Predictive modeling of spread in adult-onset isolated dystonia: Key properties and effect of tremor inclusion

Meng Wang; Tolulope Sajobi; Francesca Morgante; Charles Adler; Pinky Agarwal; Tobias Bäumer; Alfredo Berardelli; Brian D. Berman; Joel Blumin; Max Borsche; Allison Brashear; Andres Deik; Kevin Duque; Alberto J. Espay; Gina Ferrazzano; Jeanne Feuerstein; Susan Fox; Samuel Frank; Mark Hallett; Joseph Jankovic; Mark S. LeDoux; Julie Leegwater-Kim; Abhimanyu Mahajan; Irene A. Malaty; William Ondo; Alexander Pantelyat; Sarah Pirio-Richardson; Emmanuel Roze; Rachel Saunders-Pullman; Oksana Suchowersky; Daniel Truong; Marie Vidailhet; Aparna Wagle Shukla; Joel S. Perlmutter; Hyder A. Jinnah; Davide Martino

doi:10.1111/ene.15031

Predictive modeling of spread in adult-onset isolated dystonia: Key properties and effect of tremor inclusion

Meng Wang, Tolulope Sajobi, Francesca Morgante, Charles Adler, Pinky Agarwal, Tobias Bäumer, Alfredo Berardelli, Brian D. Berman, Joel Blumin, Max Borsche, Allison Brashear, Andres Deik, Kevin Duque, Alberto J. Espay, Gina Ferrazzano, Jeanne Feuerstein, Susan Fox, Samuel Frank, Mark Hallett, Joseph JankovicMark S. LeDoux, Julie Leegwater-Kim, Abhimanyu Mahajan, Irene A. Malaty, William Ondo, Alexander Pantelyat, Sarah Pirio-Richardson, Emmanuel Roze, Rachel Saunders-Pullman, Oksana Suchowersky, Daniel Truong, Marie Vidailhet, Aparna Wagle Shukla, Joel S. Perlmutter, Hyder A. Jinnah, Davide Martino

Neurology

Research output: Contribution to journal › Article › peer-review

Abstract

Background and purpose: Several clinical and demographic factors relate to anatomic spread of adult-onset isolated dystonia, but a predictive model is still lacking. The aims of this study were: (i) to develop and validate a predictive model of anatomic spread of adult-onset isolated dystonia; and (ii) to evaluate whether presence of tremor associated with dystonia influences model predictions of spread. Methods: Adult-onset isolated dystonia participants with focal onset from the Dystonia Coalition Natural History Project database were included. We developed two prediction models, one with dystonia as sole disease manifestation (“dystonia-only”) and one accepting dystonia OR tremor in any body part as disease manifestations (“dystonia OR tremor”). Demographic and clinical predictors were selected based on previous evidence, clinical plausibility of association with spread, or both. We used logistic regressions and evaluated model discrimination and calibration. Internal validation was carried out based on bootstrapping. Results: Both predictive models showed an area under the curve of 0.65 (95% confidence intervals 0.62–0.70 and 0.62–0.69, respectively) and good calibration after internal validation. In both models, onset of dystonia in body regions other than the neck, older age, depression and history of neck trauma were predictors of spread. Conclusions: This predictive modeling of spread in adult-onset isolated dystonia based on accessible predictors (demographic and clinical) can be easily implemented to inform individuals’ risk of spread. Because tremor did not influence prediction of spread, our results support the argument that tremor is a part of the dystonia syndrome, and not an independent or coincidental disorder.

Original language	English (US)
Pages (from-to)	3999-4009
Number of pages	11
Journal	European Journal of Neurology
Volume	28
Issue number	12
DOIs	https://doi.org/10.1111/ene.15031
State	Published - Dec 2021

Keywords

isolated dystonia
neurological diseases
predictive models
spread
tremor

ASJC Scopus subject areas

Neurology
Clinical Neurology

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10.1111/ene.15031

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Wang, M., Sajobi, T., Morgante, F., Adler, C., Agarwal, P., Bäumer, T., Berardelli, A., Berman, B. D., Blumin, J., Borsche, M., Brashear, A., Deik, A., Duque, K., Espay, A. J., Ferrazzano, G., Feuerstein, J., Fox, S., Frank, S., Hallett, M., ... Martino, D. (2021). Predictive modeling of spread in adult-onset isolated dystonia: Key properties and effect of tremor inclusion. European Journal of Neurology, 28(12), 3999-4009. https://doi.org/10.1111/ene.15031

Wang, M, Sajobi, T, Morgante, F, Adler, C, Agarwal, P, Bäumer, T, Berardelli, A, Berman, BD, Blumin, J, Borsche, M, Brashear, A, Deik, A, Duque, K, Espay, AJ, Ferrazzano, G, Feuerstein, J, Fox, S, Frank, S, Hallett, M, Jankovic, J, LeDoux, MS, Leegwater-Kim, J, Mahajan, A, Malaty, IA, Ondo, W, Pantelyat, A, Pirio-Richardson, S, Roze, E, Saunders-Pullman, R, Suchowersky, O, Truong, D, Vidailhet, M, Shukla, AW, Perlmutter, JS, Jinnah, HA & Martino, D 2021, 'Predictive modeling of spread in adult-onset isolated dystonia: Key properties and effect of tremor inclusion', European Journal of Neurology, vol. 28, no. 12, pp. 3999-4009. https://doi.org/10.1111/ene.15031

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title = "Predictive modeling of spread in adult-onset isolated dystonia: Key properties and effect of tremor inclusion",

abstract = "Background and purpose: Several clinical and demographic factors relate to anatomic spread of adult-onset isolated dystonia, but a predictive model is still lacking. The aims of this study were: (i) to develop and validate a predictive model of anatomic spread of adult-onset isolated dystonia; and (ii) to evaluate whether presence of tremor associated with dystonia influences model predictions of spread. Methods: Adult-onset isolated dystonia participants with focal onset from the Dystonia Coalition Natural History Project database were included. We developed two prediction models, one with dystonia as sole disease manifestation (“dystonia-only”) and one accepting dystonia OR tremor in any body part as disease manifestations (“dystonia OR tremor”). Demographic and clinical predictors were selected based on previous evidence, clinical plausibility of association with spread, or both. We used logistic regressions and evaluated model discrimination and calibration. Internal validation was carried out based on bootstrapping. Results: Both predictive models showed an area under the curve of 0.65 (95% confidence intervals 0.62–0.70 and 0.62–0.69, respectively) and good calibration after internal validation. In both models, onset of dystonia in body regions other than the neck, older age, depression and history of neck trauma were predictors of spread. Conclusions: This predictive modeling of spread in adult-onset isolated dystonia based on accessible predictors (demographic and clinical) can be easily implemented to inform individuals{\textquoteright} risk of spread. Because tremor did not influence prediction of spread, our results support the argument that tremor is a part of the dystonia syndrome, and not an independent or coincidental disorder.",

keywords = "isolated dystonia, neurological diseases, predictive models, spread, tremor",

author = "Meng Wang and Tolulope Sajobi and Francesca Morgante and Charles Adler and Pinky Agarwal and Tobias B{\"a}umer and Alfredo Berardelli and Berman, {Brian D.} and Joel Blumin and Max Borsche and Allison Brashear and Andres Deik and Kevin Duque and Espay, {Alberto J.} and Gina Ferrazzano and Jeanne Feuerstein and Susan Fox and Samuel Frank and Mark Hallett and Joseph Jankovic and LeDoux, {Mark S.} and Julie Leegwater-Kim and Abhimanyu Mahajan and Malaty, {Irene A.} and William Ondo and Alexander Pantelyat and Sarah Pirio-Richardson and Emmanuel Roze and Rachel Saunders-Pullman and Oksana Suchowersky and Daniel Truong and Marie Vidailhet and Shukla, {Aparna Wagle} and Perlmutter, {Joel S.} and Jinnah, {Hyder A.} and Davide Martino",

note = "Publisher Copyright: {\textcopyright} 2021 European Academy of Neurology",

year = "2021",

month = dec,

doi = "10.1111/ene.15031",

language = "English (US)",

volume = "28",

pages = "3999--4009",

journal = "European Journal of Neurology",

issn = "1351-5101",

publisher = "Wiley-Blackwell",

number = "12",

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TY - JOUR

T1 - Predictive modeling of spread in adult-onset isolated dystonia

T2 - Key properties and effect of tremor inclusion

AU - Wang, Meng

AU - Sajobi, Tolulope

AU - Morgante, Francesca

AU - Adler, Charles

AU - Agarwal, Pinky

AU - Bäumer, Tobias

AU - Berardelli, Alfredo

AU - Berman, Brian D.

AU - Blumin, Joel

AU - Borsche, Max

AU - Brashear, Allison

AU - Deik, Andres

AU - Duque, Kevin

AU - Espay, Alberto J.

AU - Ferrazzano, Gina

AU - Feuerstein, Jeanne

AU - Fox, Susan

AU - Frank, Samuel

AU - Hallett, Mark

AU - Jankovic, Joseph

AU - LeDoux, Mark S.

AU - Leegwater-Kim, Julie

AU - Mahajan, Abhimanyu

AU - Malaty, Irene A.

AU - Ondo, William

AU - Pantelyat, Alexander

AU - Pirio-Richardson, Sarah

AU - Roze, Emmanuel

AU - Saunders-Pullman, Rachel

AU - Suchowersky, Oksana

AU - Truong, Daniel

AU - Vidailhet, Marie

AU - Shukla, Aparna Wagle

AU - Perlmutter, Joel S.

AU - Jinnah, Hyder A.

AU - Martino, Davide

PY - 2021/12

Y1 - 2021/12

N2 - Background and purpose: Several clinical and demographic factors relate to anatomic spread of adult-onset isolated dystonia, but a predictive model is still lacking. The aims of this study were: (i) to develop and validate a predictive model of anatomic spread of adult-onset isolated dystonia; and (ii) to evaluate whether presence of tremor associated with dystonia influences model predictions of spread. Methods: Adult-onset isolated dystonia participants with focal onset from the Dystonia Coalition Natural History Project database were included. We developed two prediction models, one with dystonia as sole disease manifestation (“dystonia-only”) and one accepting dystonia OR tremor in any body part as disease manifestations (“dystonia OR tremor”). Demographic and clinical predictors were selected based on previous evidence, clinical plausibility of association with spread, or both. We used logistic regressions and evaluated model discrimination and calibration. Internal validation was carried out based on bootstrapping. Results: Both predictive models showed an area under the curve of 0.65 (95% confidence intervals 0.62–0.70 and 0.62–0.69, respectively) and good calibration after internal validation. In both models, onset of dystonia in body regions other than the neck, older age, depression and history of neck trauma were predictors of spread. Conclusions: This predictive modeling of spread in adult-onset isolated dystonia based on accessible predictors (demographic and clinical) can be easily implemented to inform individuals’ risk of spread. Because tremor did not influence prediction of spread, our results support the argument that tremor is a part of the dystonia syndrome, and not an independent or coincidental disorder.

AB - Background and purpose: Several clinical and demographic factors relate to anatomic spread of adult-onset isolated dystonia, but a predictive model is still lacking. The aims of this study were: (i) to develop and validate a predictive model of anatomic spread of adult-onset isolated dystonia; and (ii) to evaluate whether presence of tremor associated with dystonia influences model predictions of spread. Methods: Adult-onset isolated dystonia participants with focal onset from the Dystonia Coalition Natural History Project database were included. We developed two prediction models, one with dystonia as sole disease manifestation (“dystonia-only”) and one accepting dystonia OR tremor in any body part as disease manifestations (“dystonia OR tremor”). Demographic and clinical predictors were selected based on previous evidence, clinical plausibility of association with spread, or both. We used logistic regressions and evaluated model discrimination and calibration. Internal validation was carried out based on bootstrapping. Results: Both predictive models showed an area under the curve of 0.65 (95% confidence intervals 0.62–0.70 and 0.62–0.69, respectively) and good calibration after internal validation. In both models, onset of dystonia in body regions other than the neck, older age, depression and history of neck trauma were predictors of spread. Conclusions: This predictive modeling of spread in adult-onset isolated dystonia based on accessible predictors (demographic and clinical) can be easily implemented to inform individuals’ risk of spread. Because tremor did not influence prediction of spread, our results support the argument that tremor is a part of the dystonia syndrome, and not an independent or coincidental disorder.

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KW - neurological diseases

KW - predictive models

KW - spread

KW - tremor

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Predictive modeling of spread in adult-onset isolated dystonia: Key properties and effect of tremor inclusion

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