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The goal of this observational study is to evaluate the relationship between sagittal plane isokinetic trunk strength and dynamic postural stability in elite wrestlers compared to healthy sedentary volunteers (males, aged 18-30).
The main questions it aims to answer are:
Is there a significant correlation between maximal concentric isokinetic trunk torque/power values and dynamic postural stability variables in elite wrestlers? How do the agonist/antagonist (flexion/extension) ratios and core strength profiles of elite wrestlers differ from those of a sedentary control group.
Comparison Group: Researchers will compare elite wrestlers (with at least 5 years of professional experience) to a healthy sedentary control group to see if professional wrestling training leads to superior trunk muscle integration and enhanced dynamic balance control.Participants will:Complete a demographic data form and a health screening to ensure they meet the inclusion/exclusion criteria (e.g., no history of spinal surgery or acute back pain).Perform a standardized warm-up session on a cycle ergometer at 55-60 rpm.Undergo dynamic postural stability testing to measure balance control and center of gravity displacement.Perform isokinetic trunk strength testing (flexion and extension) to measure peak torque, total work, and power values relative to body weight (PT/BW).
Sport is defined as an activity that involves the performance of high-level physical activities while simultaneously maintaining static and dynamic balance. For athletes to perform sport-specific movements effectively, they must possess a high level of physical fitness and develop various factors that determine performance. Balance is defined as the ability to maintain the body's center of gravity within the limits of support, while static balance is expressed as the ability to sustain the base of support with minimum movement. Maintaining postural balance is considered a fundamental requirement for the effective and efficient execution of many sporting activities.
The core muscles consist of 29 pairs of muscle groups that support the lumbo-pelvic-hip complex, contributing to the stabilization of the pelvis, vertebrae, and the kinetic chain. Defined as the center of the functional kinetic chain, the core region resembles a cylindrical structure formed by the paravertebral and gluteal muscles posteriorly, abdominal muscles anteriorly, the diaphragm superiorly, and the pelvic floor and hip girdle muscles inferiorly. The coordinated contraction of these muscles provides maximum stability in the proximal region, enabling optimal controlled and effective movement in the distal region. In this context, isokinetic testing of trunk flexor and extensor muscle strength is used as one of the standard measurement methods for evaluating core stability in clinical sports medicine and allows for the objective assessment of athletes' muscle strength capacity. Isokinetic measurement possesses high reliability and sensitivity and is frequently preferred in dynamic force analyses to determine the mechanical profile of trunk muscles.
Core stability is the capacity of the lumbo-pelvic-hip complex to prevent instability in the spine and return to a state of equilibrium following a perturbation. According to the results of previous research and review studies, core strength, core endurance, and the lumbo-pelvic muscle control structure together constitute core stabilization. Some studies have shown that decreased strength in the core muscles increases body sway and may impair body balance, and that balance ability is associated with active arm swing, core stabilization, and trunk muscle endurance. Wrestlers require highly developed abdominal and spinal muscle strength capacities to compensate for sport-specific loads. Although it is known that wrestlers possess high absolute trunk extensor strength, the sudden explosive attacks and high balance requirements during a match make not only the strength of the trunk muscles but also the integration of this strength with postural stability critical. One study reported that extensor muscle strength for weightlifters and wrestlers was higher compared to the sedentary population, yet similar values were found between groups regarding flexor muscle strength. Despite this, there remains a significant gap in the literature regarding the interpretation of spinal isokinetic variables in relation to performance and postural stability.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Wrestlers | The wrestlers who participated in the study had a minimum of five years of professional experience and were screened for any pre-existing musculoskeletal conditions |
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| Control group | Sedantary healthy people |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| ısokinetic trunk muscle strength | Other | runk flexion and extension muscle strength measurements will be performed using the Cybex NORM computerized isokinetic dynamometer which is considered the gold standard for muscle strength assessment. During the measurement, participants will be positioned standing on the device; support pads will be used to stabilize the lower extremities, and stabilization belts will be fastened to fix the pelvis and minimize the involvement of the hip flexors. Strength assessment will consist of trunk flexion-extension movements involving 5 repetitions at an angular velocity of 60°/s, while the endurance test will be conducted with 15 repetitions at 90°/s. This protocol was selected based on previous studies in the literature. A 20-second rest interval will be provided between repetitions. The following parameters obtained under isokinetic conditions will be analyzed: peak torque, peak torque normalized to body weight, total work, and total work normalized to body weight. |
| Measure | Description | Time Frame |
|---|---|---|
| Isokinetic muscle strength | Enrollment | |
| Postural Stability | Enrollment |
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Inclusion Criteria:
Wrestler:
Control Group:
Exclusion Criteria:
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The study involves a convenience sample of elite male wrestlers and age-matched healthy sedentary controls. All participants are recruited from local wrestling clubs and the university community. The target population consists of individuals aged 18-30 who meet specific physical and professional athletic criteria, ensuring a comparison between high-level functional core strength and a standard sedentary baseline
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| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Biruni University | Istanbul | Istanbul | 34103 | Turkey (Türkiye) |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 10190767 | Result | Hugel F, Cadopi M, Kohler F, Perrin P. Postural control of ballet dancers: a specific use of visual input for artistic purposes. Int J Sports Med. 1999 Feb;20(2):86-92. doi: 10.1055/s-2007-971098. | |
| 3377664 | Result | Shumway-Cook A, Anson D, Haller S. Postural sway biofeedback: its effect on reestablishing stance stability in hemiplegic patients. Arch Phys Med Rehabil. 1988 Jun;69(6):395-400. |
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| Postural Stability | Other | Postural stability measurements will be performed using the Biodex Balance System SD (Biodex Medical Systems, Inc., Shirley, NY, USA), which is a computer-assisted balance assessment system with a multi-axial moving platform. The device objectively evaluates both static and dynamic postural stability. The postural stability assessment will involve both double-leg and single-leg measurements. During the test, all participants will be required to stand barefoot with their arms parallel to their bodies and eyes open, first on a single leg and then on both legs. At the beginning of the trial, participants will be instructed to maintain their balance throughout the test duration. The same procedure will consist of three 20-second repetitions for each extremity, with 10-second rest intervals between repetitions. The balance system will evaluate and record the Overall Stability Index (OSI), Anterior-Posterior Stability Index (APSI), and Medial-Lateral Stability Index (MLSI) for each part |
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| 23915613 | Result | Crisco JJ, Panjabi MM, Yamamoto I, Oxland TR. Euler stability of the human ligamentous lumbar spine. Part II: Experiment. Clin Biomech (Bristol). 1992 Feb;7(1):27-32. doi: 10.1016/0268-0033(92)90004-N. |
| 16526831 | Result | Kibler WB, Press J, Sciascia A. The role of core stability in athletic function. Sports Med. 2006;36(3):189-98. doi: 10.2165/00007256-200636030-00001. |
| 27707741 | Result | Aasa U, Svartholm I, Andersson F, Berglund L. Injuries among weightlifters and powerlifters: a systematic review. Br J Sports Med. 2017 Feb;51(4):211-219. doi: 10.1136/bjsports-2016-096037. Epub 2016 Oct 4. |
| 15273195 | Result | Orchard JW, Farhart P, Leopold C. Lumbar spine region pathology and hamstring and calf injuries in athletes: is there a connection? Br J Sports Med. 2004 Aug;38(4):502-4; discussion 502-4. doi: 10.1136/bjsm.2003.011346. |
| 20971670 | Result | Yahia A, Jribi S, Ghroubi S, Elleuch M, Baklouti S, Habib Elleuch M. Evaluation of the posture and muscular strength of the trunk and inferior members of patients with chronic lumbar pain. Joint Bone Spine. 2011 May;78(3):291-7. doi: 10.1016/j.jbspin.2010.09.008. Epub 2010 Oct 23. |
| 23219215 | Result | Van Damme BB, Stevens VK, Van Tiggelen DE, Duvigneaud NN, Neyens E, Danneels LA. Velocity of isokinetic trunk exercises influences back muscle recruitment patterns in healthy subjects. J Electromyogr Kinesiol. 2013 Apr;23(2):378-86. doi: 10.1016/j.jelekin.2012.10.015. Epub 2012 Dec 6. |
| 16148357 | Result | Willson JD, Dougherty CP, Ireland ML, Davis IM. Core stability and its relationship to lower extremity function and injury. J Am Acad Orthop Surg. 2005 Sep;13(5):316-25. doi: 10.5435/00124635-200509000-00005. |
| 18296944 | Result | Akuthota V, Ferreiro A, Moore T, Fredericson M. Core stability exercise principles. Curr Sports Med Rep. 2008 Feb;7(1):39-44. doi: 10.1097/01.CSMR.0000308663.13278.69. |
| 23367009 | Result | Hu F, Gu DY, Chen JL, Wu Y, An BC, Dai KR. Contribution of arm swing to dynamic stability based on the nonlinear time series analysis method. Annu Int Conf IEEE Eng Med Biol Soc. 2012;2012:4831-4. doi: 10.1109/EMBC.2012.6347075. |
| 20694935 | Result | Baur H, Muller S, Pilz F, Mayer P, Mayer F. Trunk extensor and flexor strength of long-distance race car drivers and physically active controls. J Sports Sci. 2010 Sep;28(11):1183-7. doi: 10.1080/02640414.2010.484066. |
| 31523302 | Result | Zouita ABM, Zouita S, Dziri C, Brughelli M, Behm DG, Chaouachi A. Differences in Trunk Strength Between Weightlifters and Wrestlers. J Hum Kinet. 2019 Jul 5;67:5-15. doi: 10.2478/hukin-2019-0007. eCollection 2019 Jun. |