W I S S E N S C H A F TN A R R AT I V E R R E V I E W Effekte trainingstherapeutischer Maßnahmen
bei Morbus Parkinson
Extrinsische Trainingsmaßnahmen Mareike Schwed, Christian T. Haas
20. Morris ME, Iansek R, Matyas TA, Summers JJ.
Gruendlinger L, Peretz C, Giladi N. 2007.
1994. Ability to modulate walking cadence Rhythmic auditory stimulation modulates gait remains intact in Parkinson’s disease. Journal Lim I, van Wegen E, de Goede C, Deutekom M, variability in Parkinson’s disease. European of Neurology, Neurosurgery & Psychiatry 57: Journal of Neuroscience 26: 2369-75 external rhythmical cueing on gait in patients with Parkinson’s disease: a systematic review.
12. Frenkel-Toledo S, Giladi N, Peretz C, Herman T, 21. Morris ME, Iansek R, Matyas TA, Summers JJ.
Clinical rehabilitation 19: 695-713 Gruendlinger L, Hausdorff JM. 2005. Treadmill 1996. Stride length regulation in Parkinson's walking as an external pacemaker to improve disease: normalization strategies and underly- Rubinstein TC, Giladi N, Hausdorff JM. 2002.
gait rhythm and stability in Parkinson’s disea- The power of cueing to circumvent dopamine se. Movement Disorders 20: 1109-14 deficits: a review of physical therapy treat- 22. Azulay JP, Mesure S, Amblard B, Blin O, Sangla ment of gait disturbances in Parkinson’s disea- 13. Bello O, Sanchez JA, Fernandez-del-Olmo M.
I, Pouget J. 1999. Visual control of locomotion se. Movement Disorders 17: 1148-60 2008. Treadmill walking in Parkinson's disease in Parkinson’s disease. Brain 122: 111-20 Schwed M, Haas CT. 2009. Morbus Parkinson 23. Enzensberger W, Fischer PA. 1996. Metronome effect. Movement Disorders 23: 1243–9 Teil IV: Cueing, Chunking und Cross-Modal in Parkinson’s disease. Lancet 347: 1337 Interaction. Interdisziplinäre Erklärungsansätze 14. Frenkel-Toledo S, Giladi N, Peretz C, Herman T, 24. Rochester L, Hetherington V, Jones D, Nieuw- für die Gangtherapie. Physiotherapie Med: 5-10 Gruendlinger L, Hausdorff JM. 2005. Effect of boer A, Willems AM, Kwakkel G, van Wegen E.
gait speed on gait rhythmicity in Parkinson's Azulay JP, van Den Brand C, Mestre D, Blin O, 2005. The effect of external rhythmic cues disease: variability of stride time and swing Sangla I, Pouget J. 1996. Automatic motion (auditory and visual) on walking during a time respond differently. Journal of neuroen- analysis of gait in patients with Parkinson dise- functional task in homes of people with Par- gineering and rehabilitation 2: 23-9 ase: effects of levodopa and visual stimula- kinson’s disease. Archives of physical medicine tions. Revue neurologique 152: 128-34 15. Herman T, Giladi N, Gruendlinger L, Hausdorff JM. 2007. Six weeks of intensive treadmill trai- Morris ME, Iansek R, Matyas TA, Summers JJ.
25. Schaafsma JD, Giladi N, Balash Y, Bartels AL, ning improves gait and quality of life in 1994. The pathogenesis of gait hypokinesia in Gurevich T, Hausdorff JM. 2003. Gait dynamics patients with Parkinson’s disease: a pilot Parkinson's disease. Brain 117: 1169-81 in Parkinson's disease: relationship to Parkin- study. Archives of physical medicine and reha- sonian features, falls and response to levodo- Lewis GN, Byblow WD, Walt SE. 2000. Stride pa. Journal of the neurological sciences 212: length regulation in Parkinson’s disease: the 16. Miyai I, Fujimoto Y, Ueda Y, Yamamoto H, use of extrinsic, visual cues. Brain 123: 2077-90 Nozaki S, Saito T. 2000. Treadmill training with 26. Hausdorff JM, Nelson ME, Kaliton D, Layne JE, McAuley JH, Daly PM, Curtis CR. 2009. A preli- body weight support: Its effect on Parkinson's Bernstein MJ, Nuernberger A, Singh MA. 2001.
minary investigation of a novel design of visu- disease. Archives of physical medicine and Etiology and modification of gait instability in al cue glasses that aid gait in Parkinson’s dise- older adults: a randomized controlled trial of ase. Clinical rehabilitation 23: 687-95 17. Miyai I, Fujimoto Y, Yamamoto H, Ueda Y, exercise. Journal of applied physiology 90: Rochester L, Burn DJ, Woods G, Godwin J, Nie- Saito T, Nozaki S. 2002. Long-term effect of body weight-supported treadmill training in 27. Canning CG. 2008. Home-based treadmill wal- cueing improve gait in people with Parkin son's Parkinson’s disease: A randomized controlled king for individuals with Parkinson’s disease: a disease and cognitive impairment? A Feasi - trial. Archives of physical medicine and rehabi- pilot randomized controlled trial. Mov Disord bility study. Movement Disorders 24: 839-45 Freedland RL, Festa C, Sealy M, McBean A, Elg- 18. Pohl M, Rockstroh G, Rückriem S, Mrass G, 28. Nieuwboer A, Kwakkel G, Rochester L, Jones hazaly P, Capan. 2002. The Effects of Pulsed Mehrholz J. 2003. Immediate effects of speed- Auditory Stimulation on Various Gait Measu- dependent treadmill training on gait parame- Hetherington V, Baker K, Lim I. 2007. Cueing rements in Persons with Parkinson‘s Disease.
ters in early Parkinson’s disease. Archives of training in the home improves gait-related physical medicine and rehabilitation 84:1760-6 mobility in Parkinson’s disease: the RESCUE 10. McIntosh GC, Brown SH, Rice RR, Thaut MH.
19. Bagley S, Kelly B, Tunnicliffe N, Turnbull GI, trial. Journal of Neurology, Neurosurgery & 1997. Rhythmic auditory-motor facilitation of Walker JM. 1991. The effect of visual cues on gait patterns in patients with Parkinson’s dise- the gait of independently mobile Parkinson's 29. Sidaway B, Anderson J, Danielson G, Martin L, ase. Journal of Neurology, Neurosurgery & disease patients. Physiotherapy 77: 415-20 >>>
p t _ Z e i t s c h r i f t f ü r P h y s i o t h e r a p e u t e n _ 6 3 [ 2 0 11 ] 9
gait training using visual cues in an individual 44. Kaut O, Allert N, Wüllner U. 2009. Resting and American Journal of Physiology- Regulatory, with Parkinson disease. Physical Therapy 86: action tremor, as well as rigidity are improved Integrative and Comparative Physiology 246: after random whole-body vibration in patients 30. Toole T, Maitland CG, Warren E, Hubmann MF, with Parkinson’s disease. J Neural Transm: 221- 60. Haas CT, Turbanski S, Schwed M, Schmidtblei- Panton L. 2005. The effects of loading and cher D. 2007. Zum Einsatz von Vibrationsrei- unloading treadmill walking on balance, gait, 45. Gammaitoni L, Hänggi P, Jung P, Marchesoni F.
zen in der Neurorehabilitation. Psychologie in fall risk, and daily function in Parkinsonism.
1998. Stochastic resonance. Reviews of 61. Ying Z, Roy RR, Edgerton VR, Gómez-Pinilla F.
31. Wernig A, Müller S. 1992. Laufband locomo- 46. Fallon JB, Carr RW, Morgan DL. 2004. Stochas - 2005. Exercise restores levels of neurotrophins tion with body weight support improved wal- tic resonance in muscle receptors. Journal of and synaptic plasticity following spinal cord king in persons with severe spinal cord inju- injury. Experimental neurology 193: 411–9 47. Fallon JB, Morgan DL. 2005. Fully tuneable sto- 62. Aguiar AS, Speck AE, Prediger RD, Kapczinski 32. González Maldonado R. 2004. El extrano caso chastic resonance in cutaneous receptors.
F, Pinho RA. 2008. Downhill training upregula- del Dr. Parkinson. Granada: Grupo Editoral Journal of neurophysiology 94: 928-33 tes mice hippocampal and striatal brain-deri- 48. Tougaard J. 2002. Signal detection theory, ved neurotrophic factor levels. Journal of Neu- 33. Dietrichs E. 2000. Axonet (2). detectability and stochastic resonance effects.
63. Gobbo OL, O'Mara SM. 2004. Impact of enri- 49. Davids K, Shuttleworth R, Button C, Renshaw I, ched-environment housing on brain-derived 34. Foley PB. 2001. Beans, roots, and leaves. A Glazier P. 2003. Essential noise. enhancing vari- neurotrophic factor and on cognitive perfor- historical of the Chemical Therapy of Parkinso- ability of informational constraints benefits mance after a transient global ischemia. Beha- nism. Würzburg: Dissertation des Instituts für vioural brain research 152: 231-41 ton and Adams. British Journal of Sports Medi- 64. Zhao LR, Mattsson B, Johansson BB. 2001. Enri- 35. Haas CT, Turbanski S, Kaiser I, Schmidtbleicher ched environment influences brain-derived D. 2004. Biomechanische und physiologische 50. Liu W, La Lipsitz, Montero-Odasso M, Bean J, neurotrophic factor levels in rat forebrain Effekte mechanischer Schwingungsreize beim Kerrigan DC, Collins JJ. 2002. Noise-enhanced after focal stroke. Neuroscience letters 305: Menschen. Deut Zeitsch Sportmed 2: 34-43 vibrotactile sensitivity in older adults, patients 36. Haas CT. 2008. Vibrationsbasierte Trainingsfor- with stroke, and patients with diabetic neuro- 65. Adlard PA, Cotman CW. 2004. Voluntary exer- men bei Morbus Parkinson. Physiotherapie- pathy. Archives of physical medicine and reha- cise protects against stress-induced decreases in brain-derived neurotrophic factor protein expression. Neuroscience 124: 985-92 37. Haas CT, Turbanski S, Kessler K, Schmidtblei- 51. Ward LM, Neiman A, Moss F. 2002. Stochastic cher D. 2006. The effects of random whole- 66. Smith MA, Makino S, Kvetnansky R, Post RM.
body-vibration on motor symptoms in Parkin- behavior. Biological cybernetics 87: 91-101 1995. Stress and glucocorticoids affect the son's disease. NeuroRehabilitation 21: 29-36 52. Wells C, Ward LM, Chua R, Inglis JT. 2005.
expression of brain-derived neurotrophic fac- tor and neurotrophin-3 mRNAs in the hippo- 38. Haas CT. 2007. Mechano-Oszillatorische Reiz - Touch noise increases vibrotactile sensitivity in campus. Journal of Neuroscience 15: 1768-77 applikation beim Menschen, Effekte-Funktion- old and young. Psychological Science 16:313-20 Anwendungen. Frankfurt a. Main: Habilita- 53. Ross SE. 2007. Noise-enhanced postural stabili- 67. Nofuji Y, Suwa M, Moriyama Y, Nakano H, Ichi- tionsschrift des Instituts für Sportwissenschaf- ty in subjects with functional ankle instability.
miya. A, Nishichi R. 2008. Decreased serum brain-derived neurotrophic factor in trained men. Neuroscience letters 437: 29-32 39. Turbanski S, Haas CT, Schmidtbleicher D, Frie- 54. Ross SE, Guskiewicz KM. 2006. Effect of coordi- drich A, Duisberg P. 2005. Effects of random nation training with and without stochastic 68. Conn VS, Hafdahl AR, Brown SA, Brown LM.
whole-body vibration on postural control in resonance stimulation on dynamic postural Parkinson’s disease. Research in Sports Medici- stability of subjects with functional ankle interventions to increase physical activity instability and subjects with stable ankles. Cli- among chronically ill adults. Patient education 40. Turbanski S. 2006. Zur posturalen Kontrolle bei nical Journal of Sport Medicine 16: 323-8 Morbus Parkinson: biomechanische Diagnose 55. Nelson AJ, Staines WR, McIlroy WE. 2004. Tac- 69. Wade DT. 2009. Adverse effects of rehabilita- und Training: Frankfurt a. Main: Dissertation tile stimulus predictability modulates activity tion: an opportunity to increase quality and in a tactile-motor cortical network. Experi- effectiveness of rehabilitation. Clin Rehabil 23: 41. Jöbges EM, Elek J, Rollnik JD, Dengler R, Wolf W. 2002. Vibratory proprioceptive stimulation 56. Schultz W. 1998. Predictive reward signal of 70. Wade DT. 2009. Goal setting in rehabilitation: affects Parkinsonian tremor. Parkinsonism & dopamine neurons. Journal of neurophysiolo- An overview of what, why and how. Clinical 42. Ebersbach G, Edler D, Kaufhold O, Wissel J.
57. Haken H. 1983. Synergetics- an introduction. 71. Playford ED, Siegert R, Levack W, Freeman J.
2008. Whole body vibration versus conventio- Nonequilibrium phase transitions and self- nal physiotherapy to improve balance and gait organization in physics, chemistry, and biolo- about goal setting in rehabilitation: a con- in Parkinson’s disease. Archives of physical ference report. Clinical rehabilitation 23: medicine and rehabilitation 89: 399-403 58. Haken H. 1999. What can synergetics contribu- 43. Arias P, Chouza M, Vivas J, Cudeiro J. 2009.
te to the under-standing of brain functioning.
72. Venables L, Fairclough SH. 2009. The influence Effect of whole body vibration in Parkinson s In Analysis of Neurophysiological Brain Func- of performance feedback on goal-setting and disease: A controlled study. Movement Disor- tioning, ed. C Uhl. Berlin: Springer Verlag mental effort regulation. Motivation and 59. Kelso JA. 1984. Phase transitions and critical behavior in human bimanual coordination.
p t _ Z e i t s c h r i f t f ü r P h y s i o t h e r a p e u t e n _ 6 3 [ 2 0 11 ] 9


Allegra Design Print Mail of Tampa A Successful Move to Digital “The digital press allows us to Allegra Design Print Mail of Tampa is a locally-owned company that specializes in graphic design, printing, digital, and mailing services. Having been part of the Allegra network for almost a decade, Allegra Tampa is proud of its numerous printing awards and environ-mentally friendly business pr

People with type 2 diabetes are often given medications including insulin to help control their blood glucose levels. Most of these medications are in the form of tablets, but some are given by injection. These tablets or injections are intended to be used in conjunction with healthy eating and regular physical activity, not as a substitute. Diabetes tablets are not an oral fo

Copyright ©2010-2018 Medical Science