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Effects of training on sand surface on biomechanics of individuals during translational motions: a systematic review with meta-analysis
Amir Fatollahi, Amirali Jafarnezhadgero, Hamidreza Maghami,
Volume 22, Issue 27 (8-2024)
Abstract
Biomechanics is the knowledge that shows what forces enter the motion system of the human body and how it causes human movement. Therefore, the aim of this Meta-Analysis study was to review the studies conducted in the field of the effects of training on sand surface on biomechanics and physical fitness factors of human body during translational motions. The current study was a library and systematic review, the search for articles in Persian and Latin was from the beginning of the year 2000 to the end of 2023, which was done in the specialized databases of PubMed, WOS, Scopus, ISC and Google Scholar search engine. 568 related articles were selected based on inclusion and exclusion criteria. Standardized mean differences (SMDs) were calculated using random-effects models. The findings of eight articles indicated the improvement of mucle activity during training on sand. Examining the findings of one article indicated positive effects of kinematic variabls during training on sand. A number of two articles also reported that the reduction of the ground reaction forces and impact shock. In addition, five articles reported the improvement of sports performance in athletes, the increase of physical fitness factors. In general, training on sand surface can have significant positive effects on people's daily and sport life. Further study is warranted.

 
The Role Of Sensory Manipulation In Postural Control Responses: A Developmental Study
Saeed Arsham,
Volume 22, Issue 27 (8-2024)
Abstract
This study aimed to determine the underlying mechanisms of age-related differences in postural control of 7-18 years old girls by determining the differences between different age groups and adults in their sensory preferences for compensatory responses. 118 non-athlete girls aged 7 to 18 were selected by available sampling and divided into four age groups: 7-9 (n=31), 10-12 (n=32), 13-15 (n=28), and 16-18 (n=27). A reference group of adults (n=28, Mean= 27.9 years) was examined for comparison. Sensory organization test (SOT) with computerized dynamic posturography was used to manipulate sensory inputs. One-way analysis of variance and Tukey post hoc test showed a significant difference between all age groups in 6 test conditions (P<0.05). The use of somatosensory and vestibular sensory inputs to maintain balance was almost the same in different age groups, but significant differences were observed in the use of visual inputs. From the age of 13, the postural control performance of girls becomes similar to that of adults, which can be due to the delayed development of the visual system. In general, it seems that for perfect postural control, first the somatosensory sensory system and then the vestibular and visual systems mature.
 

Introducing And Designing A Home Fitness Machine Without Weights With Digital Adjustment
Mohammadreza Rahimi, Neda Boroushak,
Volume 22, Issue 28 (12-2024)
Abstract
This study focuses on the design, construction, and validation of a digital-adjustable, weight-free home fitness device for muscle training. The research adopted a mixed-methods approach, providing a comprehensive evaluation of the device's performance. Initially, existing equipment and resistance training methods were analyzed, gathering essential information for the preliminary design. Three-dimensional models and prototypes were developed using software such as Rhino Cross 6 and AutoCAD 2018. For validation, the device’s resistance was tested with a digital dynamometer in eight different settings, yielding a high validity with a correlation coefficient of 0.9. The reliability of the device was also assessed across three exercises (seated leg extension, seated chest press, and seated biceps curl) with 10 kg weights, repeated five times, resulting in a reliability coefficient of 0.8. These results indicate the device's high accuracy and consistent resistance. With precise digital adjustments and the capability for varied strength exercises, this device enables users to conduct effective, high-quality workouts at home, contributing to muscle strengthening and improved fitness.

The Effect Of Virtual Education Conditions On Musculoskeletal Status And Physical Activity Of Students During The Corona Pandemic
Mohamadjavad Razi, Hasan Modares, Zahra Shakeri Hosinabad,
Volume 23, Issue 29 (7-2025)
Abstract
Introduction and Objective: The COVID-19 pandemic and virtual learning may adversely affect students' musculoskeletal health and physical activity levels. This study aimed to investigate the impact of online education and prolonged sitting on musculoskeletal disorders (MSDs) and physical activity among university students.
Methods: In this descriptive study, 440 male and female students from Farhangian University, Yazd Branch, were selected as the sample. Standard Nordic Musculoskeletal Questionnaire (NMQ) and Beck Physical Activity Questionnaire were used for data collection. Data were analyzed using McNemar, Mann-Whitney U, and Spearman’s correlation tests at a significance level of 0.05.
Results: The prevalence of MSDs during the pandemic showed a significant increase compared to the pre-pandemic period (p<0.05). A significant correlation was observed between reduced physical activity and increased MSDs (p<0.05). Students who did not follow proper sitting postures had significant disorders in the neck (p<0.0001), shoulder (p=0.006), wrist (p=0.002), lower back (p=0.001), hip (p=0.01), and knee (p=0.001).
Conclusion: The findings suggest that quarantine conditions and virtual learning may exacerbate musculoskeletal problems and sedentary behavior among students. Promoting ergonomic practices and physical activity during pandemics is crucial.

Comparing The Selected Kinematic Variables Of The Four Common Methods Of Performing The Judan Mai-Mawashi-Geri Technique By Elite Male Karatekas
Salar Hariri, Heydar Sadeghi, Amir Ghiamirad, Saeed Nikookheslat,
Volume 23, Issue 29 (7-2025)
Abstract
Background and Objective: Since identifying the best way of performing the Judan Mai-Mawashi-Geri technique is one of the concerns of coaches and karatekas, the aim of this study was to compare the selected kinematic variables of four methods of implementing the Judan Mai-Mawashi-Geri technique by elite male karatekas.
Methodology: Eighteen elite male kumite practitioners voluntarily and purposefully participated in this study. Nine markers were attached to the anatomical points of the hitting foot and the four methods of implementing the Judan Mai-Mawashi-Geri technique were filmed by three Hero3 cameras at an imaging speed of 240 Hz. Using SkillSpector software (version: 1.3.2), the resultant of the peak velocity of the lower limb joints, total distance, total velocity, and total acceleration was directly obtained. The one-way analysis of variance and the Bonferroni post-hoc test (p≤0.05) were used with SPSS software (version: 22) for statistical analysis due to the normality of data distribution.
 Results: The results showed a significant difference in the four methods of performing the Judan Mai-Mawashi-Geri technique in the peak velocity of the pelvic, knee, and ankle joints as well as total distance, total velocity, and total acceleration.
Conclusion: According to the results، the first method of execution، which starts in the first phase with 90 degree hip flexion (knee lift)، due to high speed and the possibility of scoring in the shortest appropriate time interval، against other tactics, Due to the closure of the opponent's attack route، Dai and Deashi can be recommended as a more efficient technique to the Athlete of the Kumite.

 
A Comparison Of Forces Excreted On The Foot While Running On The Ground And Artificial Turf In People With Pronated And Supinated Feet
Amirali Jafarnezhadgero, Arezoo Madahi, Milad Piran Hamlabadi,
Volume 23, Issue 29 (7-2025)
Abstract
Background and Aims: The surface quality and type are an important factor that may influence the risk of sustaining injuries during running. The aim of the present study was to compare forces excreted on the foot while running on the ground and artificial turf in people with pronated and supinated feet.
Materials and Methods: The statistical population of the present study consisted of healthy men with pronated and supinated feet in Ardabil province. A statistical sample of 30 people aged 20-25 years was selected by available sampling and participated in the present study. Statistical samples were divided into three groups. There were 10 patients in the pronated foot group, 10 people in the supinated foot group and the third group of 10 people as the control group. The navicular drop test was used to measure foot type. A Bertec force plate was used to record ground reaction forces while running on ground and artificial turf at constant speed (about 3.2 m/s). The ground reaction forces in the vertical (Fz), anterior-posterior (Fy) and medio-lateral (Fx) directions were recorded during running.
Results: The results revealed greater medio-lateral ground reaction force at the heel contact in males with pronated feet while running on the ground than that artificial grass. In addition, the time to reach the peak of the vertical component at heel contact during running on grass was greater compared to the ground.
Conclusion: The results showed that the use of artificial turf can improve the risk factors for injury in people with pronated and supinated feet.

 
Reliability Study Of Various Single Leg Landing Tasks To Evaluate Knee Joint Biomechanics (Systematic Review Study)
Hamidreza Zanguie, Mohammad Yousefi, Abbas Farjadpezeshk, Khorshid Bijari,
Volume 23, Issue 29 (7-2025)
Abstract
Aim: Most studies have compared the single-leg landing task in terms of biomechanical characteristics, especially kinematics and kinetics of movement planes, and concluded that reliability for knee valgus angles and hip adduction is moderate to excellent. However, no studies have been conducted on the reliability of different types of single-leg landing. Therefore, the purpose of this study is to review studies investigated the reliability of single-leg landing types to evaluate the biomechanics of the knee joint.
Methods: The relevant articles from valid databases with the keywords Single Leg Landing, Landing, Kinematic, Biomechanics, Return to Sport, Performance Test, Functional Test, Hop Test, Kinetic thematic search methods from 1995 to 2023 were examined.
Result: A total of 1022 articles were identified then duplicate studies were eliminated in the next stage, the titles and abstracts of the studies were reviewed and 439 studies were excluded due to inconsistency with the research question. Finally, only 9 articles that met the inclusion criteria were examined.
Conclusion:  This study showed that different single-leg landing tasks for kinematic variables, including internal rotation, adduction, hip flexion, knee extension, knee valgus, trunk lateral flexion, and pelvic tilt have good reliability.

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