期刊论文详细信息
Experimental & Translational Stroke Medicine
The influence of functional electrical stimulation on hand motor recovery in stroke patients: a review
Friedhelm C Hummel1  Fanny Quandt2 
[1] Favaloro University Av, Belgrano 1746, Buenos Aires C1093AAS, Argentina;Brain Imaging and Neurostimulation (BINS) Labor, Department of Neurology, University Medical Center Hamburg-Eppendorf, Martinistrasse 52, Hamburg W34 20246, Germany
关键词: Neuroprothesis;    Hand;    Upper extremity;    Rehabilitation;    Stroke;    NMES;    Neuromuscular electrical stimulation;    FES;    Functional electrical stimulation;   
Others  :  1093167
DOI  :  10.1186/2040-7378-6-9
 received in 2014-05-19, accepted in 2014-07-29,  发布年份 2014
PDF
【 摘 要 】

Neuromuscular stimulation has been used as one potential rehabilitative treatment option to restore motor function and improve recovery in patients with paresis. Especially stroke patients who often regain only limited hand function would greatly benefit from a therapy that enhances recovery and restores movement. Multiple studies investigated the effect of functional electrical stimulation on hand paresis, the results however are inconsistent. Here we review the current literature on functional electrical stimulation on hand motor recovery in stroke patients. We discuss the impact of different parameters such as stage after stoke, degree of impairment, spasticity and treatment protocols on the functional outcome. Importantly, we outline the results from recent studies investigating the cortical effects elicited by functional electrical stimulation giving insights into the underlying mechanisms responsible for long-term treatment effects. Bringing together the findings from present research it becomes clear that both, treatment outcomes as well as the neurophysiologic mechanisms causing functional recovery, vary depending on patient characteristics. In order to develop unified treatment guidelines it is essential to conduct homogenous studies assessing the impact of different parameters on rehabilitative success.

【 授权许可】

   
2014 Quandt and Hummel; licensee BioMed Central Ltd.

【 预 览 】
附件列表
Files Size Format View
20150130160929851.pdf 247KB PDF download
【 参考文献 】
  • [1]Baker LL, Yeh C, Wilson D, Waters RL: Electrical stimulation of wrist and fingers for hemiplegic patients. Phys Ther 1979, 59:1495-1499.
  • [2]Kottink AI, Hermens HJ, Nene AV, Tenniglo MJ, van der Aa HE, Buschman HP, IJzerman MJ: A randomized controlled trial of an implantable 2-channel peroneal nerve stimulator on walking speed and activity in poststroke hemiplegia. Arch Phys Med Rehabil 2007, 88:971-978.
  • [3]Rupp R, Kreilinger A, Rohm M, Kaiser V, Müller-Putz GR: Development of a non-invasive, multifunctional grasp neuroprosthesis and its evaluation in an individual with a high spinal cord injury. Conf Proc IEEE Eng Med Biol Soc 2012, 2012:1835-1838.
  • [4]Kapadia NM, Zivanovic V, Furlan JC, Craven BC, McGillivray C, Popovic MR: Functional electrical stimulation therapy for grasping in traumatic incomplete spinal cord injury: randomized control trial. Artif Organs 2011, 35:212-216.
  • [5]Thorsen R, Dalla Costa D, Chiaramonte S, Binda L, Beghi E, Redaelli T, Occhi E, Ferrarin M: A Noninvasive Neuroprosthesis Augments Hand Grasp Force in Individuals with Cervical Spinal Cord Injury: The Functional and Therapeutic Effects. The Scientific World Journal 2013, 2013:1-7.
  • [6]Thorsen R, Binda L, Chiaramonte S, Dalla Costa D, Redaelli T, Occhi E, Beghi E, Ferrarin M: Correlation among lesion level, muscle strength and hand function in cervical spinal cord injury. Eur J Phys Rehabil Med 2014, 50:31-38.
  • [7]Lai S-M, Studenski S, Duncan PW, Perera S: Persisting consequences of stroke measured by the Stroke Impact Scale. Stroke 2002, 33:1840-1844.
  • [8]Cauraugh J, Light K, Kim S, Thigpen M, Behrman A: Chronic motor dysfunction after stroke: recovering wrist and finger extension by electromyography-triggered neuromuscular stimulation. Stroke 2000, 31:1360-1364.
  • [9]Kimberley TJ, Lewis SM, Auerbach EJ, Dorsey LL, Lojovich JM, Carey JR: Electrical stimulation driving functional improvements and cortical changes in subjects with stroke. Exp Brain Res 2004, 154:450-460.
  • [10]Francisco G, Chae J, Chawla H, Kirshblum S, Zorowitz R, Lewis G, Pang S: Electromyogram-triggered neuromuscular stimulation for improving the arm function of acute stroke survivors: a randomized pilot study. Arch Phys Med Rehabil 1998, 79:570-575.
  • [11]Powell J, Pandyan AD, Granat M, Cameron M, Stott DJ: Electrical stimulation of wrist extensors in poststroke hemiplegia. Stroke 1999, 30:1384-1389.
  • [12]Thorsen R, Cortesi M, Jonsdottir J, Carpinella I, Morelli D, Casiraghi A, Puglia M, Diverio M, Ferrarin M: Myoelectrically driven functional electrical stimulation may increase motor recovery of upper limb in poststroke subjects: a randomized controlled pilot study. J Rehabil Res Dev 2013, 50:785-794.
  • [13]de Kroon JR, IJzerman MJ: Electrical stimulation of the upper extremity in stroke: cyclic versus EMG-triggered stimulation. Clin Rehabil 2008, 22:690.
  • [14]Malhotra S, Rosewilliam S, Hermens H, Roffe C, Jones P, Pandyan AD: A randomized controlled trial of surface neuromuscular electrical stimulation applied early after acute stroke: effects on wrist pain, spasticity and contractures. Clin Rehabil 2013, 27:578-578.
  • [15]Ring H, Rosenthal N: Controlled study of neuroprosthetic functional electrical stimulation in sub-acute post-stroke rehabilitation. J Rehabil Med 2005, 37:32-36.
  • [16]Pomeroy VM, King L, Pollock A, Baily-Hallam A, Langhorne P: Electrostimulation for promoting recovery of movement or functional ability after stroke. Cochrane Database Syst Rev 2006., 2
  • [17]Chae J, Harley MY, Hisel TZ, Corrigan CM, Demchak JA, Wong Y-T, Fang Z-P: Intramuscular electrical stimulation for upper limb recovery in chronic hemiparesis: an exploratory randomized clinical trial. Neurorehabil Neural Repair 2009, 23:569-578.
  • [18]Knutson JS, Chae J, Hart RL, Keith MW, Hoyen HA, Harley MY, Hisel TZ, Bryden AM, Kilgore KL, Peckham H: Implanted neuroprosthesis for assisting arm and hand function after stroke: a case study. J Rehabil Res Dev 2012, 49:1505-1516.
  • [19]Malesevic MN, Maneski LZP, Ilic V, Jorgovanovic N, Bijelic G, Keller T, Popovic DB: A multi-pad electrode based functional electrical stimulation system for restoration of grasp. J Neuroeng Rehabil. 2012, 9:1-1.
  • [20]Popović-Maneski L, Kostić M, Bijelic G, Keller T, Mitrović S, Konstantinović L, Popovic DB: Multi-pad electrode for effective grasping: design. IEEE Trans Neural Syst Rehabil Eng 2013, 21:648-654.
  • [21]Lawrence M, Gross G-P, Lang M, Kuhn A, Keller T, Morari M: Assessment of finger forces and wrist torques for functional grasp using new multichannel textile neuroprostheses. Artif Organs 2008, 32:634-638.
  • [22]Schill O, Wiegand R, Schmitz B, Matthies R, Eck U, Pylatiuk C, Reischl M, Schulz S, Rupp R: OrthoJacket: an active FES-hybrid orthosis for the paralysed upper extremity. Biomed Tech (Berl) 2011, 56:35-44.
  • [23]Makowski NS, Knutson JS, Chae J, Crago P: Neuromuscular electrical stimulation to augment reach and hand opening after stroke. Conf Proc IEEE Eng Med Biol Soc 2011, 2011:3055-3058.
  • [24]Leeb R, Gubler M, Tavella M, Miller H, Del Millan JR: On the road to a neuroprosthetic hand: a novel hand grasp orthosis based on functional electrical stimulation. Conf Proc IEEE Eng Med Biol Soc 2010, 2010:146-149.
  • [25]Alon G, Levitt AF, McCarthy PA: Functional Electrical Stimulation Enhancement of Upper Extremity Functional Recovery During Stroke Rehabilitation: A Pilot Study. Neurorehabil Neural Repair 2007, 21:207-215.
  • [26]Page SJ, Levin L, Hermann V, Dunning K, Levine P: Longer versus shorter daily durations of electrical stimulation during task-specific practice in moderately impaired stroke. Arch Phys Med Rehabil 2012, 93:200-206.
  • [27]de Kroon JR, IJzerman MJ, Chae J, Lankhorst GJ, Zilvold G: Relation between stimulation characteristics and clinical outcome in studies using electrical stimulation to improve motor control of the upper extremity in stroke. J Rehabil Med 2005, 37:65-74.
  • [28]Noma T, Matsumoto S, Shimodozono M, Iwase Y, Kawahira K: Novel Neuromuscular Electrical Stimulation System for the Upper Limbs in Chronic Stroke Patients: A Feasibility Study. Am J Phys Med Rehabil 2014, 93(6):503-10.
  • [29]Clair-Auger JM, Collins DF, Dewald JPA: The effects of wide pulse neuromuscular electrical stimulation on elbow flexion torque in individuals with chronic hemiparetic stroke. Clin Neurophysiol 2012, 123:2247-2255.
  • [30]Hara Y, Obayashi S, Tsujiuchi K, Muraoka Y: The effects of electromyography-controlled functional electrical stimulation on upper extremity function and cortical perfusion in stroke patients. Clin Neurophysiol 2013, 124:2008-2015.
  • [31]Wei W, Bai L, Wang J, Dai R, Tong RK-Y, Zhang Y, Song Z, Jiang W, Shi C, Li M, Ai L, Tian J: A longitudinal study of hand motor recovery after sub-acute stroke: a study combined FMRI with diffusion tensor imaging. PLoS One 2013, 8:e64154.
  • [32]Sasaki K, Matsunaga T, Tomite T, Yoshikawa T, Shimada Y: Effect of electrical stimulation therapy on upper extremity functional recovery and cerebral cortical changes in patients with chronic hemiplegia. Biomed Res 2012, 33:89-96.
  • [33]Shin HK, Cho SH, Jeon H-S, Lee Y-H, Song JC, Jang SH, Lee C-H, Kwon YH: Cortical effect and functional recovery by the electromyography-triggered neuromuscular stimulation in chronic stroke patients. Neurosci Lett 2008, 442:174-179.
  • [34]Page SJ, Harnish SM, Lamy M, Eliassen JC, Szaflarski JP: Affected arm use and cortical change in stroke patients exhibiting minimal hand movement. Neurorehabil Neural Repair 2010, 24:195-203.
  • [35]Stinear CM, Barber PA, Smale PR, Coxon JP, Fleming MK, Byblow WD: Functional potential in chronic stroke patients depends on corticospinal tract integrity. Brain 2007, 130:170-180.
  • [36]Rehme AK, Eickhoff SB, Rottschy C, Fink GR, Grefkes C: Activation likelihood estimation meta-analysis of motor-related neural activity after stroke. Neuroimage 2012, 59:2771-2782.
  • [37]Ward NS, Cohen LG: Mechanisms underlying recovery of motor function after stroke. Arch Neurol 2004, 61:1844-1848.
  • [38]Ward NS: Neural correlates of outcome after stroke: a cross-sectional fMRI study. Brain 2003, 126:1430-1448.
  • [39]Sanes JN, Wang J, Donoghue JP: Immediate and Delayed Changes of Rat Motor Cortical Output Representation with New Forelimb Configurations. Cereb Cortex 1992, 2:141-152.
  • [40]Ridding MC, Brouwer B, Miles TS, Pitcher JB, Thompson PD: Changes in muscle responses to stimulation of the motor cortex induced by peripheral nerve stimulation in human subjects. Exp Brain Res 2000, 131:135-143.
  • [41]Rushton DN: Functional electrical stimulation and rehabilitation–an hypothesis. Med Eng Phys 2003, 25:75-78.
  • [42]Cramer SC: Repairing the human brain after stroke: I. Mechanisms of spontaneous recovery. Ann Neurol 2008, 63:272-287.
  • [43]Cramer SC: Repairing the human brain after stroke. II Restorative therapies. Ann Neurol 2008, 63:549-560.
  • [44]Nudo RJ, Plautz EJ, Frost SB: Role of adaptive plasticity in recovery of function after damage to motor cortex. Muscle Nerve 2001, 24:1000-1019.
  • [45]Lotze M, Braun C, Birbaumer N, Anders S, Cohen LG: Motor learning elicited by voluntary drive. Brain 2003, 126:866-872.
  • [46]Kleim JA, Barbay S, Nudo RJ: Functional reorganization of the rat motor cortex following motor skill learning. J Neurophysiol 1998, 80:3321-3325.
  • [47]Rizzolatti G, Craighero L: The mirror-neuron system. Annu Rev Neurosci 2004, 27:169-192.
  • [48]Knutson JS, Harley MY, Hisel TZ, Hogan SD, Maloney MM, Chae J: Contralaterally controlled functional electrical stimulation for upper extremity hemiplegia: an early-phase randomized clinical trial in subacute stroke patients. Neurorehabil Neural Repair 2012, 26:239-246.
  • [49]Ngeo J, Tamei T, Shibata T, Orlando MFF, Behera L, Saxena A, Dutta A: Control of an optimal finger exoskeleton based on continuous joint angle estimation from EMG signals. Conf Proc IEEE Eng Med Biol Soc 2013, 2013:338-341.
  • [50]von Lewinski F, Hofer S, Kaus J, Merboldt K-D, Rothkegel H, Schweizer R, Liebetanz D, Frahm J, Paulus W: Efficacy of EMG-triggered electrical arm stimulation in chronic hemiparetic stroke patients. Restor Neurol Neurosci 2009, 27:189-197.
  • [51]Mrachacz-Kersting N, Kristensen SR, Niazi IK, Farina D: Precise temporal association between cortical potentials evoked by motor imagination and afference induces cortical plasticity. J Physiol 2012, 590:1669-1682.
  • [52]Barsi GI, Popovic DB, Tarkka IM, Sinkjaer T, Grey MJ: Cortical excitability changes following grasping exercise augmented with electrical stimulation. Exp Brain Res 2008, 191:57-66.
  • [53]Hong IK, Choi JB, Lee JH: Cortical changes after mental imagery training combined with electromyography-triggered electrical stimulation in patients with chronic stroke. Stroke 2012, 43:2506-2509.
  • [54]Ono T, Mukaino M, Ushiba J: Functional recovery in upper limb function in stroke survivors by using brain-computer interface A single case A-B-A-B design. Engineering in Medicine and Biology Society (EMBC), 2013 35th Annual International Conference of the IEEE 2013, 265-268.
  • [55]Cincotti F, Pichiorri F, Aricò P, Aloise F, Leotta F, de Vico Fallani F, Millán JDR, Molinari M, Mattia D: EEG-based Brain-Computer Interface to support post-stroke motor rehabilitation of the upper limb. Conf Proc IEEE Eng Med Biol Soc 2012 2012, 2012:4112-4115.
  • [56]Murphy TH, Corbett D: Plasticity during stroke recovery: from synapse to behaviour. Nat Rev Neurosci 2009, 10:861-872.
  • [57]Carmichael ST: Cellular and molecular mechanisms of neural repair after stroke: Making waves. Ann Neurol 2006, 59:735-742.
  • [58]Redecker C, Wang W, Fritschy J-M, Witte OW: Widespread and Long-Lasting Alterations in GABAA-Receptor Subtypes After Focal Cortical Infarcts in Rats: Mediation by NMDA-Dependent Processes. Journal of Cerebral Blood Flow & Metabolism 2002, 22:1463-1475.
  • [59]Biernaskie J, Chernenko G, Corbett D: Efficacy of rehabilitative experience declines with time after focal ischemic brain injury. J Neurosci 2004, 24:1245-1254.
  • [60]Demain S, Wiles R, Roberts L, McPherson K: Recovery plateau following stroke: Fact or fiction? Disabil Rehabil 2006, 28:815-821.
  • [61]Dobkin BH: Rehabilitation after Stroke. N Engl J Med 2005, 352:1677-1684.
  • [62]Knutson JS, Hisel TZ, Harley MY, Chae J: A novel functional electrical stimulation treatment for recovery of hand function in hemiplegia: 12-week pilot study. Neurorehabil Neural Repair 2009, 23:17-25.
  • [63]Singer BJ, Vallence A-M, Cleary S, Cooper I, Loftus AM: The effect of EMG triggered electrical stimulation plus task practice on arm function in chronic stroke patients with moderate-severe arm deficits. Restor Neurol Neurosci 2013, 31:681-691.
  • [64]Cauraugh JH, Kim SB: Chronic stroke motor recovery: duration of active neuromuscular stimulation. J Neurol Sci 2003, 215:13-19.
  • [65]Chae J, Bethoux F, Bohine T, Dobos L, Davis T, Friedl A: Neuromuscular stimulation for upper extremity motor and functional recovery in acute hemiplegia. Stroke 1998, 29:975-979.
  • [66]Rosewilliam S, Malhotra S, Roffe C, Jones P, Pandyan AD: Can Surface Neuromuscular Electrical Stimulation of the Wrist and Hand Combined With Routine Therapy Facilitate Recovery of Arm Function in Patients With Stroke? Arch Phys Med Rehabil 2012, 93:1715-1721.e1.
  • [67]Mangold S, Schuster C, Keller T, Zimmermann-Schlatter A, Ettlin T: Motor training of upper extremity with functional electrical stimulation in early stroke rehabilitation. Neurorehabil Neural Repair 2009, 23:184-190.
  • [68]Meilink A, Hemmen B, Seelen HAM, Kwakkel G: Impact of EMG-triggered neuromuscular stimulation of the wrist and finger extensors of the paretic hand after stroke: a systematic review of the literature. Clin Rehabil 2008, 22:291-305.
  • [69]Cauraugh JH, Kim S: Two coupled motor recovery protocols are better than one: electromyogram-triggered neuromuscular stimulation and bilateral movements. Stroke 2002, 33:1589-1594.
  • [70]Popović MB, Popovic DB, Sinkjaer T, Stefanovic A, Schwirtlich L: Clinical evaluation of Functional Electrical Therapy in acute hemiplegic subjects. J Rehabil Res Dev 2003, 40:443-453.
  • [71]Kawashima N, Popovic MR, Zivanovic V: Effect of intensive functional electrical stimulation therapy on upper-limb motor recovery after stroke: case study of a patient with chronic stroke. Physiother Can 2013, 65:20-28.
  • [72]Chen S-Y, Winstein CJ: A systematic review of voluntary arm recovery in hemiparetic stroke: critical predictors for meaningful outcomes using the international classification of functioning, disability, and health. J Neurol Phys Ther 2009, 33:2-13.
  • [73]van Kuijk AA, Pasman JW, Hendricks HT, Zwarts MJ, Geurts ACH: Predicting hand motor recovery in severe stroke: the role of motor evoked potentials in relation to early clinical assessment. Neurorehabil Neural Repair 2009, 23:45-51.
  • [74]Liuzzi G, Hörniss V, Lechner P, Hoppe J, Heise K, Zimerman M, Gerloff C, Hummel FC: Development of movement-related intracortical inhibition in acute to chronic subcortical stroke. Neurology 2013, 82(3):198-205.
  • [75]Wissel J, Manack A, Brainin M: Toward an epidemiology of poststroke spasticity. Neurology 2013, 80:S13-9.
  • [76]Burke D, Wissel J, Donnan GA: Pathophysiology of spasticity in stroke. Neurology 2013, 80:S20-6.
  • [77]Motta-Oishi AAP, Magalhães FH, Mícolis de Azevedo F: Neuromuscular electrical stimulation for stroke rehabilitation: is spinal plasticity a possible mechanism associated with diminished spasticity? Med Hypotheses 2013, 81:784-788.
  • [78]Stowe AM, Hughes-Zahner L, Barnes VK, Herbelin LL, Schindler-Ivens SM, Quaney BM: A pilot study to measure upper extremity H-reflexes following neuromuscular electrical stimulation therapy after stroke. Neurosci Lett 2013, 535:1-6.
  • [79]Weingarden HP, Zeilig G, Heruti R, Shemesh Y, Ohry A, Dar A, Katz D, Nathan R, Smith A: Hybrid functional electrical stimulation orthosis system for the upper limb: effects on spasticity in chronic stable hemiplegia. Am J Phys Med Rehabil 1998, 77:276-281.
  • [80]Gracies J-M: Pathophysiology of spastic paresis. I: Paresis and soft tissue changes. Muscle Nerve 2005, 31:535-551.
  • [81]Chang CW: Evident trans-synaptic degeneration of motor neurons after stroke: a study of neuromuscular jitter by axonal microstimulation. Electroencephalogr Clin Neurophysiol 1998, 109:199-202.
  • [82]Hara Y, Masakado Y, Chino N: The physiological functional loss of single thenar motor units in the stroke patients: when does it occur? Does it progress? Clin Neurophysiol 2004, 115:97-103.
  • [83]Chae J, Hart R: Intramuscular hand neuroprosthesis for chronic stroke survivors. Neurorehabil Neural Repair 2003, 17:109-117.
  • [84]Hsu S-S, Hu M-H, Luh J-J, Wang Y-H, Yip P-K, Hsieh C-L: Dosage of neuromuscular electrical stimulation: is it a determinant of upper limb functional improvement in stroke patients? J Rehabil Med 2012, 44:125-130.
  文献评价指标  
  下载次数:6次 浏览次数:14次