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Background and Aim:Measuring the joint angles is used to assess  joint  position sense (JPS). The aim of this study was to introduce a fast, less expensive, objective and simple method of measurement.

In this study, the accuracy and reliability of a system, comprising digital photography, nonreflective markers and AutoCAD analysis (or manual analysis) were evaluated.

Material and Methods: For this purpose, the digital photos were taken from 9 angles of a standard goniometer whereas 4 square markers were been attached on its arms. The goniometer was placed at two locations on a calibration board. The angles were measured by using AutoCAD software via the markers^, corners. Furthermore, the markers were recorded at 72 angles of the knee joint positions in 24 healthy subjects.The knee angles were measured by 3 investigators and by using transparent sheets and goniometry.

Results:ICC was 1 for each location of the goniometer at each reference angle.The variability from the mean angles was approximately less than 0.2 degree. r² was 1 for each location. Intra & inter- rater reliability of the manual analysis were high.

Conclusion:It was noted that the new introduced system, was reliable and precise enough so it could be utilized to measure the joint angles, especially for evaluating the JPS.

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Background and aim: Down's syndrome is the most common chrosomal disorder in which the fine and gross motor skills due to lack of proper sensory experience are disturbed. the role of dexterity in Activity of daily living, interaction with environment and independency is quiet crucial in Down's syndrome. Therefore, the aim of this study was to investigate the effects of simultaneous application of exteroceptive and proprioceptive stimuli on the dexterity of 6-7 year old educable children with Down's syndrome.  

Materials and methods: 33 Educable children with Down's syndrome were assigned in three groups (i.e. extercoceptive, proprioceptive, simultaneous application respectively) and participated in this study. In the first group, children received only exteroceptive stimulation for 30 minutes, 3 times a week. Children in the second group received only proprioceptive stimulation in the same period. Children in the third group received both stimulations simultaneously. Dexterity was evaluated through purdue peg bourd test after 5^th, 10^th, 15^th, 20^th, 25^th, and at 30^th sessions.

Results: Dexterity changes were significantly differed in all 3 groups (p<0.05) using repeated measurement test. In order to assess the improvement process of dexterity, every group was evaluated separately with dexterity test ( purdue peg board). Third group showed significant improvement in comparison with other groups (p<0.05). There was no significant improvement in dexterity in first and second groups (p>0.05).  

Conclusion: The findings of current study suggest that simultaneous application of exteroceptive and proprioceptive senses could be used for improvement of dexterity in children with Down's syndrome and perhaps in children with motor control problems.  

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Background and aim: Proprioception is a main component of somatosensory system that plays a protective role in acute injuries through reflex muscular splinting. Proprioception reduction could be a source of deficits in reaction time, postural control and postural stability. In chronic low back pain  patients (CLBP) the proprioception is decreased and leads to dysfunction in motor control and increased the risk of injury. Evaluation the repositioning of lumbar region could be an indication to measure the lumbar proprioception . The purpose of this study was to compare the lumbar repositioning in CLBP and healthy females. 

Material and Methods: Eighteen CLBP (22.83 ± 2.93 years) and 18 healthy females (23.33 ± 2.19 years) participated in this study. Lumbar repositioning error in 30% and 60% of lumbar full flexion and neutral position with closed eye in standing was evaluated with electrogoniometer. Absolute and constant error for 3 repositioning points were obtained and analyzed.

Results: Absolute error in patients with low back pain was significantly higher than control subjects in all 3 position points (P<0.05). Constant error did not show significant difference between two groups. (P>0.05)

Conclusion: Increased in absolute error of females with CLBP in lumbar repositioning implies that some aspects of proprioception may lose in patients with CLBP.

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Background and Aim: Proprioception is one of the most precise and delicate senses of the human body. It plays an important role in coordination and postural control by protecting the body against trauma and accidents. Although many studies have assessed the effect of fatigue on proprioception in the limbs and the low back region, but a few studies have investigated its possible effect on the cervical region.

  

Material and Methods: Seventeen (8 women, 9 men) young and healthy volunteers were asked to perform the Cervicocephalic Relocation Test (CRT) to the neutral head position by relocating the head on trunk after actively rotating the head to right and left sides, in two conditions before and after muscular fatigue. Absolute, constant and variable errors were used to evaluate cervical joint repositioning accuracy.

  

Results: Fatigue had no effect on cervical joint position sense, Furthermore no considerable difference was seen between male and female subjects (p>0.05).

  

Conclusion: The results suggest that following isometric fatigue of upper trapezuis muscles, no change is produced in the repositioning accuracy of both sexes. Furthermore, sex had no effect on cervical joint proprioception.

  

Key Words: Cervical joint position sense, Fatigue, Proprioception, Cervicocephalic Relocation Test (CRT).

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Background and Aim: Proprioception is a type of feedback from limbs to CNS which defines a sensory tools to contribute position sense and movement sense.

Precise and controlled movements are important sections of sports and activity daily living which needs to accurate information of proprioception.

High concentration of proprioceptors are reported in cervical spine, sacroiliac and ankle joint. The purpose of this study was to compare repositioning error of cervical spine on high level badminton and basketball players and healthy subjects.

  

Materials and Methods: Twenty female basketball players (23.40 years old), 20 female badminton players (24.81years old) and 20 healthy female (24,95years old) subjects were recruited to participate in this study. Cervical total range of motion (ROM) and repositioning error in target angle (30% of full ROM in each movement) of flexion, extension, right and left lateral flexion and rotation were measured by CROM apparatus.

Results : Our results indicate that two groups of athletes has significant differences with non-athletic subjects in flexion, extension, left lateral flexion and ro tation and there were significant differences in right lateral flexion and right rotation between badminton players and non-athletic subjects (P<0.005).

  

Conclusion : Cervical proprioception may improve with specific sport movements. Basketball and badminton are non-contact sports that needs to eye and hand coordination, as our results showed that the cervical repositioning error was decreased in athletics related to non-athletic subjects, the mentioned sports may improve proprioception.

 

Key Words: Proprioception, Cervical, Repositioning error, Basketball, Badminton

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Background and Aim: Proprioception is a component of somatosensory system. One of the most important somatosensory receptors is muscle spindles. Neck area with high density of muscle spindle, plays a significant role in providing this sense. With repeated contact sports, with high trauma on head and neck region, it is likely that proprioception will be impaired. The present study was conducted to compare proprioception between wrestlers, taekwondo players and non-athlete subjects to determine the effect of trauma on proprioception of craniocervical region.

 

Material and Methods: This study was a case-control study of 75 male with the age range of 18-30 years (Including: 25 professional wrestlers, 25 professional taekwondo players and 25 non-athlete subjects). Participants were selected through simple non-probability sampling. To assess proprioception of craniocervical region, angular repositioning of two positions (neutral and 50% of range of motion) was evaluated by using the cervical range of motion device (CROM device). The statistical method which used in this study was one way ANOVA.

 

Results: Accuracy of target repositioning (50% of range of motion) of extension, right and left rotation were significantly different between three groups (p<0.05). Returning to neutral position from mentioned movement was associated with a significant error (p<0.05).

 

Conclusion: It is assumed that proprioception of craniocervical region has been affected by trauma in wrestlers and taekwondo players, so that the accuracy of head repositioning for both neutral and target positions were reduced in wrestlers. However, taekwondo players had more errors in repositioning of target angle.

 

Keywords: Proprioception, Repositioning error, Craniocervical, Wrestlers, Taekwondo players