Journal of Diagnostics Concepts & Practice ›› 2018, Vol. 17 ›› Issue (04): 382-386.doi: 10.16150/j.1671-2870.2018.04.005
• Experts forum • Previous Articles Next Articles
Received:
2018-05-24
Online:
2018-08-25
Published:
2018-08-25
CLC Number:
[1] Kalia LV, Lang AE.Parkinson's disease[J]. Lancet,2015, 386(9996):896-912. [2] Latt MD, Lord SR, Morris JG, et al.Clinical and physiological assessments for elucidating falls risk in Parkinson's disease[J]. Mov Disord,2009,24(9):1280-1289. [3] Rahman S, Griffin HJ, Quinn NP, et al.Quality of life in Parkinson's disease: the relative importance of the symptoms[J]. Mov Disord,2008,23(10):1428-1434. [4] Forsaa EB, Larsen JP, Wentzel-Larsen T, et al.A 12-year population-based study of freezing of gait in Parkinson's disease[J]. Parkinsonism Relat Disord,2015,21(3):254-258. [5] Contreras A, Grandas F.Risk factors for freezing of gait in Parkinson's disease[J]. J Neurol Sci,2012,320(1-2):66-71. [6] Zhang H, Yin X, Ouyang Z, et al.A prospective study of freezing of gait with early Parkinson disease in Chinese patients[J]. Medicine (Baltimore),2016,95(26): e4056. [7] Walton CC, Shine JM, Hall JM, et al.The major impact of freezing of gait on quality of life in Parkinson's disease[J]. J Neurol,2015,262(1):108-115. [8] Schaafsma JD, Balash Y, Gurevich T, et al.Characterization of freezing of gait subtypes and the response of each to levodopa in Parkinson's disease[J]. Eur J Neurol,2003, 10(4):391-398. [9] Willems AM, Nieuwboer A, Chavret F, et al.The use of rhythmic auditory cues to influence gait in patients with Parkinson's disease, the differential effect for freezers and non-freezers, an explorative study[J]. Disabil Rehabil,2006,28(11): 721-728. [10] Snijders AH, Haaxma CA, Hagen YJ, et al.Freezer or non-freezer: clinical assessment of freezing of gait[J]. Parkinsonism Relat Disord,2012,18(2):149-154. [11] Nutt J G, Bloem BR, Giladi N, et al.Freezing of gait: moving forward on a mysterious clinical phenomenon[J]. Lancet Neurol,2011,10(8):734-744. [12] Takakusaki K, Tomita N, Yano M. Substrates for normal gait and pathophysiology of gait disturbances with respect to the basal ganglia dysfunction[J]. J Neurol,2008,255 Suppl 4:19-29. [13] Zweig RM, Jankel WR, Hedreen JC, et al.The pedunculopontine nucleus in Parkinson's disease[J]. Ann Neurol, 1989,26(1):41-46. [14] Devos D, Defebvre L, Bordet R.Dopaminergic and non-dopaminergic pharmacological hypotheses for gait disorders in Parkinson's disease[J]. Fundam Clin Pharmacol,2010,24(4):407-421. [15] Schweder PM, Hansen PC, Green AL, et al.Connectivity of the pedunculopontine nucleus in parkinsonian freezing of gait[J]. Neuroreport,2010,21(14):914-916. [16] Wang M, Jiang S, Yuan Y, et al.Alterations of functional and structural connectivity of freezing of gait in Parkinson's disease[J]. J Neurol,2016,263(8):1583-1592. [17] Shine JM, Naismith SL, Lewis SJ.The pathophysiological mechanisms underlying freezing of gait in Parkinson's Disease[J]. J Clin Neurosci,2011,18(9):1154-1157. [18] Sampson TR, Debelius JW, Thron T, et al.Gut Microbiota Regulate Motor Deficits and Neuroinflammation in a Model of Parkinson's Disease[J]. Cell,2016,167(6):1469-1480. [19] Chaudhuri KR, Healy DG, Schapira AH, et al.Non-motor symptoms of Parkinson's disease: diagnosis and management[J]. Lancet Neurol, 2006,5(3):235-245. [20] Vercruysse S, Vandenberghe W, Munks L, et al.Effects of deep brain stimulation of the subthalamic nucleus on freezing of gait in Parkinson's disease: a prospective controlled study[J]. J Neurol Neurosurg Psychiatry,2014,85(8):871-877. [21] Schlenstedt C, Shalash A, Muthuraman M, et al.Effect of high-frequency subthalamic neurostimulation on gait and freezing of gait in Parkinson's disease: a systematic review and meta-analysis[J]. Eur J Neurol,2017,24(1):18-26. [22] Kang SS, Zhang Z, Liu X, et al.TrkB neurotrophic ac-tivities are blocked by alpha-synuclein, triggering dopaminergic cell death in Parkinson's disease[J]. Proc Natl Acad Sci U S A, 2017,114(40):10773-10778. [23] Thevathasan W, Debu B, Aziz T, et al.Pedunculopontine nucleus deep brain stimulation in Parkinson's disease: A clinical review[J]. Mov Disord,2018,33(1):10-20. [24] Melzack R, Wall P D.Pain mechanisms: a new theory[J]. Science,1965,150(3699):971-979. [25] Song J J, Popescu A, Bell R L.Present and potential use of spinal cord stimulation to control chronic pain[J]. Pain Physician,2014,17(3):235-246. [26] de Andrade EM, Ghilardi MG, Cury RG, et al. Spinal cord stimulation for Parkinson's disease: a systematic review[J]. Neurosurg Rev,2016,39(1):27-35. [27] Pinto de Souza C, Hamani C, Oliveira Souza C, et al. Spinal cord stimulation improves gait in patients with Parkinson's disease previously treated with deep brain stimulation[J]. Mov Disord,2017,32(2):278-282. [28] Fénelon G, Goujon C, Gurruchaga JM, et al.Spinal cord stimulation for chronic pain improved motor function in a patient with Parkinson's disease[J]. Parkinsonism Relat Disord,2012,18(2):213-214. [29] Landi A, Trezza A, Pirillo D, et al.Spinal cord stimulation for the treatment of sensory symptoms in advanced Parkinson's disease[J]. Neuromodulation,2013,16(3):276-279. [30] Kim MS, Chang WH, Cho JW, et al.Efficacy of cumulative high-frequency rTMS on freezing of gait in Parkinson's disease[J]. Restor Neurol Neurosci,2015,33(4):521-530. [31] Mak M K, Wong-Yu I S, Shen X, et al. Long-term effects of exercise and physical therapy in people with Parkinson disease[J]. Nat Rev Neurol,2017,13(11):689-703. [32] Cohen RG, Nutt JG, Horak FB.Recovery from Multiple APAs Delays Gait Initiation in Parkinson's Disease[J]. Front Hum Neurosci,2017,11:60. [33] Egerton C J, Mccandless P, Evans B, et al.Laserlight visual cueing device for freezing of gait in Parkinson's di-sease: a case study of the biomechanics involved[J]. Phy-siother Theory Pract,2015,31(7):518-526. [34] Delval A, Moreau C, Bleuse S, et al.Auditory cueing of gait initiation in Parkinson's disease patients with free-zing of gait[J]. Clin Neurophysiol,2014,125(8):1675-1681. |
[1] | SUN Yanyan, LAN Xintang. Vestibular function impairment in patients with brain metastasis of lung cancer after radiotherapy: a case report [J]. Journal of Diagnostics Concepts & Practice, 2022, 21(05): 632-634. |
[2] | WU Dongdong, CHEN Yuhui, LIU Fang, LIU Yinhong, JIANG Jingwen. Study progress on cerebral small vessel disease complicated with neurodegenerative disorders in central nervous system [J]. Journal of Diagnostics Concepts & Practice, 2022, 21(05): 644-649. |
[3] | . [J]. Journal of Diagnostics Concepts & Practice, 2020, 19(05): 460-468. |
[4] | SHAO Dandan, FU Yang, LUO Qi, CHEN Jie, MA Jianfang, HUANG Lei. Serum uric acid and Parkinson disease: a population-based prospective study [J]. Journal of Diagnostics Concepts & Practice, 2020, 19(02): 139-144. |
[5] | . [J]. Journal of Diagnostics Concepts & Practice, 2020, 19(1): 92-94. |
[6] | . [J]. Journal of Diagnostics Concepts & Practice, 2019, 18(04): 473-474. |
[7] | . [J]. Journal of Diagnostics Concepts & Practice, 2018, 17(06): 726-730. |
[8] | . [J]. Journal of Diagnostics Concepts & Practice, 2018, 17(04): 457-459. |
[9] | MENG Jie, CUI Shishuang, MENG Yunxia, WANG Gang. Comparative analysis of 2005 and 2017 version of diagnostic criteria for dementia with Lewy bodies [J]. Journal of Diagnostics Concepts & Practice, 2018, 17(04): 414-418. |
[10] | ZOU Yang, CUI Hailun, HU Yongbo, GAO Ying, ZHANG Yueqi, CHEN Shengdi, WANG Gang. Motor evoked potentials for the differential diagnosis of idiopathic Parkinson's disease and multiple system atrophy [J]. Journal of Diagnostics Concepts & Practice, 2018, 17(04): 409-413. |
[11] | . [J]. Journal of Diagnostics Concepts & Practice, 2018, 17(04): 403-408. |
[12] | . [J]. Journal of Diagnostics Concepts & Practice, 2018, 17(04): 471-476. |
[13] | . [J]. Journal of Diagnostics Concepts & Practice, 2018, 17(04): 466-470. |
[14] | ZHANG Jing, CHEN Jie, MA Jianfang, XU Yi, HONG Jianfeng. Validation of Cambridge-Hopkins questionnaire for diagnosing restless legs syndrome in a Chinese cohort [J]. Journal of Diagnostics Concepts & Practice, 2018, 17(02): 165-169. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||