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Musculoskeletal Disorders of the Upper Extremities Due to Extensive Usage of Hand Held Devices
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Research Article Musculoskeletal Disorders of the Upper Extremities Due to Extensive Usage of Hand Held Devices
Deepak Sharan1, Mathankumar Mohandoss2, Rameshkumar Ranganathan2, Jeena Jose2
Annals of Occupational and Environmental Medicine 2014;26:22-22.
DOI: https://doi.org/10.1186/s40557-014-0022-3
Published online: August 6, 2014

1Department of Orthopaedic Surgery and Rehabilitation, RECOUP Neuromusculoskeletal Rehabilitation Centre, # 312, 10th Block, Further Extension of Anjanapura Layout, Bangalore 560062, Karnataka, India

2Department of Physiotherapy, RECOUP Neuromusculoskeletal Rehabilitation Centre, # 312, 10th Block, Further Extension of Anjanapura Layout, Bangalore 560062, Karnataka, India

• Received: May 8, 2014   • Accepted: July 23, 2014

Copyright © 2014 Sharan et al.; licensee BioMed Central

This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.

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  • Objective
    The use of hand held devices (HHD) such as mobile phones, game controls, tablets, portable media players and personal digital assistants have increased dramatically in past decade. While sending a text message or using the controls of the HHD the users need to use their thumb and other palm muscles extensively. The objective of this study was to describe the risk factors and clinical features of the musculoskeletal disorders (MSDs) arising due to usage of hand held devices and to evaluate the effectiveness of a sequenced rehabilitation protocol.
  • Methods
    A retrospective report analysis of 70 subjects, who were diagnosed to have a MSD affecting the upper extremities, was conducted. Medical charts from a tertiary level rehabilitation centre from 2005–2013 were analysed. All the subjects reported pain in their upper extremities following extensive usage of HHD and were examined and diagnosed to have a MSD by an orthopaedic and rehabilitation physician. After the assessment and diagnosis, all the patients underwent rehabilitation using a sequenced protocol.
  • Results
    All the subjects reported pain in the thumb and forearm with associated burning, numbness and tingling around the thenar aspect of the hand, and stiffness of wrist and hand. 43 subjects had symptoms on the right side; 9 on left and 18 had bilateral symptoms. Correlation was found between hand dominance and MSD. 33 subjects complained of onset of symptoms following extensive text messaging. All the subjects were diagnosed to have tendinosis of Extensor Pollicis Longus and Myofascial Pain Syndrome affecting the 1st interossei, thenar group of muscles and Extensor Digitorum Communis. 23 of the subjects were senior executives, among these 7 were CEO’s of major multinational companies in India. All the subjects recovered completely following the rehabilitation.
  • Conclusions
    The study concluded that mobile phones and gadgets that promoted the predominant usage of thumb or only one finger while texting or using the controls were associated with a higher prevalence of MSDs. Treatment using a sequenced rehabilitation protocol was found to be effective.
Hand-held devices (HHD) are those devices which are used for communication and entertainment purposes such as media, internet access and gaming [1]. Also the multiple usability options available in the mobile phones encourage the users to engage a substantial period of his time in his HHD. The use of HHD is on the rise [2]. Mobile phone users are able to communicate other than by voice by a wide range of text button usage by means of SMS (short message service), whatsapp, viber, line, BBM (blackberry messenger) and social networking applications like facebook, twitter and skype. Texting is the most widely used mobile data service, with 74% of all mobile phone users worldwide being active users of it [3]. According to BBC reports, almost 19 billion messages were sent per day using chat apps and 17.6 billion SMS messages in 2012 [4]. Literature reports an adverse impact on the physical and psychological health of the users of HHD [5]. The incidence of musculoskeletal disorders (MSD) of hand, wrist, forearm, arm and neck has been increasing all over the world due to prolonged, forceful, low amplitude, repetitive use of hand held devices [6]. Sustained and gripping and repetitive movements with the thumb and fingers have all been identified as risk factors which may lead to disorders of the thumb and thumb musculature in the forearm. The range of movements of the thumb varies according to the size of the mobile and orientation of the keys [7]. Studies have shown a relation between mobile design and anthropometry of the user in causing discomfort and fatigue in hand, elbow and shoulder while using the HHD [8]. Additional factors include small spacing in the keypad, increased static loading, end-range motion of the thumb during texting and a difference in the muscle activity between individuals with and without musculoskeletal symptoms [9]. Phrases have been coined to describe MSD due to use of HHD such as ‘SMS thumb’, ‘iPod finger’, ‘blackberry thumb’, ‘wii injury’ and ‘nintenditis’; however, little evidence exists to support this association [10],[11]. Few studies in the recent years have reported about this growing problem that has a large impact globally. Hence, this study was conducted to describe the risk factors and clinical features of the MSD’s due to usage of HHD and to evaluate the effectiveness of a sequenced rehabilitation programme.
A retrospective report analysis in which reports of 70 subjects between the ages of 5 to 56 years, who were diagnosed to have a MSD affecting the upper extremities were analysed. Reports of a tertiary level rehabilitation centre in Bangalore, India between the years of 2005 to 2013 were reviewed for the subjects reporting musculoskeletal pain in their upper extremities following extensive usage of HHD like mobile phones, game controls and tablets. The collected reports were analysed. The subjects with symptoms were all clinically examined and diagnosed by a single orthopaedic and rehabilitation physician. A subjective questionnaire was used to collect details about hand dominance, type of HHD used, total hours of usage per day and type of activity predominantly done using the HHD. The inclusion criteria was sending a minimum of 25 text messages or emails per day, browsing the Internet or playing games for more than 1 hour per day using the HHD, which was followed by the onset of symptoms. After the diagnosis and assessment, all the patients underwent rehabilitation for 2 to 4 weeks using a sequenced protocol. The sequenced protocol included a four phase model based on the pain level. Phase I included soft tissues mobilisation techniques (trigger point release, myofascial release, positional release technique, muscle energy technique); gentle grade 1 and 2 mobilisation of the upper extremity for pain; range of motion exercises for the elbow, wrist and finger joints and modalities such as ultrasound, low level laser therapy, contrast bath and taping. Phase II included gentle active and passive stretching of the muscles of upper extremity especially hand; hand exercises inside a water tub (Hydrotherapy); EMG Biofeedback for retraining the muscle during usage of HHD and ergonomic modification. Phase III included strengthening of the upper extremity muscles especially the hand and postural awareness and retraining. Phase IV included improving the hand activities in activities of daily living; maintenance of the regained function by involvement in leisure and sport activities and home programme was prescribed.
Visual Analog Scale (VAS) was used to assess the pain levels of study subjects before and after the rehabilitation.
Descriptive statistics like frequency, percentage values were used to analyse the population characteristics. Sample T test was used to evaluate the effectiveness of the sequenced rehabilitation protocol. Correlation coefficient was used to describe the correlation between variables.
Demography
Among the 70 participants, 55 were male and 15 were female. The mean age was 34.18 years. Various demographic details of the participants were presented in Table 1. Most of the subjects were using Blackberry (52.85%), followed by ordinary mobile phone (18.57%), iPhone (12.85%) and other smart phones (10%). 35.67% of the users who were diagnosed to have MSD in the present study were primary level managers and 32.85% of the subjects were senior executives of major multi-national companies.
Table 1
Demographic characteristics of the participants (n = 70)
Variable N %
Gender    
Male 55 78.6
Female 15 21.4
Age group    
< 14 years 1 1.4
14 to 25 years 2 2.85
26 to 40 years 38 54.2
41 to 56 years 29 41.4
Hand Dominance    
Right 62 88.6
Left 5 11.4
Hours of Mobile Usage/day    
< 2 hours 7 10
2 to 3 hours 32 45.71
3 to 4 hours 21 30
> 4 hours 10 1.43
Type of Handheld device    
Blackberry 37 52.85
Other Smartphone 13 10
Ordinary phone 9 18.57
iPhone 7 12.85
Gaming device 4 5.7
Predominant type of usage    
Text messaging 56 80
E mail 44 63
Games 21 30
Social networking 21 30
Internet surfing 24 34
Pain characteristics
Clinical assessment showed that for majority of the individuals, right side was more commonly affected (61%) when compared to the left side and bilateral involvement (Figure 1). The common symptoms reported by the subjects during examination were pain in the thumb and forearm with associated burning, numbness and tingling around the thenar aspect of the hand with stiffness of wrist and hand.
Figure 1
Laterality of symptoms.
s40557-014-0022-3-1.jpg
Co-morbidities
All the subjects (n = 70) were diagnosed to have tendinosis of extensor pollicis longus and myofascial pain syndrome affecting the 1st interossei, thenar group of muscles and extensor digitorum communis. The commonest associated co-morbidities were myofascial pain syndrome of neck and upper back (70.37%) and thoracic outlet syndrome (51.85%). The co-morbidities are presented in Table 2.
Table 2
Associated co-morbidities reported among the subjects
Associated disorders n %
Myofascial pain syndrome of neck and upper back 48 69
Thoracic outlet syndrome 34 49
Fibromyalgia syndrome 7 10
Hypothyroidism 2 2.9
Extensor wrist tendinosis 4 5.7
De Quervain’s tenosynovitis 2 2.9
Correlation analysis
A significant positive correlation was found between the hand dominance and occurrence of upper extremity MSDs in the studied individuals using HHD (p < 0.01). After the rehabilitation following a sequenced protocol the VAS scale showed significant reduction in pain levels (p < 0.01).
The preliminary study by the authors on 27 subjects described the common clinical features noted in MSD of upper extremity due to HHD [12]. The finding of tendinosis of extensor pollicis longus, myofascial pain syndrome of adductor pollicis, 1st interossei and extensor digitorum communis in all the subjects was replicated in the present study. Studies have revealed that while texting in mobile phone keypad, the thumb covered motions in planes of extension, flexion, abduction-adduction and opposition. These motions occurred simultaneously in three dimensions and as a result it became difficult to measure the kinematics of thumb [13]. This posture of the thumb working near the extreme range of motion was perhaps the main triggering factor for the development of tendinosis of extensor pollicis longus as reported in our study. Studies related to measurement of thumb postures during texting were shown to be affected by the size of the mobile phone and movement axes of the thumb [7],[14]. This might have been a notable factor for our study subjects who used blackberry and other smart phones which are comparatively larger and promote usage of thumb alone for texting. Static loading by holding of the hand held device for long durations, often coupled with hazardous body postures and overuse of the hand muscles are likely contributors to the development of myofascial pain syndrome of hand, forearm, neck and upper back muscles [6]. Nintendo thumb, Gamer’s grip and Nintendinitis are terms used to describe a video game related MSD, similar to the disorders occurring in text messaging, affecting the hands. The movement of fingers are similar to texting on mobile screen. Symptoms reported in earlier studies included blistering, paraesthesia and swelling of the thumbs or fingers due to tendinosis and bursitis [11].
A study showed that postures and the type of mobile phone task affected muscle activity and thumb positions [7]. The same study reported that females compared to males had higher muscle activity in the extensor digitorum communis and the abductor pollicis longus when entering SMS messages and tended to have greater thumb abduction, higher thumb movement velocities and fewer pauses in the thumb movements [7]. However, in our present study such differences were not present and most of the affected subjects were males.
The present study was a retrospective report analysis with relatively small sample size of 70 subjects. Therefore generalisation of the result is difficult and use of more detailed statistical analysis was not possible. A prospective cross sectional analysis involving a larger sample size on various types of HHD, various brands and user characteristics is recommended. This will pave way for recommending appropriate design of HHD and improving user friendliness according to the anthropometry of the users. Also, further investigation of the pathogenesis of MSDs related to usage of HHD is needed so that an effective prevention strategy can be formulated.
HHD that promotes the predominant usage of thumb or only one finger while texting or gaming are associated with a higher prevalence of MSDs and hence the users are advised to select devices that are designed to permit typing or usage with all the fingers. Other preventive methods like limiting the total hours of usage of HHD, frequent short breaks between usage of HHD, maintenance of correct posture and usage of voice to text software could also be advised. The study concluded that treatment with a sequenced rehabilitation protocol was effective for MSD’s of upper extremities caused due to extensive usage of HHD. Further studies involving identification of risk factors in larger population are recommended to prevent these disorders.
Consent
Written informed consent was obtained from the all the subjects before the evaluation for publication of this report and any accompanying images.
The authors declare that they have no competing interests.
DS Participated in conception and design, assessment of subjects, critical review of manuscript. MM participated in the conception and design, statistical analysis, drafting and critical review of the manuscript. RR participated in data collection and critical review of the manuscript. JJ participated in data collection and critical review of the manuscript. All authors read and approved the final manuscript.
The authors are thankful to all the physiotherapists who took part in the process of physical examination and evaluation, and all the subjects who participated in the study.
  • http://www.pewinternet.org/2010/01/05/internet-broadband-and-cell-phone-statistics/. Rainie L: Pew Internet & American Life Project: Internet, Broadband, and Cell Phone Statistics.Pew Res Center 2010, . (Accessed 30.07.14)..
  • Jonsson P, Johnson PW, Hagberg M: Thumb joint movement and muscular activity during mobile phone texting – A methodological study. J Electromyogr Kinesiol 2011;21:363–370. 10.1016/j.jelekin.2010.10.007. 21123082.ArticlePubMed
  • http://en.wikipedia.org/wiki/Text_messaging. Text messaging.. (Accessed 30.07.14)..
  • http://www.bbc.com/news/business-22334338. Chat app messaging overtakes SMS texts, Informa says.. (Accessed 30.07.14)..
  • Gustafsson E, Dellve L, Edlund M, Hagberg M: The use of information technology among young adults–experience, attitudes and health beliefs. Appl Ergon 2003;34:565–570. 10.1016/S0003-6870(03)00082-6. 14559416.ArticlePubMed
  • Eapen C, Bhat AK: Prevalence of cumulative trauma disorders in cell phone users. J Musculoskelet Res 2010;13:137–145. 10.1142/S0218957710002545.Article
  • Gustafsson E, Johnson PW, Hagberg M: Thumb postures and physical loads during mobile phone use - a comparison of young adults with and without musculoskeletal symptoms. J Electromyogr Kinesiol 2010;20:127–135. 10.1016/j.jelekin.2008.11.010. 19138862.ArticlePubMed
  • Chany AM, William S, Marras D, Burr L: The Effect of Phone Design on Upper Extremity Discomfort and Muscle Fatigue. Hum Factors 2007;4:602–618. 10.1518/001872007X215683. 17702212.ArticlePDF
  • Sengupta A, Grabiner S, Kothari P, Martinez G: Ergonomic aspects of personal digital assistant (PDA) and laptop use. Proceedings of the Sixth International Scientific Conference on Prevention of Work-Related Musculoskeletal Disorders. 2007, PREMUS, Boston, USA.
  • Sophia B, Richard P, Benjamin C: Musculoskeletal symptoms among mobile hand-held device users and their relationship to device use: A preliminary study in a Canadian university population. Appl Ergon 2011;42:371–378. 10.1016/j.apergo.2010.08.010. 20833387.ArticlePubMed
  • Koh TH: Ulcerative “nintendinitis”: a new kind of repetitive strain injury. Med J Aust 2000;173:671. 11379534.ArticlePDF
  • Sharan D, Ajeesh PS: Risk factors and clinical features of text message injuries. Work 2012;41(Suppl 1):1145–1148. 22316873.ArticlePubMed
  • Ong FR: Thumb motion and typing forces during text messaging on a mobile phone. 13th International Conference on Biomedical Engineering. IFMBE Proc 2009;23:2095–2098. 10.1007/978-3-540-92841-6_522.
  • Ming Z, Pietikainen S, Hänninen O: Excessive texting in pathophysiology of first carpometacarpal joint arthritis. Pathophysiology 2006;13:269–270. 10.1016/j.pathophys.2006.09.001. 17049823.ArticlePubMed

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REFERENCES

    Citations

    Citations to this article as recorded by  
    • Optimizing learning comfort: ergonomic influences on children’s transition to online education
      Mohammed Said Obeidat, Dalia Saaydeh
      Ergonomics.2024; : 1.     CrossRef
    • The Prevalence of Nomophobia in Medical Undergraduate Students of Central India
      Mahek R Mohani, Pratik Phansopkar, Nikita H Seth, Pranali S Fokmare
      Cureus.2024;[Epub]     CrossRef
    • A multi-dimensional assessment of internet gaming disorder in children and adolescents: A case-control study
      Caner Mutlu, Tansu Birinci, Aybike Senel, Rustem Mustafaoglu, Esra Bulanık Koc, Gul Karacetin, Ebru Kaya Mutlu
      Work.2024; 77(4): 1089.     CrossRef
    • The impact of smartphone use duration and posture on the prevalence of hand pain among college students
      Faeze Dehghan Banadaki, Benyamin Rahimian, Fatemeh Moraveji, Sakineh Varmazyar
      BMC Musculoskeletal Disorders.2024;[Epub]     CrossRef
    • Effectiveness of Tailor-Made Physiotherapy Protocol in Smartphone-Addicted Individuals With Text Neck Syndrome and Short Message Service (SMS) Thumb
      Harsh R Nathani, Pratik Phansopkar
      Cureus.2024;[Epub]     CrossRef
    • Comparison of musculoskeletal pain and upper extremity disability in smartphone addicts and smartphone non-addicts among university students: A cross-sectional study
      Mehmet Kurtaran
      Journal of Bodywork and Movement Therapies.2024; 40: 279.     CrossRef
    • The relationship between smartphone usage position, pain, smartphone addiction, and hand function
      Ozde Depreli, Ender Angin
      Journal of Back and Musculoskeletal Rehabilitation.2024; : 1.     CrossRef
    • Prevalence of Thumb and Wrist Pain Among Smartphone Users in the Saudi Arabian General Population: A Cross-Sectional Study
      Mahmoud Mohammed Hassaan, Mohammad A Jareebi, Hanan A AlKaabi , Alhassan H Hobani, Yazeed M Alfuhigi, Norah K Albahli , Hatim Alrashed, Sami K Alotaibi, Abdulaziz S Almadi, Othman A Iskander, Khalid Alyahyawi, Jamaludeen A Othman , Waseem S Borik, Mohamm
      Cureus.2024;[Epub]     CrossRef
    • Prevalence and Awareness of Musculoskeletal Injuries Associated With Competitive Video Gaming in Saudi Arabia
      Anas Fathuldeen, Mohammed F Alshammiri, Abdullah Abdulmohsen
      Cureus.2023;[Epub]     CrossRef
    • Orthopedic Problems due to Overuse of Smartphones
      Saurabh Agarwal, Rahul Bharti
      Journal of Orthopaedic Diseases and Traumatology.2023; 6(3): 201.     CrossRef
    • The association between mobile phone use and neuromusculoskeletal complaints
      Jumana Ma’touq, Nasim Alnuman, Ibrahim Abuzer, Bara’a AbdelGader
      Work.2023; 76(2): 759.     CrossRef
    • Comparing the Mediating Effect of Adolescent Lifestyle Profiles on the Relationship between Smartphone Addiction and Health-related Quality of Life Among Male and Female Senior High School Students in the Philippines
      Danilo B. Buctot, Nami Kim, Sun Hee Kim
      International Journal of Mental Health and Addiction.2023; 21(1): 511.     CrossRef
    • The Relationship between Smartphone Addiction and Functional Neck Disability among University Students during COVID-19 Pandemic
      Amr ABDEL-AZİEM, Ibrahim DEWİR, Mosab ALOTİBİ, Hamzh MORSHED, Ziyad ALKHAMMASH, Muqren ALSHAHRANİ
      Clinical and Experimental Health Sciences.2023; 13(3): 562.     CrossRef
    • Exploring the Relation of Smartphone Addiction and Musculoskeletal Pain in the Neck, Trunk, and Upper Limbs: A Cross-sectional Study
      Yixin Wang, Ye-Jin Kim, Kyeong-Ah Moon, Joo-Hee Park, Hye-Seon Jeon
      Physical Therapy Korea.2023; 30(3): 211.     CrossRef
    • Uso de smartphones como fator de risco para o desenvolvimento de morbidades no punho e nos dedos
      Ana Mariza dos Santos Gonçalves, Vinícius José Guimarães do Carmo, Letycia Monteiro Cavalcanti Araújo, Taciane Machado de Melo Pereira
      Revista Brasileira de Ortopedia.2023; 58(03): 457.     CrossRef
    • 21st century medicine and emerging biotechnological syndromes: a cross-disciplinary systematic review of novel patient presentations in the age of technology
      Isabel Straw, Geraint Rees, Parashkev Nachev
      BMC Digital Health.2023;[Epub]     CrossRef
    • Prevalence of mobile device-related lower extremity discomfort: a systematic review
      Maša Legan, Klementina Zupan
      International Journal of Occupational Safety and Ergonomics.2022; 28(2): 1091.     CrossRef
    • Mobile phone usage among Nigerians: Risk factors for musculoskeletal injuries and preventive strategies
      SundayRufus Akinbo, AyoolaIbifubara Aiyegbusi, UdokaArinze Okafor, OluwaseyiJessy Balogun
      Nigerian Postgraduate Medical Journal.2022; 29(3): 221.     CrossRef
    • Musculoskeletal disorders in video gamers – a systematic review
      Chuck Tholl, Peter Bickmann, Konstantin Wechsler, Ingo Froböse, Christopher Grieben
      BMC Musculoskeletal Disorders.2022;[Epub]     CrossRef
    • Spine Posture, Mobility, and Stability of Top Mobile Esports Athletes: A Case Series
      Wing-Kai Lam, Bob Chen, Rui-Tan Liu, James Chung-Wai Cheung, Duo Wai-Chi Wong
      Biology.2022; 11(5): 737.     CrossRef
    • Smartphone addiction and its impact on musculoskeletal pain in neck, shoulder, elbow, and hand among college going students: a cross-sectional study
      Sohel Ahmed, Arushi Mishra, Rahemun Akter, Md. Hasanuzzaman Shah, Asima Akter Sadia
      Bulletin of Faculty of Physical Therapy.2022;[Epub]     CrossRef
    • The Impact of Smartphone Addiction on Chinese University Students’ Physical Activity: Exploring the Role of Motivation and Self-Efficacy
      Bo Lin, Eng Wah Teo, Tingting Yan
      Psychology Research and Behavior Management.2022; Volume 15: 2273.     CrossRef
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      Ankara Sağlık Bilimleri Dergisi.2022; 11(2): 266.     CrossRef
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      Maša Legan, Klementina Zupan
      International Journal of Occupational Safety and Ergonomics.2022; 28(2): 734.     CrossRef
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      Ananyan Sampath, Avani Kulkarni, Revadi G, Manmohan Patel, Bertha A Rathinam
      Cureus.2022;[Epub]     CrossRef
    • AOASM Position Statement on Esports, Active Video Gaming, and the Role of the Sports Medicine Physician
      R. Robert Franks, Dominic King, Warren Bodine, Emanuele Chisari, Alan Heller, Faraz Jamal, John Luksch, Kate Quinn, Raunak Singh, Mary Solomon
      Clinical Journal of Sport Medicine.2022; 32(3): e221.     CrossRef
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      İbrahim EYİ, Banu Yeşim BÜYÜKAKINCI
      Ergonomi.2022; 5(3): 144.     CrossRef
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      Sujata Mandhwani, Sadaf Zia, Emad Salman Shaikh, Dante Duarte, Erum Tanveer
      Journal of Musculoskeletal Research.2022;[Epub]     CrossRef
    • Microvascular blood flow changes of the abductor pollicis brevis muscle during sustained static exercise
      Martina Giovannella, Evelina Urtane, Marta Zanoletti, Umut Karadeniz, Uldis Rubins, Udo M. Weigel, Zbignevs Marcinkevics, Turgut Durduran
      Biomedical Optics Express.2021; 12(7): 4235.     CrossRef
    • Response to “letter to editor: Symptoms and absence of symptoms while using a telephone: The paradox of thoracic outlet syndrome”
      Emrah Zirek, Rustem Mustafaoglu, Zeynal Yasaci, Mark D. Griffiths
      Musculoskeletal Science and Practice.2021; 51: 102264.     CrossRef
    • Musculoskeletal Pain and Risk Factors Associated with Smartphone Use in University Students
      Prachita P. Walankar, Manasi Kemkar, Aniket Govekar, Agasthya Dhanwada
      Indian Journal of Occupational and Environmental Medicine.2021; 25(4): 220.     CrossRef
    • Investigating the effect of smartphone addiction on musculoskeletal system problems and cognitive flexibility in university students
      Özgü İnal, Selen Serel Arslan
      Work.2021; 68(1): 107.     CrossRef
    • The relationship between smartphone addiction and musculoskeletal pain prevalence among young population: a cross-sectional study
      Rustem Mustafaoglu, Zeynal Yasaci, Emrah Zirek, Mark D. Griffiths, Arzu Razak Ozdincler
      The Korean Journal of Pain.2021; 34(1): 72.     CrossRef
    • Smartphone addiction and its association with upper body musculoskeletal symptoms among university students classified by age and gender
      Panida Hanphitakphong, Orawan Keeratisiroj, Nuanlaor Thawinchai
      Journal of Physical Therapy Science.2021; 33(5): 394.     CrossRef
    • The impact of cell phone texting on superficial blood flow, touch threshold, and symptoms for individuals with carpal tunnel syndrome
      Mike Szekeres, Derek Cheung, Joy Macdermid
      Work.2021; 69(3): 839.     CrossRef
    • A scope of mobile health solutions in COVID-19 pandemics
      Afsoon Asadzadeh, Leila R. Kalankesh
      Informatics in Medicine Unlocked.2021; 23: 100558.     CrossRef
    • Prevalence of text neck syndrome and SMS thumb among smartphone users in college-going students: a cross-sectional survey study
      Sohel Ahmed, Rahemun Akter, Nikita Pokhrel, Asir John Samuel
      Journal of Public Health.2021; 29(2): 411.     CrossRef
    • Symptoms and absence of symptoms while using a telephone: The paradox of thoracic outlet syndrome
      Pierre Abraham, Samir Henni
      Musculoskeletal Science and Practice.2021; 51: 102266.     CrossRef
    • A systematic review of musculoskeletal complaints, symptoms, and pathologies related to mobile phone usage
      Emrah Zirek, Rustem Mustafaoglu, Zeynal Yasaci, Mark D. Griffiths
      Musculoskeletal Science and Practice.2020; 49: 102196.     CrossRef
    • Evaluating hand performance and strength in children with high rates of smartphone usage: an observational study
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      Zahra Vahedi, Adel Mazloumi, Ali Sharifnezhad, Zeinab Kazemi, Ehsan Garosi
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    • Work-related musculoskeletal disorders amongst undergraduate nursing students at the University of Johannesburg
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      Health SA Gesondheid.2020;[Epub]     CrossRef
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    • Factors associated with smartphone addiction prevalence and its predictive capacity for health-related quality of life among Filipino adolescents
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      Children and Youth Services Review.2020; 110: 104758.     CrossRef
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      Medicine.2020; 99(10): e19124.     CrossRef
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      The Indian Journal of Occupational Therapy.2020; 52(2): 50.     CrossRef
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      Musculoskeletal Disorders of the Upper Extremities Due to Extensive Usage of Hand Held Devices
      Ann Occup Environ Med. 2014;26:22-22.   Published online August 6, 2014
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    Musculoskeletal Disorders of the Upper Extremities Due to Extensive Usage of Hand Held Devices
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    Figure 1 Laterality of symptoms.
    Musculoskeletal Disorders of the Upper Extremities Due to Extensive Usage of Hand Held Devices
    VariableN%
    Gender  
    Male5578.6
    Female1521.4
    Age group  
    < 14 years11.4
    14 to 25 years22.85
    26 to 40 years3854.2
    41 to 56 years2941.4
    Hand Dominance  
    Right6288.6
    Left511.4
    Hours of Mobile Usage/day  
    < 2 hours710
    2 to 3 hours3245.71
    3 to 4 hours2130
    > 4 hours101.43
    Type of Handheld device  
    Blackberry3752.85
    Other Smartphone1310
    Ordinary phone918.57
    iPhone712.85
    Gaming device45.7
    Predominant type of usage  
    Text messaging5680
    E mail4463
    Games2130
    Social networking2130
    Internet surfing2434
    Associated disordersn%
    Myofascial pain syndrome of neck and upper back4869
    Thoracic outlet syndrome3449
    Fibromyalgia syndrome710
    Hypothyroidism22.9
    Extensor wrist tendinosis45.7
    De Quervain’s tenosynovitis22.9
    Table 1 Demographic characteristics of the participants (n = 70)

    Table 2 Associated co-morbidities reported among the subjects


    Ann Occup Environ Med : Annals of Occupational and Environmental Medicine
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