Prevalence of Little Finger Contour Damage among Mobile Users

Main Article Content

Saania Kanwal
Amina Irfan
Maheen Zaheer
Laiba Zia
Noor ul Huda
Maria Javaid
Ali Raza
Mishal Farwa
Hira Rafique
Intsam Aslam

Abstract

Background: Recent advancements in mobile technology have led to increased scrutiny regarding the physical impacts of prolonged device usage. Prior studies have offered conflicting views on the association between mobile phone use and structural changes in the hand, particularly concerning little finger contour damage. This discrepancy underscores the need for further research to elucidate the relationship between smartphone usage patterns and potential musculoskeletal alterations.


Objective: The primary objective of this study was to investigate the prevalence of little finger contour damage among mobile phone users, aiming to identify causative factors, potential preventative measures, and remedies for the observed damage. The study also sought to compare its findings with existing literature to clarify the impact of mobile phone use on hand anatomy.


Methods: A cross-sectional survey was conducted among 335 participants, employing a structured questionnaire to gather data on demographics, mobile phone usage patterns, and the presence of little finger contour damage. Statistical analysis was utilized to examine the association between mobile phone use and little finger contour damage. The study's inclusion criteria encompassed mobile phone users above the age of 16, with no restrictions on gender or occupation.


Results: Out of 335 participants, 123 (36.70%) reported little finger contour damage. Among those, 83.70% were female, and 16.30% were male. Age distribution indicated that 41.00% were aged 17-20 years, 58.00% were 21-24 years, and 1.00% were older than 24 years. Regarding mobile phone usage, 11.00% had used their devices for 2-3 years, 20.00% for 3-4 years, and 69.00% for more than 4 years. Screen time revealed that 29.00% used their phones for 3-5 hours daily, whereas 71.00% exceeded 5 hours. The prevalence of little finger contour damage was significantly associated with longer screen time and duration of mobile phone usage.


Conclusion: The study substantiates a significant correlation between prolonged mobile phone use and the development of little finger contour damage. It highlights an urgent need for awareness and intervention strategies to mitigate the risk of musculoskeletal alterations due to smartphone usage. Further research is recommended to explore this phenomenon across broader demographics and geographical locations.

Article Details

How to Cite
Kanwal, S., Irfan, A., Zaheer, M., Zia, L., Huda, N. ul, Javaid, M., Raza, A., Farwa, M., Rafique, H., & Aslam, I. (2024). Prevalence of Little Finger Contour Damage among Mobile Users. Journal of Health and Rehabilitation Research, 4(1), 509–513. https://doi.org/10.61919/jhrr.v4i1.268
Section
Articles
Author Biographies

Saania Kanwal, Ibadat International University Islamabad Pakistan.

Assistant Professor.

Amina Irfan, The University of Lahore (Islamabad Campus) Pakistan.

Student.

Noor ul Huda, The University of Lahore (Islamabad Campus) Pakistan.

Student.

Maria Javaid, Services hospital Lahore (Nestle Health Science) Pakistan.

Clinical Dietitian.

Ali Raza, Noor Thalassemia Foundation Lahore Pakistan.

Physiotherapist.

Mishal Farwa, Rehab Care Lahore Pakistan.

Physiotherapist.

Hira Rafique, Quaid-e-Azam College Sahiwal Pakistan.

Senior Lecturer.

Intsam Aslam, Quaid-e-Azam College Sahiwal Pakistan.

Lecturer.

References

Mushroor S, Haque S, Riyadh AAJIJoCM, Health P. The impact of smart phones and mobile devices on human health and life. 2020;1:9-15.

Schmidt A, Holleis P, Häkkilä J, Rukzio E, Atterer R, editors. Mobile phones as tool to increase communication and location awareness of users. Proceedings of the 3rd international conference on Mobile technology, applications & systems; 2006.

Fowler J, Noyes JJD. A study of the health implications of mobile phone use in 8-14s. 2017;84 (200):228-33.

Samkange-Zeeb F, Blettner MJEHTJ. Emerging aspects of mobile phone use. 2009;2 (1):7082.

Kwon M, Lee J-Y, Won W-Y, Park J-W, Min J-A, Hahn C, et al. Development and validation of a smartphone addiction scale (SAS). 2013;8 (2):e56936.

Akanferi AA, Aziale LK, Asampana IJIJoCA. An empirical study on mobile phone usage among young adults in Ghana: From the viewpoint of university students. 2014;98 (5).

Henderson M, Benedetti A, Barnett TA, Mathieu M-E, Deladoëy J, Gray-Donald KJJp. Influence of adiposity, physical activity, fitness, and screen time on insulin dynamics over 2 years in children. 2016;170 (3):227-35.

Reid Chassiakos YL, Radesky J, Christakis D, Moreno MA, Cross C, Hill D, et al. Children and adolescents and digital media. 2016;138 (5).

Magee CA, Lee JK, Vella SAJJp. Bidirectional relationships between sleep duration and screen time in early childhood. 2014;168 (5):465-70.

Lemola S, Perkinson-Gloor N, Brand S, Dewald-Kaufmann JF, Grob AJJoy, adolescence. Adolescents’ electronic media use at night, sleep disturbance, and depressive symptoms in the smartphone age. 2015;44 (2):405-18.

Falbe J, Davison KK, Franckle RL, Ganter C, Gortmaker SL, Smith L, et al. Sleep duration, restfulness, and screens in the sleep environment. 2015;135 (2):e367-e75.

Kamran SJIjob, management. Mobile phone: Calling and texting patterns of college students in Pakistan. 2010;5 (4):26.

Ahmed I, Perji KAJIM, Review B. Mobile phone to youngsters: Necessity or addiction. 2011;2 (5):229-38.

Berolo S, Wells RP, Amick III BCJAe. Musculoskeletal symptoms among mobile hand-held device users and their relationship to device use: a preliminary study in a Canadian university population. 2011;42 (2):371-8.

Osailan AJBmd. The relationship between smartphone usage duration (using smartphone’s ability to monitor screen time) with hand-grip and pinch-grip strength among young people: an observational study. 2021;22:1-8.

Fuentes-Ramírez L, Alfaro-Gomez U, Espinosa-Uribe A, Teran-Garza R, Quiroga-Garza A, Gutiérrez-de la O J, et al. Morphologic changes of the fifth phalange secondary to smartphone use. 2020;65 (2):429-33.

İNal EE, Demirci K, Çetİntürk A, Akgönül M, Savaş SJM, nerve. Effects of smartphone overuse on hand function, pinch strength, and the median nerve. 2015;52 (2):183-8.

Bhamra JK, Naqvi WM, Arora SPJC. Effect of smartphone on hand performance and strength in the healthy population. 2021;13 (6).

Vickers DJJoHS. Clinodactyly of the little finger: a simple operative technique for reversal of the growth abnormality. 1987;12 (3):335-42.

Radwan NL, Ibrahim MM, Mahmoud WSE-DJJopts. Evaluating hand performance and strength in children with high rates of smartphone usage: an observational study. 2020;32 (1):65-71.

Gökmen HM, Gökmen İG, Dilek B, Gülbahar S, Akalın EJTJoPM, Rehabilitation. Addiction of smartphones and related finger deformities: A case report. 2020;66 (4):476.

Rajkumar JS, Sharan D, Mohandoss M. Musculoskeletal Disorders Due to Hand-Held Devices: A Major Problem at Hand. 2015.

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