What is chronic fatigue syndrome? A brief introduction to
Transcription
What is chronic fatigue syndrome? A brief introduction to
What is chronic fatigue syndrome? A brief introduction to chronic fatigue syndrome FINE trial therapists induction day • Severe, long-lasting (more than 6 months) fatigue for which there is no underlying medical explanation or cause • Other symptoms are usually present • Diagnosed with reference to the symptoms – there is no test • Several sets of diagnostic criteria exist (FINE is using Oxford criteria) What do we know about fatigue? • Everyone has experienced fatigue – it is a very common symptom • Like blood pressure or weight, it is not something you have or don’t have – fatigue lies on a continuum • We usually have a good idea what caused it and what to do to get rid of it • Fatigue can’t be measured directly – it is a subjective symptom • But subjective doesn’t mean “not real” • Often subjective fatigue is related to changes in performance (e.g. a runner who feels tired and runs more slowly) • But the relationship between the subjective and the objectively measurable is not 1:1 Reasons for fatigue Why do women get tired? • Associated with many medical conditions e.g. cancer, rheumatoid arthritis • Social reasons – e.g. too much work or stress • Psychological reasons – being bored, upset or overloaded with things to think about Stewart et al. 1998 - open-ended questionnaires fatigue commonly cited symptom (27.5%) • • • • • • Home/work sleep problems no time for self lack of exercise financial probs relationships 63.4 38.2 34.1 32.5 28.5 22.0 • • • • • • Emotional probs caring for others lack of support physical health child care gender bias 17.9 13.8 9.8 8.9 3.3 2.4 1 What is different about the fatigue in chronic fatigue syndrome? How can you be ill if there is no underlying cause? • It has no medical or other explanation • It is very severe, chronic, and doesn’t get better with normal management such as rest or getting out of the fatiguing situation • It is often accompanied by other symptoms such as muscle and joint aches and pains, sleep problems, concentration problems, headaches, flu-like symptoms. • It is very disabling • Distinction between disease and illness • People often have disease without illness (e.g. an ulcer with no symptoms) • People with CFS are ill but have no obvious underlying disease cause • There may be measurable changes which are thought to arise as a consequence of the illness • Medically unexplained symptoms and syndromes are actually very common How ill are people with CFS? Who gets CFS? • Komaroff et al (1996) Am J Med;101:281-9 • CFS patients more functionally impaired than patients who had recently had a heart attack, who had diabetes or high blood pressure. • CFS patients more emotionally distressed and impaired than all patients except depressed patients (c.f. MS, diabetes, MI, CHF etc) • CFS has often been associated with professional classes, middle aged people and women (hence name “yuppie flu”) • It is true that in community surveys women are more fatigued than men, but fatigue is more common in lower social classes Health & Lifestyle survey Cox et al., 1987 • Middle class people may be more likely to Percentage of people feeling tired all the time during the previous month Female male Professional, managers 27.0 17.9 Other non-manual 29.1 17.8 Skilled manual 29.2 18.6 Semi- and un-skilled manual 33.8 22.0 – find their fatigue puzzling, – attribute it to an illness cause rather than another cause (e.g. social) – consult a doctor about it – to insist on referral, diagnosis etc. • The higher rate of fatigue in women is in common with many other non-specific symptoms 2 From Euba et al., 1996, Br J Psychiatry, 168:121-6 People with a diagnosis of CFS Hospital GP % women 82 68 % social class 1 36 3 Previous psychiatric 21 74 Psychological attribution 7 58 How many people have CFS? • Prevalence depends on diagnostic criteria used, and who is sampled (population in general, people visiting GPs etc.), and how. – 1988 CDC criteria retrospectively applied, community sample 0.01% (Price et al., 1992) – British criteria, UK postal survey, 0.6% (Lawrie et al., 1995) – Fukuda criteria, UK primary care, 2.6% CFS and other medically unexplained conditions • CFS patients have elevated life-time and current rates of • irritable bowel syndrome • food intolerance and multiple chemical sensitivity • fibromyalgia • these conditions are all symptomatically defined, share common key symptoms Chronic fatigue and chronic fatigue syndrome • Fatigue is a very common reason for consulting a GP • In one recent study, only a third of people consulting their GPs with fatigue fulfilled criteria for CFS (Darbishire et al., 2003) • CFS at the extreme end of the continuum from fatigue to chronic fatigue to CFS? Prognosis of CFS – does it get better, and if so after how long? • Untreated, prognosis for adults is poor • 54-94% children recover over several years • Adults with CFS by case criteria - 10% recover fully in 3 years • Adults with CF (not CFS) 40% recover • Joyce et al., 1997, Q J Med;90:223-233 What causes CFS? • Lots of hypotheses over the years • Persisting viral infection? Muscle damage? • Some people develop CFS after a viral infection but develop after another illness or no illness • Sometimes comes on suddenly, sometimes gradually • Multi-factorial explanations Aaron & Buchwald (2001) Ann Int Med;134(2)S:868-81 3 Why do patients feel so ill? • Symptoms are real not imaginary • Although underlying disease processes have been ruled out, there are physiological changes which come about as the result of disturbed rest-activity cycles, disturbed sleep, somatic symptoms of anxiety • physiological and psychological factors interact Precipitating & maintaining factors • Researchers and practitioners have found it useful to distinguish between the factors which precipitate CFS, e.g. – – – – trauma, infection, overwork, “stress” • and those which maintain it. Maintaining factors • • • • Physiological Cognitive Behavioural Social and emotional Physiological dysregulation • There is a lot of work on the harmful effects of excessive rest on healthy people – – – – – – • The four types of maintaining factors all interact – e.g. beliefs affect behaviour, behaviour affects physiology etc. Cognitive maintaining factors • fear of activity doing damage – (catastrophic beliefs) • focusing on symptoms - hypervigilance leads to increased arousal • feeling out of control Cardiovascular deconditioning reduced exercise tolerance muscle pain (may be delayed) on activity weakness, dizziness, postural hypotension changes to body temperature regulation loss of concentration and motivation Behavioural maintaining factors • • • • avoiding activity altogether doing activity in bursts sleeping at irregular times excessive resting 4 Social and emotional factors • Social – feeling disbelieved – illness behaviour reinforced by others (e.g. some support groups – unhelpful advice (e.g. to rest excessively) • Emotional – demoralisation, depression, frustration What can be done about it? • Pharmacological & immunological treatments – antidepressants – hydrocortisone – anti-viral/anti-histamine/immunoglobulin • Behavioural, cognitive-behavioural & counselling – graded exercise therapy – cognitive behaviour therapy – guided self help including elements of above (pragmatic rehabilitation) – counselling Which are the effective treatments? • Recent systematic review of treatments for CFS by Whiting et al., (2001), JAMA,286:1360-8 • GET, CBT and PR all effective • Counselling also shown to be an effective treatment in a primary care study • hydrocortisone and immunoglobulin (? beneficial - inconclusive) • extent of effectiveness - complete return to normal, improvement - outcome measures? Patient, public and professional perceptions of CFS/ME FINE trial therapists’ induction 2 The London criteria for ME CFS and ME • ME (short for myalgic encephalomyelitis). • There are widely differing views on the relationship between CFS and ME • The “London criteria” for ME, as written by the “UK Patient Organisations (1993)” are described in the National Task Force report (1994). • Exercise-induced fatigue precipitated by trivially small exertion (physical or mental) relative to the patient’s previous exercise intolerance. • Impairment of short-term memory and loss of powers of concentration, usually coupled with other neurological and psychological disturbances such as emotional lability, nominal dysphasia, disturbed sleep patterns, dysequilibrium or tinnitus. • Fluctuations of symptoms, usually precipitated by either physical or mental exercise. • These symptoms should have been present for at least 6 months and should be ongoing. 5 • Many health professionals believe that CFS and ME are essentially the same condition • Some (but not all) patients believe that ME is a different condition • Belief in the diagnosis of ME as opposed to CFS is often associated with a firm belief in an underlying disease process (e.g. persistent viral infection, neurological damage, immunological impairment) • Because there is no test for CFS and usually nothing visible (except behavioural changes) many people, doctors and public alike, “don’t believe in it.” • What does “not believing in it” mean? The social status of “medically unexplained” illness “Please see this patient with ME. There is nothing wrong with her.” (from Wilkie & Wessely, Br J Hosp Med, 1994;51:421-7) • Physical symptoms for which there is no obvious disease process are thought to be less real than the same symptoms which can be attributed to an observable disease process • Seen as “all in the mind” and often as a sign of weakness • Symptoms not taken as seriously What it’s like to have CFS/ME What patients believe about CFS/ME • Experience many severe, chronic, unpleasant, disabling symptoms • Feeling misunderstood by doctors • Fear that something is being missed • Not a legitimate illness • A large proportion of patients with CFS/ME are also depressed or anxious or both • Most aren’t sure how it started, but after being ill for so long without an explanation, search for possible causes. • Many patients experience the illness as entirely physical, but believe that stress may have played a role in precipitating it • Many patients are afraid that if they do not rest they will do themselves further damage (Clements et al., 1997) 6 The consequences of these beliefs The role of diagnosis • There is some evidence that patients who have a firm conviction in a physical illness do less well than those who are more open in their beliefs about the illness • However, a belief in a physical cause may make a patient feel less personally responsible for the illness and therefore less distressed • Some (not all) doctors feel uncomfortable making a diagnosis which doesn’t provide a medical explanation for the symptoms, and which may turn into a “self-fulfilling prophecy” • Patients, however, are usually very relieved to receive a diagnosis as this recognises and legitimises their suffering (Woodward, Broom & Legge, 1995) The role of support The politics of CFS/ME • Personal and social support is usually helpful for people who are ill • In the case of CFS/ME, there is some evidence that being a member of an ME support group is associated with poorer engagement in treatment and/or worse outcome Chronic fatigue syndrome – levels of explanation FINE trial therapists’ induction 3 • CFS/ME is an extraordinarily controversial condition that has attracted a lot of media and other interest • The role of ME activists • Relations between ME organisations and professionals working in the field. • Minds and bodies • Levels of explanation • CFS and depression 7 • We have seen that the fatigue of CFS is, by definition, without medical explanation • This means that there is no known underlying pathology or disease process, although there may be disturbances in functioning or regulation of various bodily systems • It is often difficult to know whether changes in bodily functions (e.g. muscle weakness) are a cause or consequence of the condition The biopsychosocial model • Usually attributed to Engel (1977; 1980) • An attempt to integrate biological, psychological and social models of health and illness, and to recognise the importance of each of the different sets of factors in all illnesses Levels of explanation for a “mental” illness - depression • Biological - disturbed neurotransmitter function - pharmacological treatment • Psychological - depressive cognitions psychological treatment • Social - social conditions - social and political responses • We have also seen that this lack of a medical explanation poses problems for some patients • In our society, there is a tendency to see illnesses as either physical or psychological, either in the body or in the mind • I want to suggest that this distinction is not always very helpful Levels of explanation and a “physical” illness • To understand tuberculosis, need to know about: – the tubercle bacillus – behaviours and emotions which increase risk/susceptibility to infection, and which are associated with a worse illness course – social factors (e.g. over-crowded housing) The acceptability of explanations • Framing depression in terms of disturbed brain chemistry makes it more acceptable to sufferers than when it is described in terms of dysfunctional cognitive styles • Biological explanations are seen as more fundamental, more real than psychological. 8 Explanations and emotions • Biological factors are seen as less within the patient’s control, so patients feel less responsible and that their illness is more legitimate • Psychological factors are seen as more within a patients control and more “blameworthy” • Attribution theory in psychology • Sometime psychological explanations for aspects of illness can add to our understanding of conditions for which there is a well understood disease process (e.g. rheumatoid arthritis) • Sometimes psychological (or social or political) explanations for aspects of illness are more developed than biological (e.g. in the case of illness with no clear medical explanation). • The existence of one level of explanation does not make another level wrong; it is not either/or! How do different levels of explanation map onto each other? • Often the answer to this question is not clear, e.g. it is not easy or even possible to see how psychological events map on to physical events • Do we need to be able to answer this question to accept the “levels of explanation” approach as useful? • Sometimes we can see which level of explanation has the most explanatory power Levels of explanation for CFS • Physical: – Cardiovascular and muscular deconditioning – Disturbed HPA function – low cortisol • Psychological: – Illness cognitions and beliefs about symptoms – The role of depression CFS & depression • Patient understanding of the condition in terms of physiological dysregulation changes beliefs about the controllability, expected time line etc of the illness. • Change in beliefs may lead to change in behaviour, and change in behaviour leads to change in physiology (eg increasing fitness) • 40-70% CFS patients in specialist clinics have a diagnosable psychiatric disorder, mainly depression, also anxiety disorders (David, 1991, Br Med Bull, 47:966-88) • “…the statement that [a CFS patient] has a depressive illness is merely a statement about their symptoms. It has no causal implications.” Kendell, 1991, Lancet. 9 Do people become depressed or distressed as a result of CFS? • What are the possible reasons for the strong association between chronic fatigue and psychiatric disorders, especially depression? Are high rates of depression in CFS an artefact of diagnosis? • Fatigue is a diagnostic symptom of depression • Sleep disturbance common to CFS and depression • If discount fatigue/sleep problems in the diagnosis of depression, still have elevated rates in CFS patients (Wessely & Powell, 1989) Wessely & Powell 1989 D Katon et al. 1991 P Wood et al. 1991 P Pepper et al. 1993 P Fischler et al. 1997 A Johnson et al. 1996 D Control group Neuro-muscular CFS 72 Relative risk Controls 36 2.0 Rheumatoid Arthritis 45 6 7.5 Myopathy 41 12.5 3.3 MS 23 8 2.9 ENT & Dermatology MS 77 50 3.4 45 16 2.8 Differences in psychological symptoms in CFS and depression • Powell et al 1990 showed that people with CFS who are depressed tend to attribute their symptoms to external causes and have higher selfesteem, less guilt than people with primary depression • Moss-Morris & Petrie (2001) replicated and extended these findings and showed that specific CFS-related cognitions were associated with fatigue and disability 6 months later Endocrinological changes in CFS - cortisol Neuroendocrinological changes in CFS - serotonin • Cortisol - stress hormone - usually elevated in patients with depression; plasma and salivary cortisol at LOW levels in patients with CFS. • Cause or effect? Low plasma cortisol levels could derive from disturbed sleep and low activity levels • Link with non-specific immune activation? • Serotonin - 5HT - neurotransmitter • involved in regulation of hypothalamic functions - link with low cortisol levels? • Tests of 5HT reactivity suggest different responses in patients with primary diagnosis of depression and patients with CFS • CFS larger 5HT response to challenge test Parker et al., 2001, review of neuroendocrinology of CFS 10 • So CFS and depression overlap • On a psychological level they have many features in common, but also some differences • Some physiological changes commonly seen in depression are not seen in CFS and vice versa • Antidepressant medication is not generally regarded as very effective for CFS Contents of session • • • • • What pragmatic rehabilitation is Presenting the rationale for PR to patients The evidence for effectiveness of PR to date Why does the therapy work? How are we going to measure change in the FINE trial – outcome measures Pragmatic rehabilitation training session 1 What you should get out of the session • You should develop a clearer understanding of what PR is and what it is not • You should be able to pick out the essential features of the approach • You should be familiar with evidence for its effectiveness • You should be starting to think about what might make PR an effective treatment. What is pragmatic rehabilitation? The main components of PR • What are the essential features of the PR treatment approach? • What model of CFS/ME is embodied in the PR approach? • How is PR similar to and different from other treatment approaches? How is PR similar to and different from other treatment approaches? • Presenting the rationale to patients in a convincing way • Helping patients to devise their own plan for rehabilitation • Helping patients to stick to the plan • Reassurance, support and encouragement 11 Main aspects of the rationale • • • • Main features of the rehabilitation programme Muscle and cardiovascular deconditioning Sleep and circadian rhythm disturbance Cortisol Stress, anxiety and arousal • Must be acceptable and feasible to patient – so collaborate with the patient to set goals and activity levels • Huge emphasis on starting at a level LOWER THAN CAN CURRENTLY BE MANAGED and building up gradually • Helping patients to understand that experiencing symptoms does not mean damage is being done The patient presentation – giving the rationale for PR Starting to think about giving the patient presentation • Pauline Powell devised this to be given in a standard format. • During training, you will: • What are your first impressions? • How do you think it might be experienced by patients? • Strengths of the presentation? • Any problems which are immediately apparent? – – – – See the presentation given Learn the presentation Practice giving the presentation Learn about the research supporting the presentation The effectiveness of the pragmatic rehabilitation approach • How to evaluate effectiveness of intervention? What to compare it with? • Which outcomes to measure? • Over what period of time is intervention effective? First trial of PR – Powell et al., 2001 • Patients fulfilling Oxford criteria for CFS • Hospital clinic • Randomised to: – – – – 2 face to face sessions plus 2 phone 2 face to face sessions plus 9 phone 9 face to face sessions plus 2 phone Standard medical care with non-PR calls calls calls booklet 12 Results • On measures of both fatigue and physical functioning, one year after randomisation, all three intervention groups made significantly greater improvements than the control group • Patients meeting criteria for clinically important improvement: Group 2+2 Group 2+9 Group 9+2 Group SMC 26/37 improved 27/39 improved 26/38 improved 2/34 improved What about very severely affected patients? Was improvement maintained? • Powell et al 2004, followed patients up at 2 years • In the meantime, patients in the SMC group had been offered treatment. • Original intervention patients maintained their improvement • Original SMC patients who were now treated didn’t do as well as those treated immediately Why so effective? • Powell, Edwards and Bentall 1999 reported on 2 wheel-chair bound patients. • Both improved in terms of fatigue, ceased to use wheelchairs and were able to lead independent existences • However, they received intensive treatment (60 & 55 contacts), which we will not be able to give in FINE trial • Pragmatic rehabilitation as delivered by Pauline Powell has therefore proved to be very effective. • What might the mechanisms of action be? What happens when people get better? • What are the similarities and differences between the previous trial of PR and the FINE trial? • What effects might these similarities and differences have? A reference Consolidating this week’s work • A useful reference about randomised controlled trials is • Randomised controlled trial. A user’s guide. By Aljandro R Jadad. Published by the BMJ, 1998, can be read online at www.bmjpg.com/rct 1. Re-read the patient presentation, think about delivering it, and note down any questions you may have about it, which you might want to raise at subsequent training sessions. 2. Please each write for me, individually, a 500-word position piece entitled “Pragmatic Rehabilitation for CFS/ME: what it is and why it works.” Please email to me and I will return it to you with comments. Please reference fully (references don’t count towards word-limit). 13 Preparation for next week • In preparation for observing the patient presentation thoroughly read chapter 2 of the PR therapist manual,. • To prepare for the taught session read the abstracts of the papers listed in the “deconditioning” section of the reading list. If you have time, you can read the full papers. • When you read, always note any questions or problems, and ASK about them at the next session! Pragmatic rehabilitation training session 2: Deconditioning: the Physiology Contents of session What you may get out of the session • What is deconditioning? • What are the effects of deconditioning on: Muscle function Muscle pain Effort during exercise Circulation Psychological functioning • What does the patient experience and what are the consequences? • How might deconditioning be reversed? What is deconditioning? • • • • How does deconditioning develop? How quickly does it develop? Who is at greatest risk? What patterns of inactivity are seen in CFS patients leading to deconditioning? • In what other conditions do we see deconditioning? • You should develop a clearer understanding of what deconditioning is and what it is not. • You should understand and then learn the physiological effects of inactivity. • You should be familiar with evidence for the physiological effects of inactivity. • You should understand and interpret how inactivity could lead to symptoms and other consequences for the CFS patient. • You should understand how deconditioning may be reversed. Effects of inactivity on muscles • Reduced strength in 2-3 weeks, one month bedrest (what ever the cause) leads to 10% muscle wasting, 4 months muscle fibres replaced by fat and non-muscle fibre. • Bedrest followed by exercise leads to lactate build-up, less efficient muscle metabolism and greater risk of muscle pain • Disuse of skeletal muscles working against gravity with bed rest (back,neck, limbs) • What is the patient likely to experience? 14 Effects of inactivity in CFS • Normal muscle force and physiology which papers show this? • Muscle histopathology - all can be explained by disuse and change from aerobic to anaerobic muscle metabolism (decreased mitochondria). Which papers show this? • Athletes with greater type 1 muscle more quickly prone to deconditioning. • No muscle dysfunction, disuse leads to reversible muscle changes. Increased sense of effort during exercise • In CFS, increased effort straight away with exercise unlike healthy. • Sensitive to skin & muscle tenderness (sensory) & also feedback from muscle. • Normally movement is automatic but CFS patients consciously take over processes that are automatic (fear of consequences). • Lose balance, co-ordination, do not relax antagonistic muscles. • What are consequences for symptoms and exercise tolerance? Inactivity and Circulation cont. • As a result - hypotension (low blood pressure) on changing position (orthostatic) - Increased heart rate on changing position - Increased adrenaline/autonomic nerve - Heart beats faster - Excess stimulation of receptors monitoring change in blood pressure in heart . -Low heart rate, more venous pooling -Neurally mediated hypotension. Delayed muscle soreness • Unaccustomed exercise can lead to eccentric muscle tension - each muscle fibre lengthens and produces higher tension than normal contraction (muscle shortens). • Uneven contraction leads to microtrauma at muscle attachment to tendon with oedema & tenderness, peak 48 hours later. • How might physiology be related to CFS symptoms? • Which exercise is likely to do this and what are implications for treatment? Inactivity and Circulation • Significant headward shift of body fluid • Reduced plasma volume - blood returns centrally leading to passing more urine • Increased venous pooling in lower limbs (lack of muscle pump from exercise) • Decreased blood volume and red cell mass so reduced oxygen carrying capacity • Decreased responsiveness of receptors in neck that monitor blood pressure when changing posture. Symptoms of Neurally Mediated Hypotension • What symptoms might low blood pressure together with low energy metabolism (from lack of muscle activity) cause? • The increased activity of adrenaline /autonomic nervous system has other undesirable effects. What other symptoms might be seen? 15 Other consequences of cardiovascular deconditioning Therefore • In young healthy people, cardio decond. starts after 4 days & 3 weeks of bedrest, 20% reduction in aerobic exercise capacity takes 5-10 weeks of conditioning to recover. • 3-4 weeks bedrest reduced diameter of heart but heart still healthy in CFS so can recover. • Reduced responsiveness of autonomic nervous system in CFS, not permanent. • Fit people lose aerobic work capacity with inactivity more quickly • Inactivity due to bed rest/chair rest produces real physical changes in the body in people with CFS and in healthy people. • None of the changes in the body produced by inactivity in CFS are permanent or indicate damage. • Even after many years, the changes in the body due to inactivity can be reversed through gradual conditioning but they take time. Psychological consequences of deconditioning Emotional consequences of deconditioning • Isolation and confinement in fit subjects monotony of bed rest reduces central nervous system function & increases stress. • Sensory deprivation leads to decreased alertness, decreased tolerance of temperature regulation, inaccurate time estimation, reduced muscle co-ordination (making fine adjustments). • Forced dependency, loss of self-worth, loss of sources of emotional gratification. • Irritability, withdrawal, depression, emotional lability, anxiety, stigma, shame, dependency, childlike emotional outbursts, increased or reduced help seeking. • Emotional response to confinement depends on degree of sensory deprivation, personality, coping responses of individual, limitation in activity and isolation. • What are the implications for treatment? Summary of the Mechanisms by Inactivity Cause CFS symptoms • Decreased muscle strength (atrophy) generally & weight bearing muscles espec. • Change to less efficient and less endurance muscle function • Decreased metabolism • Delayed onset muscle soreness • Increased sense of effort during exercise • Neurally mediated hypotension • Increased autonomic activity • Sensory deprivation and emotional effects. Summary of Inactivity continued • Effects of inactivity start within 4 days of chair rest and are marked by 2-3 weeks. • Inactivity affects previously physically fit more severely and more quickly. • Emotional and sensory deprivation effects are worse in psychologically vulnerable, more confined and isolated. • All body changes in muscle and circulation CFS appear to be due to inactivity. • All are reversible with gradual increases of aerobic conditioning over at least 3 months. 16 Summary of Inactivity continued • Are there any CFS symptoms not explainable by inactivity? What are they? • Do you find these explanations plausible? • Imagine how the message that CFS is partly caused by inactivity leading to real physical and emotional changes but with effort these can be reversed might sound to a CFS patient. Is this helpful or are there unhelpful aspects to this message? Consolidating this week’s work 1. Re-read pages 30-41 of the therapist’s manual. Write out all the mechanisms that are covered and how you would explain each one to a patient with CFS. Identify the relevant sections of the patient manual and check that your understanding fits with the explanation in the manual. 2. Write down any questions you may have about the mechanisms, which you might want to raise at subsequent training sessions. 3. Learn your explanations in time for your first practice patients Contents of session Pragmatic rehabilitation training session 3 Designing and carrying out Conditioning/Graded Exercise • Identifying activities of the CFS patients • Fears of CFS Patients about Exercise • Giving the treatment rationale for graded exercise • Designing the graded exercise programme • Goal Setting • Overcoming Fears of Exercise • Reviewing Progress • Trouble shooting problems • Bed/wheelchair bound & other difficulties What you may get out of the session • You should be able to identify patterns of activity of CFS patients. • You should be able to deliver a treatment rationale for graded exercise. • You should understand the principles of devising a graded exercise programme based on your understanding of deconditioning. • You should be able to overcome patient fears about graded exercise and set goals. • You should know how to approach bedbound/chairbound CFS patients. Patterns of activity in CFS • There are two main patterns of rest/activity in CFS: Avoidance “Boom and Bust” - complete rest followed by frantic activity to make up for time lost through rest. • Why would “Boom and Bust” not work? • How would you establish their activity/rest pattern? 17 Fears about exercise in CFS • Many CFS patients are fearful about exercise through their own experience of symptoms following exercise. • It is no use denying their experience of symptoms after exercise. • Many patients believe that post-exertional symptoms indicate they are harming their body so they worry & limit their activity. • Many delay exercise until post-exertional symptoms wear off (“Boom-Bust”). Overcoming fears about exercise • How might you go about this in someone who is ambulatory with CFS? • Think about the explanation you give. • Think about the level and type of exercise you give • Think about the support they might need Why the thought of any activity plan may worry CFS patients Why is gradually increasing activity plan important? • “Past experience may have told you that activity worsens your symptoms” • “You may have struggled with activity plans and got nowhere with them” • “You may not feel motivated -prolonged activity increases fatigue when exercising” • “You may have daily commitments that need your limited energy” • There is no persistent virus, muscle disease or damage • Activity or exercise cannot harm • Muscles need regular exercise to work efficiently and without pain • Periods of rest or irregular activity over months & years leads to deconditioning • Severity of CFS symptoms depends on amount of regular activity since start of CFS Safest level of exercise to start First experiences of activity plan • Start activity at level less than capable of • If activity = present stamina, difficult to do activity plan & daily tasks, & become overwhelmed by symptoms • Like athletes do not expect full potential in 1st weeks of training- build up over months • As stamina and fitness increase muscle pain and fatigue will disappear • Increases in daily activities should be timed and gradually increased to sustain progress • An increase in physical symptoms may occur - symptoms of deconditioning: dizziness, breathlessness, sweating, palpitations, fatigue, later muscle aches • Thoughts about these symptoms importantfear leads to extra symptoms (adrenaline) • Increase in symptoms temporary and as fitter, symptoms of deconditioning lift • Rest in sitting position for 30 min after exercise - why not rest lying down? 18 Which exercise? • • • • Realistic and enjoyable Performed several times per day Performed every day Aerobic exercise to increase breathing & heart rate: standing sessions, walking, stair exercises, exercise bike, dancing, jogging, • Depends on deconditioning & daily living commitments • Increase timing of activities in controlled way • CFS patients overestimate their fitness Exercise Bike • Most popular method- in control, at home, all weathers • 5 pedals am and pm • Next day 10 pedals am and pm • Next day 15 pedals am and pm • Increase 5 pedals am & pm per day, 1st wk • When 60 pedals am and pm, time & add 5 sec each session (+ 5 sec am, + 10 sec pm) • 3rd week add 7 sec each session • 4th week add 10 sec each session • 5th week add 15 sec each session • Add 5 sec per session - increase steadily Walking Stair Exercises • Walk at normal speed - balance lost when walking very slowly • Time amount of walking can do safely • e.g. 15 seconds in house am and pm 1st day • Next day 20 seconds am and pm • Next day 25 seconds am and pm • Increase 5 seconds am & pm per day, 1st wk • 2nd week increase 10 seconds am and pm per day if confident. • When confident increase 20 or 30 seconds per session • Stair exercises stimulate the cardiovascular system & working different sets of muscles. Combination of Exercises Advice from Recovered • Frequent stimulation of cardiovascular system is very beneficial • Some patients prefer to add walking, dancing, jogging standing or stair exercise + two daily exercise bike sessions. • Take enough rest between activities. • Not recommended for patients with knee problems • Add this to other aerobic activities, not stair exercises on their own • Start with climbing one stair am, pm • Next day 2 stairs am and pm • Next day 3 stairs am and pm etc • • • • • • • Get up at set time in morning (8-9 hrs sleep) Plan day before getting up Priortise tasks as necessary Decide essential tasks/reg aerobic activity Follow activity by restful relaxation in chair Balance rest and activity through the day Break down household activities into small amounts • Try not too rest too much on a bad day (a gentle walk can help reduce symptoms) 19 How much aerobic exercise? What to do on a bad day • Number of aerobic exercise sessions depends on each patient’s circumstances • Aim 4 x 15 min aerobic sessions over day • Then 2 x 30 sessions of differing exercises • Swimming and aerobics can be added • After symptomatic recovery 30 min of enjoyable physical activity of moderate intensity. Minimum of 3 times a week. • Record progress in activity diary - focus on achievement and symptoms will subside • Bad days with increased physical activity, mental stress & infection • Increase in physical or mental exertion will increase autonomic nervous system/ adrenaline activity - overwhelming sx • If possible on bad day do same amount as day before but no more. No harm will occur • After bad day, increase on next good day • With time, break up activities with rest over day so decrease in frequency of bad days When ill • Set targets to match level of disability • Lying flat in bed most of time, prop up with a few pillows 5 min/2 hours, then increase. • In bed move feet or hands in circular motion 1-2x in 2 hours to increase strength of weight-bearing muscles. • Lift arms over head/legs over side of bed 5 sec every 2 hours • Go to bathroom, spend few seconds sitting over side of bed, out of bed or standing • Dizziness, nausea, palpitations once head above heart in those used to lying flat Working with non-ambulatory • Infection with a temperature, reduce exercise level so pottering around • Avoid lying down to rest or sleeping in day. • When temperature subsides, start activity again at reduced amount • e.g. if cycled for 3 min, start at 15 sec and increase by 15 sec until reach 3 min and then resume previous rate of increase • e.g. if cycled for 10 min, start at 2 min and increase by 1 min until reach 10 min, then resume Standing • Not used to standing, muscle pumps in legs idle - less blood returns to heart & brain • What symptoms occur? • Need to build up standing in those who are non-ambulatory. • Severely affected, hold onto chair for 5 sec • Increase by 5 sec each day or am/pm depending on deconditioning • Use household activities involving standing & increase duration in controlled manner • Exercise once no symptoms with standing Name benefits of exercise • • • • • • • Effects Effects Effects Effects Effects Effects Effects on deconditioning symptoms on accurate sensory information on sleep on hormones on mood, anxiety, mental stress on withstanding physical stress on intellectual functioning 20 Summary of Activity Plan Summary of Activity Plan cont. • Plan day balancing activity, rest, essential tasks, relaxation - “do something little and often” • Keep activity diary to keep to target activities • Choose aerobic activity 2 x/day or more often • Start level well below level of physical ability • Increase activity in controlled gradual way • On good days, do not do too much • On bad days, try to do same as day before • Symptoms may at first increase, keep to target and symptoms will get less. • Symptoms do not mean harm • Tackle anxiety about exercise - anxiety increases autonomic/adrenaline release increasing symptoms • If necessary start at lower level of activity • Aim for 1 hour different aerobic exercise per day, at first in divided activities, then 2 x 30 min • Very severe, lie propped up for increasing time with exercise in bed, then sit over side of bed, then standing- at each stage dizziness, nausea, palpitations Consolidating this week’s work 1. Re-read the patient presentation and patient manual about designing an activity plan , think about delivering it, and note down any questions you may have about it for subsequent training sessions. 2. Please design for me, individually, 3 activity plans: 1. Someone who potters in the house doing light house work in short periods for 2 hours/day 2. Someone does as 1 same plus goes out to take child to & from school, & shops in car 2 x/week 3. In bed all day except to wash/toilet, sits out to read/eat with family once per day. Preparation for next week • To prepare for the taught session read the abstracts of the papers listed in the “sleep, body clock, cortisol and anxiety” sections of the reading list. If you have time, you can read the full papers. • When you read, always note any questions or problems, and ASK about them at the next session! Contents of session Pragmatic rehabilitation training session 4 Sleep, body clock and cortisol • Understanding biological rhythms and the body clock • Sleep-wake cycle • Desynchronisation of body clock • Evidence of desynchronisation of body clock and sleep-wake cycle in CFS • Cortisol and HPA axis • Serotonin and noradrenaline • Neuroendocrine abnormalities in CFS • Immune system and CFS 21 What you may get out of the session • You should understand the body clock and biological rhythms such as sleep-wake cycle • You should understand the concept of circadian desynchronisation • You should know the evidence for circadian desynchronisation in CFS • You should understand how the HPA axis works & HPA dysfunction in CFS • You should know about serotonin and noradrenaline function in CFS • You should know about the immune system in relation to CFS Biological rhythms & body clock • Biological rhythms occur in everyone, over 24 hours (circadian) and over other time periods e.g. 28 days in women. • Daily rhythm such as sleep-wake cycle is internally driven. What is evidence? • However external factors e.g. light and dark can also influence daily rhythms such as sleep-wake cycle. Why? • Body clock driving sleep-wake cycle located in hypothalamus (SCN) Synchronisation of body rhythms Alertness • Without external cues, circadian rhythms would run 25 (range 22-28) hours (most people would sleep & get up later & later) • External cues, called synchronisers or time givers, keep circadian rhythm to 24 hours • Synchronisers are light & dark, temperature, clocks, TV, radio, & regular lifestyle e.g. work, activity, meals, social • Circadian rhythms include sleep-wake cycle, alertness & tiredness, concentration, eating,body temperature, HPA axis • Primed in day, part shut down at night • Brain is most alert in morning, late afternoon & early evening • Brain is least alert at night/early morning and early afternoon (most accidents due to driver sleepiness occur 2 am and 2pm) • Most of us could easily fall asleep for couple of hours 2-4pm. Most common time for daytime nap in CFS • Little evidence that sleep at these times improves alertness and reduces fatigue later in CFS patients or anyone else Desynchronising body rhythms Desynchronising body rhythms 2 • If external cues or synchronisers change, body clock may become desynchronised with normal 24 hour cycle • Symptoms occur if body clock becomes desynchronised with 24 hour cycle (“phase shift” in peak & nadir activity in circadian rhythms) • Symptoms of desynchronisation of body clock include: malaise, headaches, muscle aches, concentration & alertness, loss of appetite, bowel disturbance, fatigue in day, inability to sleep and poor sleep at night • We can relate to desynchronisation of body rhythms through jet lag & night shift work • Not everyone experiences symptoms of desynchronisation e.g. 1/3 not affected by transatlantic flight, 1/3 badly affected • Depends how well body clock readjusts strength of new synchronisers, personality (neurotic, introverted worse), emotional distress/mental disorder, “lark” or “owl” • Temperature of lark (morning people) peak earlier than owl- larks more affected by sleep disrupted by night work, day sleep 22 Bed rest and body clock • Both disrupted & excessive sleep for 2 hours or more/day for 7 days in sedentary subjects - symptoms of desynchronisation • Sleep disrupted in 60% subjects on bed rest for 2-3 days or more. • >90% subjects sleep disturbance, fatigue & desynchronisation after 3 weeks bed rest • Bed rest leads to desynchronisation by: a) reduced external cues (light, activity etc) b) inactivity and lack of gravity c) emotional (dysphoria, anxiety etc) Structure of sleep • 5 stages of sleep: Stage 1 - Drowsy, not properly asleep Stage 2 - Proper light sleep Stage 3 - Deep sleep Stage 4 - Very deep sleep Rapid eye movement sleep - dreaming, psychological restoration Deep sleep - repairs body (growth hormone) • In CFS, sleep more fragmented, less deep sleep, more muscle movement - less refreshing, more muscle ache, pain Desynchronisation and CFS • Many cardinal symptoms of CFS overlap with those of desynchronisation e.g. fatigue, impaired alertness & concentration, muscle aches, headaches, bowel disturbance • Desynchronisation also causes increased subjective effort with workload & disturbed HPA axis in night shift workers • Not all circadian rhythms desynchronise and resynchronise at exactly the same time • In CFS, disrupted sleep patterns (Morriss et al, 1993), disrupted circadian disturbance & disturbed HPA axis like shift workers Sleep-wake cycle and CFS • 90% CFS patients have 2 hours or more disrupted sleep - most commonly in the middle of the night but also at beginning • Some CFS patients have muscle jerks and excessive daytime sleepiness - often complications of CFS • Waking in sleep often occur because of muscle pain or extremes of temperature • Most sleep disturbance in CFS may not be clinically important but marked sleep disturbance and daytime rest needs treatment Sleep-wake cycle and CFS 2 • Fulcher and White (1996) showed that graded exercise was effective only if marked sleep-wake disturbance was treated • Marked sleep-wake disturbance: Impaired alertness/napping in day Disrupted sleep with muscle jerks (ask partner, bedclothes off) No regular or late bed & waking times • All above more important if muscle aches, headaches, bowel disruption, temperature disturbance, dysphoria together Purpose and Function of HPA Axis •Multi-system stress responses normally protect the body but can also damage it •Glucocorticoids e.g. cortisol are end product of HPA axis involved in every organ system and physiological network •Longer term adaptive changes are required for an individual to respond successfully to changes in internal state or environment ALLOSTASIS 23 Internal & external cues to HPA HPA AXIS CORTEX-5-HT, NA HYPOTHALAMUS-CRH PITUITARY-ACTH ADRENAL CORTEX-CORTISOL Cortisol, stress & inactivity • Response to stress- promotes release of adrenaline, improves resistance to stress & switches off body’s reaction to stress • Low cortisol will lead to late & weaker response to stress, & damage to body because adrenaline etc not switched off • Cortisol prevent exaggerated inflammatory responses, prevent too much water excretion, allows blood vessels to react to adrenaline & stimulates brain activity • Low cortisol increases effects of inactivity Treatment of HPA axis in CFS • 3 RCTs of corticosteroids - only 1 improved CFS, other 2 showed no benefits on fatigue • Aerobic exercise and correction of circadian rhythms reverse HPA axis abnormalities • Low functioning HPA/low cortisol not specific to CFS - seen in fibromyalgia and atypical depression but most depression increased cortisol. • 75% cortisol released between 4-10 am, tied to sleep-wake cycle + bursts at meal times • Cortisol switches on alertness, metabolic processes, & response to stress to begin day • Cortisol is released in response to stress • Evening cortisol increases and morning cortisol decreases in response to perceived stress, anxiety and depression in healthy • Stress, anxiety and depression - weaker switch on alertness,metabolism and energy release and response to additional stress Cortisol and CFS • 50% CFS subjects show low cortisol levels. • Reduced response of ACTH to CRH and increased cortisol response to ACTH reduced HPA responsiveness to stress • 42 similar symptoms between CFS and conditions with low cortisol • 30 days bedrest and night shift work will lead to same HPA abnormalities as in CFS • HPA axis disturbance perpetuates CFS sx • Reduced vasopressin/CRH associated with neurally mediated hypotension in CFS Serotonin (5-HT) and CFS • 5-HT innervates biological clock (SCN) nuclei) & release of CRH in HPA axis. • 5-HT associated with mood, sleep, appetite, temperature reg, pain, memory & fatigue • During prolonged exercise, muscles use branched-chain amino acids allowing more tryptophan into brain to make serotonin • Higher levels of 5-HT improve mood & muscle pain but increase fatigue (reduced exercise time with SSRI antidepressants) • In 4 RCTs, SSRI antidepressant fluoxetine improved mood but no effect on fatigue • No role for antidepressants except for mood 24 Noradrenaline and CFS Immunology and CFS • Noradrenaline is another brain neurotransmitter like 5-HT • Central nervous system, endocrine system (HPA axis) and immune system interact to keep body in order (homeostasis) • Normal amounts of noradrenaline in CFS at rest • Life stress, dissatisfaction with relationships can lead to increased risk of infections, reactivation of activities of herpes viruses • Under mental stress, increased noradrenaline release in CFS versus controls • However, no evidence of increased infections or any specific abnormal immune response in CFS Summary 1 1. Body clock (located in SCN, hypothalamus) controls biological rhythms 2. Circadian rhythms normally run for 25 hours (some less than 24 hours, most more) so people will go to bed later and later if nothing to get up for 3. External cues (day light, social, work, meals) synchronise circadian rhytms to 24 hour clock 4. Examples of circadian rhythms - sleep-wake cycle, alertness and tiredness, concentration, eating, temperature control, HPA axis 5. Symptoms of desynchronisation are like jet lag: malaise, muscle aches, headaches, daytime loss of alertness, poor sleep & appetite, bowels disturbed Summary 2 • • • • • Summary 3 Disrupted and increased sleep for > 2hrs/night for 7 days in sedentary produces desynchronisation sx Disruption of sleep affects people who normally function best in morning worse Bed rest disrupts sleep after 2-3 days After 3 weeks >90% experience desynchronisation sx - reduced external cues, inactivity & emotional effects People decrease alertness in early afternoon but sleep then is non-restorative for alertness/fatigue Summary 4 • Most sleep disturbance in CFS does not require specific treatment • • Sleep disturbance stops graded exercise working: Sx of desynchronisation + a) Impaired alertness/napping in day b) Sleep disrupted by muscle jerks c) No regular or late bed & waking times • • • 50% CFS have low or sluggish cortisol responses not specific to CFS, weaker reponse to stress, slower metabolism, increase inactivity sx No benefit from replacing cortisol - corrects itself with graded exercise and synchronising body rhythms No consistent evidence of serotonin, noradrenaline or immune systems and fatigue in CFS Antidepressants only help mood and muscle pain. Otherwise no use in CFS 25 Contents of session Pragmatic rehabilitation training session 5 Sleep, cortisol, circadian rhythms; the rationale for treatment & goal setting • Explaining the body clock & biological rhythms • Assessment -body clock desynchronisation • Resetting the biological clock • Explaining about cortisol • Practice assessment - effects of inactivity and body clock desynchronisation • Deciding on priorities - inactivity, body clock desynchronisation, emotion What you may get out of session Explaining body clock • You should be able to explain the body clock & biological rhythms • You should be able to assess someone with body clock desynchronisation • You should be able to design a care plan to reset the biological clock • You should be able to explain about cortisol • You should be able to assess and know how to treat effects of inactivity and body clock desynchronisation when both are present • What body functions are under control of a daily body clock? • How are these body rhythms controlled? • How are these body rhythms related to a 24 hour cycle? • If body rhythms are not synchronised with 24 hour cycle, what symptoms and effects on body will appear? • What normal experiences are the symptoms of desynchronisation like? Sx of desynchronised body clock Body clock and cortisol • Brought on by: a) jet lag b) disrupted night sleep (>2 hrs, 7 days) c) excess sleep (>2 hrs, 7 days) d) bed rest ( from 2-3 days, 3 weeks >90%) • Body clock desynchonisation disrupts cortisol secretion & responsiveness of HPA a) Switches on metabolism in morning so how will body feel? b) Prepares body to cope with physical stress, mental stress and exertion so what will happen? c) Regulates immune system • Who is affected more by these? • How do we know this? 26 Sleep disturbance in CFS • Around 90% subjects have symptoms of sleep disturbance at night • What symptoms do these CFS patients complain of? • What might one see on a sleep EEG in CFS patients? • In around 33% CFS patients, sleep disturbance will cause added disability, added CFS symptoms and will prevent graded exercise from working Disrupted sleep-wake cycle • Naps in day (usually early afternoon when actually asleep but bed rest may be all day) • Sleep disturbance with muscle jerks kicking, hitting, bed clothes all over (note restless legs syndrome) • No regular waking and bedtime • Late waking and bedtime (bed after midnight, gets up mid or late morning or later) Create a quality sleep pattern • Re-establish sleep cues. How? • Drop unhelpful sleep habits. What are these? • If you succeed, what will you notice? • What will happen to your cortisol? Which CFS patients require sleep-wake cycle treatment • Recognise sx of body clock desynchronised - remember jet-lag - a) to e) together: a) impaired alertness (drowsy not just tired) and attentional capacity b) poor quality sleep - not refreshed c) muscle aches, stiffness and headaches d) poor appetite and bowel disturbance e) effort ++ after both physical & mental exertion • Look for signs of disrupted sleep-wake Explaining why naps are bad • Sends disruptive signal to your body clock throwing out normal body rhythm so sx • Deep sleep in day reduces night time deep sleep, resulting in unrefreshing sleep & wanting to sleep in day - vicious cycle • Sleeping or resting in day means body is inactive contributing to effects of deconditioning • Naps reduce cortisol response of body so less energy, & body copes less with stress, mental & physical activity, or infection In morning • Build regular cues to morning routine • Routinely use alarm clock • Expose body to bright light - draw curtains or turn on light. Why? • Get up same time each morning, no matter what time fell asleep last night • Resist temptation to sleep in late if had a bad night - interferes with next night’s sleep • Eat breakfast • Experiment. Get up early regularly for 7 days, then usual pattern of staying in bed. Rate fatigue morning, afternoon, evening and sleep at night Aerobic exercise to increase breathing & heart rate: standing sessions, walking, stair exercises, exercise bike, dancing, jogging, • Depends on deconditioning & daily living 27 If patient unconvinced • Experiment. Get up early regularly for 7 days, then usual pattern of staying in bed. Rate fatigue morning, afternoon, evening and sleep at night (1-10 scale). • Are there any differences? If not, then why not get up and make more of day? • If patient struggles to motivate themselves to get up, look for signs of depressed mood. • Depression worse in morning - loss of interest & motivation, pessimism, sadness/weepiness etc. May need treatment Changing morning pattern • If patient convinced, not depressed and finds change difficult, a) set alarm clock and get up 1 hour earlier than last week b) get up 1 hour earlier each week until in bed for only 8-9 hours/night (healthiest pattern in terms of mortality 7-8 hrs sleep) • For first 2-3 days, resetting body clock may increase fatigue but this will pass with persistence In the day If unconvinced • Napping becomes a habit • Plan you day so that short periods of activity are followed by 30 minutes rest in chair - this will allow the body to recover so need for sleep in day which will have no benefit or worsen symptoms can do safely • At times when normally nap, distraction e.g. talking to friend or relative (in person, phone, chatline), doing a task, gentle exercise, go outside • If necessary, reduce daytime sleep by one hour per day for 7 days, then a further one hour for 7 days • Experiment. Stay awake through nap time for 7 days (minimum - why?). Rate fatigue and alertness at usual time of nap, 2-3 hours later, evening and quality of sleep, and fatigue and alertness in morning. Repeat when goes back to napping pattern • If no difference, why not stay awake in day and make more use of the time. In evening In evening continued • Get into relaxed and predictable bed time routine • Slow winding down process before going to bed at night • Do all essential activities through daypriortise - do not leave them to do last thing • Do not go to bed with your troubles. Write them down, leave them to the morning when less tires (best level of alertness in late morning after morning cortisol surge) • Avoid vigorous exercise before bed • Avoid stimulants with caffeine, xanthine, nicotine,e.g. coffee, tea, chocolate, coca, cigarettes + • Avoid more than 1 alcohol drink- wakes up in night (not just to urinate) • Milky drinks, decaffeinated drinks • No large late snacks or meals • Warm bath, soothing music, tv, light amusement, relaxation tape, massage • Go to bed at same time • Body clock recognises signs of bedtime routine and synchronises itself to routine 28 Night • If do not sleep, then lying relaxed will rest and promote recharging of body energy and synchonisation of body clock • Body will sleep if it needs to - do not worry • Promoting sleep- relaxation exercises, breathing exercises (valsalva - breath out 6 sec, breath in 4 sec, slows heart etc) • Keep bed for night sleep and activities associated with sleep • Rest in chair by day in a different room. Why? • Avoid temptation for day time sleep or sleeping tablets- rebound bad night’s sleep Assessment continued • When would inactivity be first target of care plan? • When would body clock desync become first target of care plan? • When would emotional issues become first target of care plan? • If all 3 of these issues need to be tackled, what will influence your decision to start with one target over another? • See case studies 1 and 2. Assessment- deconditioning, body clock desynchronisation, emotion • What are the symptoms of deconditioning on muscles, metabolism, circulation, autonomic nervous system? • How might deconditioning affect exercise capacity, sensory deprivation, emotion • What are the symptoms of body clock desynchronisation? • How might body clock desync. affect exercise capacity, mental capacity, stress repsonse, cortisol, metabolism, immunity? Summary of body clock session • Recognise symptoms of body clock desynchronisation and sleep-wake disturbance • Explain need to reset body clock, regular waking time, avoid naps- regular activity with chair rest in day, regular gradual bedtime routine • Not sleeping at night is not harmful if resting for 8-9 hours - body will sleep if it needs to • Demonstrate through experiment need to reset body clock- regular waking, not napping • Consider depression • Assess -inactivity, body clock, emotion Consolidating this week’s work 1. Re-read the patient presentation and patient manual about resetting the biological clock, think how you would explain this and set out to reset the body clock, not down any questions you may have about it for subsequent training sessions. 1. Please complete the care plans for the 2 case studies that were introduced in this session. Preparation for next week • To prepare for the taught session read the abstracts of the papers listed in the “anxiety, hyperventilation, depression and coping” sections of the reading list & treatment manual. If you have time, you can read the full papers. • When you read, always note any questions or problems, and ASK about them at the next session! 29 Contents of session Pragmatic rehabilitation training session 6 The somatic symptoms of anxiety. Hyperventilation • • • • • Aims of session Terminology Psychological approaches to stress and anxiety Stress and anxiety in CFS patients Physiology of stress and the somatic symptoms of anxiety • Health anxiety and panic • Hyperventilation What you may get out of the session • You should be able to outline the working of the sympathetic adrenal medullary (SAM) response system • You should be able to describe the somatic symptoms of anxiety • You should be familiar with the thoughts (cognitions) that are associated with health anxiety and panic • You should be able to describe the mechanisms and consequences of hyperventilation The transactional model of stress Before we start, some terminology • Stress, arousal, anxiety • Need to find a term that is acceptable to patients • Also … when reading papers, be aware that – Adrenaline= epinephrine in the US – Noradrenaline = norepinephrine in the US Stress-appraisal-coping • The word “stress” is used to mean various things •Potential stressor •Primary appraisal •"Is this threatening?" – Stressors (stimuli) – The stress response • Different people react differently to the same stressors (e.g. marriage breakup) • Stress response occurs when person encounters a situation which is appraised as threatening, and when they do not have the resources needed to overcome (cope with) the threat •Yes •No •Secondary appraisal •"Can I cope?" •No stress •No •Yes •STRESS •Coping •Is my coping effective? •NO - STRESS •YES - no stress 30 Anxiety • Psychological symptoms – Fear, dread, agitation, worry • Somatic symptoms – Shaking, heart racing or pounding, nausea, dry mouth, sweating, tension headache, irritable bowel • Anxiety disorders What CFS patients say about stress • Surawy et al. (1997) found that many CFS patients recognise “stress” as contributing to their illness. • CFS patients and their significant others describe patients as being over-active, striving, perfectionistic prior to illness. – GAD, panic and phobic disorders, health anxiety disorders and hypochondriasis Anxiety and anxiety disorders in CFS • Although depression and anxiety are common in CFS, only a minority of patients would fulfil diagnostic criteria for anxiety disorders. • But patients may still be very anxious in response to – Not understanding their symptoms - health anxiety – Not being able to function as before - job, finance, domestic worries. – Feeling disbelieved and misunderstood may affect social interactions - worries about relationships • Note, in people with primary anxiety disorders, “exhaustion” is 2nd most common symptom. (Angst et al., 1985) Neurotransmitters • Communication between nerve cells - also between nerve cells and other cells (e.g. in muscles or glands) • In most cases, across junctions, or synapses, where two nerves meet but do not touch • Neurotransmitters are chemical messengers which alter permeability of membrane at synapse – can have excitatory or inhibitory effect The nervous system • Central nervous system – brain, spinal cord • Peripheral NS – nerves connecting CNS with all other arts of body, organs, glands, muscles • Peripheral NS subdivided into – Voluntary (or somatic) NS (skeletal muscles) – Autonomic NS – not under conscious control, regulates bodily functions e.g. digestion, temperature regulation – Roles of VNS and ANS overlap (e.g. in breathing) • Autonomic NS divided into – Sympathetic (generally, dominant in aroused states) – Parasympathetic (generally, dominant in relaxed states) The stress response • Threat identified (requires cognitive processing) • Emotional responses generated in limbic system of brain • Hypothalamus activated – controls HPA and SAM response systems, body’s 2 stress response systems • SNS releases neurotransmitter noradrenaline to activate bodily organs • Fight or flight • Noradrenaline generally excitatory effect • Link between psychological and physiological 31 The SAM stress-response system • Broadly speaking, SAM activated quickly in response to immediate threat. • Additional mechanism is release of adrenaline (from adrenal medulla) into blood stream • Thus SAM is under control of both SNS and adrenal glands What are the effects of the release of adrenaline into the body? • Widespread effects. • Function of stress response is to provide oxygen and energy (via blood) to brain and muscles. Huge cardiovascular response – Heart beats faster and harder to increase output by up to 5 times – Tiny muscles around blood vessels, innervated by SNS, contract; blood vessels constrict to deliver blood faster – Blood pressure raised Other symptoms associated with more long term, lower level, arousal & anxiety • Stomach muscles are affected – feelings of nausea, stomach pain, or even vomiting • Altered blood flow to bowel can affect passage of food • Adrenaline affects muscles in bowel wall, causing muscles to contract abnormally • Both of the above can lead to altered bowel habits – diarrhoea, constipation, irregularity, pain, bloating. The adrenal glands • • • • Two of them! One on top of each kidney Each with two distinct functional zones Inner medulla directly innervated by SNS and when activated releases adrenaline into blood stream • (Outer adrenal cortex involved in HPA system, as you may have learned last week) More effects of adrenaline on body • At same time, blood flow to non-essential (for fighting or fleeing) organs reduced, e.g. – Skin – can lead to strange pallor, or sensations like numbness or tingling – Digestive organs – can interfere with normal bowel function, affect appetite • Increase in muscle tension • Changes in temperature regulation Yet more symptoms…. • Altered breathing and dry mouth (see later) • Sweating, causing clammy hands and feet • Vision affected – activation of SNS associated with dilation of pupils and alteration of lens shape – can cause blurring • Anxiety associated with sleep disturbance, waking up feeling panicky and sweaty • Concentration and memory function best at levels of moderate arousal 32 And symptoms can have knock-on effects… Health anxiety • Muscle tension can lead to head-ache, jawache and neck ache • Dry mouth can lead to sore throat • Can have a feeling of tightness in the chest due to muscle tension and altered breathing patterns • Also psychological effects – what do these symptoms mean? • Continuum of health anxiety • People at far end may receive diagnosis of hypochondriasis, (defined as a distressing belief in having a serious illness when none is present, and the belief is resistant to reassurance) • People with CFS rarely have health anxiety this severe, but may have some health anxiety features (Trigwell et al.,1995). Panic The importance of how bodily sensations are interpreted • A small proportion of patients with CFS also suffer from panic attacks. • Somatic symptoms (especially chest pains, pounding heart, breathlessness) interpreted catastrophically, as sign of impending collapse • Vicious circle of anxiety leading to symptoms leading to increased anxiety What can happen when somatic symptoms of anxiety are interpreted as signs of disease… • Selective attention & hypervigilance • rumination - self- focused attention and preoccupation with health • unhelpful ways of thinking – not taking account of alternative explanations – catastrophizing (ie magnifying, thinking the worst) – selective abstraction (taking selected bits of information out of context) • CFS patients often haven’t received an explanation for their many symptoms. • The symptoms remind them of ones they have had when they’ve been ill in the past. • They often come to believe, in the absence of any better explanation, that their bodily sensations are indicative of disease and damage • This makes them more anxious, and fearful of exacerbating the symptoms …and unhelpful thoughts might be associated with unhelpful behaviours • Avoidance e.g. of activity – As you know, inactivity leads to cardiovascular and muscular deconditioning which can increase the likelihood of certain symptoms – no scope for disconfirmatory experiences • Checking, touching, feeling (e.g sore neck glands) – can lead to tissue damage and pain – maintains attention on “problem” so benign sensations are noticed more readily 33 Hyperventilation What is hyperventilation? • Mentioned earlier that stress, anxiety, arousal can be associated with altered breathing patterns • Hyperventilation can occur when people are anxious; chronic hyperventilation can also produce symptoms which increase anxiety, so again there is a vicious circle • Terminology – hyperventilation a pejorative term? – over-breathing, altered breathing patterns • Hyperventilation is defined as breathing in excess of the body’s metabolic demands. • The only reliable way to know if someone is hyperventilating is to measure carbon dioxide in expired air, but there are signs associated with it, such as visible panting and audible sighing, and symptoms such as feelings of breathlessness, dizziness etc. Breathing Inspiration (breathing in) • To deliver oxygen (O2) to arterial blood and to remove excess carbon dioxide (CO2) from body • Gas exchange occurs in lung alveoli – rest of lung is “dead space”. • Inspired air mixes with residual air in “dead space” – enrichment in O2 and depletion in CO2 • Gases diffuse down pressure gradients • Normally, thoracic cavity is expanded by contraction of diaphragm – sucks air in • Diaphragmatic breathing may be sufficient at rest • In exercise, need to breath faster and harder – used intercostal muscles • Strenuous activity – extra muscles recruited, eg in neck Expiration (breathing out) Control of breathing • At rest, a passive process • Occurs when inspiration stops, due to elasticity of lung tissue • In exercise, intercostal muscles recruited to lower rib cage and change shape of thoracic cavity, compressing lungs and forcing air out • Involuntary, under control of brain stem structures via autonomic nervous system • Involuntary control of breathing influenced by arterial PCO2 among other factors • Also voluntary control (can over-breathe, hold our breath, etc by using various muscles) 34 What happens in hyperventilation (HV) ? Gas pressures • Partial pressures – pressures generated by individual gases in mixture e.g. air • Partial oxygen pressure denoted PO2 • Partial carbon dioxide pressure denoted PCO2 • Determines extent of gas exchange – gases diffuse until equal pressure reached on each side of divide (alveolar membrane) What happens when there are reduced CO2 levels in blood? • Cerebral blood vessels constrict to reduce CO2 loss…. • …..but this also decreases oxygenation, resulting in dizziness and even fainting, also cognitive problems, psycho-sensory experiences like depersonalization • Also, blood pH increases (alkalosis) – can affect peripheral nerves and lead to numbness and tingling • Rate of alveolar ventilation greater than needed for metabolism at the time • Composition of alveolar gases altered from normal • Increased PO2 and decreased PCO2 . • Arterial blood saturated with O2, so little effect • But blood CO2 level falls beyond optimal levels Other consequences of HV… • Chest pain due to overuse of intercostal muscles • Neck pain, if neck muscles used in breathing, this can then lead to tension in neck muscles, and then to tension headaches • Dry mouth, leading to sore throat, difficulty swallowing, as consequence of mouthbreathing • Digestive disturbance from swallowing air • Feelings of weakness and listlessness Is there evidence for hyperventilation in CFS? Summary • Excessive and prolonged arousal can be associated with HV • HV can cause many of the symptoms of CFS • In one study, noted low pCO2 in CFS patients, suggesting mild HV at rest (Lavietes et al, 1996) • But another study found no evidence of HV in the majority of patients (Saisch et al.,1994) • Bazelmans et al. (1997) found more HV in CFS patients than in healthy controls, but among CFS patients HV was not correlated with CFS symptoms • HV may be important for some patients, not all. • Stress involves interaction between what is going on in environment and a person’s resources to cope • Anxiety – both psychological and somatic aspects • Physiological response to stressors has wide reaching effects throughout body • Many symptoms produced by stress response and by ongoing anxiety and over-arousal • Patient’s interpretation of these symptoms important and will affect behaviour • In some CFS patients, some symptoms may be due to hyperventilation 35 Contents of session Pragmatic rehabilitation training session 7 The somatic symptoms of anxiety. Hyperventilation Rationale for treatment and goal setting • • • • • Aims of session Terminology Psychological approaches to stress and anxiety Stress and anxiety in CFS patients Physiology of stress and the somatic symptoms of anxiety • Health anxiety and panic • Hyperventilation What you may get out of the session • You should be able to outline the working of the sympathetic adrenal medullary (SAM) response system • You should be able to describe the somatic symptoms of anxiety • You should be familiar with the thoughts (cognitions) that are associated with health anxiety and panic • You should be able to describe the mechanisms and consequences of hyperventilation The transactional model of stress Before we start, some terminology • Stress, arousal, anxiety • Need to find a term that is acceptable to patients • Also … when reading papers, be aware that – Adrenaline= epinephrine in the US – Noradrenaline = norepinephrine in the US Stress-appraisal-coping • The word “stress” is used to mean various things •Potential stressor •Primary appraisal •"Is this threatening?" – Stressors (stimuli) – The stress response • Different people react differently to the same stressors (e.g. marriage breakup) • Stress response occurs when person encounters a situation which is appraised as threatening, and when they do not have the resources needed to overcome (cope with) the threat •Yes •No •Secondary appraisal •"Can I cope?" •No stress •No •Yes •STRESS •Coping •Is my coping effective? •NO - STRESS •YES - no stress 36 Anxiety • Psychological symptoms – Fear, dread, agitation, worry • Somatic symptoms – Shaking, heart racing or pounding, nausea, dry mouth, sweating, tension headache, irritable bowel • Anxiety disorders What CFS patients say about stress • Surawy et al. (1997) found that many CFS patients recognise “stress” as contributing to their illness. • CFS patients and their significant others describe patients as being over-active, striving, perfectionistic prior to illness. – GAD, panic and phobic disorders, health anxiety disorders and hypochondriasis Anxiety and anxiety disorders in CFS • Although depression and anxiety are common in CFS, only a minority of patients would fulfil diagnostic criteria for anxiety disorders. • But patients may still be very anxious in response to – Not understanding their symptoms - health anxiety – Not being able to function as before - job, finance, domestic worries. – Feeling disbelieved and misunderstood may affect social interactions - worries about relationships • Note, in people with primary anxiety disorders, “exhaustion” is 2nd most common symptom. (Angst et al., 1985) Neurotransmitters • Communication between nerve cells - also between nerve cells and other cells (e.g. in muscles or glands) • In most cases, across junctions, or synapses, where two nerves meet but do not touch • Neurotransmitters are chemical messengers which alter permeability of membrane at synapse – can have excitatory or inhibitory effect The nervous system • Central nervous system – brain, spinal cord • Peripheral NS – nerves connecting CNS with all other arts of body, organs, glands, muscles • Peripheral NS subdivided into – Voluntary (or somatic) NS (skeletal muscles) – Autonomic NS – not under conscious control, regulates bodily functions e.g. digestion, temperature regulation – Roles of VNS and ANS overlap (e.g. in breathing) • Autonomic NS divided into – Sympathetic (generally, dominant in aroused states) – Parasympathetic (generally, dominant in relaxed states) The stress response • Threat identified (requires cognitive processing) • Emotional responses generated in limbic system of brain • Hypothalamus activated – controls HPA and SAM response systems, body’s 2 stress response systems • SNS releases neurotransmitter noradrenaline to activate bodily organs • Fight or flight • Noradrenaline generally excitatory effect • Link between psychological and physiological 37 The SAM stress-response system • Broadly speaking, SAM activated quickly in response to immediate threat. • Additional mechanism is release of adrenaline (from adrenal medulla) into blood stream • Thus SAM is under control of both SNS and adrenal glands What are the effects of the release of adrenaline into the body? • Widespread effects. • Function of stress response is to provide oxygen and energy (via blood) to brain and muscles. Huge cardiovascular response – Heart beats faster and harder to increase output by up to 5 times – Tiny muscles around blood vessels, innervated by SNS, contract; blood vessels constrict to deliver blood faster – Blood pressure raised Other symptoms associated with more long term, lower level, arousal & anxiety • Stomach muscles are affected – feelings of nausea, stomach pain, or even vomiting • Altered blood flow to bowel can affect passage of food • Adrenaline affects muscles in bowel wall, causing muscles to contract abnormally • Both of the above can lead to altered bowel habits – diarrhoea, constipation, irregularity, pain, bloating. The adrenal glands • • • • Two of them! One on top of each kidney Each with two distinct functional zones Inner medulla directly innervated by SNS and when activated releases adrenaline into blood stream • (Outer adrenal cortex involved in HPA system, as you may have learned last week) More effects of adrenaline on body • At same time, blood flow to non-essential (for fighting or fleeing) organs reduced, e.g. – Skin – can lead to strange pallor, or sensations like numbness or tingling – Digestive organs – can interfere with normal bowel function, affect appetite • Increase in muscle tension • Changes in temperature regulation Yet more symptoms…. • Altered breathing and dry mouth (see later) • Sweating, causing clammy hands and feet • Vision affected – activation of SNS associated with dilation of pupils and alteration of lens shape – can cause blurring • Anxiety associated with sleep disturbance, waking up feeling panicky and sweaty • Concentration and memory function best at levels of moderate arousal 38 And symptoms can have knock-on effects… Health anxiety • Muscle tension can lead to head-ache, jawache and neck ache • Dry mouth can lead to sore throat • Can have a feeling of tightness in the chest due to muscle tension and altered breathing patterns • Also psychological effects – what do these symptoms mean? • Continuum of health anxiety • People at far end may receive diagnosis of hypochondriasis, (defined as a distressing belief in having a serious illness when none is present, and the belief is resistant to reassurance) • People with CFS rarely have health anxiety this severe, but may have some health anxiety features (Trigwell et al.,1995). Panic The importance of how bodily sensations are interpreted • A small proportion of patients with CFS also suffer from panic attacks. • Somatic symptoms (especially chest pains, pounding heart, breathlessness) interpreted catastrophically, as sign of impending collapse • Vicious circle of anxiety leading to symptoms leading to increased anxiety What can happen when somatic symptoms of anxiety are interpreted as signs of disease… • Selective attention & hypervigilance • rumination - self- focused attention and preoccupation with health • unhelpful ways of thinking – not taking account of alternative explanations – catastrophizing (ie magnifying, thinking the worst) – selective abstraction (taking selected bits of information out of context) • CFS patients often haven’t received an explanation for their many symptoms. • The symptoms remind them of ones they have had when they’ve been ill in the past. • They often come to believe, in the absence of any better explanation, that their bodily sensations are indicative of disease and damage • This makes them more anxious, and fearful of exacerbating the symptoms …and unhelpful thoughts might be associated with unhelpful behaviours • Avoidance e.g. of activity – As you know, inactivity leads to cardiovascular and muscular deconditioning which can increase the likelihood of certain symptoms – no scope for disconfirmatory experiences • Checking, touching, feeling (e.g sore neck glands) – can lead to tissue damage and pain – maintains attention on “problem” so benign sensations are noticed more readily 39 Hyperventilation What is hyperventilation? • Mentioned earlier that stress, anxiety, arousal can be associated with altered breathing patterns • Hyperventilation can occur when people are anxious; chronic hyperventilation can also produce symptoms which increase anxiety, so again there is a vicious circle • Terminology – hyperventilation a pejorative term? – over-breathing, altered breathing patterns • Hyperventilation is defined as breathing in excess of the body’s metabolic demands. • The only reliable way to know if someone is hyperventilating is to measure carbon dioxide in expired air, but there are signs associated with it, such as visible panting and audible sighing, and symptoms such as feelings of breathlessness, dizziness etc. Breathing Inspiration (breathing in) • To deliver oxygen (O2) to arterial blood and to remove excess carbon dioxide (CO2) from body • Gas exchange occurs in lung alveoli – rest of lung is “dead space”. • Inspired air mixes with residual air in “dead space” – enrichment in O2 and depletion in CO2 • Gases diffuse down pressure gradients • Normally, thoracic cavity is expanded by contraction of diaphragm – sucks air in • Diaphragmatic breathing may be sufficient at rest • In exercise, need to breath faster and harder – used intercostal muscles • Strenuous activity – extra muscles recruited, eg in neck Expiration (breathing out) Control of breathing • At rest, a passive process • Occurs when inspiration stops, due to elasticity of lung tissue • In exercise, intercostal muscles recruited to lower rib cage and change shape of thoracic cavity, compressing lungs and forcing air out • Involuntary, under control of brain stem structures via autonomic nervous system • Involuntary control of breathing influenced by arterial PCO2 among other factors • Also voluntary control (can over-breathe, hold our breath, etc by using various muscles) 40 What happens in hyperventilation (HV) ? Gas pressures • Partial pressures – pressures generated by individual gases in mixture e.g. air • Partial oxygen pressure denoted PO2 • Partial carbon dioxide pressure denoted PCO2 • Determines extent of gas exchange – gases diffuse until equal pressure reached on each side of divide (alveolar membrane) What happens when there are reduced CO2 levels in blood? • Cerebral blood vessels constrict to reduce CO2 loss…. • …..but this also decreases oxygenation, resulting in dizziness and even fainting, also cognitive problems, psycho-sensory experiences like depersonalization • Also, blood pH increases (alkalosis) – can affect peripheral nerves and lead to numbness and tingling • Rate of alveolar ventilation greater than needed for metabolism at the time • Composition of alveolar gases altered from normal • Increased PO2 and decreased PCO2 . • Arterial blood saturated with O2, so little effect • But blood CO2 level falls beyond optimal levels Other consequences of HV… • Chest pain due to overuse of intercostal muscles • Neck pain, if neck muscles used in breathing, this can then lead to tension in neck muscles, and then to tension headaches • Dry mouth, leading to sore throat, difficulty swallowing, as consequence of mouthbreathing • Digestive disturbance from swallowing air • Feelings of weakness and listlessness Is there evidence for hyperventilation in CFS? Summary • Excessive and prolonged arousal can be associated with HV • HV can cause many of the symptoms of CFS • In one study, noted low pCO2 in CFS patients, suggesting mild HV at rest (Lavietes et al, 1996) • But another study found no evidence of HV in the majority of patients (Saisch et al.,1994) • Bazelmans et al. (1997) found more HV in CFS patients than in healthy controls, but among CFS patients HV was not correlated with CFS symptoms • HV may be important for some patients, not all. • Stress involves interaction between what is going on in environment and a person’s resources to cope • Anxiety – both psychological and somatic aspects • Physiological response to stressors has wide reaching effects throughout body • Many symptoms produced by stress response and by ongoing anxiety and over-arousal • Patient’s interpretation of these symptoms important and will affect behaviour • In some CFS patients, some symptoms may be due to hyperventilation 41 Contents of session Pragmatic rehabilitation training session 8 Agenda setting and the structure of treatment • Aims of session • Homework role plays • The structure of treatment – what happens on each week • How to set an agenda for each session • Setting goals for treatment • Reviewing treatment and re-setting goals What you may get out of the session • You should have identified how role plays can be used to develop clinical skills • You should be clear about the set structure of the treatment, what can be varied and what cannot • You should know how to decide on the goals of treatment with patients • You should know how to review progress with patients and how to use that review to set new goals Homework role plays What was done well Where could it be improved? Therapist Patient Observer Homework role plays • For each role play, think about the following: – Which symptom(s) did the patient query? – What does it say in the patient presentation about these symptoms? – Which are the relevant pages of the patient manual? – How accurate and evidence based was the therapist explanation of symptoms? – Did the therapist communicate clearly and with authority? – Was the patient reassured by the explanation? – What did you learn from taking part in/observing this role play? Reflecting on the role-play process • What did you find helpful about the roleplaying exercise? • What did you find unhelpful about the exercise? • How could future role-play exercises be improved? 42 Content of session W1 Visit 1 90 minutes Half hour history taking, followed by 1 hour rationale-giving and handing over of patient manual. W2 Visit 2 60 minutes Review manual, ask patient which bits are most relevant to their needs, followed by collaborative goal setting in three areas: deconditioning, sleep and anxiety, first prioritising the areas with the patient. W3 Phone 1 30 minutes Progress with goals; identifying impediments to progress; new goal setting. W4 Visit 3 60 minutes Recalibrating goals according to progress achieved; checking that deconditioning is being addressed; reinforcing rationale. W6 Phone 2 30 minutes As week 4 W8 Phone 3 30 minutes Half way review, looking forward to the future Addressing termination issues W10 Visit 4 60 minutes Managing alone, looking forward to the future, relapse prevention What has helped, what hasn’t. W12 Phone 4 30 minutes Continued goal setting, monitoring progress, opportunities for change and relapse prevention. W15 Phone 5 30 minutes Continued goal setting, monitoring progress, opportunities for change and relapse prevention. W19 Phone 6 30 minutes Continued goal setting monitoring progress,, opportunities for change and relapse prevention, ending Role-play exercise • Introduction Greeting, saying who you are, asking where to sit, asking the patient how he/she likes to be called, explaining purpose, explaining tape. • History Eliciting symptoms, eliciting effect of symptoms, brief history (10 minutes max.). How to hurry the patient along (without being rude). Weeks 3&6 telephone calls • Eliciting patient feedback • Evaluating progress towards goals and impediments to progress • Reassurance and reinforcing the rationale ensuring manual is being used • Encouragement and motivation • Keeping sight of the overall plan • Setting tasks for next week • Setting agenda for next telephone call Week 1 face-to-face • Introductions etc. (any special considerations?) • Taking a brief history • Presenting the explanation • Handing over the manual • Setting agenda for next session • Patients’ tasks for intervening period (read the manual – which bits? – noting queries) Week 2 – face-to-face • Reviewing the manual & responding to questions • Which bits are most relevant to patient? • Collaboratively setting main goals for treatment in each of 3 areas: – Deconditioning – Sleep / circadian rhythms – Anxiety • Setting tasks for next week • Setting agenda for next week’s telephone call What’s special about calls? • Only one channel of information – opportunities for error (especially about emotional issues). • Short – need to be planned and focused • Check how comfortable the patient is talking on the phone • Need for clarity – check whether the patient has understood? 43 Week 4 – face-to-face The non-compliant patient • Avoid being punitive – positively reframe! • Elicit exactly how much homework has been done • Identify impediments – Didn’t understand/agree with rationale – Too difficult – Unanticipated barriers • Revised homework plan Week 8 phone call • Half way through • Review progress to date – draw out positives – encouragement • Considering goals for second half of treatment • Introducing termination issues • Eliciting patient feedback • Evaluating progress towards goals and impediments to progress • Ensuring that deconditioning/graded activity is being addressed • Recalibrating goals if necessary • Setting tasks for next week • Setting agenda for next telephone call Termination issues • Patients may be anxious about termination • Prepare them – remind them when termination is due • Ask them about whether they have any termination worries • Remind them that they can continue the programme using the manual • Reassure – reinforce self-confidence. What is set and where there is flexibility Where there is flexibility • Try to stick as closely as possible to the prescribed number and spacing of visits – record any deviation • It is essential that all the elements of PR are covered – rationale given, manual given and referred to, rehabilitation programme in each of the three areas, patient encouraged to increase activity, regularise sleep/wake patterns and practice relaxation (with tape) • While it is important that you cover all the PR elements, depending on the particular patient’s symptoms and problems, you may need to emphasise some aspects more than others. • It is important to listen to the patient and to work collaboratively in setting goals for activity, sleep and anxiety reduction 44 The second half of the PR treatment schedule • Later sessions will address: Homework Another bloody role-play! – How to keep patients motivated using motivational interviewing techniques – How to plan for the future and discuss relapse prevention with patients – Discharging patients back to their GPs Tasks of PR treatment Impediments to Change and Anxiety Problems Barriers to overcome • 1) 2) 3) 4) The patient barriers to successful treatment are: Fears of the patient about consequences Lack of motivation Lack of understanding Additional problems e.g. depression, restrictions on PR through physical illness • The main tasks of PR treatment are: 1. to deliver graded exercise to tackle deconditioning; 2. address body clock problems; 3. address emotional issues including anxiety Fears • Today is about identifying and managing the fears of patients • We will largely do this by role-play with an actress • First, let us identify when such a fear arises and discuss general principles of management 45 Identification of fears Identification of Fears continued • When a patient seems to understand what you are asking them to do but is hesitant to do it, resistant or refuses. • Especially when they look worried or anxious ( may experience anxiety symptoms) • Ask yourself whether they are fearful of the consequences of what you are asking • Enquire if they have any concerns about what you asked them to do • If they do, ask them what they think might happen if they did the task you set. • Ask them what was the worst that could happen • How do they know that this may happen? • Usually it is based on their own experience or from other sources of information Dealing with Fears-RINSE Setting tasks to gain information • Refer to supervisor and address at next contact or refer to section of manual relevant to fear • Inform patient what is likely to happen, what bodily symptoms signify, and additional symptoms caused by anxiety • Negotiate with patient about task • Set a new task to make it more manageable or a new task to gain information • Evaluate new task and what information was obtained at next contact • Set a task for the patient like the one you originally proposed, then the approach they usually take • Ask the patient to predict what will happen • Measure the symptoms or consequences they fear and the effects you think it will have on 10cm visual analogue scale Expect Fears • Almost all CFS patients have fears about the consequences of PR that become evident at some stage • Successful PR treatment will identify and address these fears Motivational Interviewing Techniques 46 Learning objectives • 1) 2) 3) 4) • Learn theory of motivational interviewing: Cognitive Dissonance Transtheoretical Model of Change Evaluating Pros and Cons of Actions Making change seem possible Practice motivational interviewing with actress Transtheoretical Model of Change Cognitive Dissonance • People become anxious (demoralised, frustrated, worried, stressed, irritable, guilty) if what they do does not match what they believe they should do • If you can change what they believe they should do, then either they will change what they do in line with this new belief or reject your view and return to their old actions • This happens to reduce their negative emotion (usually anxiety) Actions in Model of Change 1) Precontemplation – Rejects information contrary to their existing belief 2) Contemplation – Anxious, realises there is a problem with what they are doing 3) Action – Believes they should change and starts to act in line with new belief 4) Maintenance – New actions and beliefs are well –established 5) Relapse – Actions return to previous pattern but believes may still have a problem 1) Precontemplation – Make patient more anxious by giving information about consequences of their actions. Action must seem possible. 2) Contemplation – Weigh up pros and cons of changing their actions. Information giving and tasks to get information important. 3) Action – Set tasks that are achievable. Reward any success. 4) Maintenance – Establish routines that are likely to prevent relapse but are sustainable. 5) Relapse – Evaluate what happened. Repeat contemplation and action stages bearing in mind strategies that worked or didn’t work previously Consequences of not changing Pros and cons • Make patient consider gradual consequences of: deconditioning body clock problems isolation social consequences emotional consequences • Offer a non-threatening and realistic way of preventing the consequences they fear Pros Cons Short-term Long-term 47 Contents of session Pragmatic rehabilitation training session 13 Rehabilitation issues (getting back to work etc.) • • • • • Aims of session When to return to work How to go about returning to work Dilemmas and pitfalls Benefits and finances What you may get out of the session • You should be aware of some of the dilemmas and pitfalls of returning to work for patients with CFS • You should start thinking about how best to help patients design a sensible return to work plan • You should think about what additional information you might need to garner (e.g. about benefits) in order to help patients with this aspect of their rehabilitation Analysing the decision to return to work • Which aspect of work was the patient unable to deal with when s/he gave up? • Would the patient be returning to the same job? • Which bits of returning to work will be enjoyable and manageable, and which bits are likely to cause problems? • (What is motivation for return to work – can motivational interviewing techniques be useful?) Judging when to return to work • How would a patient know when s/he is ready to return to work? • What does a patient need to have accomplished in treatment? – – – – Physical stamina and conditioning Regular sleep pattern Improved concentration and mental functioning Ability to withstand stress Need also to take into account other factors • • • • Transport to and from work Child care issues Getting some (more) help in the home Leisure and social commitments (not a good idea to have to give up too much in order to return to paid employment) • Realistic time-scales 48 Considering the options The patient’s work history • How did the patient give up work – voluntarily, under duress, made to leave etc. • Has there been any dispute over benefits? • Has the patient been in the position of having to prove that he/she was ill? • Does patient want/have to return to the same job? • Can s/he break back into world of work gently? – – – – – – Education Voluntary work Working at home Part-time working Return to a less demanding job Lateral thinking! • Help patient to design a return to work programme What can patient expect when s/he returns to work? • Increased symptoms? – which symptoms? why? • Will patient feel anxious about return to work? – what are the likely effects of anxiety? • Focus on the benefits of return to work • How will patient maintain activity and relaxation programme in conjunction with work? How to deal with set-backs at work • Try not to catastrophise or engage in other unhelpful thoughts • Look at progress made • Patient understands this illness and can work out what to do – Maintain activities – Avoid ruminating on symptoms - have confidence in the programme Financial and practical considerations • Patients need to know what is available for them, and how working will affect their financial situation. Returning part-time might not be financially possible. • New Deal for Disabled People – government initiative to allow people who are receiving disability benefits to get back into work – – – – • What do you need to find out about in order to help patients better? • Where will you look for information and where will you direct them? 0800 137 177 www.newdeal.gov.uk www.dwp.gov.uk Action for ME’s magazine “Interaction” 49