Best Practice & Research Clinical Rheumatology fibromyalgia: What is Multidisciplinary approach to
Transcription
Best Practice & Research Clinical Rheumatology fibromyalgia: What is Multidisciplinary approach to
Best Practice & Research Clinical Rheumatology 25 (2011) 311–319 Contents lists available at ScienceDirect Best Practice & Research Clinical Rheumatology journal homepage: www.elsevierhealth.com/berh 15 Multidisciplinary approach to fibromyalgia: What is the teaching? Piercarlo Sarzi-Puttini, MD a, *, Fabiola Atzeni, MD, PhD a, b, Fausto Salaffi, MD, PhD c, Marco Cazzola, MD d, Maurizio Benucci, MD e, Philip J. Mease, MD f a Rheumatology Unit, L. Sacco University Hospital, Ospedale L. Sacco, Via GB Grassi 74, 20127 Milano, Italy Experimental Medicine and Rheumatology, William Harvey Research Institute, Queen Mary University of London, London, UK Rheumatology Department, Polytechnic University of the Marche, Ancona, Italy d Unità Operativa di Medicina Riabilitativa, Azienda Ospedaliera “Ospedale di Circolo” di Busto Arsizio – Presidio di Saronno, Varese, Italy e Rheumatology Unit, Ospedale San Giovanni di Dio, ASL 10, Florence, Italy f Rheumatology Research, Swedish Medical Center, University of Washington School of Medicine, Seattle, WA, USA b c Keywords: Fibromyalgia Interdisciplinary management Drugs Fibromyalgia (FM) is a rheumatic disease that is characterised by chronic musculoskeletal pain, stiffness, fatigue, sleep and mood disorder. FM patients demonstrate dysregulation of pain neurotransmitter function and experience a neurohormone-mediated association with sleep irregularities. There are currently no instrumental tests or specific diagnostic markers for FM, and many of the existing indicators are only significant for research purposes. Antidepressants, non-steroidal anti-inflammatory drugs (NSAIDS), opioids, sedatives, muscle relaxants and antiepileptics have all been used to treat FM with varying results. It has been shown that interdisciplinary treatment programmes lead to greater improvements in subjective pain and function than monotherapies. Physical exercise and multimodal cognitive behavioural therapy are the most widely accepted and beneficial forms of non-pharmacological therapy. Ó 2011 Published by Elsevier Ltd. Introduction Fibromyalgia (FM) is a generalised chronic pain condition that is often accompanied by fatigue, sleep disturbance, and psychological and cognitive alterations [1,2]. It is the prototypical form of a central sensitisation syndrome [1] and prevalence studies show that it affects 2–4% of the population (approximately half a million Italians). It is more common among adult women, but may also affect men and children. * Corresponding author. E-mail address: sarzi@tiscali.it (P. Sarzi-Puttini). 1521-6942/$ – see front matter Ó 2011 Published by Elsevier Ltd. doi:10.1016/j.berh.2011.03.001 312 P. Sarzi-Puttini et al. / Best Practice & Research Clinical Rheumatology 25 (2011) 311–319 There are currently no instrumental tests or specific diagnostic markers, and the characteristic symptoms of the disease overlap those of many other conditions [3]. However, it is becoming more manageable as a result of the use of more rational evidence-based pharmacological therapy and a growing awareness that therapy needs to go beyond pain. Many studies have found that patients with FM are less physically fit than control groups of the same age, gender and occupation [4,5]. The functional limitations reported by patients include reduced exercise tolerance, fatigue, and pain exacerbations caused by the activities of daily living (ADL) [6], which means that non-pharmacological therapeutic strategies aimed at improving aerobic fitness, muscular strength and endurance may be important in reducing disease-related disabilities [7,8]. The effective management of FM is complex and requires a multidisciplinary approach, and it has been shown that integrated treatment, including appropriate patient education, aerobic exercise and cognitive-behavioural therapy, is effective in alleviating symptoms. Diagnosis FM is usually diagnosed in clinical and observational research studies on the basis of the American College of Rheumatology (ACR) criteria [9]: pain must have been present for at least three months in all four quadrants of the body, and there must be >11/18 positive tender points (TPs) revealed by applying pressure (4 kg/cm2) at pre-defined body sites. However, these criteria do not take into account the wide range of symptoms commonly associated with FM, and reflected by the term ’syndrome’, including sleep disturbance, depression, anxiety, fatigue, cognitive dysfunction, morning stiffness, irritable bowel syndrome, headache and migraine. Some recently proposed diagnostic criteria that assess widespread pain as well as the severity of fatigue, sleep disturbance and cognitive dysfunction, and the extent of somatic symptoms, may improve diagnosis and treatment. Wolfe et al. have proposed simple clinical criteria that do not require the use of TPs and extend the definition of FM to include symptoms other than pain and provide a means of assessing their severity [10]. Moreover, a diagnosis is made by combining the patient’s history with a physical examination and laboratory tests, and excluding or accounting for other causes of the symptoms attributed to FM [2,11]. As FM overlaps a number of other medical conditions, ranging from rheumatoid arthritis and lupus to hepatitis C infection, treating physicians need to be carefully analytic in the general evaluation of all patients with suspected FM. Inter-disciplinary treatment The aim of treating FM is to decrease pain and increase function by means of a multimodal therapeutic strategy which, in most cases, includes pharmacological and non-pharmacologic interventions [12] and has the main goal of symptom management [13]. As FM patients typically present complex symptoms and comorbidities, they cannot realistically be managed by primary care physicians alone, but require the assistance of multidisciplinary teams with expertise in a variety of physical, cognitive, behavioural and educational strategies [14]. Most of the directors of multidisciplinary treatment programmes are rheumatologists or rehabilitation specialists, but there is no reason for excluding other health professionals. Some of the programmes mainly based on promoting cognitive-behavioural changes only involve rheumatologists and psychologists or psychiatrists, who are often considered essential because most FM patients have difficulties in dealing with stress and interpersonal problems, and are at increased risk of developing depression or anxiety [15–19]. As exercise is a critical part of FM treatment and a key element in successful cognitive behavioural therapy, most programmes would benefit from the addition of an exercise physiologist or physical therapist with expertise in prescribing stretching, aerobic conditioning and strength training exercises [19–21]. Other possible team members consultants are social workers, occupational therapists, sleep or headache specialists, or massage therapists [14]. Education and psychological domains A number of the techniques used in the management of FM are based on patient education, and are intended to reduce anxiety, increase treatment compliance, improve coping behaviours and self- P. Sarzi-Puttini et al. / Best Practice & Research Clinical Rheumatology 25 (2011) 311–319 313 efficacy, and draw attention away from symptoms and towards improved function and a better quality of life. It has long been recognised that patients have an essential right to education, and the findings of this review suggest that they should be offered exercises and education (including information and cognitive-behavioural strategies) by a multidisciplinary team in a group format [14]. One of the aims of a multidisciplinary approach should be to switch patients’ perceptions from helplessness, frustration and sometimes anger, to a positive sense of behavioural self-efficacy and outcome expectancies [12]. Self-efficacious patients are more likely to respond favourably to treatment programmes and experience better outcomes [17], whereas many patients believe that they cannot control their pain, disability or other negative effects (which leads to increased distress, pain and sleep difficulties), tend to take less part in daily living activities, and fail to develop effective coping behaviours and cognitions. Psychological interventions involve the interrelationships between the physical and psychological aspects of the illness [19]. Two major approaches are psychophysiologically-based therapy (PPT), such as electromyography (EMG) biofeedback, and cognitive-behavioural therapy (CBT). The basic aim of PPT is to change cognitions by manipulating physiological responses, whereas the aim of CBT is to change physiological responses by manipulating cognitions in order to help patients feel that they are in control [18,19]. CBT is a combination of cognitive and behavioural therapies, and may have a wide range of components. The behavioural components include a number of techniques centred on the core tenets of operant and classical psychological conditioning, and may be extended to methods such as relaxation, sleep hygiene, pacing activities, scheduling social and leisure opportunities, coping with pain, education, and training in assertiveness [22], all of which go to make up the CBT “toolbox.” This concept is important when considering CBT for FM patients because any meaningful discussion and evaluation must take into account the tools that are used. Comorbidities such as stiffness, fatigue and problems with sleep, concentration and memory are more or less common in almost all FM patients. It is not surprising that many patients experience interpersonal distress and behavioural deficits and, as CBT is particularly effective in the case of distress and behavioural disorders, it is logical to apply it to FM. This approach assumes that a patient can be helped significantly by addressing the many non-pain aspects of FM. Pharmacologic treatments Once a diagnosis of FM is made, patients are usually started on pharmacological treatment. Boomershine and Crofford [23] suggest that the three drugs currently approved by the American Food and Drugs Administration (FDA) should now be used as ‘anchor drugs’ and, although still important, could later be complemented by older approaches. Unfortunately, no direct comparative studies have yet been published, and there is still no consensus as to where to start. FM patients experience amplified ascending sensory input; mediated by excess amounts of neurotransmitters such as glutamate and substance P, which can be reduced by medications such as pregabalin. In parallel, deficiencies in the diffuse noxious inhibitory control system (DNIC), the descending pain regulation pathways which play an inhibitory role in pain perception and are mediated in part by the neurotransmitters serotonin and norepinephrine, can be treated using serotoninnorepinephrine re-uptake inhibitors (SNRIs). This may be an over-simplification, but it does show that there are at least two complementary symptom control strategies. Pregabalin is an a2-d ligand that has analgesic, anxiolytic-like and anticonvulsant activity in animal models, and biochemical studies have found that the primary binding site for pregabalin and the related gabapentin is a2-d (type 1) [24]. Alpha2-delta is an auxiliary protein associated with voltage-gated calcium channels, and the potent binding of pregabalin at the a2-d site reduces calcium influx at nerve terminals [25] resulting in reduction of the release of a number of neurochemicals, including glutamate, noradrenaline and substance P [25,26], which may explain the analgesic, anticonvulsant and anxiolyticlike activity of pregabalin in animal models. It has also been suggested that reducing neurotransmitter release from neurons in the spinal cord and brain may be clinically beneficial for FM patients. Pregabalin is approved for the treatment of FM and neuropathic pain and, in some countries, also for the management of generalised anxiety disorder and as an adjuvant medication for seizures. The dose 314 P. Sarzi-Puttini et al. / Best Practice & Research Clinical Rheumatology 25 (2011) 311–319 indicated for the treatment of FM is 300–450 mg/day divided into two administration, although many clinicians start with smaller nightly doses, as it seems to have a specific beneficial effect on sleep [27,28]. Anxiety is also very common in FM patients and, as patients with concomitant sleep disorders and anxiety almost always experience initial insomnia, pregabalin is a rational choice. The dose can subsequently be increased to the recommended dose, but escalation may be limited by side effects such as weight gain, edema and dizziness that may resolve over time. Although it is not approved by the FDA, the use of gabapentin has also been studied in FM patients [26], and daily doses ranging from 1200 mg to 2400 mg have been found to have some effect. Although the gabapentin trial involved far fewer patients than the pregabalin trials, the effect sizes seemed to be similar, and so gabapentin can be considered an option especially when pregabalin is not available. The other two FDA-approved medications for the treatment of FM are duloxetine and milnacipran. Duloxetine is also FDA-approved for depression, generalised anxiety disorder, painful diabetic neuropathy, and most recently, chronic musculoskeletal pain. Milnacipran is also approved for the management of major depression in Europe and Japan [29,30]. Both are SNRIs, and it has been hypothesised that pain, anxiety, chronic stress and depression have overlapping pathogenetic backgrounds (neurotransmitters and immune responses), and depression can be considered a systemic disease related to unbalanced neurotransmission also to other neurotrophic, neurosteroidal, central nervous system (CNS) hormonal modifications, and widespread autonomic, immunological and metabolic somatic changes [31]. According to this hypothesis, antidepressants restore neurotransmitter levels and modulate receptor expression in the hypothalamus, which normalises hyperactivity of the hypothalamic-pituitary-adrenal (HPA) axis [31]. Autonomic system alterations, such as sympathetic overactivity, are encountered in both depression and FM [31]. Finally, pro-inflammatory cytokines inside the CNS play a role in the pathophysiology of mood disorders and pain, and their modulation by means of chronic antidepressant administration contributes to improving both [32]. The trials of duloxetine have shown that 70% of its effect on pain is due to its analgesic rather than its antidepressant action [29], although it is still is a good choice for patients with FM, depression and anxiety. The FM dose is 60 mg once a day, but it is usually started at a daily dose of 30 mg. Duloxetine seems to have a neutral effect on sleep. The recommended milnacipran doses range from 50 mg twice a day to 100 mg twice a day. It has been found that it significantly improves fatigue and cognitive dysfunction, possibly because of its greater adrenergic effect [30]. Analgesic treatment Tramadol has been found to be beneficial in FM patients [33,34]. It is an atypical pain reliever that has a different action on the CNS (the re-uptake of serotonin and norepinephrine) from that of other narcotics. Its most common side effects are drowsiness, dizziness, constipation and nausea, and it should not be given in combination with tricyclic antidepressants (TCAs). Alone or in combination with acetaminophen, it is commonly prescribed at a dose of 200–300 mg/day to relieve FM-related pain [35,36]. Its potential for drug abuse is fortunately negligible, but there is a theoretical risk of seizures and serotoninergic syndrome when it is combined with selective serotonin re-uptake inhibitors (SSRIs), SNRIs, monoamine oxidase inhibitors (MAOIs) and tryptans, although only a few cases have been described [37]. There is no scientific evidence that NSAIDs alone are effective in FM patients, although they may be useful for analgesia when combined with TCAs. However, the results obtained when NSAIDs are combined with benzodiazepines have been inconsistent [38–40]. The CNS mechanisms of FM (central sensitisation and disinhibition, and a dysfunctional HPA axis) may explain the relatively reduced efficacy of NSAIDs and opioids, particularly as the latter are more effective for peripheral pain [40]. However, NSAIDs can be helpful in reducing pain flares induced by excessive physical activity, tendinitis or bursitis, although they should only be used on an as needed basis in order to avoid side effects. COX2 inhibitors have much fewer side effects, but are less effective against pain. One recent study has found that transdermal buprenorphine, a strong opioid, has beneficial effects on severe widespread pain (VAS >6/10), but it is less effective on the other symptoms typical of FM [41]. P. Sarzi-Puttini et al. / Best Practice & Research Clinical Rheumatology 25 (2011) 311–319 315 A subset of FM patients do not respond to opioids, but other patients who may have overlapping conditions such as diabetes, chronic myofascial pain, temporomandibular joint disorder, arthritis, degenerative disc disease and so on, may receive a significant benefit [40]. The doses of immediate-release opioids should be increased slowly until the pain is reduced, and then the patients should be switched to controlled-release opioids. Opioids may be helpful in treating FM-related pain, but they may also induce tolerance and become habit forming, and are also associated with adverse effects such as constipation, sedation and nausea [42]. Physicians should obtain a careful medical and psychological profile of the patient before prescribing opioids. Treating fatigue, sleep and mood disorders Fatigue and sleep disturbances are major complaints among FM patients [2]. Appropriate treatment of sleep disturbances and physical rehabilitation are the best means of managing fatigue in the long term. The medications commonly used in narcolepsy have been used to treat fatigue in FM patients [43]. Modafinil has been approved by the FDA for the treatment of excessive somnolence associated with narcolepsy, shift workers and sleep apnea, and can be useful if fatigue prevents patients from starting physical rehabilitation. The initial dose is 50 mg in the morning, and can be increased to 400 mg daily, although modafinil and other compounds carry a risk of abuse and drug interactions. Small doses of the amitriptyline or cyclobenzaprine represent the first approach to the treatment of delayed sleep onset in FM patients, but they are only effective in about 30% of cases and most patients cannot tolerate higher doses because of their sedative and cholinergic side effects [44–46]. Although it has not been formally tested, trazodone is a usually well-tolerated sedating antidepressant. Hypnotic drugs such as zolpidem, zoplicone and eszoplicone can also be used, and act mainly through the BZ1 receptor. Benzodiazepines should be used cautiously as they may disrupt sleep architecture. Sodium oxybate is the sodium salt of gamma-hydroxybutyrate (GHB), an endogenous short chain fatty acid, used for the oral administration of exogenous GHB [47,48]. The supraphysiological concentrations induced by exogenous administration probably lead to qualitatively different neuronal activity from that of endogenous GHB. GHB may play a neuromodulating/neurotransmitting role, and sodium oxybate is approved by the FDA for the treatment of cataplexy and excessive daytime sleepiness. It has recently also been shown to improve pain and fatigue in phase III FM trials [49]. Thirty percent of FM patient suffer from depression at the time of diagnosis, and 50–60% sometimes during their lifetime [50]. There is also evidence that anxiety can be as common as depression in FM patients, and post-traumatic stress disorder (PTSD) is more prevalent in FM patients than in the general population [51]. The central monoaminergic neurotransmission abnormalities observed in depression may play a role in FM pathophysiology because dysfunctioning 5-HT- and NE-mediated descending paininhibitory pathways are important mechanisms in FM-related pain. Antidepressants that increase 5-HT- and NE-mediated neurotransmission are frequently used to treat FM and other chronic pain conditions, particularly neuropathic pain. Inhibiting both 5-HT and NE re-uptake transporters using TCAs or SNRIs seems to be more effective in treating pain and FM than inhibiting either transporter alone with selective SSRIs or noradrenergic re-uptake inhibitors (NARIs) [44,52], but the efficacy of TCAs is counterbalanced by their side effects. SSRIs such as citalopram [53], escitalopram, paroxetine [54] and sertraline are not effective against pain but. like fluoxetine, could be used to treat associated depression. Non-pharmacological treatments Most FM patients complain of severe functional limitations in activities of daily living [55] and, not surprisingly, are physically deconditioned [5]. Active and passive mobilisation have both been tried, but recent reviews do not clearly show their efficacy. Active aerobic and anaerobic physical exercises are pivotal treatments in FM, but patients often find it difficult to start and maintain exercise programmes [56,57]. The internet can provide access to many types of physical training 316 P. Sarzi-Puttini et al. / Best Practice & Research Clinical Rheumatology 25 (2011) 311–319 and exercises. Moreover, words such as “movement” or “physical exercise” are sometimes used without specifying the type of exercise, its duration, or the intensity of the training. In this respect, “physical exercise” is similar to “drug” because neither are sufficient by themselves: specific details of the treatment should always be given. A very recent meta-analysis of all studies in the Cochrane Central Register for Controlled Trials indicates that there is moderate evidence suggesting that aerobic-only exercise training at American College of Sports Medicine (ACSM)-recommended intensity levels has positive effects on global well-being and physical function, and a possible effect on pain and tender points [58]. Strength and flexibility are under-evaluated, but strength training may have a positive effect on FM symptoms. The meta-analysis suggests that aerobic-only training has beneficial effects on physical function and some FM symptoms. However, there is still a lack of data concerning the long-term efficacy of movement and exercise in controlling the clinical picture. Aerobic exercises can be performed in a traditional “dry” environment or in water (deep water running programmes, hydrokinesis therapy in heated water, and in spas) [59,60]. Generally, both aerobic and anaerobic exercises are combined with educational and occupational programmes [61–66]. However, although the short-term efficacy of exercise is widely accepted, long-term compliance seems to be a critical issue as most studies report a lack of persistent effects associated with a failure to maintain exercise programmes [67]. The passive movements induced by vertebral manipulations, finger pressure on trigger points, craniosacral manipulation and other forms of chiropractics have been tested. A controlled study of the efficacy of chiropractics has shown a reduction in pain and disability levels assessed using the Oswestry Pain Disability Index and the Neck Disability Index but, although positive, these results should be considered with caution and cannot be generalised (54). The stretch and spray technique is a popular form of myofascial pain therapy in rehabilitation as it combines the effect of rapid cooling of the overlying skin using a vapocoolant such as fluorimethane with passive muscle elongation. However, despite its popularity, only one study has reported a reduction in trigger point pain measured by means of a pressure algometer and VAS in patients with myofascial pain and, to the best of our knowledge, there have been no studies of its use in FM patients [68]. Combination therapy In general, about half of all treated patients with medication seem to experience a 30% reduction of symptoms, suggesting that many patients with FM will require additional therapies [69]. The number of randomized controlled trials of exercise or behavioral interventions in the FM literature has increased dramatically in the past decade [70,71]. Progressive walking, simple strength training movements, stretching activities, aerobic exercise improve functional status, and self-efficacy in women with FM actively being treated with medication [72]. Thus, other forms of treatment, including exercise, cognitive behavioural therapies and self-management strategies, may be necessary to achieve satisfactory treatment outcomes. Surprisingly no controlled randomized data emerge from the literature which explains how much improvement it’s possible to get from combining a pharmacological treatment with a structured rehabilitation or psychological program [73,74]. Multiple medications are commonly used, often in combination. However, it is important to have knowledge about potential adverse drug interactions for example the concomitant use of SSRIs and SNRIs or two SNRIs can result in serotonin syndrome which can be difficult to detect and toxic. If a patient prefers to keep their medication use to a minimum, it would make sense to choose one or two medicines that can impact several symptom domains effectively rather than just one [75]. Herbal and nutritional supplements Authors [76] have reviewed the effects of St. John’s wort, ginseng, valerian, botanical oil, melatonin, magnesium, dehydroepiandrosterone, NADH, S-adenosylmethionine, growth hormone, chlorella pyrenoidosa, 5-hydroxytryptophan, and several dietary supplements. They reported that this herbal and nutritional supplements showed promising results in early trials, but mixed results are when the studies become methodologically more sophisticated. P. Sarzi-Puttini et al. / Best Practice & Research Clinical Rheumatology 25 (2011) 311–319 317 Conclusions It is clear that, as in the case of other disorders, the most efficacious treatment of FM needs to combine the main elements of pharmacotherapy, exercise, physical therapy and CBT. A number of medical treatments have been used to treat the various symptoms of FM (pain, sleep disturbances, anxiety and depression) with the final aim of improving the patients’ quality of life. Psychological and physical therapy may sometimes be more effective than pharmacological treatment. A number of studies have also evaluated the effect of moderately intense exercise, the level that is most suitable for usually deconditioned and unfit FM patients. Research Agenda To develop new strategies for treating patients on the basis of their predominant symptoms To determine whether some pharmacological combinations are more useful than monotherapy To develop new recommendations for treating and helping FM patients To promote a Congress and Meeting with the aim of gaining European approval for the FDA drugs for FM. Practice points The effective management of FM is complex and requires a multidisciplinary approach; it has been shown that an integrated treatment plan including apropriate patient education, aerobic exercises and cognitive-behavioural therapy can be effective in alleviating symptoms. The three drugs approved by the American Food and Drug Administration (FDA) can now be used as the initial main treatment; although still important, the older approaches can be added later. The analgesic drug tramadol is beneficial in FM but is not formally approved. Sodium oxybate is approved by the FDA for the treatment of cataplexy and excessive daytime sleepiness, and it has recently been shown to improve not only sleep, but also FM-related pain and fatigue. SSRIs such as escitalopram and paroxetine are not effective against pain but, like fluoxetine, can be used to treat associated depression. Moderately intense exercise is best suited to usually deconditioned and unfit FM patients. References [1] Cazzola M, Sarzi Puttini P, Stisi S, Di Franco M, Bazzichi L, Carignola R, et al. Fibromyalgia syndrome: definition and diagnostic aspects. Reumatismo 2008;60(Suppl. 1):3–14 (Italian Fibromyalgia Network). [2] Cassisi G, Sarzi-Puttini P, Alciati A, Casale R, Bazzichi L, Carignola R, et al. Symptoms and signs in fibromyalgia syndrome. Reumatismo 2008;60(Suppl. 1):15–24 (Italian Fibromyalgia Network). *[3] Atzeni F, Salaffi F, Bazzichi L, Gracely RH, Carignola R, Torta R, et al. Italian Fibromyalgia Network.The evaluation of the fibromyalgia patients. Reumatismo 2008;60(Suppl. 1):36–49. [4] Verbunt JA, Pernot HFM, Smeets JEM. Disability and quality of life in patients with fibromyalgia. Health Qual Life Outcom 2008;6:8. *[5] Bennett RM, Clark SR, Goldberg L, Nelson D, Bonafede RP, Porter J, et al. Aerobic fitness in patients with fibrositis. A controlled study of respiratory gas exchange and 133xenon clearance from exercising muscle. Arthritis Rheum 1989;32: 454–60. [6] Thompson D, Lettich L, Takeshita J. Fibromyalgia: an overview. Curr Psychiatry Rep 2003;5:211–7. [7] Hawley DJ, Wolfe F. Pain, disability and pain/disability relationship in seven rheumatic disorders: a study of 1552 patients. J Rheumatol 1991;18:1552–7. 318 P. Sarzi-Puttini et al. / Best Practice & Research Clinical Rheumatology 25 (2011) 311–319 [8] Klug GA, McAuley E, Clark S. Factors influencing the development and maintenance of aerobic fitness: lessons applicable to the fibrositis syndrome. J Rheumatol 1989;16:30–9. *[9] Wolfe F, Smythe HA, Yunus MD. The American College of Rheumatology 1990 criteria for the Classification of fibromyalgia. Report of the multicenter criteria Committee. Arthritis Rheum 1990;33:160–72. [10] Wolfe F, Clauw DJ, Fitzcharles MA, Goldenberg DL, Häuser W, Katz RS, et al. The American College of Rheumatology preliminary diagnostic criteria for fibromyalgia and measurement of symptom severity. Arthritis Care Res (Hoboken) 2010;62:583–4. *[11] Mease P. Fibromyalgia syndrome. review of clinical presentation, pathogenesis, outcome measures and treatment. J Rheumatol 2005;32:6–21. [12] Burckhardt CS. Multidisciplinary approaches for management of Fibromyalgia. Curr Pharm Design 2006;12:59–66. [13] Barkhuizen A. Rational and targeted pharmacologic treatment of fibromyalgia. Rheum Dis Clin North Am 2002;28:261– 90. [14] Keel PJ. Pain management strategies and team approach. Bailliere’s Clin Rheumatol 1999;13:493–506. [15] Keefe FJ, Caldwell DS. Cognitive behavioral control of arthritis pain. Med Clin N Am 1997;81:277–90. [16] Sandstrom MJ, Keefe FJ. Self-management of fibromyalgia: the role of formal coping skills training and physical exercise training programs. Arthritis Care Res 1998;11:432–47. [17] Sim J, Adams N. Physical and other non-pharmacological interventions for fibromyalgia. Bailliere’s Clin Rheumatol 1999; 13:507–23. [18] Offenbaecher M, Stucki G. Physical therapy in the treatment of fibromyalgia. Scand J Rheumatol 2000;29:78–85. [19] Busch A, Schachter CL, Peloso PM, Bombardier C. Exercise for treating fibromyalgia syndrome. Cochrane Database Syst Rev 2002;3. CD003786. [20] Burckhardt CS, Bjelle A. Education programmes for fibromyalgia patients: description and evaluation. Bailliere’s Clin Rheumatol 1994;8:935–56. [21] Hadhazy VA, Ezzo J, Creamer PA, Berman BM. Mind-body therapies for the treatment of fibromyalgia. A systematic review. J Rheumatol 2000;27:2911–8. [22] Williams DA. Psychological and behavioural therapies in fibromyalgia and related syndromes. Best Pract Res Clin Rheumatol 2003;17:649–65. [23] Boomershine CS, Crofford LJ. A symptom-based approach to pharmacologic management of fibromyalgia. Nat Rev Rheumatol 2009;5:191–9. [24] Gee NS, Brown JP, Dissanayake VU, Offord J, Thurlow R, Woodruff GN. The novel anticonvulsant drug, gabapentin (neurontin), binds to the a2-d subunit of a calcium channel. J Biol Chem 1996;271:5768–76. 25. [25] Fink K, Dooley DJ, Meder WP, Suman-Chauhan N, Duffy S, Clusmann H, et al. Inhibition of neuronal Ca(2þ) influx by gabapentin and pregabalin in the human neocortex. Neuropharmacology 2002;42:229–36. [26] Maneuf YP, Hughes J, McKnight AT. Gabapentin inhibits the substance P-facilitated K(þ)-evoked release of [(3)H]glutamate from rat caudal trigeminal nucleus slices. Pain 2001;93:191–6. [27] Harris RE, Clauw DJ. Newer treatments for fibromyalgia syndrome. Ther Clin Risk Manag 2008;4:133–42. [28] Russell IJ, Crofford LJ, Leon T, Cappelleri JC, Bushmakin AG, Whalen E, et al. The effects of pregabalin on sleep disturbance symptoms among individuals with fibromyalgia syndrome. Sleep Med 2009;10:6604–10. [29] Russell IJ, Mease PJ, Smith TR, Kajdasz DK, Wohlreich MM, Detke MJ, et al. Efficacy and safety of duloxetine for treatment of fibromyalgia in patients with or without major depressive disorder: results from a 6-month, randomized, doubleblind, placebo-controlled, fixed-dose trial. Pain 2008;136:432–44. *[30] Nakagawa A, Watanabe N, Omori IM, Barbui C, Cipriani A, McGuire H, et al. Milnacipran versus other antidepressive agents for depression. Cochrane Database Syst Rev 2009;3. CD006529. [31] Sarzi-Puttini P, Atzeni F, Diana A, Doria A, Furlan R. Increased Neural sympathetic Activation in fibromyalgia syndrome. Ann.N.Y Acad Sci 2006;1069:109–17. [32] Bazzichi L, Rossi A, Massimetti G, Giannaccini G, Giuliano T, De Feo F, et al. Cytokine patterns in fibromyalgia and their correlation with clinical manifestations. Clin Exp Rheumatol 2007;25:225–30. [33] Carville SF, Arendt-Nielsen S, Bliddal H, Blotman F, Branco JC, Buskila D, et al. EULAR evidence-based recommendations for the management of fibromyalgia syndrome. Ann Rheum Dis 2008;67:536–41. [34] Clauw DJ. Pharmacotherapy for patients with fibromyalgia. J Clin Psychiatry 2008;69(Suppl. 2):25–9. [35] Biasi G, Manca S, Manganelli S, Marcolongo R. Tramadol in the fibromyalgia syndrome: a controlled clinical trial versus placebo. Int J Clin Pharmacol Res 1998;18:13–9. [36] Bennett RM, Kamin M, Karin R, Rosenthal N. Tramadol and acetaminophen combination tablets in the treatment of fibromyalgia pain. Am J Med 2003;114:537–45. [37] Llinares-Tello F, Escriva-Moscardo S, Martinez-Pastor F, Martinez-Mascaraque P. Possible serotoninergic syndrome associated with coadministration of paroxetine and tramadol. Med Clin (Barc) 2007;128:438. *[38] Sarzi-Puttini P, Buskila D, Carrabba M, Doria A, Atzeni F. Treatment strategy in fibromyalgia syndrome: where are we now? Semin Arthritis Rheum 2008;37:353–65. [39] Cazzola M, Sarzi-Puttini P, Buskila D, Atzeni F. Pharmacological treatment of fibromyalgia. Reumatismo 2007;59:280–91. [40] Sarzi-Puttini P, Torta R, Marinangeli F, Biasi G, Spath M, Buskila D, et al. Italian Fibromyalgia Network. Fibromyalgia syndrome: the pharmacological treatment options. Reumatismo 2008;60(Suppl. 1):50–8. [41] Kress HG. Clinical update on the pharmacology, efficacy and safety of transdermal buprenorphine. Eur J Pain 2009;13: 219–30. [42] Harris JD. Management of expected and unexpected opioid-related side effects. Clin J Pain 2008;24:S8–13. [43] Pachas WN. Modafinil for the treatment of fatigue of fibromyalgia. J Clin Rheumatol 2003;9:282–5. [44] Arnold LM, Keck Jr PE, Welge JA. Antidepressant treatment of fibromyalgia. A meta-analysis and review. Psychosomatics 2000;41:104–13. [45] Reynolds WJ, Moldofsky H, Saskin P, Lue FA. The effects of cyclobenzaprine on sleep physiology and symptoms in patients with fibromyalgia. J Rheumatol 1991;18:452–4. [46] Rao SG, Bennett RM. Pharmacological therapies in fibromyalgia. Best Pract Res Clin Rheumatol 2003;17:611–27. P. Sarzi-Puttini et al. / Best Practice & Research Clinical Rheumatology 25 (2011) 311–319 319 [47] Pardi D, Black J. gamma-Hydroxybutyrate/sodium oxybate: neurobiology, and impact on sleep and wakefulness. CNS Drugs 2006;20:993–1018. *[48] Scharf MB, Baumann M, Berkowitz DV. The effects of sodium oxybate on clinical symptoms and sleep patterns in patients with fibromyalgia. J Rheumatol 2003;30:1070–4. [49] Russell IJ, Perkins AT, Michalek JE. Sodium oxybate relieves pain and improves function in fibromyalgia syndrome: a randomized, double-blind, placebo-controlled, multicenter clinical trial. Arthritis Rheum 2009;60:299–309. [50] Epstein SA, Kay G, Clauw D, Heaton R, Klein D, Krupp L, et al. Psychiatric disorders in patients with fibromyalgia. A multicenter investigation. Psychosomatics 1999;40:57–63. [51] Cohen H, Neumann L, Haiman Y, Matar MA, Press J, Buskila D. Prevalence of post-traumatic stress disorder in fibromyalgia patients: overlapping syndromes or post-traumatic fibromyalgia syndrome? Semin Arthritis Rheum 2002;32:38–50. [52] Maizels M, McCarberg B. Antidepressants and antiepileptic drugs for chronic non-cancer pain. Am Fam Physician 2005; 71:483–90. [53] Anderberg UM, Marteinsdottir I, von Knorring L. Citalopram in patients with fibromyalgia–a randomized, double-blind, placebo-controlled study. Eur J Pain 2000;4:27–35. [54] Patkar AA, Masand PS, Krulewicz S, Mannelli P, Peindl K, Beebe KL, et al. A randomized, controlled, trial of controlled release paroxetine in fibromyalgia. Am J Med 2007;120:448–54. [55] Mannerkorpi K, Burckhardt CS, Bjelle A. Physical performance characteristics of women with fibromyalgia. Arthritis Care Res 1994;7:123–9. [56] Rossy LA, Buckelew SP, Dorr N, Hagglund KJ, Thayer JF, McIntosh M, et al. A meta-analysis of fibromyalgia treatment interventions. Ann Behav Med 1999;21:180–91. [57] Busch AJ, Schachter CL, Overend TJ, Peloso PM, Barber KA. Exercise for fibromyalgia: a systematic review. J Rheumatol 2008;35:1130–44. *[58] Busch AJ, Barber KAR, Overend TJ, Peloso PMJ, Schachter CL. Exercise for treating fibromyalgia syndrome. Cochrane Database Syst Rev; 2002. Issue 3. [59] Munguìa-Izquierdo D, Legaz-Arrese A. Exercise in warm water decreases pain and improves cognitive function in middleaged women with fibromyalgia. Clin Exp Rheumatol 2007;25:823–30. [60] Zijlstra TR, van de Laar MA, Bernelot Moens HJ, Taal E, Zakraoui L, Rasker JJ. Spa treatment for primary fibromyalgia syndrome: a combination of thalassotherapy, exercise and patient education improves symptoms and quality of life. Rheumatology 2005;44:539–46. [61] Burckhardt CS, Mannerkorpi K, Hedenberg L, Bjelle A. A randomized controlled clinical trial of education and physical training for women with fibromyalgia. J Rheumatol 1994;21:714–20. [62] Gowans SE, deHueck A, Voss S, Richardson M. A randomized, controlled trial of exercise and education for individuals with fibromyalgia. Arthritis Care Res 1999;12:120–8. [63] Martin L, Nutting A, MacIntosh BR, Edworthy SM, Butterwick D, Cook J. An exercise program in the treatment of fibromyalgia. J Rheumatol 1996;23:1050–3. [64] McCain GA, Bell DA, Mai FM, Halliday PD. A controlled study of the effects of a supervised cardiovascular fitness training program on the manifestations of primary fibromyalgia. Artritis Rheum 1988;31:1135–41. [65] Wigers GH, Stiles TC, Vogel PA. Effects of aerobic exercise versus stress management treatment in fibromyalgia: a 4.5 year prospective study. Scand J Rheumatol 1996;25:77–86. [66] Rossy LA, Buckelew SP, Dorr N, Hagglund KJ, Thayer JF, McIntosh MJ, et al. A meta-analysis of fibromyalgia treatment interventions. Ann Behav Med 1999;21:180–91. [67] Blunt KL, Rajwani MH, Guerriero RC. The effectiveness of chiropratic management of fibromyalgia patients: a pilot study. J Manipulative Physiol Ther 1997;20:389–99. [68] Casale R, Cazzola M, Arioli G, Gracely RH, Ceccherelli F, Atzeni F, et al. Italian Fibromyalgia Network.Non pharmacological treatments in fibromyalgia. Reumatismo 2008;60(Suppl. 1):59–69. *[69] Staud R. Pharmacological treatment of fibromyalgia syndrome: new developments. Drugs 2010;70:1–14. [70] Jones KD, Adams D, Winters-Stone K, Burckhardt CS. A comprehensive review of 46 exercise treatment studies in fibromyalgia (1988-2005). Health Qual Life Outcomes 2006;4:67. [71] King SJ, Wessel J, Bhambhani Y, Sholter D, Maksymowych W. The effects of exercise and education, individually or combined, in women with fibromyalgia. J Rheumatol 2002;29:2620–7. [72] Rooks DS, Gautam S, Romeling M, Cross ML, Stratigakis D, Evans B, et al. Group exercise, education, and combination selfmanagement in women with fibromyalgia: a randomized trial. Arch Intern Med 2007;167:2192–200. [73] Hassett AL, Gevirtz RN. Nonpharmacologic treatment for fibromyalgia: patient education, cognitive-behavioral therapy, RelaxationTechniques, and complementary and alternative Medicine. Rheum Dis Clin N Am 2009;35:393–407. [74] Jones KD, Liptan GL. Exercise interventions in fibromyalgia: clinical Applications from the evidence. Rheum Dis Clin N Am 2009;35:373–91. *[75] Mease PJ, Choy EH. Pharmacotherapy of fibromyalgia. Rheum Dis Clin N Am 2009;35:359–72. [76] Sarac AJ, Gur A. Complementary and alternative medical therapies in fibromyalgia. Curr Pharm Des 2006;12:47–57.