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Journal of Neurology
Published in: Journal of Neurology 9/2020

01-09-2020 | Parkinson's Disease | Original Communication

Advantages of timing the duration of a freezing of gait-provoking test in individuals with Parkinson’s disease

Authors: Talia Herman, Moria Dagan, Shirley Shema-Shiratzky, Tal Reches, Marina Brozgol, Nir Giladi, Brad Manor, Jeffrey M. Hausdorff

Published in: Journal of Neurology | Issue 9/2020

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Abstract

Evaluating freezing of gait (FOG) and quantifying its severity in patients with Parkinson’s disease (PD) is challenging; objective assessment is not sufficiently established. We aimed to improve the ability to objectively evaluate FOG severity by investigating the value of measuring the duration of the test and its components. Seventy-one patients with PD and FOG completed a previously validated FOG-provoking test. The test was performed under three conditions: (1) usual, single task; (2) dual task (walking while carrying a tray); and (3) triple task (walking while holding a tray and subtracting 7 s). FOG and festination were scored using standard procedures. We evaluated effect sizes based on both the original scoring and the test duration for the motor–cognitive cost and before and after anti-Parkinsonian medication intake. Additionally, video recording of the test and total time frozen were measured. As expected, the original test score and the test duration increased across the three conditions of the task and were higher in OFF than in the ON-medication state (p < 0.036). For motor–cognitive cost, higher effect sizes were observed for the test duration of each condition, compared to the original scoring in OFF state (0.85 vs. 0.68, respectively). Change in effect size category was more pronounced in the ON state vs. OFF (0.87 vs. 0.55, respectively). Test duration was the only independent predictor for the self-report of FOG severity and the total time frozen during the test. These findings suggest that quantifying the duration of each condition of the FOG-provoking test improves its sensitivity to medications and task complexity. Timing can be used to provide immediate, objective feedback of freezing severity, and a clear interpretation of a patient’s performance.
Literature
1.
Aich S, Pradhan PM, Park J, Sethi N, Vathsa VSS, Kim HC (2018) A validation study of Freezing of Gait (FoG) detection and machine-learning-based FoG prediction using estimated Gait characteristics with a wearable accelerometer. Sensors (Basel) 18(10):3287CrossRef
2.
Bachlin M, Plotnik M, Roggen D, Maidan I, Hausdorff JM, Giladi N, Troster G (2010) Wearable assistant for Parkinson’s disease patients with the freezing of gait symptom. IEEE Trans Inf Technol Biomed 14:436–446CrossRef
3.
Barthel C, Nonnekes J, van Helvert M, Haan R, Janssen A, Delval A, Weerdesteyn V, Debu B, van Wezel R, Bloem BR, Ferraye MU (2018) The laser shoes: a new ambulatory device to alleviate freezing of gait in Parkinson disease. Neurology 90:e164–e171CrossRef
4.
Bloem BR, Hausdorff JM, Visser JE, Giladi N (2004) Falls and freezing of gait in Parkinson’s disease: a review of two interconnected, episodic phenomena. Mov Disord 19:871–884CrossRef
5.
Dagan M, Herman T, Harrison R, Zhou J, Giladi N, Ruffini G, Manor B, Hausdorff JM (2018) Multitarget transcranial direct current stimulation for freezing of gait in Parkinson’s disease. Mov Disord 33:642–646CrossRef
6.
Ehgoetz Martens KA, Shine JM, Walton CC, Georgiades MJ, Gilat M, Hall JM, Muller AJ, Szeto JYY, Lewis SJG (2018) Evidence for subtypes of freezing of gait in Parkinson’s disease. Mov Disord 33:1174–1178CrossRef
7.
Fahn S, Elton R, Members of the UPDRS development committee (1987) Unified Parkinson’s disease rating scale. In: Fahn S, Marsden CD, Calne D, Goldstein M (eds) Recent developments in Parkinson’s disease. Macmillan Health Care Information, Florham Park, pp 153–163
8.
Giladi N, McDermott MP, Fahn S, Przedborski S, Jankovic J, Stern M, Tanner C (2001) Freezing of gait in PD: prospective assessment in the DATATOP cohort. Neurology 56:1712–1721CrossRef
9.
Giladi N, Shabtai H, Simon ES, Biran S, Tal J, Korczyn AD (2000) Construction of freezing of gait questionnaire for patients with Parkinsonism. Parkinsonism Relat Disord 6:165–170CrossRef
10.
Heremans E, Broeder S, Nieuwboer A, Bekkers EM, Ginis P, Janssens L, Nackaerts E (2019) When motor control gets out of hand: Speeding up triggers freezing in the upper limb in Parkinson’s disease. Parkinsonism Relat Disord 64:163–168CrossRef
11.
Heremans E, Nieuwboer A, Vercruysse S (2013) Freezing of gait in Parkinson’s disease: where are we now? Curr Neurol Neurosci Rep 13:350CrossRef
12.
Herman T, Giladi N, Hausdorff JM (2011) Properties of the ‘Timed Up and Go’ test: more than meets the eye. Gerontology 57:203–210CrossRef
13.
Herman T, Weiss A, Brozgol M, Giladi N, Hausdorff JM (2014) Identifying axial and cognitive correlates in patients with Parkinson’s disease motor subtype using the instrumented Timed Up and Go. Exp Brain Res 232:713–721CrossRef
14.
Horak FB, Mancini M (2013) Objective biomarkers of balance and gait for Parkinson’s disease using body-worn sensors. Mov Disord 28:1544–1551CrossRef
15.
Kim HB, Lee HJ, Lee WW, Kim SK, Jeon HS, Park HY, Shin CW, Yi WJ, Jeon B, Park KS (2018) Validation of freezing-of-gait monitoring using smartphone. Telemed J E Health 24:899–907CrossRef
16.
Mancini M, Bloem BR, Horak FB, Lewis SJG, Nieuwboer A, Nonnekes J (2019) Clinical and methodological challenges for assessing freezing of gait: future perspectives. Mov Disord 34:783–790CrossRef
17.
Mathias S, Nayak US, Isaacs B (1986) Balance in elderly patients: the “get-up and go” test. Arch Phys Med Rehabil 67:387–389PubMed
18.
Mazilu S, Calatroni A, Gazit E, Mirelman A, Hausdorff JM, Troster G (2015) Prediction of freezing of gait in Parkinson’s from physiological wearables: an exploratory study. IEEE J Biomed Health Inform 19:1843–1854CrossRef
19.
Mazzetta I, Zampogna A, Suppa A, Gumiero A, Pessione M, Irrera F (2019) Wearable sensors system for an improved analysis of freezing of gait in Parkinson’s disease using electromyography and inertial signals. Sensors (Basel) 19(4):948CrossRef
20.
Moore ST, Yungher DA, Morris TR, Dilda V, MacDougall HG, Shine JM, Naismith SL, Lewis SJ (2013) Autonomous identification of freezing of gait in Parkinson’s disease from lower-body segmental accelerometry. J Neuroeng Rehabil 10:19CrossRef
21.
Morris TR, Cho C, Dilda V, Shine JM, Naismith SL, Lewis SJ, Moore ST (2012) A comparison of clinical and objective measures of freezing of gait in Parkinson’s disease. Parkinsonism Relat Disord 18:572–577CrossRef
22.
Nieuwboer A, Giladi N (2013) Characterizing freezing of gait in Parkinson’s disease: models of an episodic phenomenon. Mov Disord 28:1509–1519CrossRef
23.
Nieuwboer A, Rochester L, Herman T, Vandenberghe W, Emil GE, Thomaes T, Giladi N (2009) Reliability of the new freezing of gait questionnaire: agreement between patients with Parkinson’s disease and their carers. Gait Posture 30(4):459–463CrossRef
24.
Nutt JG, Bloem BR, Giladi N, Hallett M, Horak FB, Nieuwboer A (2011) Freezing of gait: moving forward on a mysterious clinical phenomenon. Lancet Neurol 10:734–744CrossRef
25.
Palmerini L, Mellone S, Avanzolini G, Valzania F, Chiari L (2013) Quantification of motor impairment in Parkinson’s disease using an instrumented timed up and go test. IEEE Trans Neural Syst Rehabil Eng 21:664–673CrossRef
26.
Plotnik M, Shema S, Dorfman M, Gazit E, Brozgol M, Giladi N, Hausdorff JM (2014) A motor learning-based intervention to ameliorate freezing of gait in subjects with Parkinson’s disease. J Neurol 261:1329–1339CrossRef
27.
Podsiadlo D, Richardson S (1991) The timed “Up and Go”: a test of basic functional mobility for frail elderly persons. J Am Geriatr Soc 39:142–148CrossRef
28.
Snijders AH, Haaxma CA, Hagen YJ, Munneke M, Bloem BR (2012) Freezer or non-freezer: clinical assessment of freezing of gait. Parkinsonism Relat Disord 18:149–154CrossRef
29.
Snijders AH, Nijkrake MJ, Bakker M, Munneke M, Wind C, Bloem BR (2008) Clinimetrics of freezing of gait. Mov Disord 23(Suppl 2):S468–S474CrossRef
30.
Spildooren J, Vercruysse S, Desloovere K, Vandenberghe W, Kerckhofs E, Nieuwboer A (2010) Freezing of gait in Parkinson’s disease: the impact of dual-tasking and turning. Mov Disord 25:2563–2570CrossRef
31.
Weiss A, Herman T, Plotnik M, Brozgol M, Maidan I, Giladi N, Gurevich T, Hausdorff JM (2010) Can an accelerometer enhance the utility of the Timed Up and Go Test when evaluating patients with Parkinson’s disease? Med Eng Phys 32:119–125CrossRef
32.
Ziegler K, Schroeteler F, Ceballos-Baumann AO, Fietzek UM (2010) A new rating instrument to assess festination and freezing gait in Parkinsonian patients. Mov Disord 25:1012–1018CrossRef
Metadata
Title
Advantages of timing the duration of a freezing of gait-provoking test in individuals with Parkinson’s disease
Authors
Talia Herman
Moria Dagan
Shirley Shema-Shiratzky
Tal Reches
Marina Brozgol
Nir Giladi
Brad Manor
Jeffrey M. Hausdorff
Publication date
01-09-2020
Publisher
Springer Berlin Heidelberg
Published in
Journal of Neurology / Issue 9/2020
Print ISSN: 0340-5354
Electronic ISSN: 1432-1459
DOI
https://doi.org/10.1007/s00415-020-09856-7

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