Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT05274711 |
| Other study ID # |
P.T.REC/012/003408 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
July 1, 2022 |
| Est. completion date |
February 28, 2023 |
Study information
| Verified date |
May 2023 |
| Source |
Cairo University |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
To investigate if the Whole-body vibration affect cervical function cervical, proprioception,
pain intensity level and ROM and in subjects with forward head posture?
Description:
Forward head posture (FHP) is one of the most common types of postural abnormality, and it is
generally described as an anterior position of the head in relation to the vertical line of
the body's center of gravity. Many researchers have reported that several factors, including
headache, neck pain, and musculoskeletal disorders such as temporomandibular disorders or
rounded shoulders, are related to FHP In forward head posture (FHP) lower cervical vertebrae
are bent and upper cervical vertebrae are extended, and the weight of the head supported by
the neck is increased. The bending moment of the head applies pressure on muscles and joints
around the cervical vertebrae, in addition to active myofascial trigger points of the
suboccipital muscle which may induce tension type headaches, neck pain and cervical
headaches, while reducing the mobility of the neck Furthermore, FHP was associated with
shortening of the upper trapezius, the posterior cervical extensor muscles, the
sternocleidomastoid muscle and the levator scapulae muscle Recently studies have reported
impaired proprioception to be one of the results of prolonged FHP. The cervical spine
proprioceptive system is responsible for head orientation in space and in relation to the
trunk and it is known for its role in maintaining head and neck stability It was concluded
that the craniovertebral angle (CVA) is negatively correlated with the disability of patients
with neck pain. So, patients with small CVA have a greater forward head posture, and the
greater the forward head posture, the greater the disability.
Neck pain is a common complaint in the population. It has an episodic occurrence with
variable recovery between episodes, and it is considered the most persistent musculoskeletal
pain syndrome. Regarding physical work factors, neck pain was significantly associated with
holding the neck in a forward bent posture for a prolonged time and making repetitive
movements Despite claims that FHP may be related to neck pain, existing evidence seems
controversial, since some previous studies have reported no significant associations between
neck pain and FHP whereas other studies have reported an association between FHP and neck
pain. It was showed that adults with neck pain have significantly more FHP than asymptomatic
adults. Greater FHP has been associated with greater deficits in cervical range of motion,
particularly neck rotation and flexion. Also, FHP seems to have a negative impact on static
balance control in asymptomatic adults.
Corrective exercise is one of the interventional methods that had been suggested for
treatment of FHP, including stretching, strengthening, and movement control exercises.
Moreover, there may be advantages in exercising adjacent body segments to the cervical spine,
such as the thoracic spine, to enhance the effectiveness of exercise training on FHP. Several
studies have shown that corrective exercise regimes can improve FHP and potentially related
symptoms. For example, exercise training protocols have resulted in improvement of CVA, head
tilt, cranial or cervical range of motion neck disability and pain
Whole-body vibration exercise (WBV) may enhance muscle strength adaptations associated with
traditional neuromuscular training or rehabilitation. The potentially beneficial effects of
WBV are caused by the transmission of mechanical, sinusoidal vibrations throughout the body
via the feet WBV is a neuromuscular training method that has recently been developed. In WBV
training, the subject stands on a platform that generates vertical sinusoidal vibration at a
frequency between 35 and 40 Hz. These mechanical stimuli are transmitted to the body where
they stimulate in turn sensory receptors, most likely muscle spindles. This leads to the
activation of the alpha-motoneurons and initiates muscle contractions comparable to the
earlier described "tonic vibration reflex" Whole-body vibration (WBV) has become increasingly
popular with reports of improved strength, power, movement velocity as well as balance and
flexibility (Pollock et al., 2010). WBV exercises are performed while standing on a motor
driven oscillating platform device. The mechanical vibration stimulus applied to the muscles
and tendons during WBV exercise is characterized by a cyclic transition between eccentric and
concentric muscle contractions and leads to a neuromuscular response
