脳卒中理学療法ベスト・プラクティス

出版社: 文光堂
著者:
発行日: 2014-09-15
分野: 臨床医学:外科  >  リハビリ医学
ISBN: 9784830645129
電子書籍版: 2014-09-15 (第1版第2刷)
書籍・雑誌
≪全国送料無料でお届け≫
取寄せ目安:8~14営業日

6,820 円(税込)

購入する
電子書籍
章別単位での購入はできません
ブラウザ、アプリ閲覧

6,820 円(税込)

購入する

商品紹介

脳卒中片麻痺に立ち向かう臨床現場の理学療法士が是非知っておくべき知識,手法,歴史的な蓄積を様々に取り上げた.脳卒中理学療法の現在と,先端のレベルを反映している書.

目次

  • 脳卒中理学療法ベスト・プラクティス

    ―目次―

    序論 科学としての理学療法実践の立場から

    I 脳卒中理学療法の変遷と今後の方向性
     日本の脳卒中理学療法の歴史的変遷
     脳卒中理学療法の理論的変遷
     脳卒中理学療法の理論から実践?新たな展開へ

    II 「ベスト・プラクティス」と脳卒中理学療法の結合
     ベスト・エビデンスの臨床適用
     脳卒中リハビリテーション
     脳卒中患者に対する理学療法のベスト・プラクティス

    III 脳卒中理学療法の評価・臨床推論・治療を検証する
     1 脳の可塑性と運動療法
     2 姿勢と動作の分析を踏まえバランストレーニングへ
     3 運動連鎖の評価と臨床応用
     4 歩行分析から歩行に対する課題指向型アプローチ
     5 pusher現象への対応?なぜ押してしまうのか
     6 日常生活活動評価から回復期リハビリテーションにおける
       基本動作・応用動作練習
     7 在宅生活を支えるアプローチ

    IV 土山専門理学療法士が,28年間の臨床体験を踏まえて,
      脳卒中の理学療法の未来を展望する
      ─制度論と技術論の観点から─
     これからの脳卒中の理学療法はスピードが勝負?
     理学療法士はコンダクターになれるか
     まず,歩くことにこだわれ?
     脳卒中の理学療法は何を目指すのか
     理学療法士の職域の拡大
     地域密着型の理学療法の確立
     2025年の理学療法士配置イメージ

この書籍の参考文献

参考文献のリンクは、リンク先の都合等により正しく表示されない場合がありますので、あらかじめご了承下さい。

本参考文献は電子書籍掲載内容を元にしております。

P.8 掲載の参考文献
1) 砂原茂一:リハビリテーション. 岩波新書, 1980.
 
2) Hirschberg G(三好正堂訳):リハ医学の実際日本. アビリティーズ, 1980.
 
3) 奈良 勲:理学療法士の立場から観たケアに関する哲学的考察. http://www.let.osaka-u.ac.jp/~cpshama/NordicCare/NordicCare03Nara.pdf
 
4) 社団法人日本理学療法士協会:理学療法のめざすもの. http://www.japanpt.or.jp/physicaltherapy/about/
 
5) 苅田知則:環境心理学. 理学療法19(9):1044-1047, 2002.
 
P.39 掲載の参考文献
1) 上田 敏:リハビリテーションの歩み-その源流とこれから. p1-97, 医学書院, 2013.
 
2) 日本リハビリテーション医学会編:日本リハビリテーション医学50周年記念誌. 日本リハビリテーション医学会, 2013.
 
3) 東北大学医学部附属病院鳴子分院編:東北大学医学部附属病院鳴子分院50周年・閉院記念誌. 東北大学医学部附属病院鳴子分院50周年・閉院記念誌発行委員会, 1994.
 
4) An exploratory and analytical survey of therapeutic exercise, proceeding of the Northwestern University Special Therapeutic Exercise Project. Am J Phys Med 46:19-1108, 1967.
 
5) 上田 敏, 千野直一, 大川嗣雄編:リハビリテーション基礎医学. 医学書院, 1983.
 
6) 中村隆一, 長崎 浩, 細川 徹編:脳卒中の機能評価と予後予測. 医歯薬出版, 1991.
 
7) Ronning O, Guldvig B:Stroke unit versus general medical wards, II:Neurological deficits and activities of daily living:A Quasi-Randomized Controlled Trial. Stroke 29:586-590, 1998.
 
8) Seenan P, Long M, Langhorne P:Stroke units in their natural habitat systematic review of observational studies. Stroke 39:1886-1892, 2007.
 
9) Lister MJ ed:Contemporary management of motor control problems, Proceedings of the II STEP Conference, APTA's Neurology Section and Section on pediatrics. Foundation for Physical Therapy, 1991.
 
10) Bernstein N:The Co-ordination and Regulation of Movement. Pergamon Press, p114-187, 1967.
 
11) トーマス・クーン:科学革命の構造. 中山 茂訳, みずず書房, p1-189, 1991.
 
12) 中村隆一編:中枢神経疾患の理学療法-姿勢・運動異常とその治療-. 医歯薬出版, p1-45, 1977.
 
13) Sherrington CS:The Integrative Action of the Nervous System. New York, NY:Cambridge University Press, p70-180, 1908.
 
14) Taylor J ed:Selected Writings of John Hughlings Jackson Vol.1 & Vol.2. p412-457, p45-118.
 
15) Bernstein N:On Dexterity and Its Development. Latash L, Turvey M eds, Psychology Press, 1996.
 
16) Horak FB, Henry SM, Shumway-Cook A:Postural perturbations:new insights for the treatment of balance disorders. Phys Ther 77:517-533, 1997.
PubMed
17) Shumway-Cook A, Woollacott MH:Motor Control, Translating Research into Clinical Practice 4th ed. p3-198, 2012.
 
18) Horak F:Assumptions Underlying Motor Control for Neurologic Rehabilitation. Lister MJ ed, Contemporary management of motor control problems, Proceedings of the II STEP Conference, APTA's Neurology Section and Section on pediatrics, Foundation for Physical Therapy, p11-27, 1991.
 
19) 星 文彦:中枢神経障害に対する運動療法の変遷と動向. 理学療法ジャーナル 45:541-549, 2012.
 
20) Schmidt R:Motor Learning Principles for Physical Therapy. Lister MJ ed, Contemporary management of motor control problems, Proceedings of the II STEP Conference, APTA's Neurology Section and Section on pediatrics, Foundation for Physical Therapy, p49-64, 1991.
 
21) Callaban J, Parlman K, Beninato M et al:Perspective:Impact of the III STEP Conference on Clinical Practice. JNPT 30:157-166, 2006.
 
22) Nagi SZ:A study in the evaluation of disability and rehabilitation potential. AJPH 54:1568-1579, 1964.
 
23) Nudo RJ, Plautz EJ, Frost SB:Role of adaptive plasticity in recovery of function after damage to motor cortex. Muscle Nerve 24:1000-1019, 2001.
PubMed
24) Kleim JA, Barbay S, Nudo RJ:Functional reorganization of the rat motor cortex following motor skill learning. J Neurophysiol 80:3321-3325, 1998.
PubMed
25) Remple MS, Bruneau RM, VandenBerg PM et al:Sensitivity of cortical movement representations to motor experience:Evidence that skill learning but not strength training induces cortical reorganization. Behav Brain Res 123:133-141, 2001.
 
26) Kleim JA, Hogg TM, VandenBerg PM et al:Cortical synaptogenesis and motor map reorganization occur during late, but not early, phase of motor skill learning. J Neurosci 24:628-633, 2004.
 
27) Floyer-Lea A, Matthews PM:Changing brain networks for visuomotor controle with increased movement automaticity. J Neurophysiol 92:2405-2412, 2004.
 
28) Plautz EJ:Effects of repetitive motor training on movement representations in adult squirrel monkeys:role of use versus learning. Neurobiology of Learning and Memory 74:27-55, 2000.
PubMed
29) Kleim JA, Cooper NR, VandenBerg PM:Exercise induces angiogenesis but does not alter movement representations within the rat motor cortex. Brain Res 934:1-6, 2002.
 
30) Beitel RE, Schreiner CE, Vheung SW et al:Reward-dependent plasticity in the primary auditory cortex of adult monkeys trained to discriminate temporally modulated signals. Procnatl Acad Sci USA 100:11070-11075, 2003.
 
31) Nudo RJ, Wise BM, SiFuentes F et al:Neural substrates for the effects of rehabilitative training on motor recovery after ischemic infract. Science 272:1791-1794, 1996.
 
32) Palmer LM, Schulz JM, Murphy SC et al:The cellular basis of GABAB-mediated interhemispheric inhibition. Science 335(6071):989-993, 2012.
PubMed
33) Ward N, Cohen L:Mechanisms underlying recovery of motor function after stroke. Arch Neurol 61:1844-1848, 2004.
PubMed
34) Murase N, Duque J, Mazzocchio R et al:Influence of interhemispheric interactions on motor function in chronic stroke. Ann Neurol 55:400-409, 2004.
PubMed
35) Sharma N, Cohen L:Recovery of motor function after stroke. Dve Psychobiol 54:254-262, 2012.
 
36) Nudo RJ:Functional and structural plasticity in motor cortex:implications for stroke recovery. Phys Med Rehabil Clin N Am 14:S57-S76, 2003.
PubMed
37) Gordon J:Assumptions underlying physical therapy intervention:theoretical and historical perspectives. In Carr J, Shepherd R eds, Movement Science:Fundations for Physical Therapy in Rehabilitation, Second Edition, Aspen, p1-31, 2000.
 
38) Pollock A, Baer G, Langhome P et al:Physiotherapy treatment approaches for the recovery of postural control and lower limb function following stroke:a systematic review. Clinical Rehabil 21:395-410, 2007.
 
39) Martin CL:Effectiveness of physiotherapy for adults with cerebellar dysfunction:a systematic review. Clinical Rehabil 23:15-26, 2009.
PubMed
40) Peppen RPSV, Kwakkel G, Wood-Dauphinee S et al:The impact of physical therapy on functional outcomes after stroke:what's the evidence? Clinical Rehabil 18:833-862, 2004.
 
41) Lubetzky-Vilnai A, Kartin D:The effect of balance training on balance performance in individuals poststroke:A systematic review. JNPT 34:127-137, 2010.
PubMed
42) States R, Salem Y, Pappas E:Overground gait training for individuals with chronic stroke:A Cochrane systematic review. JNPT 33:179-186, 2009.
PubMed
43) Chan DY, Chan CCH, Au DKS:Motor relearning programme for stroke patients:a randomized controlled trial. Clinical Rehabil 20:191-200, 2006.
 
44) Chen SY, Winstein CJ:A systematic review of voluntary arm recovery in hemiparetic stroke. JNPT 33:2-13, 2009.
PubMed
45) Woldag H, Hummelsheim H:Evidence-based physiotherapeutic concepts for improveming arm and hand function in stroke patients A review. J Neurol 249:518-528, 2002.
PubMed
46) Dean CM, Shepherd RB:Task-related training improves performance of seated reaching tasks after stroke, A Randomized controlled trial. Stroke 28:722-728, 1997.
PubMed
47) Aziz NA, Leonardi-Bee J, Phillips MS et al:Therapy-based rehabilitation services for patients living at home more than one year after stroke(Review). The Cochrane Collaboration and published in The Cochrane Library, Issue 1, p1-26, 2009.
 
48) Whyte J:Toward a methodology for rehabilitation research. Am J Phys Med Rehabil 73(6):428-435, 1994.
 
49) Horak F, Nashner L:Central programming of postural movements:Adaptation to altered support surface configurations. J Neurophysiol 55:1369-1381, 1986.
PubMed
50) Huxham FE, Goldie PA, Patla AE:Theoretical considerations in balance assessment. Australian Journal of Physiotherapy 47:89-100, 2001.
PubMed
51) Patla AE:Adaptive human locomotion:influence of neural, biological and mechanical factor on control mechanisms. Clinical Disorders of Balance, Posture and Gait, 2edition, Bronstein AM, Brandt T et al eds, p20-38, 2004.
 
52) Laessoe U, Voigt M:Anticipatory postural control strategies related to predictive perturbations. Gait & Posture 28:62-68, 2008.
PubMed
53) Alexander NB, Mollo JM, Giordani B et al:Maintenance of balance, gait patters, and obstacle clearance in Alzheimer's disease. Neurology 45:908-914, 1995.
 
54) Harkema SJ, Hurley SL, Pate UK:Human lumbosacral spinal cord interprets loading during stepping. J Neurophysiol 77:797-811, 1997.
 
55) 星 文彦, 伊藤俊一編:バランス評価, PT・OTのための測定評価DVD Series 5. 三輪書店, p1-88, 2008.
 
56) Schmidt RA:Motor Control and Learning, second Edition. Human Kinetics, p227-266, 1988.
 
57) 中村隆一監修:理学療法テクニック-発達的アプローチ. 医歯薬出版, p1-9, 2004.
 
58) 中村隆一, 齋藤 宏:基礎運動学. 第6版, 医歯薬出版, p110-158, p287-360, p447-478, 2003.
 
59) 星 文彦, 伊藤俊一, 盆子原秀三編;理学療法評価学テキスト. 南江堂, p337-360, 2010.
 
P.55 掲載の参考文献
1) Basmajian JV:Control and training of individual motor unit. Science 2;141(3579):440-441, 1963.
 
2) Basmajian JV:Conscious control and training of motor units and biofeedback. In Basmajian JV, Deluca CJ(ed), Muscles Alive:Their Functions Revealed by Electromyography, ed 5, Baltimore, MD, The Williams & Wilkins Co, p168-186, 1985.
 
3) Wolf SL:Electromyographic biofeedback applications to stroke patients-a critical review-. Physical Therapy 63:1448-1459, 1983.
PubMed
4) Sacket DL, Rosenberg WM, Gray JA et al:Evidence-based medicine:what it is and what it isn't. Brit Med J 312:71-72, 1996.
 
5) Salbach NM, Jaglal SB, Korner-Bitensky N et al:Practioner and organizational barriers to evidence-based practice of physical therapists for people with stroke. Phys Ther 87:1284-1303, 2007.
 
6) 小林直人:米国評価学会(AEA)2009年次大会報告. NEDO海外レポート NO.1061, 2010.3.25. http://www.nedo.go.jp/content/100105993.pdf.
 
7) Canadian Institutes of Health Research:About knowledge translation. http://www.cihr-irsc.gc.ca/e/29418.html.
 
8) Straus S, Haynes RB:Managing evidence-based knowledge:the need for reliable, relevant and readable resources. Can Med Assoc J 180:942-945, 2009.
 
9) Salback NM:Knowledge translation, evidence-based practice, and you. Physiotherapy Canada 62:293-294, 2010.
 
10) Graham ID, Logan J, Harrison MB et al:Lost in knowledge translation:time for a map? J Contin Educ Health Prof 26:13-24, 2006.
PubMed
11) Sullivan KJ, Cen SY:Model of disablement and recover:knowledge translation in rehabilitation research and practice. Physical Therapy 91:1892-1303, 2011.
 
12) Brewer L, Horgan F, Hickey A et al:Stroke rehabilitation:recent advances and future therapies. Q J Med 106:11-25, 2013.
 
13) American Physical Therapy Association. Vision 2020. http://www.apta.org/vision2020/.
 
14) http://www.orhealthleadershipcouncil.org/evidence-based-best-practices.
 
15) Tomlinson CL, Patel S, Meek C et al:Physiotherapy versus placebo or no intervention in Parkinson's disease. Cochrane Database Syst Rev. 2012 Jul 11;7:CD002817. doi:10.1002/14651858.CD002817.pub2.
 
16) Kwakkel G, Kollen B, Linderman E:Understanding the pattern of functional recovery after stroke:facts and theories. Restor Neurol Neurosci 22:281-299, 2004.
 
17) Knecht S, Hesse S, Oster P:Rehabilitation after stroke. Dtsch Arztebl Int 108:600-606, 2011.
PubMed
18) Langhorne P, Bernhardt J, Kwakkel G:Stroke rehabilitation. Lancet 377:1693-1702, 2011.
PubMed
19) Stroke Unit Trialists' Collaboration:Organized inpatient(stroke unit) care for stroke. Cochrane Database Syst Rev, 4:CD000197, 2007.
PubMed
20) Early supported discharge trailists:Services for reducing duration of hospital care for acute stroke patients. Cochrane Database Syst Rev, 2:CD000443, 2005.
PubMed
21) Dewey HM, Sherry LJ, Collier JM:Stroke rehabilitation 2007:what should it be? Int J Stroke 2:191-200, 2007.
PubMed
22) Murphy TH, Corbett D:Plasticity during stroke recovery:from synapse to behavior. Nat Rev Neurosci 10:861-872, 2009.
PubMed
23) Bayona NA, Bitensky J, Salter K et al:The role of task-specific training in rehabilitation therapies. Top Stroke Rehabil 12:58-65, 2005.
PubMed
24) Nudo RJ, Friel KM, Delia SW:Role of sensory deficits in motor impairments after injury to primary motor cortex. Neuropharmacology 39:733-742, 2000.
PubMed
25) http://www.ebrsr.com/
PubMed
26) Teasell R:Challenges in the implementation of evidence in stroke rehabilitation. Top Stroke Rehabil 19:93-95, 2012.
 
27) http://www.kio.ac.jp/~a.matsuo/
 
28) Geyh S, Cieza A, Schouten J et al:ICF Core Sets for stroke. J Rehabil Med 44 Suppl:135-141, 2004.
 
29) Sulliyan JE, Crower BE, Kluding PM et al:Outcome measures for individuals with stroke:process and recommendations from the American Physical Therapy Association neurology section task force. Phys Ther 93:1383-1396, 2013.
 
30) Pollock A, Baer G, Pomeroy V et al:Physiotherapy treatment approaches for the recovery of postural control and lower limb function following after stroke. Cochrane Database Syst Rev, 1:CD001920, 2007.
 
31) Ferrarello F, Baccini M, Rinaldi LA et al:Efficacy of physiotherapy interventions late after stroke:a meta-analysis. J Neurol Neurosurg Psychiatry 82:136-143, 2011.
PubMed
32) Saunders DH, Greig CA, Mead GE et al:Physical fitness training for stroke patients. Cochrane Database Syst Rev, 4:CD003316, 2009.
PubMed
33) National Stroke Foundation:Clinical guidelines for stroke rehabilitation and recovery. Melbourne, Australia:NSF, 2005.
 
34) Menon A, Bitensky NK, Straus S:Best practice use in stroke rehabilitation:from trials and tribulations to solutions! Disability and Rehabilitation 32:646-649, 2010.
PubMed
P.82 掲載の参考文献
1) Teasell R, Bayona NA, Bitensky J:Plasticity and reorganization of the brain post stroke. Top Stroke Rehabil 12(3):11-26, 2005.
PubMed
2) Inoue Y, Takemoto K, Miyamoto T et al:Sequential computed tomography scans in acute cerebral infarction. Radiology 135(3):655-662, 1980.
PubMed
3) Astrup J, Siesjo BK, Symon L:Thresholds in cerebral ischemia-the ischemic penumbra. Stroke 12(6):723-725, 1981.
PubMed
4) Nudo RJ, Plautz EJ, Frost SB:Role of adaptive plasticity in recovery of function after damage to motor cortex. Muscle Nerve 24(8):1000-1019, 2001.
PubMed
5) Sadowski B:Plasticity of the cortical motor system. J Hum Kinet 20(1):5-22, 2008.
 
6) Nudo RJ:Adaptive plasticity in motor cortex:implications for rehabilitation after brain injury. J Rehabil Med 41(suppl):7-10, 2003.
 
7) Takatsuru Y, Eto K, Kaneko R et al:Critical role of the astrocyte for functional remodeling in contralateral hemisphere of somatosensory cortex after stroke. J Neurosci 33(11):4683-4692, 2013.
PubMed
8) Kleim JA, Barbay S, Cooper NR et al:Motor learning-dependent synaptogenesis is localized to functionally reorganized motor cortex. Neurobiol Learn Mem 77(1):63-77, 2002.
PubMed
9) Murphy TH, Corbett D:Plasticity during stroke recovery:from synapse to behaviour. Nat Rev Neurosci 10(12):861-872, 2009.
PubMed
10) Turrigiano GG, Nelson SB:Homeostatic plasticity in the developing nervous system. Nat Rev Neurosci 5(2):97-107, 2004.
PubMed
11) Butts DA, Kanold PO, Shatz CJ:A burst-based "Hebbian" learning rule at retinogeniculate synapses links retinal waves to activity-dependent refinement. PLoS Biol 5(3):e61, 2007.
 
12) Hebb DO:The Organization of Behavior:A Neuropsychological Theory. Psychology Press;2002.
 
13) Cramer SC:Repairing the human brain after stroke:I. Mechanisms of spontaneous recovery. Ann Neurol 63(3):272-287, 2008.
 
14) Nudo RJ, Milliken GW:Reorganization of movement representations in primary motor cortex following focal ischemic infarcts in adult squirrel monkeys. J Neurophysiol 75(5):2144-2149, 1996.
PubMed
15) Nudo RJ, Wise BM, SiFuentes F et al:Neural substrates for the effects of rehabilitative training on motor recovery after ischemic infarct. Science 272(5269):1791-1794, 1996.
PubMed
16) Nudo RJ:Remodeling of cortical motor representations after stroke:implications for recovery from brain damage. Mol Psychiatry 2(3):188-191, 1997.
PubMed
17) Dancause N, Barbay S, Frost SB et al:Extensive cortical rewiring after brain injury. J Neurosci 25(44):10167-10179, 2005.
PubMed
18) Nudo RJ:Postinfarct cortical plasticity and behavioral recovery. Stroke 38(2 Suppl):840-845, 2007.
 
19) Merzenich MM, Nelson RJ, Stryker MP et al:Somatosensory cortical map changes following digit amputation in adult monkeys. J Comp Neurol 224(4):591-605, 1984.
PubMed
20) Jenkins WM, Merzenich MM, Ochs MT et al:Functional reorganization of primary somatosensory cortex in adult owl monkeys after behaviorally controlled tactile stimulation. J Neurophysiol 63:82-104, 1990.
PubMed
21) Allard T, Clark SA, Jenkins WM et al:Reorganization of somatosensory area 3b representations in adult owl monkeys after digital syndactyly. J Neurophysiol 66(3):1048-1058, 1991.
PubMed
22) Recanzone GH, Jenkins WM, Hradek GT et al:Progressive improvement in discriminative abilities in adult owl monkeys performing a tactile frequency discrimination task. J Neurophysiol 67(5):1015-1030, 1992.
PubMed
23) Recanzone GH, Merzenich MM, Jenkins WM et al:Topographic reorganization of the hand representation in cortical area 3b owl monkeys trained in a frequency-discrimination task. J Neurophysiol 67(5):1031-1056, 1992.
 
24) Recanzone GH, Merzenich MM, Jenkins WM:Frequency discrimination training engaging a restricted skin surface results in an emergence of a cutaneous response zone in cortical area 3a. J Neurophysiol 67(5):1057-1070, 1992.
 
25) Recanzone GH, Merzenich MM, Schreiner CE:Changes in the distributed temporal response properties of SI cortical neurons reflect improvements in performance on a temporally based tactile discrimination task. J Neurophysiol 67(5):1071-1091, 1992.
PubMed
26) Iriki A, Tanaka M, Iwamura Y:Attention-induced neuronal activity in the monkey somatosensory cortex revealed by pupillometrics. Neurosci Res 25(2):173-181, 1996.
PubMed
27) Johansen-Berg H, Christensen V, Woolrich M et al:Attention to touch modulates activity in both primary and secondary somatosensory areas. Neuroreport 11(6):1237-1241, 2000.
PubMed
28) Nithianantharajah J, Hannan AJ:Enriched environments, experience-dependent plasticity and disorders of the nervous system. Nat Rev Neurosci 7(9):697-709, 2006.
PubMed
29) Ohlsson AL, Johansson BB:Environment influences functional outcome of cerebral infarction in rats. Stroke 26(4):644-649, 1995.
PubMed
30) Biernaskie J, Corbett D:Enriched rehabilitative training promotes improved forelimb motor function and enhanced dendritic growth after focal ischemic injury. J Neurosci 21(14):5272-5280, 2001.
PubMed
31) Janssen H, Bernhardt J, Collier JM et al:An enriched environment improves sensorimotor function post-ischemic stroke. Neurorehabil Neural Repair 24(9):802-813, 2010.
PubMed
32) O'Keefe LM, Doran SJ, Mwilambwe-Tshilobo L et al:Social isolation after stroke leads to depressive-like behavior and decreased BDNF levels in mice. Behav Brain Res, 2013. [Epub ahead of print].
 
33) Patel R, Spreng RN, Turner GR:Functional brain changes following cognitive and motor skills training:a quantitative meta-analysis. Neurorehabil Neural Repair 27(3):187-199, 2013.
PubMed
34) Dayan E, Cohen LG:Neuroplasticity subserving motor skill learning. Neuron 72(3):443-454, 2011.
PubMed
35) Ma L, Wang B, Narayana S et al:Changes in regional activity are accompanied with changes in inter-regional connectivity during 4 weeks motor learning. Brain Res 1318:64-76, 2010.
PubMed
36) Dancause N:Vicarious function of remote cortex following stroke:recent evidence from human and animal studies. Neuroscientist 12(6):489-499, 2006.
PubMed
37) Kantak SS, Stinear JW, Buch ER et al:Rewiring the brain:potential role of the premotor cortex in motor control, learning, and recovery of function following brain injury. Neurorehabil Neural Repair 26(3):282-392, 2012.
PubMed
38) Nishimura Y, Onoe H, Morichika Y et al:Time-dependent central compensatory mechanisms of finger dexterity after spinal cord injury. Science 318(5853):1150-1155, 2007.
PubMed
39) Ward NS, Brown MM, Thompson AJ et al:Neural correlates of outcome after stroke:a cross-sectional fMRI study. Brain 126(Pt 6):1430-1448, 2003.
 
40) Rehme AK, Fink GR, von Cramon DY et al:The role of the contralesional motor cortex for motor recovery in the early days after stroke assessed with longitudinal FMRI. Cereb Cortex 21(4):756-768, 2011.
PubMed
41) Asanuma H, Okuda O:Effects of transcallosal volleys on pyramidal tract cell activity of cat. J Neurophysiol 25:198-208, 1962.
 
42) Palmer LM, Schulz JM, Murphy SC et al:The cellular basis of GABA(B)-mediated interhemispheric inhibition. Science 335(6071):989-993, 2012.
 
43) Grefkes C, Nowak DA, Eickhoff SB et al:Cortical connectivity after subcortical stroke assessed with functional magnetic resonance imaging. Ann Neurol 63(2):236-246, 2008.
PubMed
44) Mark VW, Taub E, Morris DM:Neuroplasticity and constraint-induced movement therapy. Eura Medicophys 42(3):269-284, 2006.
PubMed
45) Avanzino L, Bassolino M, Pozzo T et al:Use-dependent hemispheric balance. J Neurosci 31(9):3423-3428, 2011.
PubMed
46) Nowak DA, Grefkes C, Ameli M et al:Interhemispheric competition after stroke:brain stimulation to enhance recovery of function of the affected hand. Neurorehabil Neural Repair 23(7):641-656, 2009.
PubMed
47) Hummel FC, Cohen LG:Non-invasive brain stimulation:a new strategy to improve neurorehabilitation after stroke? Lancet Neurol 5(8):708-712, 2006.
PubMed
48) Ward NS, Cohen LG:Mechanisms underlying recovery of motor function after stroke. Arch Neurol 61(12):1844-1848, 2004.
PubMed
49) Hsu WY, Cheng CH, Liao KK et al:Effects of repetitive transcranial magnetic stimulation on motor functions in patients with stroke:a meta-analysis. Stroke 43(7):1849-1857, 2012.
PubMed
50) Elsner B, Kugler J, Pohl M et al:Transcranial direct current stimulation(tDCS) for improving function and activities of daily living in patients after stroke. Cochrane Database Syst Rev. 2013 Nov 15;11:CD009645. [Epub ahead of print]
 
51) Wolf SL, Lecraw DE, Barton LA et al:Forced use of hemiplegic upper extremities to reverse the effect of learned nonuse among chronic stroke and head-injured patients. Exp Neurol 104(2):125-132, 1989.
PubMed
52) Taub E, Miller NE, Novack TA et al:Technique to improve chronic motor deficit after stroke. Arch Phys Med Rehabil 74(4):347-354, 1993.
PubMed
53) Taub E, Uswatte G, Elbert T:New treatments in neurorehabilitation founded on basic research. Nat Rev Neurosci 3(3):228-236, 2002.
PubMed
54) Sirtori V, Corbetta D, Moja L et al:Constraint-induced movement therapy for upper extremities in stroke patients. Cochrane Database Syst Rev. 2009 Oct 7;(4):CD004433.
 
55) Langhorne P, Coupar F, Pollock A:Motor recovery after stroke:a systematic review. Lancet Neurol 8(8):741-754, 2009.
PubMed
56) Takebayashi T, Koyama T, Amano S et al:A 6-month follow-up after constraint-induced movement therapy with and without transfer package for patients with hemiparesis after stroke:a pilot quasi-randomized controlled trial. Clin Rehabil 27(5):418-426, 2013.
PubMed
57) Taub E, Uswatte G, Mark VW et al:Method for enhancing real-world use of a more affected arm in chronic stroke:transfer package of constraint-induced movement therapy. Stroke 44(5):1383-1388, 2013.
PubMed
58) Gillick BT, Krach LE, Feyma T et al:Primed low-frequency repetitive transcranial magnetic stimulation and constraint-induced movement therapy in pediatric hemiparesis:a randomized controlled trial. Dev Med Child Neurol, 2013. [Epub ahead of print]
 
59) Bolognini N, Vallar G, Casati C et al:Neurophysiological and behavioral effects of tDCS combined with constraint-induced movement therapy in poststroke patients. Neurorehabil Neural Repair 25(9):819-829, 2011.
PubMed
60) Geyer S, Ledberg A, Schleicher A et al:Two different areas within the primary motor cortex of man. Nature 382(6594):805-807, 1996.
PubMed
61) Rathelot JA, Strick PL:Subdivisions of primary motor cortex based on cortico-motoneuronal cells. Proc Natl Acad Sci USA 106(3):918-923, 2009.
PubMed
62) Sharma N, Cohen LG:Recovery of motor function after stroke. Dev Psychobiol 54(3):254-262, 2012.
PubMed
63) Loubinoux I, Dechaumont-Palacin S, Castel-Lacanal E et al:Prognostic value of FMRI in recovery of hand function in subcortical stroke patients. Cereb Cortex 17(12):2980-2987, 2007.
PubMed
64) Strick PL, Preston JB:Sorting of somatosensory afferent information in primate motor cortex. Brain Res 156(2):364-368, 1978.
PubMed
65) Binkofski F, Fink GR, Geyer S et al:Neural activity in human primary motor cortex areas 4a and 4p is modulated differentially by attention to action. J Neurophysiol 88(1):514-519, 2002.
PubMed
66) Sharma N, Jones PS, Carpenter TA et al:Mapping the involvement of BA 4a and 4p during Motor Imagery. Neuroimage 41(1):92-99, 2008.
PubMed
67) Sharma N, Simmons LH, Jones PS et al:Motor imagery after subcortical stroke:a functional magnetic resonance imaging study. Stroke 40(4):1315-1324, 2009.
PubMed
68) Nilsen DM, Gillen G, Gordon AM:Use of mental practice to improve upper-limb recovery after stroke:a systematic review. Am J Occup Ther 64(5):695-708, 2010.
PubMed
69) Barclay-Goddard RE, Stevenson TJ, Poluha W et al:Mental practice for treating upper extremity deficits in individuals with hemiparesis after stroke. Cochrane Database Syst Rev. 2011 May 11;(5):CD005950.
 
P.108 掲載の参考文献
1) 藤原勝夫, 池上晴夫, 岡田守彦:立位姿勢における足圧中心位置およびその規定要因に関する一考察. 姿勢研究 4:9-16, 1984.
 
2) Murray MP, Seireg AA, Sepic SB:Normal postural stability and steadiness:quantitative assessment. JBJS Am 57:510-516, 1975.
PubMed
3) Fujiwara K, Asai H, Toyama H et al:Perceptibility of body position in anteroposterior direction while standing with eyes closed. Percept Mot Skills 88:581-589, 1999.
PubMed
4) Fujiwara K, Asai H, Kiyota N et al:Relationship between quiet standing position and perceptibility of standing position in the anteroposterior direction. J Physiol Anthropol 29:197-203, 2010.
PubMed
5) 宮口明義, 淺井 仁, 藤原勝夫:高齢者の立位位置知覚能. Telos 35:1-6, 2003.
 
6) 藤原勝夫, 池上晴夫, 岡田守彦:立位姿勢の安定性と下肢筋の筋負担度との関係. 筑波大学体育科学系紀要 8:165-171, 1985.
 
7) Reynolds E, Lovett RW:A method of determining the position of the center of gravity in its position to certain bony landmarks in erect position. Am J Physiol 24:286-293, 1909.
 
8) Gurfinkel VS, Ivanenko YU, Levik YS et al:Kinesthetic reference for human orthograde posture. Neuroscience 68:229-243, 1995.
 
9) Kavounoudias A, Gilhodes JC, Roll R et al:From balance regulation to body orientation:two goals for muscle proprioceptive information processing? Exp Brain Res 124:80-88, 1999.
PubMed
10) Mauritz KH, Dietz V:Characterristics of postural instability induced by ischemic blocking of leg afferents. Exp Brain Res 38:117-119, 1980.
 
11) Horak FB, Shupert CL, Mirka A:Components of postural dys-control in the elderly: a review. Neurobiol Aging 10:727-738, 1989.
 
12) Burke D, Gandevia SC, Macefield G:Responses to passive movement of receptors in joint, skin and muscle of the human hand. J Physiol 402:347-361, 1988.
 
13) Refshauge KM, Fitzpatrick RC:Perception of movement at the human ankle:effects of leg position. J Physiol 488:243-248, 1995.
PubMed
14) Fujiwara K, Asai H, Miyaguchi A et al:Perceived standing position after reduction of foot-pressure sensation by cooling the sole. Percept Mot Skills 96:381-399, 2003.
PubMed
15) Asai H, Fujiwara K:Perceptibility of large and sequential changes in somatosensory information during leaning forward and backward when standing. Percept Mot Skills 96:549-577, 2003.
PubMed
16) Duncan PW, Weiner DK, Chandler J et al:Functional reach:a new clinical measure of balance. J Gerontol 45:M192-197, 1990.
 
17) Wolf SD, Slijper H, Latash ML:Anticipatory postural adjustments during self-paced and reaction-time movements. Exp Brain Res 121:7-19, 1998.
 
18) Friedli WG, Cohen L, Hallett M et al:Postural adjustments associated with rapid voluntary arm movements. II. Biomechanical analysis. J Neurol Neurosurg Psychiatry 51:232-243, 1988.
PubMed
19) Lee WA:Anticipatory control of postural and task muscles during rapid arm flexion. J Mot Behav 12:185-196, 1980.
PubMed
20) Fujiwara K, Toyama H, Kunita K et al:Modality of postural movement in men and women with both arms flexed during standing. Percept Mot Skills 93:611-625, 2001.
PubMed
21) McCombe Waller S, Prettyman MG:Arm training in standing also improves postural control in participants with chronic stroke. Gait Posture 36:419-424, 2012.
PubMed
22) Shea CH, Wulf G, Whitacre C:Enhancing training efficiency and effectiveness through the use of dyad training. J Mot Behav 31:119-125, 1999.
PubMed
P.149 掲載の参考文献
1) 岩村吉晃:タッチ(神経心理学コレクション). 医学書院, p164-165, 2001.
 
2) 佐藤房郎:脳血管障害に対する理学療法のコツ・2. PTジャーナル 46:630-632, 2012.
 
3) Klein-Vogelbach S:Functional Kinetics. Springer-Verlag, p74-143, 1990.
 
4) 佐藤房郎:クラインコンセプトによる動作分析. 理学療法 37:16-24, 2007.
 
5) 佐藤房郎:脳卒中(回復期). 脳・神経系リハビリテーション, 潮見泰藏編, 羊土社, p67-93, 2012.
 
6) ケンダルほか:筋:機能とテスト-姿勢と痛み-. 栢森良二監訳, 西村書店, p70-90, 2006.
 
7) Phil Page ほか(小倉秀子監訳):ヤンダアプローチ-マッスルインバランスに対する評価と治療. 三輪書店, p45-59, 2013.
 
8) Myers TW:アナトミー・トレイン-徒手運動療法のための筋筋膜経線(松下松雄訳), 医学書院, p69-165, 2009.
 
9) 佐藤房郎:脳卒中片麻痺患者の上肢機能改善のための下肢・体幹機能連関の視点からのアプローチ. 理学療法 29:1367-1377, 2012.
 
Heinz FR Prechtl(日本語版監修, 著作;弓削マリ子):プレヒデル教授の早期乳児の神経機能評価法-診断的手段としてのGeneral Movements(Spontaneous Motor Activity as a Diagnostic Tool). 医学映像教育センター.
 
家森百合子, 鈴木順子, 弓削マリ子:赤ちゃんの一年-姿勢と運動の発達前編・後編. 医学映像教育センター.
 
多賀源太郎:脳と身体の動的デザイン. 金子書房, 2002.
 
P.171 掲載の参考文献
1) Perry J, Burnfield, JM:Basic Functions, Gait Analysis, Normal and Pathological Function. 2nd ed, SLACK, 2010.
 
2) Fukunaga T, Kubo K, Kawakami Y et al:In vivo behavior of human muscle tendon during walking. Proc Biol Sci 268:229-233, 2001.
PubMed
3) De Quervain et al:Gait pattern in the early recovery period after stroke. J Bone and Joint Surgery 78A(10):1506-1514, 1996.
 
4) 日本脳卒中学会, 脳卒中ガイドライン, http://www.jsts.gt.jp/jss08.html
 
5) Yamamoto S, Fuchi M et al:Change of rocker function in the gait of stroke patients using an ankle foot orthosis with an oil damper:immediate changes and the short-term effects. Prosthetics and Orhthotics International 35(4):350-359, 2011.
 
6) Yamamoto S, Ibayashi S et al:Immediate-term effects of use of an ankle-foot orthosis with an oil damper on the gait of stroke patients when walking without the device. Prosthetics and Orthotics International, 2013 in print.
 
7) Ohata K et al:Effects of an ankle-foot orshosis with oil damper on muscle activity in adults after stroke. Gait & Posture 33:102-117, 2011.
PubMed
8) 増田知子:回復期脳卒中理学療法のクリニカルリーズニング-装具の活用と運動療法. 理学療法ジャーナル 46(6):502-510, 2012.
 
山本澄子, 石井慎一郎, 江原義弘:基礎バイオメカニクズ. 医歯薬出版, 2010.
 
山本澄子, 江原義弘, 萩原章由ほか:ボディダイナミクス入門, 片麻痺者の歩行と短下肢装具. 医歯薬出版, 2005.
 
渡邉英夫:脳卒中の下肢装具. 第2版, 病態に対応した装具の選択法, 医学書院, 2012.
 
P.193 掲載の参考文献
1) Davies PM:Steps to follow, Springer-Verlag, 1985.
 
2) 阿部弘明:Contraversive pushingと脳画像情報. PTジャーナル 44:749-756, 2010.
 
3) Karnath HO, Ferber S, Dichgans J:The origin of contraversive pushing. Evidence for a second graviceptive system in humans. Neurology 55:1298-1304, 2000.
PubMed
4) Perennou DA et al:Lateropulsion, pushing and verticality perception in hemisphere stroke:a causal relationship? Brain 131:2401-2413, 2008.
PubMed
5) 網本 和ほか:左半側無視例における「Pusher現象」の重症度分析. 理学療法学 21:29-33, 1994.
 
6) D'Aquila MA et al:Validation of lateropulsion scale for patients recovering from stroke. Clin Rehabil 18:102-109, 2004.
PubMed
7) 網本 和ほか:視床・頭頂葉系の障害と理学療法. PTジャーナル 47:19-26, 2013.
 
8) Abe H et al:Prevalence and length of recovery of pusher syndrome based on cerebral hemispheric lesion side in patients with acute stroke. Stroke 43:1654-1656, 2012.
PubMed
9) 鈴木 誠ほか:Pusher現象における視覚的手がかり刺激の有効性. 作業療法 22:334-341, 2003.
Medical*Online
10) 網本 和:Pusher現象例の基礎と臨床. 理学療法学 29:75-78, 2002.
Medical*Online
11) 網本 和:半側空間無視とその関連症状に対する理学療法. 理学療法学 34:114-117, 2007.
Medical*Online
12) Bohannon RW:Letters to the editor. Physical Therapy 84:580-581, 2004.
 
13) 有光一樹ほか:左半側空間無視におけるシーティング導入の意義. 作業療法 43:274-288, 2009.
 
14) Karnath HO:Pusher syndrome-afrequent but little known disturbance of body orientation perception. J Neural 254:415-424, 2007.
 
15) Mittelstaedt H:Origin and processing of postural information. Neurosci Biobehav Rev 22(4):473-478, 1998.
PubMed
P.211 掲載の参考文献
1) 日本リハビリテーション医学会:ADL評価について. リハ医学 13:315, 1976.
 
2) 日本リハビリテーション病院・施設協会編:維持期リハビリテーション-生活を支えるリハビリテーションの展開. 三輪書店, 2009.
 
3) 園田 茂ほか:FIMを用いた脳血管障害患者の機能評価. リハ医学 29(3):217-222, 1992.
 
4) 篠原幸人, 小川 彰ほか編:脳卒中治療ガイドライン2009. 協和企画.
 
5) 今田 拓:ADL評価について. リハ医学 13:315, 1976.
 
P.230 掲載の参考文献
1) 世界保健機関:国際生活機能分類-国際障害分類改訂版-. 中央法規, 2003.
 
2) 金谷さとみ:維持期理学療法モデル. 理学療法ジャーナル 44(3), 2010.
 
3) 日本リハビリテーション病院・施設協会:高齢者リハビリテーション医療のグランドデザイン. 青梅社, 2008.
 
4) 林 泰史, 黒岩貞夫, 野中 博ほか監修:在宅医療-午後から地域へ-. 日本医師会, 医学書院, 2010.
 
5) 社団法人日本理学療法士協会:平成16年度老人保健事業推進費等補助金事業「高齢者の「起き上がり」「立ち上がり」能力と自己効力を高めるケアに関する調査研究事業報告書」. 2004.
 
6) 近藤克則:検証健康格差社会-介護予防に向けた社会疫学的大規模調査. 医学書院, 2008.
 
7) 金谷さとみ:地域における生活機能向上のための理学療法. 理学療法ジャーナル 38(7), 2004.
 
8) 福屋靖子編集:訪問理学療法-訪問理学療法の専門的機能. 日本理学療法士協会, 2002.
 
9) 島田裕之:在宅生活で離床を促す理学療法士の視点. 理学療法ジャーナル 43(11), 2009.
 
10) 金谷さとみ:地域理学療法の診療ガイドライン. 理学療法ジャーナル 47(9), 2013.
 
11) 金谷さとみ:脳卒中に対する標準的理学療法介入-「退院後はこうして暮らしやすくしよう」バリアフリーの対応. 文光堂, 2006.
 
12) 厚生労働省ホームページ
 
P.271 掲載の参考文献
1) 石神重信ほか:我々が用いている脳卒中の予後予測V. 臨床リハ 10:326-330, 2001.
 
2) 二木 立:脳卒中リハビリテーション患者の早期自立度予測. リハ医学 19:201-223, 1982.
 
3) 道免和久:脳卒中機能評価・予後予測マニュアル. 医学書院, 2013.
 
4) 原 寛美ほか:早期リハビリテーションの現状と課題-脳卒中急性期における早期リハビリテーション-. 理学療法 24(9):1176-1184, 2007.
 
5) 石井慎一郎:歩行動作における動作支援のバイオメカニクス. 理学療法 27(1)56-65, 2010.
 
6) 高木治雄:回復期脳卒中片麻痺に対するGait Solution付長下肢装具の適応と臨床的役割. 長崎理学療法 12:1-7, 2011.
 
7) 石井慎一郎:歩行動作における動作支援のバイオメカニクス. 理学療法 27(1) 56-65, 2010.
 
8) 原 寛美:脳卒中リハビリテーションにおける下肢装具の展開-臨床的知見から-. The Japanese Journal of Rehabilitation Medicine 47(6):350-355, 2010.
Medical*Online
9) 奈良 勲:理学療法の知と技の融合とバランス. PTジャーナル 48:270-273, 2014.
 
10) 佐直信彦ほか:在宅脳卒中患者の生活活動と歩行機能の関連. リハビリテーション医学 28(7):541-547, 1991.
Medical*Online
11) 篠原幸人, 小川 彰, 鈴木則宏ほか編:脳卒中治療ガイドライン2009. 共同企画, p300-304, 2009.
 
12) 大畑光司:脳卒中片麻痺患者の主要な障害としての筋力低下について. 秋田理学療法 18(1):3-7, 2010.
Medical*Online
13) 西上智彦ほか:運動療法中の腓腹筋筋活動と1日歩行量の関連. 理学療法科学 23(1):111-114, 2008.
Medical*Online
14) 市橋則明ほか:大腿四頭筋の廃用性筋萎縮を防止するために必要な下肢の運動量について. 体力科学 42:461-464, 1993.
 
15) 平田和彦ほか:病棟専属理学療法士配置による効果の検討. 国立大学法人リハビリテーションコ・メディカル学術大会誌(2008年から) 31:20-22, 2010.
Medical*Online
16) 奈良 勲ほか:拘縮の予防と治療. 第2版, 医学書院, 2008.
 
17) 大田仁史:地域リハビリテーション原論VER5. 医歯薬出版, 2010.
 
18) 團 志朗ほか:槌指・足関節内反に対し, ボツリヌス療法が効を奏した1例. 総合リハ 42(3), 2014.
 
19) 道免和久ほか:Constraint-induced movement therapy(CI療法) 最近の知見. JPN J Rehabil Med 50:712-717, 2013.
Medical*Online
20) 坂根正孝:ロボットスーツHALによる次世代ニューロリハビリテーションの臨床応用. http://www.first.ccr.tsukuba.ac.jp/research/theme/ccr2.html
 
21) 濱田緒美ほか:脳卒中超急性期リハビリテーションにおいて, ロボットスーツHALの使用が麻痺側生体電位検出に有効であった1例. 脳外誌 22:792-797, 2013.
 
22) 濱野正和ほか:回復期リハビリテーション病院入院患者の栄養状態とサルコペニアの評価. 栄養-評価と治療 30:47-51, 2013.
Medical*Online
23) 石川 誠:回復期リハ病棟の課題と展望 特集 クオリティ オブ 回復期. 金沢で第21回研究大会 基調講演, 2013. http://www.rehabili.jp/book/b2013_04/012-017.pdf
 

書評

最近チェックした商品履歴

Loading...