Hereditary Spastic Paraplegia Clinical Trial
Official title:
Botulinum Toxin in Patients With Hereditary Spastic Paraplegia: a Randomized, Double-blind, Placebo-controlled, Crossover Study
Hereditary spastic paraplegias constitute a heterogeneous group of diseases with the common
predominant feature of spasticity of the lower limbs. The clinical picture is composed of
difficulty walking, exaggerated deep reflexes, pathological reflexes such as the Babinski
sign, sphincter disturbances and various degrees of weakness as well as sensory disturbances.
Spasticity is the symptom that provoques greater incapacity. Although there have been recent
advances in the genetic and pathogenic characterization of SPG there is scarcity of
therapeutic options. The Botulinum Toxin (BTx) is a well established treatment for movement
disorders such as cervical dystonia, blepharospasm, and arm spastic following stroke.
Therefore, the investigators propose the execution of a randomized, double-blind,
placebo-controlled, crossover study to evaluate the efficacy of the treatment with Btx over
SPG patient's gait. The primary outcome measure will be gait velocity with the 10 meter
walking test 8 weeks after injection. Each participant will be submitted to one injection
session of Btx and one of placebo (consisting of sterile sodium chloride), each one separated
by a period of 6 months. The primary and secondary outcomes will be evaluated by a blind
investigator 8 weeks after each injection session.
Introduction
Hereditary spastic paraplegias (SPG) constitute a heterogeneous group of diseases with a
common predominant feature: spasticity of the lower limbs and difficulty walking. The
neurologic examination reveals spasticity, exaggerated and pathological reflexes, such as the
Babinski sign, and minor hypoesthesia. Spasticity is more evident when the patient walks than
during passive movement. Weakness may or may not be present, and typically is less disabling
than spasticity, especially during the initial years of the disease. The increase in tonus
leads to reduced amplitude of movement and abnormal posture, altogether leading to a very
slow gait, falls and articular deformities. Clinically, SPG is divided into pure and
complicated forms. The first one is characterized by almost exclusive dysfunction of the
pyramidal tracts. Minor sensory and sphincter disturbances are also present. The complicated
subtypes encompass a wide variety of associated features such as ataxia, cognitive decline
and vision loss. Genetically, SPGs are divided into autosomal dominant, autosomal recessive
and X-linked forms. Pure forms are mostly inherited in an autosomal dominant manner, whereas
the autosomal recessive forms mostly manifest as complicated forms. Although useful
clinically, this genotype-phenotype correlation is not always true. The most used SPG
classification is based on the locus that harbors the mutated gene. Each subtype is
designated by the initials SPG, followed by a number that corresponds to a specific gene. The
gene number is established following the chronological order of identification of each locus.
The discovery of new genes and the unraveling of molecular pathways of SPGs have lead to a
better understanding of the disease in the past few years. Despite that, there are very few
treatment options . There is no placebo-controlled clinical trial performed to assess any
therapeutic intervention for SPG. Oral anti-spastic agents such as baclofen and tizanidine
are frequently employed. When the response is inadequate, or there are significant side
effects, botulinum toxin injections may be attempted. The substance blocks liberation of
acetylcholine from the pre-synaptic cleft. With less activation of the nicotinic receptors at
the post-synaptic junction the muscle contraction is inhibited. Botulinum Toxin (Btx) is a
first-line treatment for movement disorders such as cervical dystonia, blepharospasm, and
spastic arm following stroke. Studies with Btx in patients with SPG are limited to small
open-label case series, and there is no solid evidence that patients actually benefit from
this therapy. The rationale basis for its use is based on the well established knowledge that
Btx reduces muscle tonus. The functional impact on gait, on the other hand, is not well
known, as well as the impact this treatment could produce over symptoms such as fatigue and
pain.
Justification Spasticity is the most disabling manifestation in patients with SPG. Although
there have been recent advances in the genetic and pathogenic characterization of the
disease, there is scarcity of therapeutic options. The use of oral anti-spastics is limited
by frequent side effects such as somnolence and drowsiness. Therefore, the investigators
designed a randomized, double-blind, placebo-controlled, crossover trial to evaluate the
efficacy and safety of Btx injections in patients with SPG. The primary outcome measure will
be gait velocity assessed through the 10 meter walking test 8 weeks after injection. Each
participant will be submitted to one injection session with Btx and one with placebo
(consisting of sterile sodium chloride), each one separated by a period of 6 months.
Objectives General Objective To evaluate the effects of Btx compared to placebo injections in
a cohort of patients with SPG. The primary outcome will be increase in gait velocity, a
measure that reflects functional gain. Secondary outcomes will include measures of
spasticity, pain and fatigue.
Specific Objectives
- To investigate whether Btx injections improve maximum gait velocity in patients with SPG
compared to injections of placebo.
- To investigate the effects of the treatment versus placebo over the following functional
measures: Spastic Paraplegia Rating Scale (SPRS), Visual Analogic Pain Scale, Brief Pain
inventory, Modified fatigue impact scale, Ashworth Spasticity and muscle strength
(through the Medical Research Council Scale) for adductors and triceps surae muscles.
Methods Patients Selection Patients will be selected during regular consultations at two
University Hospitals in Brazil: the University of Campinas (UNICAMP) and the Federal
University of Paraná (UFPR).
Sample size Estimate The sample size calculus was based on a recent exploratory study (Niet,
2015) where 15 patients with autosomal dominant spastic paraplegia were submitted to Btx
injections at the triceps surae. This provoked and increase in gait velocity of 9% after 4
weeks and of 12% after 18 weeks. Estimating a 12% effect for an alfa value of 0.08 and a p
value of 0.05, the investigators obtained a N of 54 individuals after correcting for possible
losses (approximately 10%). The Stata version 13.1 was used for the estimates.
Procedures All patients recruited will be randomized to receive injections of Prosigne
(Botulinum Toxin A) or a Placebo solution (sterile Sodium Chloride 0.9%). Each patient in the
treatment group will receive 400 units of botulinum toxin. 100 units will be injected at
adductors at each leg and 100 units will be applied in each triceps surae bilaterally. The
botulinum toxin as well as the placebo solutions will be prepared by a blind investigator.
Prosigne will be diluted with sterile sodium chloride (10U/0.2mL). Within 24 to 28 weeks of
the first treatment groups will be switched. Those patients that received botulinum toxin
will receive a placebo solution and vice-versa (crossover point). During the study, all
patients will be oriented to maintain the ongoing use of medications. They will receive an
explanatory sheet regarding stretching exercises, at least one month before receiving
treatment, and will be trained by a physiotherapist to execute those exercises twice a week.
Data analysis and interpretation Patients will be evaluated by an experienced and blind
neurologist regarding the efficacy parameters of the study. This evaluation will take place
immediately before each treatment section and 8 weeks after it. The primary outcome measure
will be maximum gait velocity. Each patient will be asked to walk a 10 meter distance
barefooted 3 times, as fast as he can. The average velocity between the 3 trials will be used
as the final measure. Assistive devices are permitted. Spastic Paraplegia Rating Scale
(SPRS), Ashworth modified spasticity scale, medical research council scale for muscular
strength (for adductors, thigh and triceps surae muscle groups), visual analogic scale of
pain, brief pain inventory and the modified fatigue impact scale, together with the 10 meter
comfortable walking velocity, will be evaluated at the same day as the primary outcome
measure and will serve as secondary outcome measures.
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