Migraine without aura is a highly prevalent and disabling primary headache that significantly affects quality of life. Many patients experience insufficient symptom control with pharmacological treatments or develop adverse effects, which has increased interest in safe, non-invasive therapeutic alternatives. Physiotherapy, and particularly manual therapy, has shown potential benefits in reducing pain and improving function in headache disorders. This randomized clinical trial will evaluate the effectiveness of adding specific myotensive techniques directed at the extraocular muscles to a craniocervical manual therapy program in adults with migraine without aura. The hypothesis is that targeting the oculomotor system may influence pain modulation and improve symptoms related to visual, cervical, and sensorimotor interactions. Ninety participants aged 18 to 65 years with a medical diagnosis of migraine without aura according to the International Classification of Headache Disorders, Third Edition (ICHD-III), will be randomly assigned to an experimental group or a control group. Both groups will receive six physiotherapy sessions over approximately eight weeks. The experimental group will receive manual therapy on the craniocervical region and temporomandibular joint (TMJ) combined with myotensive techniques for the extraocular muscles, while the control group will receive only the standard manual therapy protocol. Evaluations will be conducted at baseline and post-intervention using validated instruments such as the Migraine Disability Assessment (MIDAS), Craniofacial Pain and Disability Inventory (CF-PDI), Migraine-Specific Quality of Life Questionnaire (MSQ), and Visual Analogue Scale (VAS) for pain. Cervical mobility and oculomotor function will also be assessed through standardized clinical tests. All procedures will be carried out at the Faculty of Nursing, Physiotherapy and Podiatry of the University of Seville. Data will be collected and managed in digital format in compliance with the General Data Protection Regulation (GDPR) and Spanish data protection law. Study results are expected to clarify the role of the oculomotor system in migraine without aura and to determine whether incorporating extraocular myotensive techniques enhances the effects of manual therapy within a comprehensive physiotherapeutic approach.
Migraine without aura is a complex neurological condition involving interactions between sensory, musculoskeletal, and central regulatory systems. Its recurrent pain episodes, associated symptoms, and functional impact make it a major cause of disability. Despite therapeutic advances, a substantial proportion of patients continue to experience insufficient symptom control or intolerance to medication, reinforcing the need for complementary, non-pharmacological treatment strategies. Physiotherapy, and specifically manual therapy, has gained increased relevance due to its safety, individualized application, and potential influence on neuromuscular and sensorimotor mechanisms involved in migraine. Alterations in the craniocervical region, including muscular hypertonicity, reduced mobility, and altered proprioception, are frequently observed in patients with migraine. These factors may contribute to pain modulation and central sensitization. Within this context, the oculomotor system has emerged as an area of interest due to its strong anatomical and functional connections with the upper cervical spine, brainstem integration centers, and vestibular and proprioceptive pathways. Extraocular muscles provide continuous proprioceptive input essential for coordinating gaze and head orientation. Dysfunction in this system may affect sensory integration, postural control, and cervico-ocular interactions, potentially contributing to increased sensory load and symptom exacerbation. Myotensive techniques applied to the extraocular muscles aim to regulate muscle tone, optimize ocular motility, and influence afferent sensory input to central integration centers. When combined with manual therapy directed at the craniocervical region and temporomandibular joint (TMJ), these techniques may contribute to improving neuromuscular coordination and reducing migraine-related symptoms. This trial seeks to evaluate the clinical effects of incorporating extraocular myotensive techniques into a structured manual therapy program in patients with migraine without aura. The study is a randomized, controlled, parallel-group clinical trial designed to compare two physiotherapy interventions. Ninety participants aged 18 to 65 years with a medical diagnosis of migraine without aura according to the International Classification of Headache Disorders, Third Edition (ICHD-III), will be randomly assigned through a computer-generated sequence to an experimental group or a control group. An independent researcher will manage allocation concealment using opaque, sealed envelopes. Evaluators will be blinded to group assignment, and data analysis will be conducted under blinded conditions. Both groups will receive six physiotherapy sessions over approximately eight weeks. The experimental group will receive combined craniocervical manual therapy and specific myotensive techniques applied to the extraocular muscles. The control group will receive the same craniocervical manual therapy program without oculomotor techniques. All interventions will be administered by physiotherapists trained in manual therapy. Oculomotor assessments will be supervised by professionals with expertise in optometry. Outcome measures will be assessed at baseline and post-intervention. Pain and disability will be evaluated through validated instruments, including the Visual Analogue Scale (VAS), Migraine Disability Assessment (MIDAS), Craniofacial Pain and Disability Inventory (CF-PDI), and the Migraine-Specific Quality of Life Questionnaire (MSQ). Cervical range of motion will be assessed using a gravity goniometer. Neuromuscular function of the deep cervical flexors will be evaluated through the Cranio-Cervical Flexion Test (CCFT) using pressure biofeedback in millimeters of mercury (mmHg), generating the Activation Score (AS) and Performance Index (PI). Oculomotor evaluation will include assessment of ocular motility, gaze-related pain perception, and functional changes in different gaze directions. Postural alignment of the head will be measured using goniometric procedures in a relaxed standing position. Heterophoria will be quantified using the Von Graefe test, expressed in prism diopters (Δ), with results categorized into esophoria (base-out, BO) or exophoria (base-in, BI) as applicable. All study procedures will take place at the Faculty of Nursing, Physiotherapy and Podiatry of the University of Seville. Data collection will be performed exclusively through secure digital platforms, ensuring compliance with the General Data Protection Regulation (GDPR) and relevant Spanish legislation on personal data protection. The intervention is non-pharmacological and low-risk, and all participants will provide written informed consent prior to enrollment. The purpose of this clinical trial is to determine whether incorporating specific techniques directed at the extraocular muscles enhances the effects of manual therapy in patients with migraine without aura. By examining changes in pain intensity, migraine frequency, disability, quality of life, cervical function, and oculomotor performance, this study aims to contribute new evidence to physiotherapy-based approaches and expand the range of safe and effective therapeutic options for individuals living with migraine.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
84
This intervention consists of six 55-minute sessions over eight weeks. It combines standard cranio-cervical manual therapy techniques-such as suboccipital inhibition, cervical traction, vertebral segmental mobilization, and temporomandibular joint decompression-with specific myotensive techniques applied to the extraocular muscles. The oculomotor component is performed in a supine position, using gentle isometric and eccentric tension-release maneuvers targeted to the most restricted eye movement directions. The goal is to modulate extraocular muscle tone, optimize the cervico-ocular proprioceptive relationship, and reduce migraine-related dysfunctions.
This intervention consists of six 40-minute sessions over eight weeks, matching the experimental group in duration, frequency, and clinical environment. It includes suboccipital inhibition, cervical traction, segmental vertebral mobilization, and temporomandibular joint decompression techniques. No ocular or visual system intervention is performed. The purpose is to serve as an active control for the cranio-cervical component of the treatment.
Universidad from Sevilla
Seville, Andalusia, Spain
Visual Analog Scale (VAS)
This continuous quantitative variable assesses the intensity of pain experienced by the patient. The VAS consists of a 10 cm horizontal line whose endpoints are anchored by the expressions "no pain" on the left end and "worst pain imaginable" on the right end. The patient is asked to mark the point along this line that best represents their subjective perception of pain at that moment, and the score is obtained by measuring in centimeters from the left end to the mark made.
Time frame: Baseline (pre-intervention, prior to the first treatment session) and immediately after each treatment session, through study completion.
Score obtained from the Craniofacial Pain and Disability Inventory (CF-PDI)
This discrete quantitative variable, originally named the Craniofacial Pain and Disability Inventory (CF-PDI), is a questionnaire specifically designed to assess pain and disability in patients suffering from craniofacial pain, such as headaches, temporomandibular disorders, and related conditions. The aim of the questionnaire is to evaluate the severity of craniofacial pain and its impact on patients' functional, emotional, and social activities. It is structured into items grouped into four dimensions: the impact on daily activities, work, interpersonal relationships, and emotional state. Each item is rated on a 5-point Likert scale ranging from 0 to 4, where 0 indicates minimal impact and 4 indicates maximum perceived impact in each dimension. The total score can reach up to 84 points, with higher scores reflecting greater levels of disability and impact of craniofacial pain on the patient's life. This tool has demonstrated excellent psychometric properties, with high reliability i
Time frame: Baseline (pre-intervention, prior to the first treatment session) and immediately after completion of the final treatment session.
Score obtained from the Migraine-Specific Quality of Life Questionnaire (MSQ)
This continuous quantitative variable corresponds to a tool used to assess the impact of migraine on patients' quality of life. The MSQ includes 14 items that explore the frequency and intensity of migraine episodes and their impact on work activities, social relationships, emotional well-being, and overall health status. Responses are rated using a Likert-type scale. The questionnaire is divided into subscales corresponding to different domains of life affected by migraine: physical functioning, emotional functioning, and social functioning. The total score is obtained by summing the subscale scores. Each of the 14 items is rated on a 6-point Likert scale ranging from 1 = "all the time" to 6 = "never," thus evaluating how frequently migraine interferes with different aspects of the patient's life. To facilitate interpretation and standardization, raw scores from the MSQ are transformed to a standardized 0-100 scale. This transformation is achieved by subtracting the minimum possible
Time frame: Baseline (pre-intervention, prior to the first treatment session) and immediately after completion of the final treatment session.
Score obtained from the Short Form-36 Health Survey (SF-36)
This continuous quantitative variable is used to measure health-related quality of life, encompassing multiple aspects of physical and mental well-being. The SF-36 consists of 36 items divided into eight subscales evaluating different dimensions of health: Physical Functioning (PF), Social Functioning (SF), Role Emotional (RE), Vitality (VT), Mental Health (MH), Bodily Pain (BP), General Health (GH), and Physical Health (PH). Each subscale is scored from 0 to 100, where higher scores indicate better quality of life in that particular domain. Subscale scores can be analyzed individually or combined to generate an overall quality of life index. The SF-36 was developed by Ware et al. (1992) and adapted and validated into Spanish as part of the international IQOLA project by Vilagut et al. The SF-36 has demonstrated excellent reliability and validity across diverse populations and clinical contexts. It shows high internal consistency, with Cronbach's alpha coefficients generally above 0.8
Time frame: Baseline (pre-intervention, prior to the first treatment session) and immediately after completion of the final treatment session.
Score obtained from the Migraine Disability Assessment Questionnaire (MIDAS)
This continuous quantitative variable is a self-administered tool designed to evaluate the impact of migraine on patients' daily activities over the past three months. It consists of five questions assessing the number of days lost in work, household, and social activities due to migraine. The total score is obtained by summing responses to these five questions and is classified into four disability grades: 0-5 points: little or no disability 6-10 points: mild disability 11-20 points: moderate disability ≥21 points: severe disability Additionally, the questionnaire includes two supplemental questions that gather information on the frequency of migraine episodes and the average pain intensity on a 0-10 scale. The MIDAS has shown moderately high test-retest reliability and good convergent validity.
Time frame: Baseline (pre-intervention, prior to the first treatment session) and immediately after completion of the final treatment session.
Score obtained from the Headache Impact Test (HIT-6)
This continuous quantitative variable consists of a questionnaire with six items assessing the impact of headaches across various aspects of a patient's life, including pain, functional limitation, fatigue, cognition, and emotional status, providing a global overview of headache burden. Each item is rated on a 5-point frequency scale: never (6 points), rarely (8 points), sometimes (10 points), very often (11 points), and always (13 points). The total score ranges from 36 to 78 and is interpreted as follows: ≤49: little or no impact 50-55: some impact 56-59: substantial impact ≥60: severe impact The HIT-6 has demonstrated excellent psychometric properties, with internal consistency (Cronbach's alpha) ranging from 0.78 to 0.90 across studies, strong validity through correlations with other migraine assessment scales such as MIDAS and SF-36, and high reproducibility, with test-retest coefficients above 0.80.
Time frame: Baseline (pre-intervention, prior to the first treatment session) and immediately after completion of the final treatment session.
Cervical Range of Motion - Flexion and Extension
This continuous quantitative variable will be measured using a gravity goniometer, expressed in degrees. Participants will be asked to actively perform flexion and extension movements. Three measurements will be taken, and the mean value will be recorded. The gravity goniometer has demonstrated validity and reliability for assessing cervical range of motion, with excellent intra-rater reliability (ICC \> 0.85) according to Youdas et al., and good concurrent validity when compared to three-dimensional systems (differences \< 5°). It also shows adequate inter-rater reliability when standardized protocols are followed.
Time frame: before first session and immediately after each of the 6 treatment sessions
Cervical Range of Motion - Right and Left Lateral Flexion
This continuous quantitative variable will be measured in degrees using a gravity goniometer. Participants will be asked to actively perform right (RSB) and left (LSB) lateral flexion movements three times each, and the mean value will be calculated.
Time frame: before first session and immediately after each of the 6 treatment sessions
Cervical Range of Motion - Right and Left Rotation
This continuous quantitative variable will be measured in degrees using a gravity goniometer. Participants will be asked to actively perform right (RR) and left (LR) cervical rotation three times each, and the mean value will be obtained
Time frame: before first session and immediately after each of the 6 treatment sessions
Cranio-Cervical Flexion Test - Activation Score (AS)
Assessed using the Cranio-Cervical Flexion Test (CCFT) with the Chattanooga Stabilizer™ pressure biofeedback device. The Activation Score reflects the highest pressure level (in mmHg) that the participant can achieve and maintain with correct deep cervical flexor activation and without recruitment of superficial musculature.
Time frame: before first session and immediately after each of the 6 treatment sessions
Cranio-Cervical Flexion Test - Performance Index (PI)
Assessed using the Cranio-Cervical Flexion Test (CCFT) with the Chattanooga Stabilizer™ pressure biofeedback device. The Performance Index represents the product of the pressure level achieved and the duration maintained, providing a quantitative measure of deep cervical flexor endurance and control.
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Time frame: Baseline (before first session) and immediately after each of the 6 treatment sessions.
Head Postural Deviation in Neutral Standing Position
This categorical quantitative variable measures the spontaneous tilt or rotation of the head axis relative to the vertical plane in relaxed standing posture, while the participant fixates on a target 50 cm away at eye level. Measured with a gravity goniometer and categorized as: * Category 0: symmetrical position (0°) * Category 1: mild deviation (1°-4°) * Category 2: moderate deviation (5°-9°) * Category 3: severe deviation (≥10°)
Time frame: before first session and immediately after each of the 6 treatment sessions
Pain Sensation in Each Gaze Position
This dichotomous qualitative variable records the presence or absence of pain during eye movement or fixation in each of the nine gaze positions: primary gaze, dextroversion, levoversion, supraversion, infraversion, dextroelevation, levoelevation, dextrodepression, and levodepression. The examiner asks the participant to look at a target placed in each position for 4 seconds, noting any painful sensation. This helps detect patterns of oculomotor dysfunction and serves as an indirect clinical indicator of tension or hypertonicity in extraocular muscles
Time frame: before first session and immediately after each of the 6 treatment sessions
Ocular Motility Assessment
This ordinal qualitative variable assesses whether the participant can perform complete and unrestricted eye movements in all nine gaze directions. The evaluation follows a standardized clinical observation using the "H-test" or star pattern, with a pen, pointer, or finger moved at approximately 50 cm distance. Each gaze direction is categorized as: * 0: full and symmetrical movement without restrictions or compensatory saccades * 1: incomplete movement or mild hypofunction, requiring saccades to reach the target * 2: clearly limited or absent movement
Time frame: Before first session and immediately after each of the 6 treatment sessions
Modulation of Ocular Motility After Head Postural Correction in Standing Position
This dichotomous ordinal qualitative variable records whether there is a symptomatic improvement (pain reduction and/or increased ocular mobility) after manual correction of head posture in neutral standing. Categorized as: * 0: no change in symptoms or ocular motility * 1: improvement in symptoms and/or ocular motility range
Time frame: Before first session and immediately after each of the 6 treatment sessions
Thorington test for Heterophoria
The Thorington test will be used to measure latent ocular deviation, expressed in prism diopters (∆), through optical dissociation with a Maddox rod and direct reading on a calibrated scale. This method provides high intra-examiner, inter-examiner, and test-retest reliability, and is sensitive to small changes following an intervention. Its internal validity relies on strict standardization of distance, illumination, rod orientation, and accommodative demand, while its external validity is supported by its widespread use as a reference test in binocular vision research. Due to its consistency, reproducibility, and clinical relevance, the Thorington test is considered an appropriate and reliable variable for use in a clinical trial.
Time frame: Baseline (pre-intervention, prior to the first treatment session) and immediately after completion of the final treatment session.
Alternate Cover Test with Prism Bar for Oculomotor Deviation
This continuous quantitative variable quantifies heterophoria in prism diopters (Δ), positive for exophoria and negative for esophoria, by neutralizing ocular recovery movement with increasing prism strength. Normal values: ≤4Δ at distance and ≤6Δ at near (horizontal); ≤1Δ (vertical). Reliability: moderate to high (ICC 0.65-0.90), good concurrent validity with the Von Graefe test.
Time frame: Baseline (pre-intervention, prior to the first treatment session) and immediately after completion of the final treatment session.
Fusional Vergence Amplitude (Positive and Negative)
Continuous quantitative variable that measures the ability of the visual system to maintain binocular fusion in response to retinal disparity stimuli induced by prisms. * Positive fusional vergence (convergence): base-out (BO) prisms. * Negative fusional vergence (divergence): base-in (BI) prisms. Values are expressed in prism diopters (Δ), recording break and recovery points. Normal ranges: * Distance: convergence ≥15Δ break / ≥10Δ recovery; divergence ≥5Δ / ≥3Δ. * Near: convergence ≥20Δ / ≥15Δ; divergence ≥12Δ / ≥7Δ. Test-retest reliability: ICC \> 0.80.
Time frame: Baseline (pre-intervention, prior to the first treatment session) and immediately after completion of the final treatment session.
Vertical Fusional Vergence (VV)
Continuous quantitative variable representing the visual system's ability to maintain vertical alignment under dissociative stimuli using base-up (BU) and base-down (BD) prisms. Normal values: break 2-3Δ, recovery ≥1.5Δ, symmetrical between eyes. Test-retest reliability: high, with strong clinical validity.
Time frame: Baseline (pre-intervention, prior to the first treatment session) and immediately after completion of the final treatment session.
Vergence Facility (VF)
Continuous quantitative variable evaluating the efficiency of alternating between convergence and divergence. Measured in cycles per minute (cpm) using a prism combination of 3Δ base-in (BI) and 12Δ base-out (BO). Normal values: ≥12 cpm (near vision), ≥10 cpm (distance). Test-retest reliability: ICC \> 0.75; sensitive to improvements after visual therapy.
Time frame: Baseline (pre-intervention, prior to the first treatment session) and immediately after completion of the final treatment session.