PREP2: A biomarker‐based algorithm for predicting upper limb function after stroke

Stinear, Cathy M.; Byblow, Winston D.; Ackerley, Suzanne J.; Smith, Marie-Claire; Borges, Victor M.; Barber, P. Alan

doi:10.1002/acn3.488

Cited by 243 publications

(347 citation statements)

References 34 publications

(52 reference statements)

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“…Reappearance of the delicate excitatoryinhibitory balance in the thalamocortical circuits after stroke in the course of a learning process directly targeting this oscillatory mechanisms, clearly supports the neurophsyiosological logic of BMI strategies (Birbaumer & Cohen, 2007;Birbaumer, Elbert, Canavan, & Rockstroh, 1990). Stinear et al (2017) proved the performance of their sequential algorithm PREP2. It is based on clinical, neurophysiological and neuroimaging markers.…”

Section: Prediction Of δCfma From Interhemispheric Asymmetry Of Bramentioning

confidence: 54%

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Brain oscillatory activity as a biomarker of motor recovery in chronic stroke

Ray

Figueiredo

López‐Larraz

et al. 2019

Human Brain Mapping

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In the present work, we investigated the relationship of oscillatory sensorimotor brain activity to motor recovery. The neurophysiological data of 30 chronic stroke patients with severe upper‐limb paralysis are the basis of the observational study presented here. These patients underwent an intervention including movement training based on combined brain–machine interfaces and physiotherapy of several weeks recorded in a double‐blinded randomized clinical trial. We analyzed the alpha oscillations over the motor cortex of 22 of these patients employing multilevel linear predictive modeling. We identified a significant correlation between the evolution of the alpha desynchronization during rehabilitative intervention and clinical improvement. Moreover, we observed that the initial alpha desynchronization conditions its modulation during intervention: Patients showing a strong alpha desynchronization at the beginning of the training improved if they increased their alpha desynchronization. Patients showing a small alpha desynchronization at initial training stages improved if they decreased it further on both hemispheres. In all patients, a progressive shift of desynchronization toward the ipsilesional hemisphere correlates significantly with clinical improvement regardless of lesion location. The results indicate that initial alpha desynchronization might be key for stratification of patients undergoing BMI interventions and that its interhemispheric balance plays an important role in motor recovery.

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Section: Prediction Of δCfma From Interhemispheric Asymmetry Of Bramentioning

confidence: 54%

“…Stinear et al () proved the performance of their sequential algorithm PREP2. It is based on clinical, neurophysiological and neuroimaging markers.…”

Section: Discussionmentioning

confidence: 99%

Brain oscillatory activity as a biomarker of motor recovery in chronic stroke

Ray

Figueiredo

López‐Larraz

et al. 2019

Human Brain Mapping

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“…In patients whose RMT for an investigated muscle (separately for APB and EDC) was higher than 99% of the maximal stimulator output, the criterion was changed to eliciting MEP with 100% intensity with preactivation. MEP was considered as present (MEP+) when it was possible to obtain MEP higher than 50 µV in any of the tested muscle with a consistent latency in 4 out of 8 consecutive 6 trials during rest or attempted/imagined contraction of the affected and/or contralesional hand, which is similar to the approach described in the PREP2 algorithm 7 .…”

Section: Tms Investigationmentioning

confidence: 99%

“…30 To our knowledge, it is the first time Fréchet distance is applied for analysis of ipsi-and contralesional FA CST profiles. 7 There is currently no consensus which CC areas are the most discriminative for stroke patients with motor deficit. [31][32][33] Thus, we decided to perform voxel-based comparison of FA maps between the best (Group1) and the worst recovered patients (Group3).…”

Section: Dti Datamentioning

confidence: 99%

“…4,6 Despite being one of the most commonly used CST integrity parameters 3 , the method of detecting MEP presence is still not a unified one. 4,5,[7][8][9][10][11] It is still not clear, whether it is necessary to study more than one muscle and which hand muscles are the most informative. [12][13][14][15] Another possible important selection biomarker, for rehabilitation intervention choice, is the state of the contralesional motor areas and the excitability balance between the hemispheres.…”

Section: Introductionmentioning

confidence: 99%

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Multimodal DTI-TMS assessment of the motor system in patients with chronic ischemic stroke

Nazarova

Kulikova

Piradov

et al. 2019

Preprint

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Background and PurposeDespite the continuing efforts in multimodal assessment of the motor system after stroke, conclusive findings on the complementarity of functional and structural metrics of the corticospinal tract (CST) integrity and the role of the contralesional hemisphere are still missing. The aim of this work was to find the best combination of the motor system parameters, allowing classification of patients into three predefined groups of upper limb motor recovery.Methods35 chronic ischemic stroke patients (47 [26–66] y.o., 29 [6–58] months post-stroke) with only supratentorial lesion and unilateral upper extremity weakness were enrolled. Patients were divided into three groups depending on the upper limb motor recovery. Non-parametric statistical tests and regression analysis were used to investigate the relationships among structural and functional motor system parameters, probed by diffusion tensor imaging (DTI) and transcranial magnetic stimulation (TMS). In addition, stratification rules were tested, using a decision tree classifier to identify parameters explaining motor recovery.ResultsFractional anisotropy (FA) ratio in the internal capsule (IC) and absence/presence of motor evoked potentials (MEPs), were equally discriminative of the worst motor outcome group (96% accuracy). MEP presence diverged for two investigated hand muscles. Concurrently, for the three recovery groups’ classification, the best parameter combination was: IC FA ratio and Fréchet distance between the contralesional and ipsilesional CST FA profiles (91% accuracy). No other metrics had any additional value for patients’ classification.ConclusionsThis study demonstrates that IC FA ratio and MEPs absence are equally important markers for poor recovery. Importantly, we found that MEPs should be controlled in more than one hand muscle. Finally, we show that better separation between different motor recovery groups may be achieved when considering the whole CST FA profile.

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