Effect Of The Presence Of Dynapenia On Posture, Spine Muscle Elasticity, Strength And Endurance In Young Adults
NCT ID: NCT06621875
Last Updated: 2024-10-16
Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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Recruitment Status
NOT_YET_RECRUITING
Total Enrollment
40 participants
Study Classification
OBSERVATIONAL
Study Start Date
2024-11-01
Study Completion Date
2025-10-01
Brief Summary
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The aim of the present study was to determine the effect of dynapenia on posture, spinal muscle elasticity, strength and endurance in young adults.
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Detailed Description
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Skeletal muscle plays an important role in general health and physical development throughout the life cycle \[1\]. Skeletal muscle strength and performance are of critical importance in performing daily activities, maintaining mobility, and maintaining general health. Therefore, changes in general muscle strength and performance due to various reasons differentiate muscle contraction quality and neural activation, facilitating for the concept of 'dynapenia' \[2,3\].
Dynapenia is defined as a decrease in performance and/or strength without loss of muscle mass \[4\]. Although dynapenia, which facilitates for morbidity and mortality \[5,7\], is a well-defined condition in the elderly, there is very limited information about its prevalence and causes in young people \[8\]. Dynapenia, which has many negative effects on quality of life and daily functioning for the general population \[9\], is considered a form of accelerated muscle aging and can be defined as the "pre-sarcopenia stage" \[10\].
When other causes of dynapenia are examined in the literature; age and chronic diseases have been emphasized, but it has been overlooked that one of the most important modifiable factors, inadequate physical activity, can facilitate for dynapenia, especially in young people \[4\]. The COVID-19 pandemic that started in 2020 and the quarantine and similar measures taken subsequently have led to a decrease in physical activity levels in young people and an increase of approximately 28% in daily sitting time \[11\]. Low physical activity levels and the resulting decrease in muscle strength and performance can facilitate for dynapenia in young individuals \[4,12\].
Individuals who spend a long time in front of the computer also struggle with many health problems caused by being inactive for a long time, especially in the neck and waist \[13,14\]. Posture that is disrupted by the side effects of sitting for a long time can cause a decrease in muscle length and/or elasticity in certain groups of muscles \[15\]. Changes in the muscle also lead to a decrease in muscle strength over time \[16,17\], which can be an accelerating factor for dynapenia.
In the literature, many studies have addressed postural disorders, spinal muscle elasticity, muscle strength and endurance with the functional strength parameter handgrip strength \[18,21\], but no study has examined these parameters in young individuals with dynapenia. When deciding on the presence of dynapenia, handgrip strength is the most important parameter that provides information about general muscle strength. However, changes in the spine in individuals with dynapenia, whose handgrip strength and general muscle performance are reduced, have been ignored in the literature.
Evaluating posture, spinal muscle strength, elasticity and endurance in individuals with dynapenia can be a fundamental step in preparing preventive and therapeutic algorithms against dynapenia. The strength and endurance of spinal muscles can play a critical role in providing postural control, preserving movement functions and reducing the risk of injury, especially in individuals with dynapenia. Therefore, examining factors related to the spine in the presence of dynapenia in young individuals can make significant contributions to developing preventive health strategies, increasing functional capacities and improving quality of life.
According to above information; The aim of the present study was to determine the effect of dynapenia on posture, spinal muscle elasticity, strength and endurance in young adults.
Data collection will be carried out as follows: Participants' height, weight, body mass index and smoking, average time spent in front of the screen during the day (hours of daily use x years of use), presence of Covid-19, number of cases and when it occurred will be recorded verbally. Physical activity level will be assessed with the International Physical Activity Questionnaire - Short Form (IPAQ-SF) \[22,23\]; average smartphone usage time with the Smartphone Addiction Scale Short Form \[24\], and sleep quality (Pittsburgh Sleep Quality Index) \[25\]. Those with no decrease in muscle mass but a decrease in muscle strength and/or performance will be included in the 'dypenia group', and those with no decrease in muscle mass, muscle function and performance will be included in the 'control group'.
Dynapenia is defined as a decrease in performance and/or strength without loss of muscle mass \[4\]. Although dynapenia, which facilitates for morbidity and mortality \[5,7\], is a well-defined condition in the elderly, there is very limited information about its prevalence and causes in young people \[8\]. Dynapenia, which has many negative effects on quality of life and daily functioning for the general population \[9\], is considered a form of accelerated muscle aging and can be defined as the "pre-sarcopenia stage" \[10\].
When other causes of dynapenia are examined in the literature; age and chronic diseases have been emphasized, but it has been overlooked that one of the most important modifiable factors, inadequate physical activity, can facilitate for dynapenia, especially in young people \[4\]. The COVID-19 pandemic that started in 2020 and the quarantine and similar measures taken subsequently have led to a decrease in physical activity levels in young people and an increase of approximately 28% in daily sitting time \[11\]. Low physical activity levels and the resulting decrease in muscle strength and performance can facilitate for dynapenia in young individuals \[4,12\].
Individuals who spend a long time in front of the computer also struggle with many health problems caused by being inactive for a long time, especially in the neck and waist \[13,14\]. Posture that is disrupted by the side effects of sitting for a long time can cause a decrease in muscle length and/or elasticity in certain groups of muscles \[15\]. Changes in the muscle also lead to a decrease in muscle strength over time \[16,17\], which can be an accelerating factor for dynapenia.
In the literature, many studies have addressed postural disorders, spinal muscle elasticity, muscle strength and endurance with the functional strength parameter handgrip strength \[18,21\], but no study has examined these parameters in young individuals with dynapenia. When deciding on the presence of dynapenia, handgrip strength is the most important parameter that provides information about general muscle strength. However, changes in the spine in individuals with dynapenia, whose handgrip strength and general muscle performance are reduced, have been ignored in the literature.
Evaluating posture, spinal muscle strength, elasticity and endurance in individuals with dynapenia can be a fundamental step in preparing preventive and therapeutic algorithms against dynapenia. The strength and endurance of spinal muscles can play a critical role in providing postural control, preserving movement functions and reducing the risk of injury, especially in individuals with dynapenia. Therefore, examining factors related to the spine in the presence of dynapenia in young individuals can make significant contributions to developing preventive health strategies, increasing functional capacities and improving quality of life.
According to above information; The aim of the present study was to determine the effect of dynapenia on posture, spinal muscle elasticity, strength and endurance in young adults.
Data collection will be carried out as follows: Participants' height, weight, body mass index and smoking, average time spent in front of the screen during the day (hours of daily use x years of use), presence of Covid-19, number of cases and when it occurred will be recorded verbally. Physical activity level will be assessed with the International Physical Activity Questionnaire - Short Form (IPAQ-SF) \[22,23\]; average smartphone usage time with the Smartphone Addiction Scale Short Form \[24\], and sleep quality (Pittsburgh Sleep Quality Index) \[25\]. Those with no decrease in muscle mass but a decrease in muscle strength and/or performance will be included in the 'dypenia group', and those with no decrease in muscle mass, muscle function and performance will be included in the 'control group'.
Conditions
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Dynapenia
Muscle Weakness
Sarcopenia
Study Design
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Observational Model Type
CASE_CONTROL
Study Time Perspective
CROSS_SECTIONAL
Study Groups
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Dynapenia Group
Those with no decrease in muscle mass but decreased muscle strength and/or performance will be included in the 'dynapenia group'.
No interventions assigned to this group
Control Group
Those with no decrease in muscle mass, muscle function and performance will be included in the 'control group'.
No interventions assigned to this group
Eligibility Criteria
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Inclusion Criteria
* Being between the ages of 18-25
* Filling out all the survey questions
* Filling out all the survey questions
Exclusion Criteria
* Presence of chronic diseases that may affect the musculoskeletal system (diabetes, heart disease, neurological disorders)
* Use of medications that may affect muscle functions (corticosteroids, muscle relaxants)
* Presence of serious musculoskeletal injury within the last six months
* Presence of surgery and/or pain related to the musculoskeletal system
* Use of medications that may affect muscle functions (corticosteroids, muscle relaxants)
* Presence of serious musculoskeletal injury within the last six months
* Presence of surgery and/or pain related to the musculoskeletal system
Minimum Eligible Age
18 Years
Maximum Eligible Age
25 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
Yes
Sponsors
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Aynur Ayazzade
OTHER
Sponsor Role
lead
Responsible Party
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Aynur Ayazzade
Graduate Student
Responsibility Role
SPONSOR_INVESTIGATOR
Central Contacts
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References
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Orsso CE, Tibaes JRB, Oliveira CLP, Rubin DA, Field CJ, Heymsfield SB, Prado CM, Haqq AM. Low muscle mass and strength in pediatrics patients: Why should we care? Clin Nutr. 2019 Oct;38(5):2002-2015. doi: 10.1016/j.clnu.2019.04.012. Epub 2019 Apr 18.
Reference Type
BACKGROUND
Clark BC, Manini TM. Functional consequences of sarcopenia and dynapenia in the elderly. Curr Opin Clin Nutr Metab Care. 2010 May;13(3):271-6. doi: 10.1097/MCO.0b013e328337819e.
Reference Type
BACKGROUND
Manini TM, Clark BC. Dynapenia and aging: an update. J Gerontol A Biol Sci Med Sci. 2012 Jan;67(1):28-40. doi: 10.1093/gerona/glr010. Epub 2011 Mar 28.
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Newman AB, Kupelian V, Visser M, Simonsick EM, Goodpaster BH, Kritchevsky SB, Tylavsky FA, Rubin SM, Harris TB. Strength, but not muscle mass, is associated with mortality in the health, aging and body composition study cohort. J Gerontol A Biol Sci Med Sci. 2006 Jan;61(1):72-7. doi: 10.1093/gerona/61.1.72.
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Xue QL, Beamer BA, Chaves PH, Guralnik JM, Fried LP. Heterogeneity in rate of decline in grip, hip, and knee strength and the risk of all-cause mortality: the Women's Health and Aging Study II. J Am Geriatr Soc. 2010 Nov;58(11):2076-84. doi: 10.1111/j.1532-5415.2010.03154.x.
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BACKGROUND
Clark BC, Manini TM. What is dynapenia? Nutrition. 2012 May;28(5):495-503. doi: 10.1016/j.nut.2011.12.002.
Reference Type
BACKGROUND
Cruz-Jentoft AJ, Baeyens JP, Bauer JM, Boirie Y, Cederholm T, Landi F, Martin FC, Michel JP, Rolland Y, Schneider SM, Topinkova E, Vandewoude M, Zamboni M; European Working Group on Sarcopenia in Older People. Sarcopenia: European consensus on definition and diagnosis: Report of the European Working Group on Sarcopenia in Older People. Age Ageing. 2010 Jul;39(4):412-23. doi: 10.1093/ageing/afq034. Epub 2010 Apr 13.
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BACKGROUND
Andreo-Lopez MC, Zarco-Martin MT, Contreras-Bolivar V, Fernandez-Soto ML. Prevalence of Sarcopenia and Dynapenia and Related Clinical Outcomes in Patients with Type 1 Diabetes Mellitus. Nutrients. 2023 Nov 24;15(23):4914. doi: 10.3390/nu15234914.
Reference Type
BACKGROUND
Ammar A, Brach M, Trabelsi K, Chtourou H, Boukhris O, Masmoudi L, Bouaziz B, Bentlage E, How D, Ahmed M, Muller P, Muller N, Aloui A, Hammouda O, Paineiras-Domingos LL, Braakman-Jansen A, Wrede C, Bastoni S, Pernambuco CS, Mataruna L, Taheri M, Irandoust K, Khacharem A, Bragazzi NL, Chamari K, Glenn JM, Bott NT, Gargouri F, Chaari L, Batatia H, Ali GM, Abdelkarim O, Jarraya M, Abed KE, Souissi N, Van Gemert-Pijnen L, Riemann BL, Riemann L, Moalla W, Gomez-Raja J, Epstein M, Sanderman R, Schulz SV, Jerg A, Al-Horani R, Mansi T, Jmail M, Barbosa F, Ferreira-Santos F, Simunic B, Pisot R, Gaggioli A, Bailey SJ, Steinacker JM, Driss T, Hoekelmann A. Effects of COVID-19 Home Confinement on Eating Behaviour and Physical Activity: Results of the ECLB-COVID19 International Online Survey. Nutrients. 2020 May 28;12(6):1583. doi: 10.3390/nu12061583.
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Faulkner JA, Larkin LM, Claflin DR, Brooks SV. Age-related changes in the structure and function of skeletal muscles. Clin Exp Pharmacol Physiol. 2007 Nov;34(11):1091-6. doi: 10.1111/j.1440-1681.2007.04752.x.
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Wahlstrom J. Ergonomics, musculoskeletal disorders and computer work. Occup Med (Lond). 2005 May;55(3):168-76. doi: 10.1093/occmed/kqi083.
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Callaghan JP, McGill SM. Low back joint loading and kinematics during standing and unsupported sitting. Ergonomics. 2001 Feb 20;44(3):280-94. doi: 10.1080/00140130118276.
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BACKGROUND
Herzog W. Mechanisms of enhanced force production in lengthening (eccentric) muscle contractions. J Appl Physiol (1985). 2014 Jun 1;116(11):1407-17. doi: 10.1152/japplphysiol.00069.2013. Epub 2013 Feb 21.
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BACKGROUND
Rassier DE, MacIntosh BR, Herzog W. Length dependence of active force production in skeletal muscle. J Appl Physiol (1985). 1999 May;86(5):1445-57. doi: 10.1152/jappl.1999.86.5.1445.
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Flatters I, Mushtaq F, Hill LJ, Holt RJ, Wilkie RM, Mon-Williams M. The relationship between a child's postural stability and manual dexterity. Exp Brain Res. 2014 Sep;232(9):2907-17. doi: 10.1007/s00221-014-3947-4. Epub 2014 May 14.
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Aird L, Samuel D, Stokes M. Quadriceps muscle tone, elasticity and stiffness in older males: reliability and symmetry using the MyotonPRO. Arch Gerontol Geriatr. 2012 Sep-Oct;55(2):e31-9. doi: 10.1016/j.archger.2012.03.005. Epub 2012 Apr 13.
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Chuang LL, Wu CY, Lin KC. Reliability, validity, and responsiveness of myotonometric measurement of muscle tone, elasticity, and stiffness in patients with stroke. Arch Phys Med Rehabil. 2012 Mar;93(3):532-40. doi: 10.1016/j.apmr.2011.09.014. Epub 2012 Jan 4.
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Conable K, Corneal J, Hambrick T, Marquina N, Zhang J. Investigation of Methods and Styles of Manual Muscle Testing by AK Practitioners. J Chiropr Med. 2005 Winter;4(1):1-10. doi: 10.1016/S0899-3467(07)60106-2.
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Other Identifiers
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ATU-FTR-AY-01
Identifier Type: -
Identifier Source: org_study_id
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