Spasticity Clinical Trial
Official title:
Ultrasound Guidance to Alleviate the Pain Associated With Intramuscular Injections of Botulinum Toxin in Spastic Patients
Intramuscular injections of botulinum toxin are currently the best focal treatment of spasticity, with clearly defined indications and role. French and European recommendations focus on the toxin's mode of administration, which must be as precise as possible. The toxin's specific action on motor endplates (blocking the release of acetylcholine) shows the importance of targeted injections within the muscle belly. The pain caused by these injections is due partly the number of injections (up to 30 in a single session), and partly to the use of electrical stimulation guidance. Prevention and alleviation of the pain caused by these injections have become a regulatory obligation since the law of 4 March 2002 relating to the rights of patients and the quality of the health system (" Any person has the right to receive relief from pain, which must, under all circumstances, be prevented, evaluated, taken into account and treated … ").
Electrical stimulation guidance is generally used nowadays, and is recommended over the use
of palpation and anatomical landmarks. However, electrical stimulation has its limits. It is
sometimes poorly tolerated by patients as it causes pain, which is greater in muscles less
responsive to such stimulation and requiring a stronger electrical current. The pain also
increases with the number of injections performed in a single session. Electrical
stimulation does not guarantee for certain that the needle is placed within the muscle, as a
stimulation of the aponeurosis may cause the muscle to contract through the excitation of
motor branches entering the muscle. The injection of botulinum toxin in the aponeurosis does
not provide a satisfactory effect and may render the injection ineffective. In some
patients, the muscle to inject may present some degree of retraction with fat degeneration,
which reduces its sensitivity to electrical stimulation. Individual patients may also
respond poorly or not at all to electrical stimulation, which causes technical and treatment
problems. Finally, certain muscles are difficult to locate by electrical stimulation because
their contraction produces only weak mechanical effects (e.g. short muscles such as the
interossei muscles). All these factors explain why ultrasound imaging provides an
interesting alternative guidance technique for botulinum toxin injections. In most cases, it
can replace electrical stimulation altogether, and thus avoid the pain it causes. Ultrasound
guidance is already recommended in pediatric patients to improve their comfort during the
injections. In our study, the patient's comfort during the injection was chosen as the main
endpoint because it has already been demonstrated in children and because the investigators
feel it is an essential aspect of our routine practice. Moreover, ultrasound imaging helps
locate accurately the muscle to be injected. Once the tip of the needle has been located, it
can be tracked during the injection, and guided to the muscle belly. Previous studies have
already shown that this technique improves the efficacy of the injections. Ultrasound
imaging is also interesting when the muscles to be injected are located in a deep plane or
close to vital structures, such as nerves, arteries, or veins (e.g. piriformis or psoas).
All these considerations have been studied in children and should be validated in adult
spastic patients as well.
Therefore, the investigators will compare ultrasound guidance to electrical stimulation
guidance in routine clinical practice. This study will be carried out in adult spastic
patients who may receive botulinum toxin injections in the Service of Physical Medicine and
Rehabilitation of University Teaching Hospital. The aim is to analyse the advantages of this
injection technique under current practice conditions.
The evaluating physician (blinded) will conduct a clinical examination of the patients
before the injections, and 6 to 8 weeks after the injection of botulinum toxin. The pain
associated with the toxin injections will be evaluated after the injections and during the
follow-up visit, using the vertical indexed VAS and the Face Pain Scale. The spasticity will
be evaluated on the Tardieu scale before the injections and during the follow-up visit. The
duration of the botulinum toxin injections will be measured. Finally, functional objectives
will be determined prior to the injections. The GAS (Goal Attainment Scaling) methodology
will be used during the follow-up visit to determine whether these objectives have been met
or not.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment
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