Gender differences and laterality in maximal handgrip strength and controlled force exertion in young adults

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ISSN Print: 1949-4998
ISSN Online: 1949-5005

Website: https://www.scirp.org/journal/health
E-mail: health@scirp.org

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Submission

"Gender differences and laterality in maximal handgrip strength and controlled force exertion in young adults"
written by Hiroshi Kubota, Shinichi Demura,
published by Health, Vol.3 No.11, 2011

has been cited by the following article(s):

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[1]	Influence of hand and smartphone anthropometric measurements on hand pain and discomfort: A cross-sectional study
	2020

[2]	Prediction of lung function using handgrip strength in healthy young adults
	2019

[3]	Physical Performance Tests in Male and Female Sitting Volleyball Players: Pilot Study of Brazilian National Team
	2019

[4]	The Effect of Load Uncertainty on Neuromotor Control in Catching: Gender Differences and Short Foreperiods
	2019

[5]	Análise da assimetria de força de preensão manual entre os sexos
	2018

[6]	Comparison of hand muscle fatigue phenomenon on power lab
	2018

[7]	Evaluation of subjective perceived rating for grip strength depending on handedness for various target force levels
	2018

[8]	Relationship between hand grip strength and postural static balance among undergraduates of a Nigerian university
	2018

[9]	Three-Year Study of Geriatric Skeletal Muscle Strength at a Top Referral General Hospital, West Java, Indonesi
	2017

[10]	Recovery of grip strength and hand dexterity after distal radius fracture: A two-year prospective cohort study
	Hand Therapy, 2017

[11]	Accuracy of Force Repeatability in Relation to its Value and the Subjects' Sex
	Human Movement, 2017

[12]	Improved Gender Recognition during Stepping Activity for Rehab Application Using the Combinatorial Fusion Approach of EMG and HRV
	Applied Sciences, 2017

[13]	Grip Strength and Impact on Cognitive Function in Healthy Kitchen Workers
	Achievements in the Life Sciences, 2016

[14]	IJPHY
	2016

[15]	Age-related Differences in Grip Strength Laterality in Male Elite Soft-tennis Players
	2016

[16]	Laterality and Accuracy of Force Exertion in Elbow Flexion
	2016

[17]	HAND GRIP STRENGTH IN TYPE 2 DIABETICS AND NON-DIABETICS
	Pak J Physiol, 2015

[18]	ADJUSTMENT ERRORS IN ASCENDING AND DESCENDING PHASES OF TARGET LEVEL IN CONTROLLED FORCE EXERTION.
	Perceptual and motor skills, 2015

[19]	ADJUSTMENT ERRORS IN ASCENDING AND DESCENDING PHASES OF TARGET LEVEL IN CONTROLLED FORCE EXERTION 1
	Perceptual & Motor Skills, 2015

[20]	Porovnání Elektromyografická analýza zapojení svalstva pletence ramenního u volejbalistů
	2015

[21]	Adjustment Errors in Ascending and Descending Phases of Target Level in Controlled Force Exertion
	Perceptual and Motor Skills, 2015

[22]	Elektromyografická analýza zapojení svalstva pletence ramenního u volejbalistů
	2014

[23]	把握動作における筋力発揮調整能及びその一側優位性
	2014

[24]	The Characteristics and Laterality of Explosive Force Exertion of Hand Grip and Toe Grip
	Advances in Physical Education, 2014

[25]	BANGALORE-560041 ANNEXURE II
	DRA ANJUM - rguhs.ac.in, 2014

[26]	Validity and reliability of a novel device for bilateral upper extremity functional measurements
	Computer methods and …, 2014

[27]	Effects of Repeated Training on Controlled Force Exertion and Retention in Dominant and Nondominant Hands
	American Journal of …, 2014

[28]	Japanese Women’s Age-related Differences between Controlled Force Exertion Measured by a Computer-generated Sinusoidal Waveform and a Bar Chart Display
	American Journal of Sports Science and Medicine, 2014

[29]	Effects of Repeat Training of the Controlled Force Exertion Test on Dominant and Non-dominant Hands
	Nature, 2013

[30]	Effects of repeat training of the controlled force exertion test on dominant and nondominant hands
	2013

[31]	Isometrische Handkraft als Variable psychologischer Forschung: Systematischer Review und Meta-Analyse
	NULL 2012

[32]	THE EFFECT of LATERALITY on HANDGRIP STRENGTH in RIGHT-HANDED MALE ARMWRESTLERS
	2012

[33]	Comparison of Handgrip Strength in Male and Female Medical Students: A Cross Sectional Study

[1]	Influence of hand and smartphone anthropometric measurements on hand pain and discomfort Medicine, 2020 DOI:10.1097/MD.0000000000019513

[2]	Evaluation of subjective perceived rating for grip strength depending on handedness for various target force levels Work, 2019 DOI:10.3233/WOR-182838

[3]	Prediction of lung function using handgrip strength in healthy young adults Physiological Reports, 2019 DOI:10.14814/phy2.13960

[4]	The Effect of Load Uncertainty on Neuromotor Control in Catching: Gender Differences and Short Foreperiods Journal of Motor Behavior, 2019 DOI:10.1080/00222895.2019.1622503

[5]	Physical Performance Tests in Male and Female Sitting Volleyball Players: Pilot Study of Brazilian National Team Asian Journal of Sports Medicine, 2019 DOI:10.5812/asjsm.85984

[6]	Laterality and Accuracy of Force Exertion in Elbow Flexion Advances in Physical Education, 2017 DOI:10.4236/ape.2017.71009

[7]	Improved Gender Recognition during Stepping Activity for Rehab Application Using the Combinatorial Fusion Approach of EMG and HRV Applied Sciences, 2017 DOI:10.3390/app7040348

[8]	Accuracy of Force Repeatability in Relation to its Value and the Subjects’ Sex Human Movement, 2017 DOI:10.1515/humo-2017-0017

[9]	Recovery of grip strength and hand dexterity after distal radius fracture: A two-year prospective cohort study Hand Therapy, 2017 DOI:10.1177/1758998317731436

[10]	Grip Strength and Impact on Cognitive Function in Healthy Kitchen Workers Achievements in the Life Sciences, 2016 DOI:10.1016/j.als.2016.11.008

[11]	Adjustment Errors in Ascending and Descending Phases of Target Level in Controlled Force Exertion Perceptual and Motor Skills, 2015 DOI:10.2466/15.PMS.121c18x2

[12]	The Characteristics and Laterality of Explosive Force Exertion of Hand Grip and Toe Grip Advances in Physical Education, 2014 DOI:10.4236/ape.2014.44021