Migraine and balance impairment: Influence of subdiagnosis, otoneurological function, falls, and psychosocial factors.

OBJECTIVE: To assess the balance sensory organization among patients with migraine, considering the influence of migraine subdiagnosis, otoneurological function, falls, and psychosocial factors. BACKGROUND: Migraine has been associated with vestibular symptoms and balance dysfunction; however, neither comprehensive balance assessment nor associated factors for greater impairment have been addressed thus far. METHODS: Patients from a tertiary headache clinic with a diagnosis of episodic migraine with aura (MWA), without aura (MWoA), and chronic migraine (CM) were included for this cross-sectional study (30 patients per group). Thirty headache-free controls (CG) were recruited. Participants underwent a comprehensive evaluation protocol, including the Sensory Organization Test (SOT) and otoneurological examination. Questionnaires about fear of falls, dizziness disability, and kinesiophobia were administered. RESULTS: All migraine groups presented lower composite SOT scores than controls (CG: 82.4 [95% confidence interval (CI): 79.5-85.3], MWoA: 76.5 [95% CI: 73.6-79.3], MWA: 66.5 [95% CI: 63.6-69.3], CM: 69.1 [95% CI: 66.3-72.0]; p < 0.0001). Compared to controls and to MWoA, MWA and CM groups exhibited greater vestibular (CG: 75.9 [95% CI: 71.3-80.4], MWoA: 67.3 [95% CI: 62.7-71.8], MWA: 55.7 [95% CI: 51.2-60.3], CM: 58.4 [95% CI: 53.8-63.0]; p < 0.0001) and visual functional impairment (CG: 89.6 [95% CI: 84.2-94.9], MWoA: 83.2 [95% CI: 77.9-88.6], MWA: 68.6 [95% CI: 63.3-74.0], CM: 71.9 [95% CI: 66.5-77.2], p < 0.0001). Fall events during the assessment were documented more often among patients with migraine (CG: 0.0, interquartile range [IQR], 0.0, 0.0); MWoA: 1.0 [IQR: 1.0, 1.0], MWA: 2.0 [IQR: 1.8, 4.3], CM: 1.0 [IQR: 1.0, 2.0]; p = 0.001). The SOT scores correlated with fear of falls (r = -0.44), dizziness disability (r = -0.37), kinesiophobia (r = -0.38), and migraine frequency (r = -0.38). There was no significant influence of the vestibular migraine diagnosis in the study outcomes when used as a covariate in the analysis (composite score [F = 3.33, p = 0.070], visual score [F = 2.11, p = 0.149], vestibular score [F = 1.88, p = 0.172], somatosensory score [F = 0.00, p = 0.993]). CONCLUSIONS: Aura and greater migraine frequency were related to falls and balance impairment with sensory input manipulation, although no otoneurological alterations were detected. The diagnosis of vestibular migraine does not influence the balance performance. The vestibular/visual systems should be considered in the clinical examination and treatment of patients with migraine.

Is kinesiophobia related to fear of falling, dizziness disability, and migraine disability in patients with migraine?

INTRODUCTION: Kinesiophobia is a common symptom associated with high disability, and has been observed in patients with migraine. However, the association between kinesiophobia and clinical factors in this population is unknown. OBJECTIVE: To assess the fear of falling, dizziness disability, and migraine disability in patients with migraine, considering the presence of kinesiophobia. METHODS: Eighty patients with migraine completed the Tampa Scale for Kinesiophobia and were divided into two groups according to the questionnaire cutoff point: migraine without kinesiophobia (MoK, n = 39) and migraine with kinesiophobia (MK, n = 41). Fear of falling, dizziness disability, and migraine disability were assessed in both groups using validated questionnaires. RESULTS: The MK group presented higher scores on dizziness disability, fear of falling, and migraine disability compared to the MoK (p < .05). Kinesiophobia can explain 29% of the variance in dizziness disability and 18% of migraine disability. Both kinesiophobia and the presence of dizziness can explain 14% of fear of falling variability. Also, kinesiophobia is associated with the risk of presenting fear of falling (Prevalence Ratio = 2.4, p = .012), and migraine disability (Prevalence Ratio = 2.6, p = .01). CONCLUSION: The presence of kinesiophobia should be considered in clinical practice when evaluating migraine, as it is associated with increased levels of fear of falling, dizziness disability, and migraine disability.

Migraine With Aura Is Related to Delayed Motor Control Reaction and Imbalance Following External Perturbations.

Background: It is evidenced that migraineurs present balance deficits. However, the balance recovery following unexpected ground perturbations, which reflect conditions of everyday activities, has not been investigated in this population. Aim: We aimed to assess the reactive postural responses among patients with migraine with and without aura, chronic migraine, and controls. We further aimed to assess the factors associated with greater self-report of falls. Methods: Ninety patients diagnosed by headache specialists were equally classified into three migraine subgroups according to the presence of aura and chronic migraine. Thirty controls were also recruited. All participants underwent the motor control test (MCT) and adaptation test (ADT) protocols of dynamic posturography tests (EquiTest®, NeuroCom, USA). Clinical and headache features and information on falls in the previous year, fear of falling, and vestibular symptoms were also assessed. Results: Patients with aura presented a greater sway area in most of the MCT conditions than the other three groups (p = 0.001). The aura group also presented delayed latency responses after perturbations compared with controls and patients without aura (p < 0.03). In the ADT, a greater sway area was observed in patients with aura than in groups without aura, chronic migraine, and controls (p < 0.0001). The MCT and ADT sway area, the frequency of aura, and the fear of falling explained 46% of the falls in the previous 12 months. Conclusion: Patients with aura exhibited greater delay and sway area after unexpected ground perturbations than controls and other migraine subgroups, which are related to the reported number of falls.

Neck Active Movements Assessment in Women with Episodic and Chronic Migraine.

We aimed to compare movement parameters and muscle activity during active cervical spine movements between women with episodic or chronic migraine and asymptomatic control. We also assessed the correlations between cervical movement measures with neck-related disability and kinesiophobia. Women with episodic (n = 27; EM) or chronic (n = 27; CM) migraine and headache-free controls (n = 27; CG) performed active cervical movements. Cervical range of motion, angular velocity, and percentage of muscular activation were calculated in a blinded fashion. Compared to CG, the EM and CM groups presented a reduced total range of motion (p < 0.05). Reduced mean angular velocity of cervical movement was also observed in both EM and CM compared to CG (p < 0.05). Total cervical range of motion and mean angular velocity showed weak correlations with disability (r = -0.25 and -0.30, respectively; p < 0.05) and weak-to-moderate correlations with kinesiophobia (r = -0.30 and -0.40, respectively; p < 0.05). No significant correlation was observed between headache features and total cervical range of motion or mean angular velocity (p > 0.05). No differences in the percentage of activation of both flexors and extensors cervical muscles during active neck movements were seen (p > 0.05). In conclusion, episodic and chronic migraines were associated with less mobility and less velocity of neck movements, without differences within muscle activity. Neck disability and kinesiophobia are negative and weakly associated with cervical movement.

The presence of aura is not related to changes in the cervical performance and mobility of patients with migraine.

BACKGROUND: Migraine may be associated with neck impairment and migraine chronicity is related to greater disability. However, whether other subclassifications of migraine, such as migraine with aura, are related to neck impairment is currently unknown. The aim of this study was to assess the musculoskeletal aspects of the neck in patients with migraine with and without aura. METHODS: Consecutive patients diagnosed with migraine were recruited from a tertiary headache clinic. The patients were divided into two groups according to the presence (MA, n = 37) and absence of aura (MoA, n = 88). The self-report of neck pain and neck disability was assessed using the Neck Disability Index (NDI). The patients underwent the flexion rotation test (FRT) and craniocervical flexion test (CCFT). RESULTS: There was no association between the presence of aura and neck pain (χ2: 1.32, p = 0.25). No differences in the extent of neck disability (MA: 10.73, SD: 6.22; MoA: 9.63, SD:8.13, p = 0.25) or disability severity (χ2 = 6.17, p = 0.10) were found between groups. The FRT did not differ between the groups (MA: 35.07°, SD: 7.90 and MoA: 34.60°, SD: 8.70, t = -0.22, p = 0.83) and there was no association between positive FRT and aura (χ2 = 0.004, p = 0.56). The absence of difference between groups was also verified in the CCFT test (U = 1648.0, p = 0.89). CONCLUSION: There was no association between aura and neck pain disability, reduced upper cervical spine mobility or reduced neck muscle performance. No differences in the neck impairment level between patients with and without aura during the clinical assessment of the cervical spine are expected.

The Influence of Photophobia on Postural Control in Patients With Migraine.

BACKGROUND: People with migraine exhibit postural control impairments. These patients also have an increased light sensitivity due to the disease, and it remains during the headache-free period. It is currently unknown if increased lighting levels can alter the balance control, especially in individuals with visual hypersensitivity, such as migraineurs. This study aimed to assess the balance and photophobia of women with migraine and non-headache controls under different light conditions. METHODS: This cross-sectional study consisted of 14 women with migraine (mean ± SD 30.6 ± 8.1 years old) and 14 women without any kind of headache (mean ± SD 27.2 ± 2.8 years old) screened from a tertiary headache clinical hospital and the local community. Quiet standing balance was evaluated during bipodal and unipodal support, under 3 light conditions: ambient (AMB) - 270 lx, visual discomfort threshold (VDT) - 400 lx, and intense visual discomfort (IVD) - 2000 lx. Sway area of the center of pressure was processed and compared between groups. The association of migraine with the risk of presenting a greater imbalance in the discomfort lighting conditions was verified. RESULTS: Compared to the non-headache controls, the migraine group presented greater sway area in bipodal stance under the 3 light conditions (mean difference (95% CI)): AMB 0.81 cm2 (0.19 to 1.43), P = .011; VDT 3.17 cm2 (0.74 to 5.60), P = .001; IVD 5.56 cm2 (2.75 to 8.37), P < .0001. Within-subject analysis showed increased sway area in bipodal stance among all lighting conditions for the migraine group only (mean difference (95% CI)): VDT-AMB 2.20 cm2 (0.23 to 4.18), P = .024; IVD-AMB 4.50 cm2 (2.38 to 6.62), P < .0001, IVD-VDT 2.29 cm2 (0.57 to 4.01), P = .005. The Prevalence Ratio (PR) analysis showed that migraine was associated with the risk of presenting greater imbalance in both bipodal and unipodal standing conditions for both VDT (PR value (95% CI) - bipodal: PR = 4.00 (1.02 to 15.59), P = .045; unipodal: PR = 4.00 (1.43 to 11.15), P = .008), and the IVD (bipodal: PR = 3.33 (1.13 to 9.58), P = .025; unipodal: PR = 5.50 (1.48 to 20.42), P = .010) lighting conditions. CONCLUSION: Photophobia might be a disturbing factor that worsens the balance of patients with migraine during the quiet standing posture.

Subdiagnosis, but not presence of vestibular symptoms, predicts balance impairment in migraine patients - a cross sectional study.

BACKGROUND: Vestibular symptoms and balance changes are common in patients with migraine, especially in the ones with aura and chronic migraine. However, it is not known if the balance changes are determined by the presence of vestibular symptoms or migraine subdiagnosis. Therefore, the aim of this study was to verify if the migraine subdiagnosis and/or the presence of vestibular symptoms can predict balance dysfunction in migraineurs. METHODS: The study included 49 women diagnosed with migraine with aura, 53 without aura, 51 with chronic migraine, and 54 headache-free women. All participants answered a structured questionnaire regarding migraine features and presence of vestibular symptoms, such as dizziness/vertigo. The participants performed the Modified Sensory Organization Test on an AMTI© force plate. The data were analysed using a linear mixed-effect regression model. RESULTS: The presence of vestibular symptoms did not predict postural sway, but the subdiagnosis was a significant predictor of postural sway. Migraine with aura patients exhibited more sway than migraine patients without aura when the surface was unstable. Additionally, we found high effect sizes (ES > 0.79) for postural sway differences between patients with chronic migraine or with aura compared to controls or migraine without aura, suggesting that these results are clinically relevant. CONCLUSIONS: The subdiagnosis of migraine, instead of the presence of vestibular symptoms, can predict postural control impairments observed in migraineurs. This lends support to the notion that balance instability is related to the presence of aura and migraine chronicity, and that it should be considered even in patients without vestibular symptoms.

Postural Control Complexity and Fatigue in Minimally Affected Individuals with Multiple Sclerosis.

This study investigated changes in postural control complexity in people with multiple sclerosis (PwMS) before and after a fatigue protocol. Thirteen minimally affected PwMS (1.53 ± 1.03- Expanded Disability Status Scale) and 12 non-MS controls. Postural test included quiet stance on a force platform under two visual conditions (saccades and fixation) before and after a fatigue protocol. Postural complexity was assessed through the multiscale entropy. A three-way ANOVA showed a main effect of fatigue in the medial-lateral direction (p <0.007), with fatigue protocol reducing postural complexity in both groups. No differences were found between groups or visual conditions. Minimally affected PwMS demonstrated similar postural complexity compared with non-MS controls under both visual tasks and showed similar decrements in postural complexity as a result of fatigue.

Presence of vestibular symptoms and related disability in migraine with and without aura and chronic migraine.

OBJECTIVE: To assess the presence and handicap due to vestibular symptoms in three subgroups of patients with migraine and controls. METHODS: Women between 18-55 years old were diagnosed by headache specialists and stratified as migraine with aura (n = 60), migraine without aura (n = 60), chronic migraine (n = 60) and controls (n = 60). Information regarding demographics, headache and vestibular symptoms were collected in this cross-sectional study. The self-perceived handicap related to vestibular symptoms was assessed through the Dizziness Handicap Inventory questionnaire. RESULTS: A total of 85% of women with migraine with aura and chronic migraine had vestibular symptoms contrasted to 70% of the migraine without aura group ( p < 0.05), and 12% of the control group reported symptoms ( p < 0.0001). Patients with migraine exhibited greater Dizziness Handicap Inventory scores than controls ( p < 0.001); and migraine with aura and chronic migraine groups reached greater scores than migraine without aura ( p < 0.01). Presence of migraine is associated with a greater risk of vestibular symptoms (migraine without aura: 5.20, migraine with aura: 6.60, chronic migraine:6.20, p < 0.0003) and with a greater risk of moderate-to-severe handicap (migraine without aura: 20.0, migraine with aura: 40.0, chronic migraine: 40.0, p < 0.0003). The presence of aura and greater migraine frequency adds to the risk of any handicap (migraine with aura: 1.9, chronic migraine: 1.7, p < 0.04) and to the risk of moderate-to-severe handicap (migraine with aura: 2.0, chronic migraine: 2.0, p < 0.0003). Migraine aura, intensity and frequency predict 36% of the dizziness handicap. CONCLUSION: The prevalence of vestibular symptoms is increased in migraine during and between headache attacks, particularly in migraine with aura and chronic migraine along with an increased handicap due to those symptoms. Vestibular symptoms among subgroups of migraine should be considered when evaluating the functional impact of migraine.

Functional Balance Deterioration on Daily Activities in Patients With Migraine: A Controlled Study.

OBJECTIVE: This study aimed to assess functional activities in different subgroups of patients with migraine. DESIGN: One-hundred forty subjects were uniformly divided into the following four groups: headache-free controls, migraine with aura, without aura, and chronic migraine. Subjects performed the tests walk across, tandem walk, sit to stand, and step up and over at the Balance Master system (Neurocom). RESULTS: All migraine groups had slower velocity and shorter step length at the walk across test (P < 0.0009). The step width was wider in migraine with aura and chronic migraine groups (P < 0.03). At the tandem walk test, patients with migraine exhibited slower velocity and wider step width (P < 0.03). All migraine groups were different than controls at weight transfer and rising index of the sit-to-stand test (P < 0.002). At the step-up-and-over test, there were differences in all outcomes of both legs between headache-free controls versus migraine groups (P < 0.02) and at one outcome between without aura versus migraine with aura (P < 0.01). Moderate to high effect sizes were found for all tests on at least two outcomes assessed, mostly between controls compared with migraine groups. CONCLUSIONS: Migraine is related to changes in the performance of functional tasks, suggesting early motor control deterioration. Proper balance assessment and rehabilitation strategies should be considered for these patients.

Balance Impairments in Different Subgroups of Patients With Migraine.

BACKGROUND: Patients with migraine often experience balance impairments. However, the relationship between clinical features - like aura and chronicity - and the severity of balance impairments is not well established. The objective of this study was to assess balance impairments in different subgroups of migraine patients. METHOD: One hundred five subjects diagnosed according to the ICHD-III were recruited in the study. They were uniformly distributed among three groups: migraine with aura, migraine without aura, and chronic migraine. Thirty-five controls were also recruited in the study. Balance impairments were assessed in all subjects via the modified Sensory Organization test and the Limits of Stability test. The results in the four groups were compared using ANCOVA tests with age, BMI, presence of dizziness, level of physical activity, time of migraine onset, and medication intake as covariates. RESULTS: Subjects in the migraine with aura and the chronic migraine groups showed poorer balance control than control subjects in three of the four conditions tested using the modified Sensory Organization test: FirmCE: CG: 1.5 cm2 , 95%CI 1.3 to 1.7; M: 2.1 cm2 , 95%CI 1.6 to 2.6; MA: 4.5 cm2 , 95%CI 3.2 to 5.8; CM: 4.5 cm2 , 95%CI 3.0 to 6.0; P < .027; FoamOE: CG: 5.1 cm2 , 95%CI 4.6 to 5.6; M: 5.6 cm2 , 95%CI 5.0 to 6.1; MA: 8.8 cm2 , 95%CI 7.3 to 10.2; CM: 8.8 cm2 , 95%CI 7.7 to 10.0; P < .018; FoamCE: CG: 14.8 cm2 , 95%CI 13.7 to 15.9 cm2; M: 17.3 cm2 , 95%CI 15.4 to 19.1; MA: 21.9 cm2 , 95%CI 19.1 to 24.7; CM: 22.4 cm2 , 95%CI 19.9 to 24.9; P < .0001. In the FoamOE and FoamCE conditions, both groups also showed poorer postural control than subjects in the migraine without aura group (P < .01). Differences between control subjects and subjects in all the migraine groups were found in the reaction time, movement velocity, endpoint excursion, and maximal excursion parameters (P < .04) in all the directions tested during the Limits of Stability test. None of the covariates appeared to affect the balance parameters (P > .05). CONCLUSION: There is evidence of balance control impairments in subjects with all subtypes of migraine compared to control subjects. The presence of aura and frequent migraine attacks reflect negatively in the postural control performance and may have a significant clinical impact in patients with migraine that should be addressed with appropriate clinical interventions.

Static body postural misalignment in individuals with temporomandibular disorders: a systematic review

BACKGROUND: The association between body postural changes and temporomandibular disorders (TMD) has been widely discussed in the literature, however, there is little evidence to support this association. OBJECTIVES: The aim of the present study was to conduct a systematic review to assess the evidence concerning the association between static body postural misalignment and TMD. METHOD: A search was conducted in the PubMed/Medline, Embase, Lilacs, Scielo, Cochrane, and Scopus databases including studies published in English between 1950 and March 2012. Cross-sectional, cohort, case control, and survey studies that assessed body posture in TMD patients were selected. Two reviewers performed each step independently. A methodological checklist was used to evaluate the quality of the selected articles. RESULTS: Twenty studies were analyzed for their methodological quality. Only one study was classified as a moderate quality study and two were classified as strong quality studies. Among all studies considered, only 12 included craniocervical postural assessment, 2 included assessment of craniocervical and shoulder postures,, and 6 included global assessment of body posture. CONCLUSION: There is strong evidence of craniocervical postural changes in myogenous TMD, moderate evidence of cervical postural misalignment in arthrogenous TMD, and no evidence of absence of craniocervical postural misalignment in mixed TMD patients or of global body postural misalignment in patients with TMD. It is important to note the poor methodological quality of the studies, particularly those regarding global body postural misalignment in TMD patients. .

Static body postural misalignment in individuals with temporomandibular disorders: a systematic review.

BACKGROUND: The association between body postural changes and temporomandibular disorders (TMD) has been widely discussed in the literature, however, there is little evidence to support this association. OBJECTIVES: The aim of the present study was to conduct a systematic review to assess the evidence concerning the association between static body postural misalignment and TMD. METHOD: A search was conducted in the PubMed/Medline, Embase, Lilacs, Scielo, Cochrane, and Scopus databases including studies published in English between 1950 and March 2012. Cross-sectional, cohort, case control, and survey studies that assessed body posture in TMD patients were selected. Two reviewers performed each step independently. A methodological checklist was used to evaluate the quality of the selected articles. RESULTS: Twenty studies were analyzed for their methodological quality. Only one study was classified as a moderate quality study and two were classified as strong quality studies. Among all studies considered, only 12 included craniocervical postural assessment, 2 included assessment of craniocervical and shoulder postures,, and 6 included global assessment of body posture. CONCLUSION: There is strong evidence of craniocervical postural changes in myogenous TMD, moderate evidence of cervical postural misalignment in arthrogenous TMD, and no evidence of absence of craniocervical postural misalignment in mixed TMD patients or of global body postural misalignment in patients with TMD. It is important to note the poor methodological quality of the studies, particularly those regarding global body postural misalignment in TMD patients.

Influence of migraine and of migraine aura on balance and mobility--a controlled study.

BACKGROUND: Migraine, especially migraine with aura (MA), appears to be a risk factor for ischemic lesions in the posterior fossa. The clinical relevance of the lesions is uncertain. Accordingly, herein, we identified individuals with MA, migraine without aura (MO), and without migraine (controls) in order to investigate their balance and mobility. METHODS: Participants were selected among patients seen in an outpatient headache clinic. Controls had no history of headache. Balance was assessed by measuring the oscillation area using force plates and mobility was assessed with the Timed Up and Go test. RESULTS: Of 92 volunteers, 31 had MO (38 ± 10 years), 31 had MA (37 ± 8), and 30 were controls (33 ± 9). Subjects with MA had larger oscillation area (2.5 ± 1.4 cm(2) and 3.7 ± 2.9 cm(2) ) relative to those with MO (2.0 ± 1.7 cm(2) and 2.1 ± 2.2 cm(2) , P = .02) and controls (1.5 ± 0.8 cm(2) and 1.7 ± 1.2 cm(2) , P < .001) when standing in the bipodal position, respectively, with opened and closed eyes. MA was different with MO while standing in the unipodal position with eyes opened (right leg 6.7 ± 2.5 cm(2) vs 4.9 ± 1.7 cm(2) , P = .002; left leg 6.5 ± 2.7 cm(2) and 4.8 ± 1.4 cm(2) , P = .008). No differences were seen between MA and MO regarding the Timed Up and Go, although both groups were different than controls (8.5 seconds. and 6.5 seconds, P < .001; 8.2 and 6.5 seconds, P < .01, respectively). Dizziness symptoms happened in 25/31 (80%) of those with MA and 20/31 (65%) with MO, relative to 2/30 (6.5%) in controls (P < .0001 and P < .001). CONCLUSION: Aura negatively affects static balance and mobility in individuals with migraine. Dizziness is a prevalent symptom in this population.