The purpose of this study was to investigate the short and medium-term effects of three manual techniques on cervical range of motion and pressure pain sensitivity in subjects with mechanical stress, presenting latent trigger point of upper trapezius muscle.
Myofascial pain syndrome is a common non-articular musculoskeletal chronic pain which has not been yet fully understood. It is characterized by myofascial trigger point. This trigger point is clinically classified as active or latent. Some studies have demonstrated the potential relevance of latent trigger point. In fact, its presence may cause muscle activation pattern alterations, increase nociceptive sensitivity and cause sympathetic activity alterations. Nevertheless, the vast majority of individuals, even asymptomatic, have latent trigger point. High prevalence of myofascial trigger points subsists at cervical and scapular regions. There is few data regarding myofascial trigger point physiopathology. Furthermore, a diversity of therapeutic interventions consisting of trigger point inactivation and interruption of the vicious cycle is suggested in literature. Nevertheless, the effectiveness of these different interventions in trigger points and the duration of the effects are not yet fully clarified.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
117
The therapist, with one hand on the occipital bone and the other on the shoulder, performed passive side flexion, contralateral to the muscle, taking the subject's head until the end-feel. Then, subjects performed an isometric contraction of 25% of their maximum force, for 5 seconds, while the therapist offered manual resistance. Afterwards the subject was let to relax in this position for additional 5 seconds. Side flexion was now increased until a new end-feel point was reached. This sequence was repeated 3 times. At the end, the therapist passively guided the cervical segment to the neutral position.
The therapist, with one hand on the occipital bone and the other on the shoulder, performed a contralateral side flexion of the muscle passively until the maximum obtainable amplitude was reached, while subjects were asked to breathe steadily. During the breathing phase the therapist increased the side flexion until the end of the obtainable amplitude, this position was maintained. This procedure was repeated during 30 seconds. Finally the therapist passively guided the cervical segment to the neutral position.
Escola Superior de Tecnologia da Saúde do Porto
Vila Nova de Gaia, Porto District, Portugal
Change from Baseline in Pressure pain threshold at 10 minutes after the intervention
To obtain the pressure pain threshold measurements, an electronic pressure algometer was used. With the subject seated, the evaluator placed the pointer on the trigger pint with an approximate angle of 90º and an increasing pressure of approximately 1 kg/cm²/s. Subjects were told to use the word "now" whenever the sensation of pressure was replaced by a sensation of pain. At this point, the evaluator removed the algometer and the equipment recorded the maximum applied pressure.
Time frame: 10 minutes after the intervention
Change from Baseline in Pressure pain threshold at 24 hours after the intervention
To obtain the pressure pain threshold measurements, an electronic pressure algometer was used. With the subject seated, the evaluator placed the pointer on the trigger pint with an approximate angle of 90º and an increasing pressure of approximately 1 kg/cm²/s. Subjects were told to use the word "now" whenever the sensation of pressure was replaced by a sensation of pain. At this point, the evaluator removed the algometer and the equipment recorded the maximum applied pressure.
Time frame: 24 hours after the intervention
Change from Baseline in Pressure pain threshold at one week after the intervention
To obtain the pressure pain threshold measurements, an electronic pressure algometer was used. With the subject seated, the evaluator placed the pointer on the trigger pint with an approximate angle of 90º and an increasing pressure of approximately 1 kg/cm²/s. Subjects were told to use the word "now" whenever the sensation of pressure was replaced by a sensation of pain. At this point, the evaluator removed the algometer and the equipment recorded the maximum applied pressure.
Time frame: one week after the intervention
Change from Baseline in Cervical flexion at 10 minutes after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical flexion actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
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The therapist, with a pincer contact, applied gradual pressure on the latent trigger point of the upper trapezius muscle. Subjects had been previously asked to say when pain was "moderate but bearable", a pain value of 7 in a 1 to 1o scale of pain (in which 1 corresponds to "no pain" and 10 do "unbearable pain"). At this point, pressure was maintained until pain levels were reduced to level 3. The therapist increased once more the pressure until the level of pain was 7 again. This procedure was repeated during 90 seconds.
The therapist was seated at the head of the treatment table, and with one hand on the occipital bone and the other on the shoulder, without executing any movement, for 30 seconds.
Time frame: 10 minutes after the intervention
Change from Baseline in Cervical extension at 10 minutes after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical extension actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: 10 minutes after the intervention
Change from Baseline in Cervical side flexion (homo-lateral of trigger point) at 10 minutes after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical side flexion (homo-lateral of trigger point)actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: 10 minutes after the intervention
Change from Baseline in Cervical rotation (homo-lateral of trigger point) at 10 minutes after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical rotation (homo-lateral of trigger point)actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: 10 minutes after the intervention
Change from Baseline in Cervical side flexion (contra-lateral of trigger point) at 10 minutes after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical side flexion (contra-lateral of trigger point)actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: 10 minutes after the intervention
Change from Baseline in Cervical rotation (contra-lateral of trigger point) at 10 minutes after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical rotation (contra-lateral of trigger point)actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: 10 minutes after the intervention
Change from Baseline in Pressure pain perception at 10 minutes after the intervention
For the determination of th pressure pain perception, with the subject seated, the evaluator placed the pointer on the point of upper trapezius muscle with an angle of 90º and an increasing pressure of 1 kg/cm²/s until the pressure reached 2,5 kg/cm² and it was maintained for 5 seconds. Then the subject would characterize the level of pain through a visual analog scale), which had a ruler with a numerical scale of 0 to 10, being 0 "no pain or discomfort" and 10 "worse pain ever felt".
Time frame: 10 minutes after the intervention
Change from Baseline in Cervical flexion at 24 hours after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical flexion actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: 24 hours after the intervention
Change from Baseline in Cervical extension at 24 hours after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical extension actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: 24 hours after the intervention
Change from Baseline in Cervical side flexion (homo-lateral of trigger point) at 24 hours after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical side flexion (homo-lateral of trigger point)actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: 24 hours after the intervention
Change from Baseline in Cervical rotation (homo-lateral of trigger point) at 24 hours after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical rotation (homo-lateral of trigger point)actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: 24 hours after the intervention
Change from Baseline in Cervical side flexion (contra-lateral of trigger point) at 24 hours after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical side flexion (contra-lateral of trigger point)actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: 24 hours after the intervention
Change from Baseline in Cervical rotation (contra-lateral of trigger point) at 24 hours after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical rotation (contra-lateral of trigger point)actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: 24 hours after the intervention
Change from Baseline in Pressure pain perception at 24 hours after the intervention
For the determination of th pressure pain perception, with the subject seated, the evaluator placed the pointer on the point of upper trapezius muscle with an angle of 90º and an increasing pressure of 1 kg/cm²/s until the pressure reached 2,5 kg/cm² and it was maintained for 5 seconds. Then the subject would characterize the level of pain through a visual analog scale), which had a ruler with a numerical scale of 0 to 10, being 0 "no pain or discomfort" and 10 "worse pain ever felt".
Time frame: 24 hours after the intervention
Change from Baseline in Cervical flexion at one week after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical flexion actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: one week after the intervention
Change from Baseline in Cervical extension at one week after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical extension actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: one week after the intervention
Change from Baseline in Cervical side flexion (homo-lateral of trigger point) at one week after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical side flexion (homo-lateral of trigger point)actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: one week after the intervention
Change from Baseline in Cervical rotation (homo-lateral of trigger point) at one week after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical rotation (homo-lateral of trigger point)actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: one week after the intervention
Change from Baseline in Cervical side flexion (contra-lateral of trigger point) at one week after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical side flexion (contra-lateral of trigger point)actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: one week after the intervention
Change from Baseline in Cervical rotation (contra-lateral of trigger point) at one week after the intervention
A cervical range of motion instrument was used to measure the cervical ranges of motion. Each subject performed cervical rotation (contra-lateral of trigger point)actively until the maximum available amplitude three times, and the evaluator read the values on the inclinometer on the plane of the performed movement.
Time frame: one week after the intervention
Change from Baseline in Pressure pain perception at one week after the intervention
For the determination of th pressure pain perception, with the subject seated, the evaluator placed the pointer on the point of upper trapezius muscle with an angle of 90º and an increasing pressure of 1 kg/cm²/s until the pressure reached 2,5 kg/cm² and it was maintained for 5 seconds. Then the subject would characterize the level of pain through a visual analog scale), which had a ruler with a numerical scale of 0 to 10, being 0 "no pain or discomfort" and 10 "worse pain ever felt".
Time frame: one week after the intervention