Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
8/27/2014 Management of the hemiplegic upper limb Christine Griffin, OTR/L MS,BCPR Ohio State University Medical Center [email protected] Trunk Control • Foundation of all head, neck, and limb movement • Functionally – Reach beyond arm’s length – Interaction with environment • Anticipates • Perceptual influence (Gillen, 2011) Alignment of the trunk • Alignment/ Biomechanical Considerations • Optimal alignment – Anterior pelvic tilt – Lumbar extension – Thoracic extension Lower trunk stability • Pelvic position • Co-Contraction of Muscles – Ant abdominals & Lumbar Ext.→ thoracic ext – Right & Left Lateral abdominals (Bohman, 2003) • Dynamic – Changes in base of support – Leading with upper vs. lower trunk (Runyon, 2003) 1 8/27/2014 Dynamic Dissociation • Normal control requires the ability to dissociate (separate) different parts of the body from each other (Mohr, 1990) – Eccentric/ Concentric muscle contraction – Ex: Upper trunk rotation with lower trunk stability while reaching for clothing during dressing • Difficulty with dissociation – Soft tissue tightness – Bony contracture – Efforts by patient to decrease movement Influence on Facial and Oral Motor • • • • • Body Positioning • Position of feet – EMG studies – Knee Flexion Increased muscle activity in trunk – Knee Extension Decreased muscle activity in trunk (Anderson & Ortengren, 1974) – When feet under knees, anterior pelvic tilt and trunk extension are enhanced • Functional Influence – Jebsen Taylor Hand Function Test •Higher functional scores when patient sitting in neutral position vs. flexed or laterally flexed position (Gillen et al., 2007) Trunk Malalignment vs. Alignment Vocalization Swallowing Manipulation of solid/ liquid food Facial Expression Respiration (Runyon, 2003) Photo from personal collection of Christine Griffin. Used with permission. 2 8/27/2014 Effect of pelvis on upper extremity • Posterior pelvic tilt→ lumbar flexion→ thoracic flexion→ scapular abduction→ humerus internal rotation • Anterior pelvic tilt→ lumbar extension→ thoracic extension→ scapular adduction→ humerus external rotation Stretch for Thoracic/ Lumbar Ext Wedge stretch • Wedge Stretch – Supine on large wedge – Two towel rolls in inverted “T” position • One in lumbar region • One along spine in thoracic region Photo from personal collection of Christine Griffin. Used with permission. 3 8/27/2014 Dynamic Trunk Control and Trunk Strengthening Activity Taping • Kinesio Tape – Light flexible tape – Supports muscle – Removes congestion (edema) – Corrects joints – Activates analgesic system (pain relief) (Gillen, 2004) • McConnell Tape /Leukotape – Very rigid, needs 2 layers of tape to protect skin – Stabilizes – Re-aligns – Reduce Pain (Gillen, 2004) Photo from personal collection of Christine Griffin. Used with permission. Taping for Postural Training Photo from personal collection of Christine Griffin. Used with permission. Video of Taping for Postural Training Video from personal collection of Christine Griffin. Used with permission. 4 8/27/2014 Frequency and Duration of Taping • Varied evidence of frequency and duration • Anecdotal report – Duration of adhesive – Skin tolerance of tape/ adhesive Anatomy/ Biomechanics • Joints/ articulation – – – – Glenohumeral Scapulothoracic Acromiclavicular Sternoclavicalar – only bony attachment of upper limb to the axial skeleton • High mobility, Low articulation – Joint relies on muscle strength for stability – Post neurological event stability is lost with muscle decreased function • Reason why upper limb more effected than lower limb Lab Time!! • Anterior pelvic tilt • Lumbar & Thoracic Extension • Lower trunk facilitation • Upper trunk facilitation Anatomy • Key landmarks for the shoulder – Scapula: Acromian, root of the spine, inferior angle – Humerus: Humeral head • Scapula has a concave/ convex relationship with the rib cage • Scapula is a curved surface that easily tilts and moves 5 8/27/2014 Alignment/ Approximation • Scapula – Acromian process is higher that the root of the spine – Inferior angle is against the rib cage – Sits in neutral plane of elev./ dep., abd./ add. • Humerus – Humeral head approximated into the glenoid fossa Alignment/ Approximation • Therapist sitting lateral to patient – Front hand: Approximation of humeral head into glenoid fossa – Back hand: Approximation of scapula with inferior angle in forward direction – “Rotate the globe” (Runyon, 2003) (Runyon, 2003) Scapular malalignment • Occurs because of – Inactivity around scapula – Muscle imbalance around scapula – Trunk malalignment (Gillen, 2011) Photo from personal collection of Christine Griffin. Used with permission. Scapular malalignment • Presents as – Subluxation – Abnormal scapular humeral rhythm – Pain and impingement – Ineffective movement patterns – Possible CRPS – Decreased function (Gillen, 2011) 6 8/27/2014 Shoulder subluxation • Palpable gap between the acromion and humeral head • Subluxations occur within the acute hypotonic phase of hemiplegia • Theory – Occurs due to prolonged downward pull by gravity on the arm against which hypotonic muscles offer little resistance (Chaco and Wolf 1971). Results in overstretching of the glenohumeral capsule (especially its superior aspect) and hypotonic supraspinatus and deltoid muscles (Basmajian and Bazant 1959, Shahani et al. 1981) – The combination of flaccid supportive musculature (in particular, the supraspinatus muscle) and a downward rotated scapula was presumed to predispose the head of the humerus to undergo inferior subluxation relative to the glenoid fossa (Basmajian and Bazant 1959 & Calliet 1980) Shoulder subluxation • Subluxation is a result of weak rotator cuff muscles – Rotator cuff seats the head of the humerus into the glenoid fossa • Remember Anatomy when considering tx methods – Rotator cuff (Internal muscle layer) and Deltoid (external muscle layer) – Focus on positioning and stability of scapula first Biomechanics of Subluxation • Not a result of positioning of downward scapular rotation – Prevost et al., 1987 – Culham et al., 1995 – Price et al., 2001 • “Scapular position was not an important factor” and “unrelated” in the occurrence of inferior subluxation in hemiplegia (Prevost et al., 1987, & Price et al., 2001) • Scapula does have influence because of alignment and biomechanical advantage in active ROM Subluxation Patterns • Inferior • Anterior • Superior (Ryerson & Levit, 1998) • Assessment of subluxation clinically – Palpation of subacromial space is most reliable form – Finger widths for measurement • (Hall et al, 1995 & Prevost et al., 1987) 7 8/27/2014 Prevention of Pain & Complications • Scapulohumeral Rhythm • In a normal shoulder has 2:1 ratio Abnormal scapulohumeral rhythm • Scapulohumeral rhythm with hemiplegia – At most effected state neither portion actively moves – 2 parts humeral movement to 1 part scapular movement (Clarkson & Gilewich, 1989) • With a non moving scapula & passively moving humerus – Subacromial trauma occurs at 90° shoulder flexion (Kumar, et al., 1990) Photos from personal collection of Christine Griffin. Used with permission. Subacromial Trauma • DO NOT perform – over head arm raises – PROM greater than 90°shoulder flexion or abduction (Kumar et al., 1990) • Will cause subacromial trauma – Impingement of supraspinatus under coricoacromial arch – Increased pressure on subdeltoid bursa – Impingement of brachial plexus – Impingement arterial and venous supply – Stretching of glenohumeral capsule (Griffin, 1968; Peat, 1968) Superimposed Orthopedic Injures • • • • • Lesions of the rotator cuff Lesions of the biceps tendon Adhesive capsulitis Brachial plexus traction injury Impingement syndromes (Gillen, 2011) 8 8/27/2014 Braus, Krauss, & Strobel, 1994 • Suggests that pain from SHS/ CRPS I is initiated by a peripheral lesion (tissue or nerve) • Autopsy data – Confirmed micro-bleeding of the suprahumeral joint of the affected side – Subacromial trauma • If cause is peripheral, than prevention program would be effective Subacromial trauma is preventable!! • Education is key – Patient, therapist, staff, family – https://patienteducation.osumc.edu/Documents/protect-shoulder.pdf • Proper Handling – During ADL’s and transfers – Avoid inappropriate treatment choice • Positioning • Let Active ROM determine a patient’s Passive ROM limitation • Safe PROM Braus, et al., 1994 • Implemented Prevention Protocol: – Education to prevent peripheral injury – No PROM before scapula mobilization – No pain during exercise/ activity – No infusions into affected hands • Incidence of pain from SHS decreased from 27% to 8% Biomechanically safe PROM • Completed by therapist or caregiver after training – Range scapula with approximation of scapular humeral joint (Runyon, 2003) • Can be completed by patient (Davies, 2000, Gillen, 2011) 9 8/27/2014 Range scapula with approximation of scapular humeral joint • Elevation – Approximate scapula and humerus – Perform scapular elevation with inferior angle between therapist’s thenar and hypothenar eminence of hand – Have patient move into posterior pelvic tilt “Roll your belly back” “Hide your belly button” “Slouch and touch your chin to your chest” (Runyon, 2003) Range scapula with approximation of scapular humeral joint • Depression – Approximate scapula and humerus – Therapist places finger tips on patient’s spine of scapula – Have patient move head in lateral direction away from you. Ear on non-involved side to shoulder on noninvolved side (Runyon, 2003) Photo from personal collection of Christine Griffin. Used with permission. Range scapula with approximation of scapular humeral joint • Adduction – Approximate scapula and humerus – Therapist holds patient’s axillary area in web space – Perform adduction and maintain hold – Ask patient to slowly turn head in opposite direction – For additional stretch ask patient to place opposite hand on opposite hip with thumb pointing down (Runyon, 2003) Photo from personal collection of Christine Griffin. Used with permission. Range scapula with approximation of scapular humeral joint • Abduction – Approximate scapula and humerus – Therapist places PIP’s onto patient’s medial border – Perform abduction and maintain – Ask patient to slowly turn head toward therapist and reach for therapist’s shoulder (Runyon, 2003) Photo from personal collection of Christine Griffin. Used with permission. Photos from personal collection of Christine Griffin. Used with permission. 10 8/27/2014 Scapulothoracic Mobilization: Upward Rotation • Patient lying on unaffected side Clinical Use of Scapular Mobilization • Assess current position of both scapulas • Use only scapular stretches necessary to achieve approximation and symmetry of Hemiplegic side scapula with NonHemiplegic side scapula – Approximate scapula and humerus and support upper limb – Therapist places fingertips on medial border by inferior angle – Perform upward rotation and maintain (Dale, 2005) Photo from personal collection of Christine Griffin. Used with permission. Lab Time!! • Anterior pelvic tilt • Lumbar & Thoracic Extension • Approximation • Scapular mobilization – – – – – Elevation Depression Adduction Abduction Upward rotation Photos from personal collection of Christine Griffin. Used with permission. 11 8/27/2014 Biomechanically safe PROM completed by patient Active Scapular Stability • “Rock the baby” Cradle arm with trunk rotation to 60° shoulder abduction (Gillen, 2011) Images from Ohio State University Medical Center. Used with permission Photos from personal collection of Christine Griffin. Used with permission. Biomechanically safe PROM completed by patient • Lack of Glenohumeral joint external rotation is associated with pain Gravity Eliminated AAROM • Stability of scapula on thoracic wall with emphasis on upward rotation – (Bohannon et al 1986, and Zorowitz et al, 1995) • Stretch for external rotation (Gillen, 2011) • Improves shoulder function and subluxation – Lay supine with 45°shoulder abduction – Gently rotate to external rotation – Lay forearm on pillow for prolonged stretch Photos from personal collection of Christine Griffin. Used with permission. (Gillen, 2011) Photo from personal collection of Christine Griffin. Used with permission. 12 8/27/2014 Edema and Hemiplegia • Increased venous congestion • Decreased muscle activity – lack of muscle pump for venous return – Limited stimulation to superficial lymphatics • Limbs in dependent position • Poor positioning – obstruction of subclavical and pelvic area: lymphatic and venous flow (Konosky, 2008, and Leibovitz et al., 2007) Treatment for Edema Management • Limited evidence • Combination of mobilization and garments – Manual edema mobilization techniques • Manual lymph drainage, massage – Garments • Jobst ®, Isotoner ® gloves, Coban ®, Lymphadema wrapping • Elevation alone can lead to guarding and disuse (Harden et al., 2006; Swan, 2004) • Active motion in conjunction with elevation is more effective (Barreca, 2003) Edema Measurement • Measuring tape around joints – Inter‐rater reliability – Very specific locations • Volumetric Measurement – A change of 12mL or more is considered clinically significant (Post et al, 2003) Positional Elevation • Gravity to assist hemodynamic flow in the limb backward and down toward heart – Assist to clear venous/ lmphatic congestion • Contraindications – Heart failure – overstress the heart – DVT – transport clot to heart, lungs, brain – Arterial dysfunction – Raynaud’s phenomenon: decreased viability of distal end of limb (fingers and toes) (Burkhardt, 2004) 13 8/27/2014 Positional Elevation • Helps to mobilize fluid • Edema returns when limb returns to dependent position • Elevation of lower limb with 90° hip flexion not effective – Compression of vessels in pelvic region • Iliac artery/ vein • Grouping of lymph nodes in pelvic region – Not above level of heart (Konosky, 2008) • Manual Lymphatic Massage – Superficial lymph nodes at neck, groin, and armpit are stimulated first – Light pressure: Superficial delicate structures – Massaged lightly with scooping technique – Proximal extremity first, the middle portion second, and distal portion last (Burkhardt, 2004) Elevation and Manual Massage Combined Manual Massage Manual Massage AAROM with elevation Compression Garments • Prevent backflow and limb refilling – Have to clear fluid first • Temporary compression garments – Tubular support bandages – Isotoner Gloves – Self Adherent Wraps (ex. Coban) • Compression Wrapping bandages – Requires training – Not Ace Bandage – Comprilan (Burkhardt, 2004) Photos from personal collection of Christine Griffin. Used with permission. 14 8/27/2014 Compression Gloves • Contraindications – IV’s, fistulas, acute blood clot, severally impaired circulation, open wound • Evaluation – – – – – – Color of finger and nail bed 3‐5 min. post donning Compression at wrist Does entire arm have swelling Position during day Skin integrity Movement (Konosky, 2008) Compression Gloves • Off the shelf vs custom – Determined by shape and size of limb • • • • Provides 15‐32 mmHg of pressure Seams on the outside Cost Long term vs short term (Konosky, 2008) Taping & Hemiplegic Shoulder • Conflicting evidence that taping reduces pain Intervention – Ancliffe, 1992 – Hanger et al, 2000 – Griffin & Bernhardt, 2006 • Inner layer vs. outer layer • “Moderate evidence that Strapping (taping) does not improve upper limb function or ROM” with a subluxation – Ebrsr.com, 2010 15 8/27/2014 Taping and Hemiplegic Shoulder Postural Training • Postural retraining • Approximation during AROM – Need to have muscle activity around joint you are taping to be affective • Once taping is applied, complete scapular stability exercises and gravity eliminated AAROM exercises – Home Exercise Program & Therapy Sessions Photo from personal collection of Christine Griffin. Used with permission. Anterior Hyperlaxity & Inferior Hyperlaxity Pictures from personal collection of Christine Griffin. Used with permission. Video of Taping for Anterior Hyperlaxity & Inferior Hyperlaxity Video from personal collection of Christine Griffin. Used with permission. 16 8/27/2014 Active Motion ‐ Closed Chain AAROM with PVC pole Slings • Debated in literature for at least 30 years – – – – Variety of available slings Controversy regarding effectiveness When and how slings should be used Possibly add to complications resulting from an extremity affected by stroke • (Gillen, 2011) • Common goals by surveyed therapists – Decrease and prevent subluxation and pain • (Boyd & Gaylord, 1986) Photos from personal collection of Christine Griffin. Used with permission. Slings • Hurd, 1974, Full arm sling: – No difference found in shoulder ROM, pain, or subluxation for pt’s with or without slings • Zorowitz, 1995, Single‐strap hemisling, Bobath roll, Cavalier support, Roylan humeral cuff sling: – “No absolute evidence that supports prevent or reduce long term shoulder subluxation” “or that a support will prevent complications of the shoulder subluxation” • Dieruf, 2005, GivMohr Sling: – Reduces a subluxation when worn. No comment on long term effects, functional outcomes, ROM, or pain Slings • Ada et al, Cochrane Database Systematic Review, 2005 – “There is insufficient evidence that to conclude whether slings and wheelchair attachments prevent subluxation, decrease pain, increase function or adversely increase contracture in the shoulder after stroke” • Ebrsr.com, 2012 – “There is limited evidence that shoulder slings influence clinical outcomes” 17 8/27/2014 Slings Slings and Subluxation – Cailliet, 1980 Pros • If goal of sling is to provide glenohumeral joint stability, then the device must support the scapula on the rib cage in approximation to compensate for lack of support of the rotator cuff. • Currently no slings on the market assist with realigning the scapula on the rib cage • Therefore, slings cannot be prescribed to “reduce a subluxation” Slings • • • • Minimize use!! Immediate removal Pt. becomes dependent Avoid slings that position G‐H joint in Internal Rotation • Investigate alternate means of support – Lap trays, positioning in bed (Gillen, 2011) • • • • Protects from injury during transfers Allows therapist to control trunk and lower limbs during initial functional mobility May relieve pressure on brachial plexis and artery Supports weight of arm (Gillen, 2011) Cons • May contribute to neglect • May contribute to learned nonuse • May hold upper limb in a shortened position • May initiate CRPS (Immobility, edema, pain) • May predispose to pain due to shortened internal rotation • Does not reduce subluxation • Does not approximate scapula • Prevents reciprocal arm swing • Blocks sensory input • Prevents balance reaction of upper limb • May block spontaneous use Prevention of Secondary Impairment of Immobility: Resting hand splint • Splinting has not been shown to effectively reduce spasticity, prevent contracture formation, or be effective to help improve active function following stroke. – Lannin et al. (2003) – Harvey et al. (2006) – Lannin et al. (2007) – Basaran et al. (2012) 18 8/27/2014 Prevention of Secondary Impairment of Immobility: Resting hand splint • “Despite numerous studies, two Level I systematic reviews reported that there is insufficient evidence to support the use of resting hand splints as a routine intervention in stroke rehabilitation” (Lannin & Hebert, 2003; Ma & Trombly, 2002) • EBRSR 2013 – There is strong (Level 1a) evidence that hand splinting does not improve impairment or reduce disability. Neurofacilitation Techniques • Proprioceptive Neuromuscular Facilitation – Kraft et al, 1992 • NMES vs. PNF • NMES over PNF • Rood – No Evidence Neurofacilitation Techniques • Brunnstrom’s Movement Theory • Limited Evidence – Wagennar et al. (1990) (n=7): “Time series analysis indicated that for one patient only, walking speed progressed more during the Brunnstrom phases than the NDT phases” – Last update 1992 by Sawner & LaVigne: Studies (25) cited to support the approach were published between 1898‐1960 Neurofacilitation Techniques • NDT/Bobath – Paci (2003): Systematic review of 15 papers concluding “Results show no evidence providing the effectiveness of neurodevelopmental treatment or supporting neurodevelopmental treatment as the optimal type of treatment, but neither do methodological limitations allow for conclusions of non‐efficacy” 19 8/27/2014 Neurofacilitation Techniques • NDT/Bobath • Luke et al. (2004): Systematic review of 8 trials to determine the effectiveness of the Bobath concept at reducing upper limb impairments, activity limitations and participation restrictions after stroke • “Comparisons of the Bobath concept with other approaches do not demonstrate superiority of one approach over the other at improving upper limb impairment, activity or participation” Neurofacilitation Techniques • NDT/Bobath • Rao (2011) or Rensink (2009) Systematic review of 9 trials concluding – “The evidence overwhelmingly points to the lack of effectiveness of the Bobath approach when compared with a task‐oriented approach” Neurofacilitation Techniques • NDT/Bobath • Kollen et al. (2009) – Based on predetermined criteria 16 studies invovling 813 patients with stroke were included for further analysis – There was no evidence of superiority of Bobath on sensorimotor control of upper and lower limb, dexterity, mobility, activites of daily living, health‐ related quality of life, and cost‐effectiveness – This systematic review confirms that overall the Bobath Concept is not superior to other approaches Neurofacilitation Techniques • NDT/Bobath – The Dutch NDT Study Group/ Haffsteinsdottir, et al. 2005. – N=324: propspective multi‐center (12) non‐ randomized parallel study – NDT vs. conventional treatment • Monitored via intervention checks including nursing • NDT group received more OT/PT 20 8/27/2014 Neurofacilitation Techniques • Conclusion – “The NDT approach was not effective in the care of stroke patients in the hospital setting. Health care professionals need to reconsider the use of the approach” – “Previous studies have already focused on several other outcomes measures such as walking ability, motor performance, muscle strength, upper extremity function, and depression but these were also unaffected but the NDT approach” – “Recovery after stroke may best be stimulated by the patient practicing motor tasks under similar conditions of strength, speed, and accuracy as in real life, and with similar cognition demands” Shift in Rehabilitation Approach • Self Examination • Intervention supported by Evidence and Research • Paradigm shift from traditional theories to Neuroplasticity Neurofacilitation Techniques • Proprioceptive Neuromuscular Facilitation, Rood, and Brunnstrom Approach – Evidence “sparse and inconclusive” (Sabari, 2010) – Based on outdated views of motor recovery and motor control (Ma & Trombly, 2002; Pollock, Baer, Pomeroy, & Langhorne, 2007; Steultjens et al., 2003) • Neurodevelopment Treatment – No evidence of significantly better outcomes for NDT when compared with other treatments to improve upper limb motor function (Luke, Dodd, & Brock, 2004; Paci, 2003) Neuroplasticity – What is it? • Neuroplasticity Changing the brain • Capability of CNS to alter function and structure in response to use and motor learning • Reorganization of undamaged systems in the brain • The brain responds to functional/ environmental demands • Occurs after Repetitive Practice (Lundy‐ Ekman, 2007, Kass, 1991, Donoghue et al, 1991) 21 8/27/2014 Neuroplasticity • Borders of neuro mapping are not defined – Brain is moldable according to the will and actions of the individual • Nudo (2001) – Adaptive plasticity in motor cortex – Functional and structural dynamic nature of the cerebral cortex Repetitive Practice • High Intensity/ High Repetition → Cortical Changes • Motivational Strategies for Patient – Self control vs. External Control • Patient education – Importance of intensity of repetition – Intensive HEP Neuroplasticity • Possible Explanations – Areas of the brain assume functions that were once the responsibility of a damaged area of the brain – Areas of the brain lay dormant until needed to assume functioning for damaged regions – Creating new pathways for the connections between neurons (Gutman, 2008) Learned Non- Use • Decrease is muscle/ motor activity → decrease in function → frustration → avoidance of activity • What happens cortically? • Kleim (1998) – Motor cortex representation diminishes with immobilization beyond nine days 22 8/27/2014 Neuroplasticity is Skill/ Activity Dependent • Nudo, 2001 – Plasticity is limited to behavioral experiences • Nudo, 2003 – Plasticity of the motor cortex are skilldependent rather than simply use dependent. • Cauragh, 2005 – Upper extremity gains evolve from motor experiences and activity-dependent interventions Thickbroom (Clin Neurophysiol 2004) – Results: After treatment, motor maps of the hand showed displacement in 17 pt’s. Ten pt’s showed normalization of corticospinal conduction and a positive correlation between the magnitude of the map shift and grip strength in the affected hand. – Conclusion: The present findings provide evidence that cortical plasticity and reorganization occurring after a stroke is functionally significant. Chronic Recovery • Thickbroom, 2004 – Purpose: Investigate the relationship between changes in motor cortex organization and degree of motor function after stroke – Subjects: 27 pt’s with upper limb motor deficits up to 23 yrs after onset – Intervention: The hand’s corticomotor area was mapped with transcranial magnetic stimulation. Motor Assessment Scale and grip strength measurement were used as functional assessments. Task oriented treatment was provided Neuroplasticity • Active repetitive task oriented motion 23 8/27/2014 Methods of Neuroplasticity • • • • Task Based Practice Mental Practice NMES Constraint Induced Movement Therapy Task Oriented Approach • Based on systems model of motor control and theories of motor learning • Therapist is a teacher of motor skills – Select contextually appropriate functional tasks – Vary tasks to increase transfer of learning – Structure the environment the conditions of the task are present – Provide feedback (Carr and Shepherd, 2003, and Gentile, 2000) Positive Effects of Task Oriented Approach on Impairment level and Function • • • • • • • • Barker et al., 2008 Blennerhasset et al., 2004 Caraugh et al., 2006 Michaelson et al., 2006 Nelles et al.,2001 Stinear et al., 2008 Theilman et al., 2004 Winstein et al, 2004 Task Oriented Approach • Hubbard et al, 2009, Systematic Review – “We recommend that task‐specific training be routinely applied by occupational therapists as a component of their neuromotor interventions, particularly in management related to post‐stroke upper limb recovery” 24 8/27/2014 Task Based Practice Opportunities • Improved function of hemiplegic upper limb when using functional objects and activities vs. performing similar movement sequences in the absence of task performance – (Wu, Trombly, Lin, and Tickle-Degnen, 1998; Trombly and Wu, 1999; Wu, Trombly, Lin, and Tickle-Degnen, 2000; Fasoli, Trombly, Tickle-Degnen, and Verfaellie, 2002; Smedley et al., 1986; Winstein et al., 2004) • Client’s are not making connection between non-functional activities and functional outcomes Occupational Therapist Determines • Each client’s current potential to relearn motor and cognitive skills • How to match task‐based challenges to each person's current potential • How to modify each person’s environment to provide the appropriate balance between challenge and compensation – (Sabari, 2011) Real Life Challenges • • • • • Busy caseload Productivity standards Limited time Challenging patients and family members Non‐productive time: Documentation, meetings, in‐services, etc. Occupation Kits • Treatment kits made prior to treatment session • Lower Level – Gross Grasp – – – – – – – – – Placing eating utensils in organizer Placing magazines in organizer Table setting for 8 Removing dishes from drying rack Placing tools in tool box Placing CD’s in rack Placing cooking utensils in tall container Placing folded socks in bin/ drawer Placing cans/jars on shelving 25 8/27/2014 Occupation Kits Higher Level – Bilateral coordination and fine motor coordination – Folding clothes in laundry basket – Hanging clothes on retractable clothes line – Packing a suitcase with clothes – Putting batteries in remote control – Putting toilet paper on holder and pull off a sheet – Installing toilet paper holder on base – Sanding plywood – Installing a door knob – Installing a smoke alarm – Sorting and assembling assorted sized nuts and bolts – Separating and placing play money in wallet – Coins in coin bank or change purse – Medication into pill organizer – Wrapping a gift/ package – Stuffing envelopes – Sorting paper clips – Cutting and stapling paper – Sorting coupons – Scrap booking Mental Practice - Imagery • Rehearsing task or series of tasks mentally – Cognitive Rehearsal • No physical activity • Athletes – Sports psychology • Supplement conventional therapy • Used at any stage in recovery (Braun et al., 2006, & Jackson et al., 2001) Mental Practice • Activates the musculature in the same pattern that correlates with imagined movements – measurable on EMG • Activates the cortical representation in the same pattern that correlates with imagined movements – measurable on fMRI • Improves learning & performance • Reorganizes motor cortex - Neuroplasticity Mental Practice • Most plausible mechanism to explain – “Stored motor plans for executing movements can be accessed and reinforced during mental practice” (Page, 2001) 26 8/27/2014 Mental Practice – How is it done? • Audio recording 1. 2. Period of deep relaxation (3-5 min.) Mental Practice Portion • • 3. Involve every aspect of the experience including size of room, and full description of the movement including the feel of the movement. “Imaging you are sitting in your favorite chair. The room is quiet. There is a table in front of the chair” “imagine there is a cup on that table with fresh apple juice in it. Feel yourself reaching for the cup. Feel the weight of your arm as you reach out. Feel your elbow straightening and your wrist extending. Your hand opens, and your fingertips touch the cool china cup” etc. Practice in the real world. Three listening sessions to one practice session (Levine, 2009) Liu et al, 2005 Page et al 2000, 2001, 2005, 2007 • Method – Tape recorded guided imagery + traditional therapy vs. traditional therapy – Mentally perform series of tasks • Ex: reach for cup – 10 min – 1 hr/ day, 3-5 sessions/ week, 3-6 weeks • Results – Significant improvement in Fugl-Meyer and Action Research Arm Test Scores Visual Mental Practice Ertelt et al, 2007 • Mental imagery of specific task + traditional therapy vs. Functional training of specific task + traditional therapy • Method • Method – Over 3 weeks, trained to perform 3 sets of daily tasks for 1 hr./ day • Results • Results – Mental imagery group had higher ADL function than mental imagery + functional training – Watch video of upper limb movement & perform movement VS. watch video of geometric shapes & perform movement – Significant improvement in video group of upper limb movement that sustained for at least 8 weeks 27 8/27/2014 Systematic Reviews Mental Practice Evidence • Nilsen, et al., 2010 • Teasel, 2009 ebrsr.com – “Consistent and positive outcomes have been documented, including decreased upper extremity impairment, increased upper extremity function, and increase in everyday use of the limb outside of structured therapy” • Jackson, 2001 – “Data from psychophysical, neurophysiological, and brain imaging studies support the existence of a similarity between executed and imagined actions” Motor Recovery and Electrical Stimulation after Stroke Client centered Low High Task Specific Low High Cyclic E-stim EMGTriggered E-stim Functional E-stim Stimulation for Shoulder Subluxation – “There is strong evidence that mental practice may improve upper-extremity motor and ADL performance following stroke” • Nilsen, et al., 2010 – “When added to physical practice, mental practice is an effective intervention. Further research is warranted to determine who will benefit, dosing, and most effective protocols” Cyclic Neuro Muscular Electrical Stimulation (NMES) • Does not require active participation • Goals – Decrease spasticity – Muscle strength – Reduce edema – Improves motor impairment in mild to moderate stroke Slide property of Stephen Page, Used with permission 28 8/27/2014 Electro Myograph Generated (EMG) ‐ Triggered • Must actively move to reach established threshold to “trigger” NMES to activate • Outcome – Increased function – Decreased motor impairment – Increase ability to concentrate (specifically on using the affected side of the body) – Enhance behavioral training (active pt participation) – Marked increase in reaction time – Increase AROM EMG – Triggered NMES EMG‐Triggered ES • How does it work? – Set stimulation intensity and EMG threshold – Electrodes sense trace contraction/muscular attempt – Device rewards patient with stimulation – Begin sequence again… (Hill‐Herman, 2010) EMG – Triggered NMES • Effective for flaccid upper limb as well (Page & Levine, 2006) • EMG triggered NMES for wrist extension and qualify for CIMT program • Bilateral movements (Cauraugh et al., 2005) • Bilateral motion vs. unilateral vs. no protocol • Significant improvements in bilateral motion group Photos from personal collection of Christine Griffin. Used with permission. 29 8/27/2014 EMG – Triggered NMES Video Exercise & Functional Use Functional Electrical Stimulation (FES) • Cyclic NMES during functional movements and functional activity • Goals: – Improve hand function and voluntary movement – Facilitate neuromuscular reeducation – Regulate muscle tone (decrease spasticity) – Prevent atrophy- muscle strengthening – Initiate and regain voluntary motor functions (muscle reeducation) – Enhance behavioral training Videos from personal collection of Christine Griffin. Used with permission. FES purpose • Adaptive • Similar to an adaptive device to be used in order to engage in functional activity • Therapeutic • Used during therapy in order to retrain brain and muscles how to work and how to work together • Supplemental • Can be used above and beyond what is done in treatment during home exercise program and can be combined with other interventions (Hill-Herman, 2010) Traditional FES • E-Stim applied to muscles to elicit limb movement in specific sequence during functional tasks • NMES units, splints, and other supports may be used • Patient actively moves limb to engage in activity (task specific and client centered) (Hill-Herman, 2010) 30 8/27/2014 Neuro-prosthesis for FES Neuro-prosthesis for FES • Orthoses with embedded electrodes • Custom fit to individual – Extensor panel – Flexor panel – Inserts – Straps Photos from personal collection of Christine Griffin. Used with permission. Video for FES Functional Use & Gravity Eliminated AAROM NMES – Neuro Muscular Electrical Stimulation Evidence • Systematic Review: EBRSR, 2013 – There is strong (Level 1a) evidence that FES treatment improves upper extremity function in acute and chronic stroke. – There is moderate (Level 1b) evidence that EMGtriggered FES is not superior to cyclic FES. – Functional Electrical Stimulation therapy improves hemiparetic upper extremity function. Videos from personal collection of Christine Griffin. Used with permission. 31 8/27/2014 Shoulder Subluxation & NMES • Surface NMES – Muscles stimulated • Posterior deltoid • Supraspinatus • Prevents and reduces subluxation (Faghri et al., 1994; Chantraine et al., 1999) • Recommended Protocol – 6 hours daily, five days a week for 6 weeks (Paci et al. 2005) Percutaneous Stimulation • Physiatrists inserts electrodes into rotator cuff muscles – Outpatient surgery with general anesthesia – Port remains in shoulder, pads removable – Neurocontrol – Medtronic (Yu, et al., 2001) Shoulder Subluxation ‐ Surface NMES • Rationale – Re-education of glenohumeral joint muscles – Repositioning of humeral head – Improved joint alignment can provide stable base for improved functional use of upper limb • Evidence: NMES for shoulder subluxation – There is strong (Level 1a) evidence that that electrical stimulation helps to prevent the development of shoulder subluxation, does reduce shoulder subluxation, – There is strong (Level 1a) evidence that electrical stimulation does not reduce hemiplegic shoulder pain following stroke. (Teasell, 2012) Shoulder Subluxation Stimulation • Percutaneous stimulation – Decreases shoulder pain: • Immediately following treatment • 3 months after treatment • 6 months after treatment (Yu, et al., 2004; Chae, Yu, & Walker, 2001) 32 8/27/2014 Constraint Induced Movement Therapy (CIMT) • Forced use to counteract learned nonuse – Patient unsuccessful with use of affected limb, so would stop initiating use of limb during tasks Constraint Induced Movement Therapy (CIMT) • Main factor – Massed practice during repetitive functional activities • Restriction of less effected arm 90% of day during a 2 week period • Participation in upper limb therapy program 6hrs/day during the 2 week period – Restraint of unaffected hand/ arm • Motor inclusion criteria • Shaping is very important (picking appropriate activities) – Select tasks that address the motor impairment and patient is able to carry out parts of the motor sequence – Has direct relationship to success of treatment (Taub et al., 1999) – 10 MCP extension and 20° wrist extension – Distal function is a critical factor (Gillen, 2011) EXCITE: Trial, Wolf et al, 2006 • EXCITE: Extremity Constraint – Induced Therapy Evaluation – Multi-Center, 222 subjects, over 3 yrs – 6 hrs/ day, 5 days/ week, 2 weeks – Significant improvement in Wolf Motor Function Test and Motor Activity Log – Lasted 24 months later CIMT • Neuroplasticty • • • • • • – Induces cortical representation of the affected upper limb Effects sustained for at least 2 years after intervention Beneficial treatment for patients with some active wrist and hand motion Taub et al, 2006 Boake et al, 2007 Dahl et al, 2008 Myint et al, 2008 33 8/27/2014 Modified CIMT CIMT ‐Timing • Teasel, ebrsr.com • Acute • Dosing – Restriction of less effected arm 5 hrs/day, 5 days/wk – Participation in upper limb therapy program 1 hr/ day, 3 days/ week, 10 weeks – “There is conflicting evidence of benefit of CIMT in comparison to traditional therapies in the acute stage of stroke” • Chronic • mCIMT performed better on Fugl‐Meyer and Action Research Arm test than “usual care” following treatment and at 12 month follow up – “There is strong evidence of benefit of CIMT and mCIMT in comparison to traditional therapies in the chronic stage of stroke. Benefits appear to be confined to stroke patients with some active wrist and hand movements, particularly those with sensory loss and neglect” (Page et al, 2002, 2004, 2005) Useful references • www.ebrsr.com • Stronger after stroke, Your roadmap to recovery by Peter G. Levine • My Stroke of Insight, A brain scientist’s personal journey by Jill Bolte Taylor • Occupational Therapy Practice Guidelines for Adults with Stroke, The AOTA Practice Guidelines Series • Stroke Rehabilitation, A function-based Approach by Glenn Gillen Questions? • References • Ada L, Foongchomcheay A, Canning CG: Supportive devices for preventing and treating subluxation of the shoulder after stroke. Cochrane Database Systematic Review, 1:1‐25, 2009 Ancliffe J. (1992). Strapping the shoulder in patients following a cerebrovascular accident (CVA): A pilot study. Australian Journal of Physiotherapy;38:37-39. Anderson BJ, Ortengren R: Myeoelectric back activity during sitting. Scand J Rehabil Med Suppl 3:73‐90, 1974. Babyar S.R., Peterson M. G. E., Bohannon R., Perennou D., and Reading M. (2009) .Clinical examination tools for lateropulsion or pusher syndrome following stroke: a systematic review of the literature. Clinical Rehabilitation; 23: 639-650. Barreca, S., Wolf, S.L., Fasoli, S., & Bohannon, R. (2003). Treatment interventions for the paretic upper limb of stroke survivors: A critical review. Neurorehabilitation and Neural Repair, 17, 220-223. Barker RN, Brauer SG, Carson RG. (2008). Training of reaching in stroke survivors with severe and chronic upper limb paresis using a novel nonrobotic device: a randomized clinical trial. Stroke;39:1800-1807 Bohman, I. (2003). Handling skills used in the management of adult hemiplegia: A lab manual. (2nd Ed.) Albuquerque, NM: Clinician’s View. Boyd E, Gaylard A: Shoulder supports with stroke patients: a Canadian survey. Candian Journal of Occupational Therapy 53(2):61, 1986. Braun SM, Beurskens AJ, Borm PJ, et al: The effects of mental practice in stroke rehabilitation: a systematic review. Arch Phys Med Rehabilitation 87(6):842-852, 2006 Braus, D.F., Krauss, J.K., Strobel, J.S. (1994). The shoulder hand syndrome after stroke: a prospective clinical trial. Ann Neurol 36,728. Bruehl, S., Harden, R. N., Galer B. S. (1999) External validation of IASP diagnostic criteria for Complex Regional Pain Syndrome and proposed research diagnostic criteria. International Association for the Study of Pain. Pain, 81, 147-154. Broetz D, Johannsen L, and Karnath HO. (2004). Time course of “pusher syndrome” under visual feedback treatment. Physiotherapy Research International; 9: 138-143. Cailliet R: The Shoulder in Hemiplegia, Philidelphia, 1980, FA Davis • • • • • • • • • • • • 34 8/27/2014 • Cauraugh JH, Coombes SA, Lodha N, Naik SK, Summers JJ. (2009).Upper extremity improvements in chronic stroke: coupled bilateral load training. Restor Neurol Neurosci;27:17-25. Cauraugh JH, Kim SB. (2003). Stroke motor recovery: active neuromuscular stimulation and repetitive practice schedules. J Neurol Neurosurg Psychiatry;74(11):1562-6. Cauraugh J, Light K, Kim S, Thigpen M, Behrman A. (2000). Chronic motor dysfunction after stroke: recovering wrist and finger extension by electromyography-triggered neuromuscular stimulation. Stroke;31(6):1360-4. Carlson, L.K., and Watson, H.K. (1988). Treatment of reflex sympathetic dystrophy using the stress loading program. Journal of Hand Therapy, 77, 202-212. Chae, J., Yu, D., Walker, M. (2001) Percutaneous, intramuscular neuromuscular electrical stimulation for the treatment of shoulder subluxation and pain in chronic hemiplegia: a case report. American Journal of Physical Medicine and Rehabilitation ;80:296–301. Chantraine A, Baribeault A, Uebelhart D,Gremion G. (1999) Shoulder pain and dysfunction in hemiplegia: effects of functional electrical stimulation. Archives of Physical Medicine and Rehabilitation, 80:328-31. Clarkson, H. and Gilewich, G. (1989). Musculoskeletal assessment, Joint Range of Motion and Manual Muscle Test. Baltimore, MA: Williams and Williams Culham, E. G., Noce R. R., Bagg S. D. (1995). Shoulder complex position and glenohumeral subluxation in hemiplegia. Archives of Physical Medicine and Rehabilitation, 76, 857-864. Dale, R. B, (2005) Proprioceptive Neuromuscular Facilitation for the scapula, Part 1: Diagonal 1. Athletic Therapy Today, 10(2), 54-56. Davis, P.M. (2000). Steps to follow: the comprehensive treatment of patients with hemiplegia, New York, SpringerVerlag. Dohle C, Pullen J, Nakaten A, et al: Mirror Therapy Promotes Recovery From Severe Hemiparesis: A Randomized Controlled Trial. Neurorehabil Neural Repair 3(3): 209‐217, 2009. Faghri, P. D., Rodgers, M. M., Glaser, R. M., Bors, J. G., Ho, C., Akuthota, P. (1994). The effects of functional electrical stimulation on shoulder subluxation, arm function recovery, and shoulder pain in hemiplegic stroke patients. Archives of Physical Medicine and Rehabilitation, 75, 73-79. Fasoli, S.E, Trombly, C.A., Tickle-Degnen, L., & Verfaellie, M.H. (2002) Effect of instructions on functional reach in persons with and without cerebrovascular accident. American Journal of Occupational Therapy, 56, 380-390. • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • Gillen G, Boiangiu C, Neuman M, et al: Trunk posture affects upper extremity function of adults. Percept Mot Skills 104(2):371‐380, 2007. Griffin, J. (1968). Hemiplegic Shoulder Pain. Physical Therapy, 66, 12, 1884-1893. Griffin A, Bernhardt J. (2006). Strapping the hemiplegic shoulder prevents development of pain during rehabilitation: a randomized controlled trial. Clin Rehabil; 20(4):287-295. Gutman, Sharon. (2008) Quick Reference Neuroscience for Rehabilitation Professionals: The Essential Neurologic Principles Underlying Rehabilitation Practices. (2nd ed.) Slack Incorporated: Thorofore, NJ, 221. Hanger HC, Whitewood P, Brown G, Ball MC, Harper J, Cox R, Sainsbury R. (2000). A randomized controlled trial of strapping to prevent post-stroke shoulder pain. Clinical Rehabilitation;14:370-380. Harden, R., Swan, M., Brienne, R., Barthel, J., King, A., (2006). Interdisciplinary Management. In Harden, R (ed) Complex Regional Pain Syndrome: Treatment Guidelines, Milford, RSDSA Press. Hall J, Dugeon B, Guthrie M: Validity of clinical measures of shoulder subluxation in adults with poststroke hemiplegia. American Journal of Occupational Therapy 49(6):526-533, 1995. Hill-Herman, V. (2010). Maximizing Participation in Occupation for Individuals With Stroke: The Hemiplegic Shoulder and Incorporating Functional Electrical Stimulation Into Practice. AOTA Conference, Orlando FL Hurd, M.M., Farrell, K.H., Waylonis, G.W. (1974). Shoulder sling for hemiplegia: friend or foe? Archives of Physical Medicine and Rehabilitation, 55,519. Jackson PL, Lafleur MF, Malouin F, et al: Potential role o mental practice using motor imagery in neurological rehabilitation. Arch Phys Med Rehabilitation 82(8):1133-1341, 2001. Johannsen I, Broetz D, and Karnath HO. (2006).Leg orientation as a clinical sign for pusher syndrome. BMC Neurology : 630. Johannsen I, Broetz D, and Naegele T. (2006). Pusher syndrome following cortical lesions that spare the thalamus. Journal of Neurology; 253: 455-463. Kapandji, IA: The physiology of joints, vol 3, The trunk and vertebral column, New York, 1974, Churchill Livingstone. Karnath HO and Broetz D. (2003). Understanding and treating “pusher syndrome”. Physical Therapy; 83: 1119-1125. Karnath HO. (2007). Pusher Syndrome- a frequent but little known disturbance of body orientation perception. Journal of Neurology; 414-424. Kraft GH, Fitts SS, Hammond MC (1992). Techniques to improve function of the arm and hand in chronic hemiplegia. Archives of Physical Medicine and Rehabilitation 73:220-227. Kumar, R., Metter, E. J., Mehta, A.J., & Chew, T. (1990). Shoulder pain in hemiplegia: The role of exercise. American Journal of Physical Medicine and Rehabilitation, 80, 624-628. Gillen, G. (2011). Upper extremity function and management. In Gillen, G. (ed) Stroke Rehabilitation: A FunctionBased Approach, 3rd edition, St. Louis, Elsevier Science/Mosby • Lankford, L.L. (1990). Reflex Sympathetic Dystrophy. In Hunter J.M., Schneider, L., Mackin, E., et al (eds) Rehabilitation of the hand: Surgery and therapy, 3rd edition, St. Louis, Mosby. • Lannin, N.A., & Hebert, R.D. (2003). Is hand splinting effective for adults following stroke? A systematic review and methodologic critique of published research. Clinical Rehabilitation, 17, 807‐816. • • Levine, P. (2009). Stronger after stroke: Your roadmap to recovery, Demos Medical Publishing, New York. Luke, C., Dodd, K. J., & Brock, K. (2004). Outcomes of the Bobath concept on upper limb recovery following stroke. Clinical Rehabilitation, 18, 952-959. Liu, K. P., Chan, C. C., Lee, T. M., & Hui-Chan, C. W. (2004). Mental imagery for promoting relearning for people after stroke: A randomized controlled trial. Archives of Physical Rehabilitation, 85, 1403-1408. Lundy- Ekman, Laurie. (2007) Neuroscience: Fundamentals for Rehabilitation. (3rd ed.) Chapter 4: Neuroplasticity. Saunders Elsevier: St. Louis, MO. Ma, H-I., & Trombly, C.A. (2002). A synthesis of the effects of occupational therapy for persons with stroke, part II: Remediation. American Journal of Occupational Therapy, 56, 260-274. Michaelsen SM, Dannenbaum R, Levin MF. (2006). Task-specific Training With Trunk Restraint on Arm Recovery in Stroke. Stroke;37:186-192. Mohr, JD: Management of the trunk in adult hemiplegia: The Bobath concept. Top Neurol 1(1):1‐12, 1990. Nilsen, D.M., Gillen, G., & Gordon, A.M. (2010). Use of mental practice to improve upper-limb recovery after stroke: A systematic review. American Journal of Occupational Therapy, 64, 604-708. Packi, M. (2003). Physiotherapy based on the Bobath concept for adults with post stroke hemiplegia: A review of effectiveness studies. Journal of Rehabilitation Medicine, 35, 2-7. Paci M, and Nannetti L. (2004). Physiotherapy for pusher syndrome behavior in a patient with post-stroke hemiplegia. Journal of Rehabilitation Medicine.; 36: 183-185. Page, S. J. (2000). Imagery improves upper extremity motor function in chronic stroke patients: A pilot study. OTJR: Occupation, Participation and Health, 20, 201-213. Page, S. J., Levine, P., Sisto, S. A., & Johnston, M. V. (2001). Mental practice combined with physical practice for upper-limb motor deficits in subacute stroke. Physical Therapy, 81, 1455-1462. Page, S. J., Levine, P., & Leonard, A. C., (2005). Effects of mental practice on affected limb use and function in chronic stroke. Archives of Physical Medicine and Rehabilitation, 86, 399-402. Page, S. J., Levine, P., & Hill, V. (2007). Mental practice as a gateway to modified constraint-induced movement therapy: A promising combination to improve function. American Journal of Occupational Therapy, 61, 321-327. Page, S.L., & Levine, P. (2006). Back from the brink: Electromyography-triggered stimulation combined with modified constraint –induced movement therapy in chronic stroke. Archives of Physical Medicine and Rehabilitation, 87, 27-31. • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • Peat, M. (1968). Functional Anatomy of the Shoulder Complex. Physical Therapy, 66(12),1854-1865. Pedersen PM, Wandel A, Jorgensen HS. (1996). Ipsilateral pushing in stroke: Incidence relation to neuropsychological symptoms and impact on rehabilitation – Copenhagen stroke study. Archives of Physical Medicine and Rehabilitation.; 77: 25-28. Pollock, A., Baer, G., Pomeroy, V., & Langhorne, P. (2007) Physiotherapy treatment approaches for the recovery of postural control and lower limb function following stroke. Cochrane Database of Systemic Reviews, Issue No 1, Art. No. CD001920. Prevost, R., Arsenault, A. B., Dutil, E., Drouin, G. (1987). Rotation of the scapular and shoulder subluxation in hemiplegia. Archives of Physical Medicine and Rehabilitation, 68, 786-790. Prevost R, Aresnault AB, Drouin G, et al: Shoulder subluxation in hemiplegia: a radiological correlational study. Archives of Physical Medicine and Rehabilitation 68(11):782-785, 1987. Price, C. I. M., & Pandyan, A. D. (2000). Electrical stimulation for preventing and treating post-stroke shoulder pain. Database of Systematic Reviews, Issue no. 4, Art. No. CD001698. Ramachandran (1995) Runyon, C. (2003). The NDT (Bobath) approach, principles of management. Recovering Function, 1-12. Ryerson, S., Levit, K. (1988). Glenohumeral joint subluxation in CNS dysfunction. NDTA Newsletter , Nov. Sawner & LaVigne (1992) Sebari, J, (2010). Occupational Therapy Practice Guidelines for Adults with Stroke, Bethesda, AOTA Press Schadler S, and Kool JP. (2001). Pusher syndrome oder symptom? Zeitschrift fu r Physiotherapeuten.; 53: 7-16 Smedley, R.R, Fiorino, A.J., Soucar, E., Reynolds, D., Smedley, W.P., & Aronica, M.J. (1986). Slot Machines: Their use in rehabilitation after stroke. Archives of Physical Medicine and Rehabilitation, 67, 546-549. Steultjens, E. M. J., Dekker, J., Bouter, L.M., van de Nes, J. C. M., Cup E. H. D., & van de Ende, C. H. M. (2003). Occupational therapy for stroke patients: A systematic review. Stroke, 34, 678-687. Stinear CM, Barber PA, Coxon JP, Fleming MK, Byblow WD. (2008). Priming the motor system enhances the effects of upper limb therapy in chronic stroke. Brain;131:1381-1390. Swan, M, (2004). Treating CRPS: a guide for therapy. New York, RSDSA Review. Swan, M. (2005). Reflex Sympathetic Dystrophy Syndrome (RSD)/ Complex regional Pain Syndrome (CRPS) Treatment: Desensitization, Milford, RSDSA Press. 35 8/27/2014 • • • • • • • • • • • • • • • • • Taub E, Uswatte G, Pidikiti R: Constraint‐induced movement therapy: a new family of techniques with broad application to physical rehabilitation. J Rehabil Res Dev 6(3):237‐251, 1999. Teasell, R. (2009). Evidence based review of stroke rehabilitation, The efficacy of stroke rehabilitation. 10th ed., Canadian Stroke Network, www.ebrsr.com Tepperman, P.S., Greyson, N.D, Hilbert, L, et al (1984). Reflex sympathetic dystrophy in hemiplegia, Archives of Physical Medicine and Rehabilitation , 65(8), 442-447. Theilman, G. T., Dean, C. M., & Gentile, A. M. (2004). Rehabilitation of reaching after stroke: Task-related training versus progressive resistive exercise. Archives of Physical Medicine and Rehabilitation, 85, 1613-1618. Ticini LF, Klose U, Naegele T, and Karnath HO. (2009). Perfusion imaging in pusher syndrome to investigate the neural substrates involved on controlling upright body position. PLoS ONE; 4: 1-8. Trombly, C. A., & Wu, C.-Y. (1999). Effect of rehabilitation tasks on organization of movement of stroke. American Journal of Occupational Therapy, 53, 333-344. Weganaar RC, Meijer OG, van Wieringen PC, Kuik DJ, Hazenberg GJ, Lindeboom J, Wichers F, Rijswijk H (1990). The functional recovery of stroke: a comparison between neuro-developmental treatment and the Brunnstrom method. Scandinavian Journal of Rehabilitation Medicine 22(1):1-8 Watson, H, Carlson L. (2001). Treatment of the hand with a n active “stress loading” program. Journal of hand surgery, 12, 7, 79-785. Waylett-Rendall, J (1990). Therapist’s management of reflex sympathetic dystrophy. In Hunter J.M., Schneider, L., Mackin, E., et al (eds) Rehabilitation of the hand: Surgery and therapy, 3rd edition, St. Louis, Mosby. Williams, R (1995). RSD: Reflex Sympathetic Dystrophy, Bethesda, AOTA, Inc. Winstein, C. J., Rose, D. K., Tans, S. M., Lewthwaite, R., Chui, H. C., & Azen, S. P. (2004). A randomized comparison of upperextremity rehabilitation strategies in acute stroke: A pilot study of immediate and long-term outcomes. Archives of Physical Medicine and Rehabilitation, 85, 620-628. Wolf SL, Winstein CJ, Miller JP et al: Effect of constraint induced movement therapy on upper extremity function 3 to 9 months after stroke: the EXCITE randomized clinical trial. JAMA 296(17):2095‐2104, 2006. Wu, C., Trombly, C. A., Lin, K., and Tickle-Degnen, L. (1998). Effects of objects affordances on reaching performance in persons with and without cerebrovascular accident. American Journal of Occupational Therapy, 52, 179-187. Wu, C., Trombly, C. A., Lin, K., and Tickle-Degnen, L. (2000). A kinematic study of contextual effects on reaching performance in persons with and without stroke: Influences of object availability. Archives of Physical Medicine and Rehabilitation, 81, 95-101. Yavuzer G, Selles R, Sezer N, et al: Mirror therapy improves hand function in subacute stroke: a randomized controlled trial. Arch Phys Med Rehabilitation 89(3):393‐398, 2008 Yu, D., Chae, J., Walker, M., Kirsteins, A., Elovic, E., Flanagan, S., Harvey, R., Zorowitz, R., Frost, F., Grill, J., Feldstein, M., & Fang, Z. Intramuscular neuromuscular electric stimulation for poststroke shoulder pain: a multicenter randomized clinical trial. Archives Physical Medicine and Rehabilitation; 85:695-704. Zorowitz, R.D. et al (1996). Shoulder pain and subluxation after stroke: correlation or coincidence? American Journal of Occupational Therapy, 50,194. 36