Evaluation of upper limb sense of position in healthy individuals and patients after stroke

Journal of Healthcare Engineering

Volumn 5, Issue 2, 2014, Pages 145-162

  Cusmano, I ^a   Sterpi, I ^a   Mazzone, A ^a   Ramat, S ^b   Delconte, C ^a   Pisano, F ^a   Colombo, R ^a  

^a IRCCS   (Italy)

^b UNIVERSITY OF PAVIA   (Italy)

Author keywords

neurorehabilitation; proprioception; sense of position; sensory system; stroke

Indexed keywords

MIRRORS; SENSORY PERCEPTION; SYSTEMATIC ERRORS;

DETECTION OF CHANGES; NEUROREHABILITATION; PERFORMANCE PARAMETERS; QUANTITATIVE ASSESSMENTS; QUANTITATIVE MEASURES; SENSE OF POSITION; SENSORY SYSTEM; STROKE;

NEUROMUSCULAR REHABILITATION;

ADULT; ARM MOVEMENT; ARM POSITION SENSE; ARTICLE; CAMERA; CEREBROVASCULAR ACCIDENT; CLINICAL ARTICLE; CLINICAL ASSESSMENT TOOL; COMPARATIVE STUDY; CONTROLLED STUDY; EVALUATION STUDY; FEMALE; HAND FUNCTION; HUMAN; MALE; MOTION ANALYSIS SYSTEM; PHYSICAL PERFORMANCE; PILOT STUDY; POSITION; PROPRIOCEPTION; QUANTITATIVE ANALYSIS; RELIABILITY; ROBOTICS; SENSORY FEEDBACK; STROKE PATIENT; SYSTEMATIC ERROR; TASK PERFORMANCE; TEST RETEST RELIABILITY; VISUAL FEEDBACK;

NEUROREHABILITATION; PROPRIOCEPTION; SENSE OF POSITION; SENSORY SYSTEM; STROKE;

ADULT; ANALYSIS OF VARIANCE; CASE-CONTROL STUDIES; FEMALE; HUMANS; MALE; MIDDLE AGED; PROPRIOCEPTION; REHABILITATION; ROBOTICS; STROKE; TASK PERFORMANCE AND ANALYSIS; UPPER EXTREMITY; YOUNG ADULT;

EID: 84907371407     PISSN: 20402295     EISSN: 20402309     Source Type: Journal    
DOI: 10.1260/2040-2295.5.2.145     Document Type: Article

References (41)

1. Goble DJ. Proprioceptive Acuity Assessment Via Joint Position Matching: From Basic Science to General Practice. Phys Ther, 2010, 90:1176-84.
2. Goble DJ, Anguera JA. Plastic Changes in Hand Proprioception Following Force-Field Motor Learning. J Neurophysiol, 2010, 104:1213-5.
3. Xerri C, Merzenich MM, Peterson BE, Jenkins W. Plasticity of Primary Somatosensory Cortex Paralleling Sensorimotor Skill Recovery From Stroke in Adult Monkeys. J Neurophysiol, 1998, 79:2119-48.
4. Goodwin GM, McCloskey DI, Matthews. Proprioceptive Illusions Induced by Muscle Vibration: Contribution by Muscle Spindles to Perception? Science, 1972, 175:1382-4.
5. Burke D, Hagbarth KE, Lšfstedt L, BG W. The responses of human muscle spindle endings to vibration of non-contracting muscles. J Physiol, 1976, 261:673-93.
6. Roll JP, Vedel JP. Kinaesthetic role of muscle afferents in man, studied by tendon vibration and microneurography. Experimental Brain Research, 1982, 47:177-90.
7. Wilson ET, Wong J, Gribble PL. Mapping Proprioception across a 2D Horizontal Workspace. PLoS ONE, 2010, 5:1-13.
8. Lincoln NB, Crow JL, Jackson JM, Waters GR, Adams SA, Hodgson P. The unreliability of sensory assessments. Clinical Rehabilitation, 1991, 5:273-82.
9. Garraway WM, Akhtar AJ, SM G, Prescott RJ. Observer Variation in the Clinical Assessment of Stroke. Age and Ageing, 1976, 5:233-40.
10. Dukelow SP, Herter TM, Moore KD, Demers MJ, Glasgow JI, Bagg SD, et al. Quantitative Assessment of Limb Position Sense Following Stroke. Neurorehabil Neural Repair, 2010, 24:178-87.
11. Simo LS, Ghez C, Botzer L, Scheidt RA. A quantitative and standardized robotic method for the evaluation of arm proprioception after stroke. 2011 Annual International Conference of the IEEE Engineering in Medicine and Biology Society,EMBC, 2011, 8227-8230.
12. Squeri V, Zenzeri J, Morasso P, Basteris A. Integrating proprioceptive assessment with proprioceptive training of stroke patients. 2011 IEEE International Conference on Rehabilitation Robotics (ICORR), 2011, 1-6.
13. Goble DJ, Noble BC, Brown SH. Where was my arm again? Memory-based matching of proprioceptive targets is enhanced by increased target presentation time. Neuroscience Letters, 2010, 481:54-8.
14. Goble DJ, Lewis CA, Brown SH. Upper limb asymmetries in the utilization of proprioceptive feedback. Experimental Brain Research, 2005, 168:307-11.
15. Fuentes CT, Bastian AJ. Where Is Your Arm? Variations in Proprioception Across Space and Tasks. J Neurophysiol, 2010, 103:164-71.
16. Van Beers RJ, Sittig AC, Denier van der Gon JJ. The precision of proprioceptive position sense. Experimental Brain Research, 1998, 122:367-77.
17. Sainburg RL, Poizner H, Ghez C. Loss of proprioception produces deficits in interjoint coordination. J Neurophysiol, 1993, 70:2136-47.
18. Sainburg RL, Ghilardi MF, Poizner H, Ghez C. Control of limb dynamics in normal subjects and patients without proprioception. J Neurophysiol, 1995, 73:820-35.
19. Myers JB, Guskiewicz KM, Schneider RA, Prentice WE. Proprioception and Neuromuscular Control of the Shoulder After Muscle Fatigue. J Athl Train, 1999, 34:362-7.
20. O'Suilleabhain P, Bullard J, Dewey RB. Proprioception in Parkinson's disease is acutely depressed by dopaminergic medications. J Neurol Neurosurg Psychiatry, 2001, 71:607-10.
21. Hospod V, Aimonetti J-M, Roll J-P, Ribot-Ciscar E. Changes in Human Muscle Spindle Sensitivity during a Proprioceptive Attention Task. J Neurosci, 2007, 27:5172-8.
22. Wong JD, Wilson ET, Gribble PL. Spatially selective enhancement of proprioceptive acuity following motor learning. J Neurophysiol, 2011, 105:2512-21.
23. Scott SH, Dukelow SP. Potential of robots as next-generation technology for clinical assessment of neurological disorders and upper-limb therapy. The Journal of Rehabilitation Research and Development, 2011, 48:335.
24. Reding MJ. A model stroke classification scheme and its use in outcome research. Stroke, 1990, 21:II35-7.
25. Shah SK. Deficits Affecting the Function of the Paralysed Arm Following Hemiplegia. Australian Occupational Therapy Journal, 1978, 25:12-9.
26. Feys H, De Weerdt W, Nuyens G, Van De Winckel A, Selz B, Kiekens C. Predicting motor recovery of the upper limb after stroke rehabilitation: value of a clinical examination. Physiotherapy Research International, 2000, 5:1-18.
27. De Weerdt W, Lincoln NB, Harrison MA. Prediction of arm and hand function recovery in stroke patients. International Journal of Rehabilitation Research, 1987, 10:110-2.
28. Fortier S, Basset FA. The effects of exercise on limb proprioceptive signals. Journal of Electromyography and Kinesiology, 2012, 22:795-802.
29. Semrau JA, Herter TM, Scott SH, Dukelow SP. Robotic Identification of Kinesthetic Deficits After Stroke. Stroke, 2013, 44(12):3414-21.
30. Oldfield RC. The assessment and analysis of handedness: The Edinburgh inventory. Neuropsychologia, 1971, 9:97-113.
31. Winward CE, Halligan PW, Wade DT. The Rivermead Assessment of Somatosensory Performance (RASP): standardization and reliability data. Clin Rehabil, 2002, 16:523-33.
32. Busse M, Tyson SF. How many body locations need to be tested when assessing sensation after stroke? An investigation of redundancy in the Rivermead Assessment of Somatosensory Performance. Clin Rehabil, 2009, 23:91-5.
33. Casadio M, Sanguineti V, Morasso PG, Arrichiello V. Braccio di Ferro: A new haptic workstation for neuromotor rehabilitation. Technology and Health Care, 2006, 14:123-42.
34. Chen S, Cowan CFN, Grant PM. Orthogonal least squares learning algorithm for radial basis function networks. IEEE Transactions on Neural Networks, 1991, 2:302-9.
35. Weir JP. Quantifying Test-Retest Reliability Using the Intraclass Correlation Coefficient and the SEM. Journal of Strength and Conditioning Research: The Research Journal of the NSCA, 2005, 19:231-40.
36. Roebroeck ME, Harlaar J, Lankhorst GJ. The Application of Generalizability Theory to Reliability Assessment: An Illustration Using Isometric Force Measurements. Phys Ther, 1993, 73:386-95.
37. Rossetti Y, Meckler C, Prablanc C. Is there an optimal arm posture? Deterioration of finger localization precision and comfort sensation in extreme arm-joint postures. Exp Brain Res, 1994, 99:131-6.
38. Scott SH, Loeb GE. The computation of position sense from spindles in mono- and multiarticular muscles. J Neurosci, 1994, 14:7529-40.
39. Hall LA, McCloskey DI. Detections of movements imposed on finger, elbow and shoulder joints. J Physiol, 1983, 335:519-33.
40. Clark F, Larwood K, Davis M, Deffenbacher K. A metric for assessing acuity in positioning joints and limbs. Experimental Brain Research, 1995, 107:73-9.
41. Clark FJ. How accurately can we perceive the positions of our limbs? Behavioural and Brain Sciences, 1992, 15:725-6.