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NTIS 바로가기Medicine, v.95 no.32, 2016년, pp.e4525 -
Jang, Sung Ho (Department of Physical Medicine and Rehabilitation) , Yi, Ji Hyun (Department of Diagnostic Radiology) , Chang, Chul Hoon (Department of Neurosurgery) , Jung, Young Jin (Department of Neurosurgery) , Kim, Seong Ho (Department of Neurosurgery) , Lee, Jun (Department of Neurology, College of Medicine, Yeungnam University, Daemyungdong, Namku, Taegu, Republic of Korea.) , Seo, Jeong Pyo (Department of Physical Medicine and Rehabilitation)
AbstractWe attempted to determine whether shoulder subluxation at the early stage of stroke can predict motor outcome in relation to the corticospinal tract (CST) state on diffusion tensor tractography.Fifty-nine stroke patients with severe hemiparesis were recruited. The patients were classified ac...
1 Duncan PW Goldstein LB Matchar D Measurement of motor recovery after stroke. Outcome assessment and sample size requirements . Stroke 1992 ; 23 : 1084 – 1089 . 1636182
2 Jang SH Prediction of motor outcome for hemiparetic stroke patients using diffusion tensor imaging: a review . NeuroRehabilitation 2010 ; 27 : 367 – 372 . 21160127
3 Katrak P Bowring G Conroy P Predicting upper limb recovery after stroke: the place of early shoulder and hand movement . Arch Phys Med Rehabil 1998 ; 79 : 758 – 761 . 9685087
4 Kwakkel G Kollen BJ van der Grond J Probability of regaining dexterity in the flaccid upper limb: impact of severity of paresis and time since onset in acute stroke . Stroke 2003 ; 34 : 2181 – 2186 . 12907818
5 de Groot-Driessen D van de Sande P van Heugten C Speed of finger tapping as a predictor of functional outcome after unilateral stroke . Arch Phys Med Rehabil 2006 ; 87 : 40 – 44 . 16401436
6 Smania N Paolucci S Tinazzi M Active finger extension: a simple movement predicting recovery of arm function in patients with acute stroke . Stroke 2007 ; 38 : 1088 – 1090 . 17255546
7 Jang SH Bai D Son SM Motor outcome prediction using diffusion tensor tractography in pontine infarct . Ann Neurol 2008 ; 64 : 460 – 465 . 18661560
8 Tuttolomondo A Pedone C Pinto A Predictors of outcome in acute ischemic cerebrovascular syndromes: the GIFA study . Int J Cardiol 2008 ; 125 : 391 – 396 . 17490764
9 Lindenberg R Renga V Zhu LL Structural integrity of corticospinal motor fibers predicts motor impairment in chronic stroke . Neurology 2010 ; 74 : 280 – 287 . 20101033
10 Nijland RH van Wegen EE Harmeling-van der Wel BC Presence of finger extension and shoulder abduction within 72 hours after stroke predicts functional recovery: early prediction of functional outcome after stroke: the EPOS cohort study . Stroke 2010 ; 41 : 745 – 750 . 20167916
11 Zhu LL Lindenberg R Alexander MP Lesion load of the corticospinal tract predicts motor impairment in chronic stroke . Stroke 2010 ; 41 : 910 – 915 . 20378864
12 Tuttolomondo A Di Sciacca R Di Raimondo D Effects of clinical and laboratory variables and of pretreatment with cardiovascular drugs in acute ischaemic stroke: a retrospective chart review from the GIFA study . Int J Cardiol 2011 ; 151 : 318 – 322 . 20598761
13 Jang SH Kim K Kim SH The relation between motor function of stroke patients and diffusion tensor imaging findings for the corticospinal tract . Neurosci Lett 2014 ; 572 : 1 – 6 . 24796808
14 Davidoff RA The pyramidal tract . Neurology 1990 ; 40 : 332 – 339 . 2405296
15 Cho HM Choi BY Chang CH The clinical characteristics of motor function in chronic hemiparetic stroke patients with complete corticospinal tract injury . NeuroRehabilitation 2012 ; 31 : 207 – 213 . 22951715
16 Jang SH The corticospinal tract from the viewpoint of brain rehabilitation . J Rehabil Med 2014 ; 46 : 193 – 199 . 24531325
17 Konishi J Yamada K Kizu O MR tractography for the evaluation of functional recovery from lenticulostriate infarcts . Neurology 2005 ; 64 : 108 – 113 . 15642912
18 Jang SH The role of the corticospinal tract in motor recovery in patients with a stroke: a review . NeuroRehabilitation 2009 ; 24 : 285 – 290 . 19458437
19 Turner-Stokes L Jackson D Shoulder pain after stroke: a review of the evidence base to inform the development of an integrated care pathway . Clin Rehabil 2002 ; 16 : 276 – 298 . 12017515
20 Paci M Nannetti L Rinaldi LA Glenohumeral subluxation in hemiplegia: an overview . J Rehabil Res Dev 2005 ; 42 : 557 – 568 . 16320150
21 Fitzgerald-Finch OP Gibson II Subluxation of the shoulder in hemiplegia . Age Ageing 1975 ; 4 : 16 – 18 . 1155293
22 Bohannon RW Andrews AW Shoulder subluxation and pain in stroke patients . Am J Occup Ther 1990 ; 44 : 507 – 509 . 2353719
23 Boyd EA Torrance GM Clinical measures of shoulder subluxation: their reliability . Can J Public Health 1992 ; 83 (suppl 2) : S24 – S28 . 1468045
24 Gillen G Burkhardt A Stroke Rehabilitation: A Function-Based Approach . St. Louis : Mosby ; 1998 .
25 Medical Research Council . Memorandum No. 45—Aids to the Examination of the Peripheral Nervous System . London : H.M. Stationery Office ; 1976 .
26 Demeurisse G Demol O Robaye E Motor evaluation in vascular hemiplegia . Eur Neurol 1980 ; 19 : 382 – 389 . 7439211
27 Brunnstrom S Motor testing procedures in hemiplegia: based on sequential recovery stages . Phys Ther 1966 ; 46 : 357 – 375 . 5907254
28 Jang SH Somatotopic arrangement and location of the corticospinal tract in the brainstem of the human brain . Yonsei Med J 2011 ; 52 : 553 – 557 . 21623594
29 Kennedy PR Corticospinal, rubrospinal and rubro-olivary projections: a unifying hypothesis . Trends Neurosci 1990 ; 13 : 474 – 479 . 1703677
30 Pettersson LG Blagovechtchenski E Perfiliev S Recovery of food-taking in cats after lesions of the corticospinal (complete) and rubrospinal (complete and incomplete) tracts . Neurosci Res 2000 ; 38 : 109 – 112 . 10997584
31 Matsuyama K Mori F Nakajima K Locomotor role of the corticoreticular–reticulospinal–spinal interneuronal system . Prog Brain Res 2004 ; 143 : 239 – 249 . 14653169
32 Jang SH The recovery of walking in stroke patients: a review . Int J Rehabil Res 2010 ; 33 : 285 – 289 . 20805757
33 Leiguarda RC Marsden CD Limb apraxias: higher-order disorders of sensorimotor integration . Brain 2000 ; 123 : 860 – 879 . 10775533
34 Heilman KM Apraxia . Continuum (Minneap Minn) 2010 ; 16 : 86 – 98 . 22810515
35 Hong JH Lee J Cho YW Limb apraxia in a patient with cerebral infarct: diffusion tensor tractography study . NeuroRehabilitation 2012 ; 30 : 255 – 259 . 22672938
36 Jang SH Motor recovery by improvement of limb-kinetic apraxia in a chronic stroke patient . NeuroRehabilitation 2013 ; 33 : 195 – 200 . 23949047
37 Lee KC Finley R Miller B Apraxia of lid opening: dose-dependent response to carbidopa–levodopa . Pharmacotherapy 2004 ; 24 : 401 – 403 . 15040654
38 Yamada S Matsuo K Hirayama M The effects of levodopa on apraxia of lid opening: a case report . Neurology 2004 ; 62 : 830 – 831 . 15007147
39 Newman M The process of recovery after hemiplegia . Stroke 1972 ; 3 : 702 – 710 . 4639102
40 Page SJ Gater DR Bach YRP Reconsidering the motor recovery plateau in stroke rehabilitation . Arch Phys Med Rehabil 2004 ; 85 : 1377 – 1381 . 15295770
41 Parker GJ Alexander DC Probabilistic anatomical connectivity derived from the microscopic persistent angular structure of cerebral tissue . Philos Trans R Soc Lond B Biol Sci 2005 ; 360 : 893 – 902 . 16087434
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