Clinical Trials Directory

Trials / Completed

CompletedNCT04712422

Poor Neck Proprioception May Cause Balance Deficits in Myotonic Dystrophy 1

Status
Completed
Phase
Study type
Observational
Enrollment
42 (actual)
Sponsor
Istituto Auxologico Italiano · Academic / Other
Sex
All
Age
18 Years – 50 Years
Healthy volunteers
Not accepted

Summary

Impairment of balance and gait are frequent complaints in patients with myotonic dystrophy type 1 (DM1). In these persons, there is an increased risk for stumbles and falls when compared to normal subjects. An underestimated cause of falls might be the weakness of neck flexor muscles (due to cervical ataxia). It is well known that fibres of muscle spindles are receptors combining a specialized sub-set of muscle fibers with a specialized array of both sensory and motor nerve fibers. Spindles transduce into neural afferent discharges the muscle length and length changes. They are very dense in deep neck muscles, are crucial to body balance and gage orientation, and are severely affected in DM1. Preliminary results suggest that falls could reflect imbalance. These indicate that cervical ataxia may come into play because of muscle spindle fibre disruption. In light of the current knowledge on the physiology of balance and on the association between balance deficits and cervical dystonia in other clinical conditions (e.g., whiplash injury), a rationale is therefore offered to a confirmation of the hypothesis that DM1 patients may suffer from cervical ataxia. The primary endpoint is the demonstration of an association between balance deficits in standing and cervical proprioception deficit in adults affected by Myotonic dystrophy 1. Secondary endpoints are: * the investigation of the correlation among the two deficits and the clinical conditions of patients, * the definition of normative data in the measure of cervical proprioception in a sample of healthy participants. It is expected that high scores in postural balance, obtained on the posturographic Equitest™-Sensory Organization Test-SOT, correspond to high levels of repositioning accuracy in tests of cervical repositioning and low SOT scores correspond to low accuracy. Moreover, it is expected that an association exists among the two deficits and the clinical situation of the patients. Results from the present pilot study will allow an estimate of the sample size for future experimental protocols. The evidence for an association between balance deficits and cervical ataxia would be of obvious relevance to the patients. This would also support the hypothesis that neck muscle spindles may be especially affected in DM1. This would highlight that muscles are also crucial sensory organs, involved in the perception of joint position, muscle strength, and fatigue. Results from the present study might allow the definition of new rehabilitative programs, such as treatments through a neck strengthening (and thus stiffening) exercise program. This study, therefore, might stimulate new research hypothesis at the neurophysiologic level and possibly lead to findings generalizable from DM1 to other forms of myopathy.

Conditions

Interventions

TypeNameDescription
OTHERHealthy subjectsParticipants will be tested for their foot dominance by means of the Waterloo footedness questionnaire-revised, their hand dominance by means of the Edinburgh inventory, and their eyedness Coren's Lateral Preference Inventory. Participants will perform a cervical repositioning test. They will seat in a chair in front of a Plexiglas screen with the eye closed. The operator will guide the participant in four positions: at 30° right/left rotation and at 25° extension/flexion. The participant will be then asked to reproduce the angle. Each movement will be repeated four times in a random order. The whole sequence will be repeated by another second operator. Both the tests will be repeated after two weeks. Head movements will be detected using an optoelectronic system using passive markers positioned on the head of the participant.
OTHERPathologic groupClinical evaluation of the participants will be performed by means of the Myotonic Dystrophy Health Index (MDHI), the Rivermead Mobility Index (RMI), the Fall Events Questionnaire, and the Dizziness Handicap Inventory- short form (DHIsf). Participants will perform a cervical repositioning test. Participants will seat in a chair in front of a Plexiglas screen with the eye closed. The operator will guide the participant in four positions: at 30° right/left rotation and at 25° extension/flexion. The participant will be then asked to reproduce the angle. Each movement will be repeated four times in a random order. Head movements will be detected using an optoelectronic system using passive markers positioned on the head of the participant. Participants will then perform test of balance in standing, using the EquiTest platform. Individuals will be requested to perform three different tasks: sensory organization test, adaptation test-upward tilt, and adaptation test-downward tilt.

Timeline

Start date
2020-10-27
Primary completion
2021-10-13
Completion
2022-12-31
First posted
2021-01-15
Last updated
2024-02-20

Locations

2 sites across 1 country: Italy

Source: ClinicalTrials.gov record NCT04712422. Inclusion in this directory is not an endorsement.