Cortical Representation and Excitability Increases for a Thenar Muscle Mediate Improvement in Short-Term Cellular Phone Text Messaging Ability

Cortical Representation and Excitability Increases for a Thenar Muscle Mediate Improvement in Short-Term Cellular Phone Text Messaging Ability

Cortical representations expand during skilled motor learning. We studied a unique model of motor learning with cellular phone texting, where the thumbs are used exclusively to interact with the device and the prominence of use can be seen where 3200 text messages are exchanged a month in the 18–24...

Full description

Bibliographic Details
Main Authors: Anthony W. Meek, Joselyn Perez, Brach Poston, Zachary A. Riley
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Brain Sciences
Subjects:
transcranial magnetic stimulation
cortical representations
text messages
Online Access:https://www.mdpi.com/2076-3425/11/3/406
id doaj-a22eb3f42798412083a3c23b759cefc2
record_format Article
spelling doaj-a22eb3f42798412083a3c23b759cefc22021-03-24T00:00:34ZengMDPI AGBrain Sciences2076-34252021-03-011140640610.3390/brainsci11030406Cortical Representation and Excitability Increases for a Thenar Muscle Mediate Improvement in Short-Term Cellular Phone Text Messaging AbilityAnthony W. Meek0Joselyn Perez1Brach Poston2Zachary A. Riley3School of Health and Human Sciences, Indiana University-Purdue University, Indianapolis, IN 47405, USASchool of Health and Human Sciences, Indiana University-Purdue University, Indianapolis, IN 47405, USADepartment of Kinesiology and Nutrition Sciences, University of Nevada-Las Vegas, Las Vegas, NV 89154, USASchool of Health and Human Sciences, Indiana University-Purdue University, Indianapolis, IN 47405, USACortical representations expand during skilled motor learning. We studied a unique model of motor learning with cellular phone texting, where the thumbs are used exclusively to interact with the device and the prominence of use can be seen where 3200 text messages are exchanged a month in the 18–24 age demographic. The purpose of the present study was to examine the motor cortex representation and input–output (IO) recruitment curves of the abductor pollicis brevis (APB) muscle of the thumb and the ADM muscle with transcranial magnetic stimulation (TMS), relative to individuals’ texting abilities and short-term texting practice. Eighteen individuals performed a functional texting task (FTT) where we scored their texting speed and accuracy. TMS was then used to examine the cortical volumes and areas of activity in the two muscles and IO curves were constructed to measure excitability. Subjects also performed a 10-min practice texting task, after which we repeated the cortical measures. There were no associations between the cortical measures and the FTT scores before practice. However, after practice the APB cortical map expanded and excitability increased, whereas the ADM map constricted. The increase in the active cortical areas in APB correlated with the improvement in the FTT score. Based on the homogenous group of subjects that were already good at texting, we conclude that the cortical representations and excitability for the thumb muscle were already enlarged and more receptive to changes with short-term practice, as noted by the increase in FTT performance after 10-min of practice.https://www.mdpi.com/2076-3425/11/3/406transcranial magnetic stimulationcortical representationstext messages
collection DOAJ
language English
format Article
sources DOAJ
author Anthony W. Meek
Joselyn Perez
Brach Poston
Zachary A. Riley
spellingShingle Anthony W. Meek
Joselyn Perez
Brach Poston
Zachary A. Riley
Cortical Representation and Excitability Increases for a Thenar Muscle Mediate Improvement in Short-Term Cellular Phone Text Messaging Ability
Brain Sciences
transcranial magnetic stimulation
cortical representations
text messages
author_facet Anthony W. Meek
Joselyn Perez
Brach Poston
Zachary A. Riley
author_sort Anthony W. Meek
title Cortical Representation and Excitability Increases for a Thenar Muscle Mediate Improvement in Short-Term Cellular Phone Text Messaging Ability
title_short Cortical Representation and Excitability Increases for a Thenar Muscle Mediate Improvement in Short-Term Cellular Phone Text Messaging Ability
title_full Cortical Representation and Excitability Increases for a Thenar Muscle Mediate Improvement in Short-Term Cellular Phone Text Messaging Ability
title_fullStr Cortical Representation and Excitability Increases for a Thenar Muscle Mediate Improvement in Short-Term Cellular Phone Text Messaging Ability
title_full_unstemmed Cortical Representation and Excitability Increases for a Thenar Muscle Mediate Improvement in Short-Term Cellular Phone Text Messaging Ability
title_sort cortical representation and excitability increases for a thenar muscle mediate improvement in short-term cellular phone text messaging ability
publisher MDPI AG
series Brain Sciences
issn 2076-3425
publishDate 2021-03-01
description Cortical representations expand during skilled motor learning. We studied a unique model of motor learning with cellular phone texting, where the thumbs are used exclusively to interact with the device and the prominence of use can be seen where 3200 text messages are exchanged a month in the 18–24 age demographic. The purpose of the present study was to examine the motor cortex representation and input–output (IO) recruitment curves of the abductor pollicis brevis (APB) muscle of the thumb and the ADM muscle with transcranial magnetic stimulation (TMS), relative to individuals’ texting abilities and short-term texting practice. Eighteen individuals performed a functional texting task (FTT) where we scored their texting speed and accuracy. TMS was then used to examine the cortical volumes and areas of activity in the two muscles and IO curves were constructed to measure excitability. Subjects also performed a 10-min practice texting task, after which we repeated the cortical measures. There were no associations between the cortical measures and the FTT scores before practice. However, after practice the APB cortical map expanded and excitability increased, whereas the ADM map constricted. The increase in the active cortical areas in APB correlated with the improvement in the FTT score. Based on the homogenous group of subjects that were already good at texting, we conclude that the cortical representations and excitability for the thumb muscle were already enlarged and more receptive to changes with short-term practice, as noted by the increase in FTT performance after 10-min of practice.
topic transcranial magnetic stimulation
cortical representations
text messages
url https://www.mdpi.com/2076-3425/11/3/406
work_keys_str_mv AT anthonywmeek corticalrepresentationandexcitabilityincreasesforathenarmusclemediateimprovementinshorttermcellularphonetextmessagingability
AT joselynperez corticalrepresentationandexcitabilityincreasesforathenarmusclemediateimprovementinshorttermcellularphonetextmessagingability
AT brachposton corticalrepresentationandexcitabilityincreasesforathenarmusclemediateimprovementinshorttermcellularphonetextmessagingability
AT zacharyariley corticalrepresentationandexcitabilityincreasesforathenarmusclemediateimprovementinshorttermcellularphonetextmessagingability
_version_ 1724205516656214016

Similar Items