptoms with medication side effects is useful when choosing antidepressants (Table 3). So-called “adverse” effects may have a corresponding benefit, depending on the clinical presentation. For example, a moreactivating antidepressant—such as the selective serotonin reuptake inhibitor (SSRI) fluoxetine—may help a patient with fatigue, whereas a moresedating agent—such as a tricyclic antidepressant (TCA) or mirtazapine—may improve sleep for a patient with insomnia.
Psychosocial therapies such as cognitive-behavioral therapy (CBT) or relaxation training (Table 4) may help patients with chronic pain to:
- process covert emotions such as fear and anger as well as guilt, loss, and disability
- reduce somatic preoccupation that is aggravating the pain
- adhere to treatment.
Evidence strongly supports using relaxation techniques to reduce chronic pain in many medical conditions and hypnosis to ameliorate cancer pain. CBT and biofeedback appear moderately effective in relieving chronic pain.15 CBT is significantly more effective than waiting list control conditions for relieving chronic nonheadache pain in measures of pain experience, mood/affect, cognitive coping and appraisal, pain behavior and activity level, and social role functioning.16
Pain and opioid medications can impair concentration and affective processing, so initial psychotherapy may need to be supportive while you provide other treatments and simplify medication regimens. Eventually the patient may be ready to address underlying issues that may be contributing to the pain syndrome, such as a history of abuse. However, it is important to address this potentially destabilizing subject only after carefully gauging a patient’s defenses and readiness.
Case continued: A bump in the road
The psychiatrist saw Ms. A 18 months later. Interim history revealed that her pain and mood improved on nortriptyline, 100 mg at bedtime. When she stopped taking nortriptyline 5 months earlier, her neck pain increased and she experienced a “deep blue mood.” Her physician restarted the nortriptyline.
At follow up, Ms. A reported no depressive symptoms and very little neck pain. The psychiatrist discussed with her depression’s relapse rate and the importance of continuing antidepressant therapy. As Ms. A was feeling much better and functioning normally, the psychiatrist decided additional psychotherapeutic intervention was not necessary.
Antidepressant options
TCAs provide analgesia via descending regulatory pathways by inhibiting serotonin and norepinephrine reuptake.17 When using TCAs for chronic pain, start with 10 to 25 mg at bedtime and increase by 10 to 25 mg every 3 to 7 days as tolerated. Increase incrementally until the pain responds or to the full antidepressant dosage (Table 2). Drug levels (when available) can help you provide an appropriate trial and monitor the patient’s adherence.
If the pain does not respond after 6 to 8 weeks, consider switching to another dual-action agent such as venlafaxine or to an SSRI.
SNRIs. Venlafaxine is a serotonin and norepineph-rine reuptake inhibitor (SNRI) with less-troublesome side effects than TCAs. It is structurally similar to tramadol18 and has combined serotonin and norepinephrine inhibition at dosages >75 mg/d. Although venlafaxine is not indicated for chronic pain, some studies have suggested possible benefits, including long-term analgesia, reduced polyneuropathic pain, and migraine prophylaxis.19-21 Venlafaxine may be a reasonable first or second choice for treating depression in patients with chronic pain, especially headache.14
Duloxetine—another SNRI—awaits FDA approval. Some studies have suggested that duloxetine improves painful physical symptoms as well as mood and functioning in major depression.22
SSRIs may be effective for certain types of pain, but the evidence is conflicting. Results of 41controlled trials support TCAs’ analgesic efficacy for neuropathic pain, headache, and central and post-stroke pain, whereas SSRIs’ analgesic efficacy varies from study to study. Comparisons of TCAs and SSRIs as analgesics uniformly show TCAs to be more effective, with the SSRIs often showing no analgesic effect.
Of three controlled trials of SSRIs for diabetic neuropathy, one showed fluoxetine similar to placebo, and two smaller studies showed paroxetine and citalopram more effective than placebo. Fluoxetine has shown analgesic effect for fibromyalgia in one study, but no effect in another. Citalopram showed no analgesic effect for fibromyalgia in another study.23
A prospective, double-blind study comparing fluoxetine, sertraline, paroxetine, and venlafaxine for migraines reported moderate to significant improvement in less than one-half of SSRI-treated patients vs two-thirds of venlafaxine-treated patients.21 SSRIs are no longer recognized by the International Headache Society as primary preventative medications for migraine.
Fluoxetine may help chronic daily headache, and paroxetine and citalopram may be useful for diabetic neuropathy. However, one cannot generalize that all SSRIs are similarly effective as analgesics.14
SSRIs have fewer side effects than TCAs and are less dangerous in overdose. In general, however, SSRIs are a second-line treatment for pain, to be used when dual-action agents pose disadvantageous side effects (Table 3) or have been poorly tolerated or ineffective.
Table 3
Antidepressant side effects:
Limitations and potential benefits in chronic pain
Side effects/agents | Problems | Conditions potentially benefited | Possible alternatives |
---|---|---|---|
Anticholinergic TCAs | Xerostomia, constipation, urinary slowing (esp. when combined with opioids) | Diarrhea-predominant irritable bowel syndrome | SSRIs, nefazodone, venlafaxine |
Sedation TCAs, mirtazapine, nefazodone, trazodone | Excessive sedation, cognitive impairment, driving risk (esp. when combined with opioids, benzodiazepines) | Pain with insomnia | SSRIs, venlafaxine, bupropion |
Insomnia SSRIs, venlafaxine | Pain with pre-existing insomnia; equivocal analgesic effects | Excess sedation related to depression, polypharmacy for pain | TCAs, mirtazapine, trazodone, nefazodone |
Orthostasis TCAs (esp. with methadone), nefazodone | Falls, especially in elderly patients | —— | Nortriptyline, SSRIs bupropion, venlafaxine |
Weight gain TCAs, mirtazapine | Pain patients are often sedentary, get limited exercise | Pain and depression with weight loss | Bupropion, fluoxetine |
Hypertension Bupropion, venlafaxine | Pre-existing hypertension | ? Hypotensive state | Citalopram (hypertensive side effects infrequent) |
Cardiac TCAs | ECG abnormalities, conduction delays, arrhythmias aggravate pre-existing cardiac abnormalities; avoid if recent MI | ——— | SSRIs, bupropion |
Overdose lethality TCAs | Prominent suicidal ideation | —— | SSRIs, venlafaxine |
Seizures Esp. maprotiline, clomipramine, bupropion | Lower seizure threshold, aggravation of seizure disorders | ——- | SSRIs |
Sexual dysfunction SSRIs | Pre-existing sexual dysfunction secondary to pain, medications, stress; equivocal analgesic effects | ——- | Bupropion, nefazodone, mirtazapine |
Table 4
How psychosocial therapies can help treat chronic pain and depression
Therapies | Purpose/benefits |
---|---|
Behavioral therapy | Increase activity and learn to balance activity with limitations Reduce pain behaviors and analgesic use Decrease dependency and secondary gain |
Cognitive-behavioral therapy | Identify automatic thoughts Challenge negative cognitions, catastrophizing Substitute and rehearse positive thoughts, capabilities Transition from patient role to self-care |
Couples’ therapy | Assist adaptation to role changes Diminish spousal solicitousness or excessive caretaking Increase communication |
Biofeedback, relaxation, imagery | Adjunctive role in pain management Reduce tension, comorbid anxiety |
Hypnosis | Dissociate awareness of pain Substitute, displace, reinterpret pain sensations |
Vocational rehabilitation | Increase activity, ability to distract Regain sense of control, identity, and productivity Increase socialization |
Pain management program | Multiple treatment effects Useful for complex pain with affective states |
Monoamine oxidase inhibitors (MAOIs) may have some efficacy for neuropathy and headache, but the need for a tyramine-free diet and potential for drug-drug interactions limit their usefulness. Co-administering an MAOI and meperidine is always contraindicated, as this combination can produce fever, delirium, seizures, circulatory collapse, and death. Similarly, avoid using an MAOI with any other antidepressant.
Others. Evidence is very limited on using other antidepressants such as trazodone, nefazodone, bupropion, and mirtazapine in chronic pain:
- Trazodone may help pediatric migraine, but it is not a consistent analgesic and may not be well-tolerated.
- Case reports suggest bupropion may help with headaches and chronic low-back pain.14
- Mirtazapine and trazodone may be useful adjuncts for treating insomnia in depressed patients with chronic pain.
Other options
Anticonvulsants appear useful for neuropathic pain and are appropriate for chronic pain patients who cannot tolerate TCAs.24 Like TCAs, anticonvulsants are not addictive. Unlike TCAs, anticonvulsants may help stabilize other affective illnesses that may coexist with chronic pain, including bipolar disorder, schizoaffective disorder, and impulsivity/aggression related to dementia or personality disorder.6 If the starting dosage is not effective within 1 week, increase gradually every 2 to 3 days to target dosages comparable to those for anticonvulsant efficacy.
Carbamazepine and gabapentin are recommended first-line medications for neuropathy. Carbamazepine is indicated for treating trigeminal neuralgia, although its cytochrome P-450 3A3/4 isoenzyme induction may reduce serum levels of acetaminophen, opioids, and oral contraceptives. Gabapentin, although not clearly beneficial for bipolar disorder, has anxiolytic effects and a benign side-effect profile, which may help patients with chronic pain.
Valproate can help prevent migraines. Clonazepam can help reduce anxiety and restless legs syndrome but may be habituating. Anticonvulsants’ common adverse effects include sedation, GI upset, dizziness, and fatigue.
Lithium has known efficacy for mood stabilization in bipolar disorder and can ameliorate cluster headaches.
Antipsychotics. Evidence is sparse on whether antipsychotics have analgesic activity. Their side effects generally limit their usefulness to treating pain in patients with psychosis or delirium.6
Stimulants such as dextroamphetamine and methylphenidate can be helpful adjuncts for treating depression, especially for medical inpatients who require a rapid therapeutic response. Stimulants may reduce fatigue or excessive sedation and improve concentration in patients receiving opioids for chronic pain. They also may have analgesic effects when combined with opioids. Potential adverse effects include appetite suppression, anxiety or agitation, confusion, tics, and addiction.6
Precautions. The muscle relaxant carisoprodol is associated with potential dependence and withdrawal. Cyclobenzaprine, another muscle relaxant, has a TCA-like structure and can be lethal in overdose. Baclofen can be useful for chronic pain related to spasticity, although psychotic depression and mania have been reported with abrupt withdrawal.6
Related resources
- American Academy of Pain Medicine. www.painmed.org/
- American Academy of Pain Management. www.aapainmanage.org
- Pain.com: continuing medical education for anesthesiology professionals. www.pain.com/index.cfm
- Kerns RD, Turk DC, Rudy TE. The West Haven-Yale Multidimensional Pain Inventory (WHYMPI). Pain 1985;13:345-56
Drug brand names
- Amitriptyline • Elavil
- Baclofen • Lioresal
- Bupropion • Wellbutrin
- Carbamazepine • Tegretol
- Carisoprodol • Soma
- Celecoxib • Celebrex
- Citalopram • Celexa
- Clomipramine • Anafranil
- Clonazepam • Klonopin
- Cyclobenzaprine • Flexeril
- Desipramine • Norpramin
- Dihydrocodeine • Synalgos-DC
- Doxepin • Sinequan
- Duloxetine • Cymbalta
- Fluoxetine • Prozac
- Gabapentin • Neurontin
- Hydrocodone • Vicodin, Lortab
- Imipramine • Tofranil
- Lithium • Eskalith CR, Lithobid
- Maprotiline • Ludiomil
- Meperidine • Demerol
- Methadone • Dolophine
- Mirtazapine • Remeron
- Nefazodone • Serzone
- Nortriptyline • Pamelor
- Oxycodone • OxyContin
- Paroxetine • Paxil
- Sertraline • Zoloft
- Tizanidine • Zanaflex
- Tramadol • Ultram
- Trazodone • Desyrel
- Valproate • Depakote
- Venlafaxine • Effexor, Effexor XR
Disclosure
The authors report no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
1. Campbell LC, Clauw DJ, Keefe FJ. Persistent pain and depression: a biopsychosocial perspective. Biol Psychiatry 2003;54:399-409.
2. Fishbain DA, Cutler R, Rosomoff HL, et al. Chronic painassociated depression: antecedent or consequence of chronic pain? A review. Clin J Pain 1997;13(2):116-37.
3. Banks SM, Kerns RD. Explaining high rates of depression in chronic pain: a diathesis-stress framework. Psychol Bull 1996;119:95-110.
4. Simon GE, VonKorff M, Piccinelli M, et al. An international study of the relation between somatic symptoms and depression. N Engl J Med 1999;341(18):1329-35.
5. Kroenke K, Price RK. Symptoms in the community. Prevalence, classification, and psychiatric comorbidity. Arch Intern Med. 1993;153:2474-80.
6. Leo RJ. Concise guide to pain management for psychiatrists. Arlington, Va: American Psychiatric Publishing, Inc., 2003.
7. Sullivan MD, Turner JA, Romano J. Chronic pain in primary care. Identification and management of psychosocial factors. J Fam Pract 1991;32(2):193-9.
8. Holmgren A, Wise MG, Bouckoms AJ. Pain management. In: Wise MG, Rundell JR (eds). Psychiatry in the medically ill (2nd ed). Washington, DC: American Psychiatric Publishing Inc., 2002;989-1013.
9. Naifeh KH. Psychometric testing in functional GI disorders in: Olden K (ed). Handbook of functional GI disorders. New York: Marcel Dekker, 1996;79-126.
10. Fishbain DA. The association of chronic pain and suicide. Semin Clin Neuropsychiatry 1999;4(3):221-7.
11. Fishbain DA. Medico-legal rounds: medical-legal issues and breaches of “standards of medical care” in opioid tapering for alleged opioid addiction. Pain Med 2002;3(2):135-42.
12. Doan BD, Wadden NP. Relationships between depressive symptoms and descriptions of chronic pain. Pain 1989;36:75-84.
13. Franklin JE, Leamon MH, Frances RJ. Substance-related disorders. In: Wise MG, Rundell JR (eds). Psychiatry in the medically ill (2nd ed). Washington DC: American Psychiatric Publishing, 2002;417-53.
14. Ansari A. The efficacy of newer antidepressants in the treatment of chronic pain: a review of current literature. Harv Rev Psychiatry 2000;7(5):257-77.
15. NIH Technology Assessment Panel. Integration of behavioral relaxation approaches into the treatment of chronic pain and insomnia. JAMA 1996;276(4):313-18.
16. Morley S, Eccleston C, Williams A. Systematic review and metaanalysis of randomized controlled trials of cognitive behaviour therapy and behaviour therapy for chronic pain in adults, excluding headache. Pain 1999;80:1-13
17. Magni G. On the relationship between chronic pain and depression when there is no organic lesion. Pain 1987;31:1-21.
18. Markowitz JS, Patrick KS. Venlafaxine-tramadol similarities. Med Hypotheses 1998;5:167-8
19. Bradley RH, Barkin RL, Jerome J, et al. Efficacy of venlafaxine for the long-term treatment of chronic pain with associated major depressive disorder. Am J Ther 2003;10(5):318-23.
20. Sindrup SH, Bach FW, Madsen C, et al. Venlafaxine vs. imipramine in painful polyneuropathy—a randomized controlled trial. Neurology 2003;60:1284-9.
21. Kathpal GS. Role of SSRIs in the management of migraine. Headache Quarterly 1998;9:265-6.
22. Mallinckrodt CH, Goldstein DJ, Detke MJ, et al. Duloxetine: a new treatment for the emotional and physical symptoms of depression. Primary Care Companion J Clin Psychiatry 2003;5(1):19-28.
23. Lynch ME. Antidepressants as analgesics: a review of randomized control trials. J Psychiatry Neurosci 2001;26-36.
24. Swerdlow M. Anticonvulsant drugs and chronic pain. Clin Neuropharmacol 1984;7(1):51-82.
1. Campbell LC, Clauw DJ, Keefe FJ. Persistent pain and depression: a biopsychosocial perspective. Biol Psychiatry 2003;54:399-409.
2. Fishbain DA, Cutler R, Rosomoff HL, et al. Chronic painassociated depression: antecedent or consequence of chronic pain? A review. Clin J Pain 1997;13(2):116-37.
3. Banks SM, Kerns RD. Explaining high rates of depression in chronic pain: a diathesis-stress framework. Psychol Bull 1996;119:95-110.
4. Simon GE, VonKorff M, Piccinelli M, et al. An international study of the relation between somatic symptoms and depression. N Engl J Med 1999;341(18):1329-35.
5. Kroenke K, Price RK. Symptoms in the community. Prevalence, classification, and psychiatric comorbidity. Arch Intern Med. 1993;153:2474-80.
6. Leo RJ. Concise guide to pain management for psychiatrists. Arlington, Va: American Psychiatric Publishing, Inc., 2003.
7. Sullivan MD, Turner JA, Romano J. Chronic pain in primary care. Identification and management of psychosocial factors. J Fam Pract 1991;32(2):193-9.
8. Holmgren A, Wise MG, Bouckoms AJ. Pain management. In: Wise MG, Rundell JR (eds). Psychiatry in the medically ill (2nd ed). Washington, DC: American Psychiatric Publishing Inc., 2002;989-1013.
9. Naifeh KH. Psychometric testing in functional GI disorders in: Olden K (ed). Handbook of functional GI disorders. New York: Marcel Dekker, 1996;79-126.
10. Fishbain DA. The association of chronic pain and suicide. Semin Clin Neuropsychiatry 1999;4(3):221-7.
11. Fishbain DA. Medico-legal rounds: medical-legal issues and breaches of “standards of medical care” in opioid tapering for alleged opioid addiction. Pain Med 2002;3(2):135-42.
12. Doan BD, Wadden NP. Relationships between depressive symptoms and descriptions of chronic pain. Pain 1989;36:75-84.
13. Franklin JE, Leamon MH, Frances RJ. Substance-related disorders. In: Wise MG, Rundell JR (eds). Psychiatry in the medically ill (2nd ed). Washington DC: American Psychiatric Publishing, 2002;417-53.
14. Ansari A. The efficacy of newer antidepressants in the treatment of chronic pain: a review of current literature. Harv Rev Psychiatry 2000;7(5):257-77.
15. NIH Technology Assessment Panel. Integration of behavioral relaxation approaches into the treatment of chronic pain and insomnia. JAMA 1996;276(4):313-18.
16. Morley S, Eccleston C, Williams A. Systematic review and metaanalysis of randomized controlled trials of cognitive behaviour therapy and behaviour therapy for chronic pain in adults, excluding headache. Pain 1999;80:1-13
17. Magni G. On the relationship between chronic pain and depression when there is no organic lesion. Pain 1987;31:1-21.
18. Markowitz JS, Patrick KS. Venlafaxine-tramadol similarities. Med Hypotheses 1998;5:167-8
19. Bradley RH, Barkin RL, Jerome J, et al. Efficacy of venlafaxine for the long-term treatment of chronic pain with associated major depressive disorder. Am J Ther 2003;10(5):318-23.
20. Sindrup SH, Bach FW, Madsen C, et al. Venlafaxine vs. imipramine in painful polyneuropathy—a randomized controlled trial. Neurology 2003;60:1284-9.
21. Kathpal GS. Role of SSRIs in the management of migraine. Headache Quarterly 1998;9:265-6.
22. Mallinckrodt CH, Goldstein DJ, Detke MJ, et al. Duloxetine: a new treatment for the emotional and physical symptoms of depression. Primary Care Companion J Clin Psychiatry 2003;5(1):19-28.
23. Lynch ME. Antidepressants as analgesics: a review of randomized control trials. J Psychiatry Neurosci 2001;26-36.
24. Swerdlow M. Anticonvulsant drugs and chronic pain. Clin Neuropharmacol 1984;7(1):51-82.