FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3094016817> ?p ?o ?g. }

• W3094016817 abstract "Aim: The aim of this work was to investigate the cervical position sense and Electromyography (EMG) responses of cervical muscles during head reposition movements in students with and without an upper trapezius muscle trigger point.Neck pain is a common condition in the general population and individuals with neck disorders often display decreased spatial control (cervical kinaesthesia) of the head and neck compared with healthy controls Altered cervical kinaesthesia has been suggested to be due to altered proprioceptive feedback from neck muscles which is in line with findings of altered proprioceptive function and muscle activity and atrophied neck muscles in neck pain populations. Furthermore, disturbed cervical kinaesthesia may cause a sensory mismatch when combining information from cervical proprioceptive afferents with other sensory sources (e.g. visual and vestibular system), which has been suggested as the underlying reason for clinical symptoms of decreased postural control , unsteadiness and dizziness as observed in neck pain populations. Particularly, altered cervical kinaesthesia within the horizontal plane has been suggested to be related with symptoms of dizziness, impaired balance, and self-reported pain and disability in people affected by neck pain.One way of assessing cervical kinaesthesia is by testing head repositioning accuracy, either in the horizontal or vertical movement’s planes, or by using more complex movement patterns also known as a test of joint positioning error. Interestingly, although sensory input from the muscles are thought to play an important role in cervical kinaesthesia, not many studies have actually investigated this directly. While several studies have found differences in head repositioning accuracy (HRA) in clinical neck pain compared to healthy participants this only shows that neck pain is linked to altered head repositioning accuracy, but cannot tell us if muscle pain is responsible for this discrepancy between groups. In fact, only one study by Maelstrom et al. has investigated HRA after experimental neck muscle pain (injection of hypertonic saline) in healthy participants and reported this to be decreased ipsilateral to the injection. While the literature suggests that the proprioceptive input from neck muscles plays a crucial role when testing head repositioning accuracy, nobody thus far has investigated the influence of a cognitive task. This would be of great interest as, in daily life, spatial control of the head/neck is commonly performed in a context with “disturbance” from cognitive tasks (e.g. work tasks, engaging in conversation, shopping etc.), but the specific effect of such “disturbances” on clinical tests are not known.The aim of the present study was to investigate the effect of unilateral experimental neck pain, as well as the influence of a cognitive task, on HRA in healthy participants. It was hypothesised that experimental neck pain would decrease head repositioning accuracy, and that this would further deteriorate with the introduction of a cognitive task. It was expected that movements ipsilateral to the experimental pain would be most affected. Furthermore, it was hypothesised that those most accurate during the HRA test would be most impacted by pain when compared to the least accurate participants.KEY WORDS: upper trapezius muscle, trigger point, fatigue, joint position sense error.Introduction-Fatigue of the neck musculature has been shown to alter the upper limb proprioception, motor patterns, and kinematics. The objective of this work was to investigate the cervical position sense and EMG responses of cervical muscles during head reposition movements in students with and without an upper trapezius muscle trigger point.Method: The evaluations were performed with the patient seated comfortably in a chair with both feet flat on the digital balance, hips and knees flexed at 90°, buttocks positioned against the back of the chair and treated shoulder unclothed. Volunteers were asked to sit on a chair in an upright position with relaxed arms positioned at the sides of their body. The head was kept in the same position as the trunk and the vertebral column. During the test, the subjects were asked to look forward with no cervical and trunk rotation, extension or flexion. Such was the position of the subjects. Different receptors convey each somato sensory information which includes pain, temperature, and tactile sensations as well as conscious proprioception. The position sense test measures the accuracy of position replication and can be conducted actively (active position sense) or passively (passive position sense) in both open and closed kinetic chain positions. Furthermore, it had been suggested that the position sense decreased albeit the shortening muscle during the position sense measurement involved muscle fatigue. It ensures that the increase in Joint Position Sense (JPS) was really as a result of fatigue. In the absence of fatigue, there could be further improvement or no change in Joint Position Sense (JPS).Result: The results of the present study showed that the fatigue of Trigger Points (TrPs) significantly improved the Range of Motion (ROM) of the thoracolumbar spine, PPT, and Visual Analogue Scale (VAS) when compared to compression at non-trigger point.Neck muscle fatigue had different effects on neck kinematics for each group. JPSE in neck side bending repositioning was significantly greater following the upper trapezius fatiguing protocol during a frontal plane.Neck pain and myofascial trigger point alter cervical kinematics probably due to altered timing. As hypothesized, fatigue impacted cervical kinematics more in healthy participants, possibly because altered neck motor control in patients meant that this group was less able to compensate further in response to neck muscle fatigue. Significant increases in PPT were observed following fatigue applied to the pre-determined MTrP,Conclusion: In general, the results of the included studies give an equivocal answer to the question of whether the Joint Position Sense Error (JPSE) is higher in people with cervical spine lesions caused by trauma and/or non-traumatic neck complaints than in controls. The increased accuracy was most pronounced for movements directed towards the activated side. Hence, prolonged unilateral neck contraction may increase the sensitivity of cervical proprioceptors. Cervical range of motionin side bending was the only variable associated with changes in neck pain.References-1-Disease GBD, Injury I, Prevalence C. Global, regional, and national incidence, prevalence, and years lived with disability for 328 diseases and injuries for 195 countries, 1990–2016: a systematic analysis for the Global Burden of Disease Study 2016. Lancet 2017;390:1211–592- de Vries J, Ischebeck BK, Voogt LP, van der Geest JN, Janssen M, Frens MA, Kleinrensink GJ. Joint position sense error in people with neck pain: a systematic review. Man Ther 2015;20:736–443-Stanton TR, Leake HB, Chalmers KJ, Moseley GL. Evidence of impaired proprioception in chronic, idiopathic neck pain: systematic review and meta-analysis" @default.
• W3094016817 created "2020-10-29" @default.
• W3094016817 creator A5020210490 @default.
• W3094016817 creator A5025084786 @default.
• W3094016817 creator A5036775632 @default.
• W3094016817 creator A5083133374 @default.
• W3094016817 creator A5089920422 @default.
• W3094016817 date "2017-01-01" @default.
• W3094016817 modified "2023-09-26" @default.
• W3094016817 title "Neck position accuracy, kinesthesia, kinematic impairment, motor control and pain: A randomized control trial study in patients with upper trapezius muscle trigger point before and after fatigue" @default.
• W3094016817 hasPublicationYear "2017" @default.
• W3094016817 type Work @default.
• W3094016817 sameAs 3094016817 @default.
• W3094016817 citedByCount "0" @default.
• W3094016817 crossrefType "journal-article" @default.
• W3094016817 hasAuthorship W3094016817A5020210490 @default.
• W3094016817 hasAuthorship W3094016817A5025084786 @default.
• W3094016817 hasAuthorship W3094016817A5036775632 @default.
• W3094016817 hasAuthorship W3094016817A5083133374 @default.
• W3094016817 hasAuthorship W3094016817A5089920422 @default.
• W3094016817 hasConcept C103486182 @default.
• W3094016817 hasConcept C105702510 @default.
• W3094016817 hasConcept C105922876 @default.
• W3094016817 hasConcept C118552586 @default.
• W3094016817 hasConcept C121332964 @default.
• W3094016817 hasConcept C137813230 @default.
• W3094016817 hasConcept C141071460 @default.
• W3094016817 hasConcept C168563851 @default.
• W3094016817 hasConcept C171790689 @default.
• W3094016817 hasConcept C1862650 @default.
• W3094016817 hasConcept C2776116199 @default.
• W3094016817 hasConcept C2776874296 @default.
• W3094016817 hasConcept C2777515770 @default.
• W3094016817 hasConcept C2779218151 @default.
• W3094016817 hasConcept C2910045404 @default.
• W3094016817 hasConcept C39920418 @default.
• W3094016817 hasConcept C42219234 @default.
• W3094016817 hasConcept C71924100 @default.
• W3094016817 hasConcept C74650414 @default.
• W3094016817 hasConcept C99508421 @default.
• W3094016817 hasConceptScore W3094016817C103486182 @default.
• W3094016817 hasConceptScore W3094016817C105702510 @default.
• W3094016817 hasConceptScore W3094016817C105922876 @default.
• W3094016817 hasConceptScore W3094016817C118552586 @default.
• W3094016817 hasConceptScore W3094016817C121332964 @default.
• W3094016817 hasConceptScore W3094016817C137813230 @default.
• W3094016817 hasConceptScore W3094016817C141071460 @default.
• W3094016817 hasConceptScore W3094016817C168563851 @default.
• W3094016817 hasConceptScore W3094016817C171790689 @default.
• W3094016817 hasConceptScore W3094016817C1862650 @default.
• W3094016817 hasConceptScore W3094016817C2776116199 @default.
• W3094016817 hasConceptScore W3094016817C2776874296 @default.
• W3094016817 hasConceptScore W3094016817C2777515770 @default.
• W3094016817 hasConceptScore W3094016817C2779218151 @default.
• W3094016817 hasConceptScore W3094016817C2910045404 @default.
• W3094016817 hasConceptScore W3094016817C39920418 @default.
• W3094016817 hasConceptScore W3094016817C42219234 @default.
• W3094016817 hasConceptScore W3094016817C71924100 @default.
• W3094016817 hasConceptScore W3094016817C74650414 @default.
• W3094016817 hasConceptScore W3094016817C99508421 @default.
• W3094016817 hasIssue "1" @default.
• W3094016817 hasLocation W30940168171 @default.
• W3094016817 hasOpenAccess W3094016817 @default.
• W3094016817 hasPrimaryLocation W30940168171 @default.
• W3094016817 hasRelatedWork W1830823169 @default.
• W3094016817 hasRelatedWork W1974223394 @default.
• W3094016817 hasRelatedWork W1993676258 @default.
• W3094016817 hasRelatedWork W2001820846 @default.
• W3094016817 hasRelatedWork W2001823842 @default.
• W3094016817 hasRelatedWork W2003281349 @default.
• W3094016817 hasRelatedWork W2054372596 @default.
• W3094016817 hasRelatedWork W2079418812 @default.
• W3094016817 hasRelatedWork W2107345147 @default.
• W3094016817 hasRelatedWork W2109709427 @default.
• W3094016817 hasRelatedWork W2180328902 @default.
• W3094016817 hasRelatedWork W2579522300 @default.
• W3094016817 hasRelatedWork W2796353725 @default.
• W3094016817 hasRelatedWork W2800529537 @default.
• W3094016817 hasRelatedWork W2804998869 @default.
• W3094016817 hasRelatedWork W2901413086 @default.
• W3094016817 hasRelatedWork W3021392182 @default.
• W3094016817 hasRelatedWork W3037214668 @default.
• W3094016817 hasRelatedWork W3113335388 @default.
• W3094016817 hasRelatedWork W322982310 @default.
• W3094016817 hasVolume "4" @default.
• W3094016817 isParatext "false" @default.
• W3094016817 isRetracted "false" @default.
• W3094016817 magId "3094016817" @default.
• W3094016817 workType "article" @default.