Magnetically Counting Hand Movements: Validation of a Calibration-Free Algorithm and Application to Testing the Threshold Hypothesis of Real-World Hand Use after Stroke

There are few wearable sensors suitable for daily monitoring of wrist and finger movements for hand-related healthcare applications. Here, we describe the development and validation of a novel algorithm for magnetically counting hand movements. We implemented the algorithm on a wristband that senses...

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Published in	Sensors (Basel, Switzerland) Vol. 21; no. 4; p. 1502
Main Authors	Schwerz de Lucena, Diogo, Rowe, Justin, Chan, Vicky, Reinkensmeyer, David
Format	Journal Article
Language	English
Published	Switzerland MDPI AG 22.02.2021 MDPI
Subjects	Algorithms Calibration dexterity Experiments Feedback Female Hand hand movement Humans Hypotheses IMU Laboratories Magnetic fields Male Movement Noise Reading rehabilitation Stroke Stroke - diagnosis Stroke Rehabilitation wearable sensing Wrist IMU dexterity rehabilitation wearable sensing stroke hand movement
Online Access	Get full text
ISSN	1424-8220 1424-8220
DOI	10.3390/s21041502

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Abstract	There are few wearable sensors suitable for daily monitoring of wrist and finger movements for hand-related healthcare applications. Here, we describe the development and validation of a novel algorithm for magnetically counting hand movements. We implemented the algorithm on a wristband that senses magnetic field changes produced by movement of a magnetic ring worn on the finger (the “Manumeter”). The “HAND” (Hand Activity estimated by Nonlinear Detection) algorithm assigns a “HAND count” by thresholding the real-time change in magnetic field created by wrist and/or finger movement. We optimized thresholds to achieve a HAND count accuracy of ~85% without requiring subject-specific calibration. Then, we validated the algorithm in a dexterity-impaired population by showing that HAND counts strongly correlate with clinical assessments of upper extremity (UE) function after stroke. Finally, we used HAND counts to test a recent hypothesis in stroke rehabilitation that real-world UE hand use increases only for stroke survivors who achieve a threshold level of UE functional capability. For 29 stroke survivors, HAND counts measured at home did not increase until the participants’ Box and Blocks Test scores exceeded ~50% normal. These results show that a threshold-based magnetometry approach can non-obtrusively quantify hand movements without calibration and also verify a key concept of real-world hand use after stroke.
AbstractList	There are few wearable sensors suitable for daily monitoring of wrist and finger movements for hand-related healthcare applications. Here, we describe the development and validation of a novel algorithm for magnetically counting hand movements. We implemented the algorithm on a wristband that senses magnetic field changes produced by movement of a magnetic ring worn on the finger (the “Manumeter”). The “HAND” (Hand Activity estimated by Nonlinear Detection) algorithm assigns a “HAND count” by thresholding the real-time change in magnetic field created by wrist and/or finger movement. We optimized thresholds to achieve a HAND count accuracy of ~85% without requiring subject-specific calibration. Then, we validated the algorithm in a dexterity-impaired population by showing that HAND counts strongly correlate with clinical assessments of upper extremity (UE) function after stroke. Finally, we used HAND counts to test a recent hypothesis in stroke rehabilitation that real-world UE hand use increases only for stroke survivors who achieve a threshold level of UE functional capability. For 29 stroke survivors, HAND counts measured at home did not increase until the participants’ Box and Blocks Test scores exceeded ~50% normal. These results show that a threshold-based magnetometry approach can non-obtrusively quantify hand movements without calibration and also verify a key concept of real-world hand use after stroke. There are few wearable sensors suitable for daily monitoring of wrist and finger movements for hand-related healthcare applications. Here, we describe the development and validation of a novel algorithm for magnetically counting hand movements. We implemented the algorithm on a wristband that senses magnetic field changes produced by movement of a magnetic ring worn on the finger (the "Manumeter"). The "HAND" (Hand Activity estimated by Nonlinear Detection) algorithm assigns a "HAND count" by thresholding the real-time change in magnetic field created by wrist and/or finger movement. We optimized thresholds to achieve a HAND count accuracy of ~85% without requiring subject-specific calibration. Then, we validated the algorithm in a dexterity-impaired population by showing that HAND counts strongly correlate with clinical assessments of upper extremity (UE) function after stroke. Finally, we used HAND counts to test a recent hypothesis in stroke rehabilitation that real-world UE hand use increases only for stroke survivors who achieve a threshold level of UE functional capability. For 29 stroke survivors, HAND counts measured at home did not increase until the participants' Box and Blocks Test scores exceeded ~50% normal. These results show that a threshold-based magnetometry approach can non-obtrusively quantify hand movements without calibration and also verify a key concept of real-world hand use after stroke.There are few wearable sensors suitable for daily monitoring of wrist and finger movements for hand-related healthcare applications. Here, we describe the development and validation of a novel algorithm for magnetically counting hand movements. We implemented the algorithm on a wristband that senses magnetic field changes produced by movement of a magnetic ring worn on the finger (the "Manumeter"). The "HAND" (Hand Activity estimated by Nonlinear Detection) algorithm assigns a "HAND count" by thresholding the real-time change in magnetic field created by wrist and/or finger movement. We optimized thresholds to achieve a HAND count accuracy of ~85% without requiring subject-specific calibration. Then, we validated the algorithm in a dexterity-impaired population by showing that HAND counts strongly correlate with clinical assessments of upper extremity (UE) function after stroke. Finally, we used HAND counts to test a recent hypothesis in stroke rehabilitation that real-world UE hand use increases only for stroke survivors who achieve a threshold level of UE functional capability. For 29 stroke survivors, HAND counts measured at home did not increase until the participants' Box and Blocks Test scores exceeded ~50% normal. These results show that a threshold-based magnetometry approach can non-obtrusively quantify hand movements without calibration and also verify a key concept of real-world hand use after stroke.
Author	Chan, Vicky Rowe, Justin Reinkensmeyer, David Schwerz de Lucena, Diogo
AuthorAffiliation	3 Flint Rehabilitation Devices, Irvine, CA 92614, USA; jrowe@flintrehab.com 4 Department of Mechanical and Aerospace Engineering, Department of Anatomy and Neurobiology, University of California Irvine, Irvine, CA 92697, USA; vchan2@uci.edu (V.C.); dreinken@uci.edu (D.J.R.) 1 John A Paulson School of Engineering and Applied Sciences, Harvard University, Cambridge, MA 02138, USA 2 CAPES Foundation, Ministry of Education of Brazil, Brasilia 70040-020, Brazil
AuthorAffiliation_xml	– name: 2 CAPES Foundation, Ministry of Education of Brazil, Brasilia 70040-020, Brazil – name: 4 Department of Mechanical and Aerospace Engineering, Department of Anatomy and Neurobiology, University of California Irvine, Irvine, CA 92697, USA; vchan2@uci.edu (V.C.); dreinken@uci.edu (D.J.R.) – name: 3 Flint Rehabilitation Devices, Irvine, CA 92614, USA; jrowe@flintrehab.com – name: 1 John A Paulson School of Engineering and Applied Sciences, Harvard University, Cambridge, MA 02138, USA
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Snippet	There are few wearable sensors suitable for daily monitoring of wrist and finger movements for hand-related healthcare applications. Here, we describe the...
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StartPage	1502
SubjectTerms	Algorithms Calibration dexterity Experiments Feedback Female Hand hand movement Humans Hypotheses IMU Laboratories Magnetic fields Male Movement Noise Reading rehabilitation Stroke Stroke - diagnosis Stroke Rehabilitation wearable sensing Wrist
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Title	Magnetically Counting Hand Movements: Validation of a Calibration-Free Algorithm and Application to Testing the Threshold Hypothesis of Real-World Hand Use after Stroke
URI	https://www.ncbi.nlm.nih.gov/pubmed/33671505 https://www.proquest.com/docview/2493769979 https://www.proquest.com/docview/2498495507 https://pubmed.ncbi.nlm.nih.gov/PMC7926537 https://doaj.org/article/db4bf4000ef440c3a2d9a23a037808c4
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