Spinal Cord Stimulation in Spinal Muscular Atrophy

N/AActive Not RecruitingNCT05430113

Marco Capogrosso3 enrolled

Overview

Spinal cord stimulation (SCS) has shown remarkable efficacy in restoring motor function in people with spinal cord injury by recruiting afferent input to enhance the responsiveness of spared neural circuits to residual cortical inputs. This pilot will test if SCS can show evidence to improve motor deficits in people with type 3 or 4 spinal muscular atrophy (SMA). The investigators will enroll up to six subjects with Type 3 or 4 SMA aged 16 or older that show quantifiable motor deficits of the legs but are able to stand independently. The investigators will then implant the subjects with percutaneous, bilateral, linear spinal leads near the lumbar spinal cord for a period of up to 29 days. Although these leads are not optimized for motor function but rather for their clinically approved indication of treating pain, the investigators believe they provide a safe technology enabling our team to perform scientific measurement necessary to evaluate potential for effects of SCS in motor paralysis with SMA. After the end of the study, the leads will be explanted.

The investigators plan to 1. verify that spinal cord stimulation increases hip muscle strength in subjects with SMA, 2. verify that spinal cord stimulation improves motor control in subjects with SMA, 3. verify that spinal cord stimulation induces measurable changes in spinal circuits and motoneuron recruitment properties in the 29 day course of implantation.

Study Type

INTERVENTIONAL

Allocation

Purpose

BASIC_SCIENCE

Masking

NONE

Enrollment

Conditions

Spinal Muscular Atrophy Type 3

Eligibility

Sex: ALLMin age: 16 YearsMax age: 64 Years

Medical Language ↔ Plain English

Inclusion Criteria: 1. Subject or subject's parent or legal guardian (for minor subjects) has provided written informed consent and Health Insurance Portability and Accountability Act (HIPAA) authorization, where applicable, prior to any study-related procedures. Minor subjects will be asked to give written assent according to local requirements. 2. Subject has a diagnosis of 5q-autosomal recessive SMA confirmed by determination of a genetic deletion in the SMN1 gene (5q12.2-q13.3) 3. Subject is diagnosed as having Type 3 or Type 4 SMA based on the following criteria 1. Disease manifested after 18 months of age 2. Disease manifested after ambulation was acquired 4. Subject is ≥16 years of age and \< 65 years of age 5. Subject is able to stand independently for ≥3 seconds 6. RHS score lower or equal to 65 7. Subject (and subject's parent or legal guardian if subject is a minor) is willing and able to comply with scheduled visits and study procedures Exclusion Criteria: 1. Subject has deformation of the spinal canal preventing lead implantation as judged by the study neurosurgeon 2. Subject has size of spinal canal that is insufficient for lead implantation as judged by the study neurosurgeon 3. Subject has moderate or severe joint contractures that would affect ability to perform study measures 4. Subject has severe behavioral or cognitive problems that preclude participation in the study, in the opinion of the investigator 5. Subject has previous or ongoing medical condition, medical history, physical findings or laboratory abnormalities that could affect safety of anesthesia or the procedures, make it unlikely that intervention or follow-up will be correctly completed or impair the assessment of study results, in the opinion of the investigator 6. Female subjects are pregnant or breastfeeding 7. Subject has severe claustrophobia 8. Subject is on anticoagulant, anti-spasticity or anti-seizure medication within 4 weeks of lead implantation or requires these medications during the treatment phase of the study 9. Subject has medical implant that precludes magnetic resonance imaging

Outcomes

Primary Outcomes

Muscle Weakness

Isometric torque: measure the isometric torque produced by the subject at the hip during hip-flexion. Comparison of SCS-on with SCS-off performance. Success Criteria: ≥20% increased torque production over SCS-off baseline as measured during single-joint isometric torque.

Time frame: 29 days

Number and Severity of Adverse Events

Success Criteria: no serious adverse event related to the stimulation or intolerable adverse event reported

Time frame: 29 days

Secondary Outcomes

Muscle Weakness 2

Muscle activation: measure surface EMGs produced by the subjects during isometric movements of the hip, knee, and ankle in the HUMAC Norm and compare SCS-on with SCS-off performances. Meaningful Change:\<20% EMG RMS compared to SCS-on.

Time frame: 29 days

Motor Function ROM

Range of Motion (ROM): Meaningful Change: increase of \>20% of the hip joint (if available) and the knee joint (if available) during SCS against SCS-off as measured by the HUMAC NORM during single-joint isotonic trials.

Time frame: 29 days

Motor Function: 6-Minute Walk Teset

6 minute walk test: perform the 6-minute walk test with SCS-on and SCS-off and distance between SCS-on and SCS-off is set to 24 m. If not ambulator, any increased ambulation distance from SCS-off condition.

Time frame: 29 days

Motor Function RHS

The Revised Hammersmith Functional Scale is a further refined version of the Hammersmith Functional Motor Scale Extended and includes specific items focused on lower-limb motor control such as hip-flexion, standing and walking a that are particularly relevant for the type III population of study. The scale is a 36 item performance evaluation, with a score range from 0-69 in which higher scores indicate better performance. Meaningful Change: ≥2 point improvement. Compare outcomes between SCS-on and SCS-off. Motor Function Measure 32. The 32 items MFM is often used in trials of neuromuscular disorders, hence it provides a meaningful comparison against outcomes of other trials. Meaningful Change: ≥2 point improvement. Compare outcomes between SCS-on and SCS-off.

Time frame: 29 days

Motor Function: Fatigue

Fatigue will be assessed during motor function tests.

Time frame: 29 days

Discomfort/Pain

Patients will be asked to provide a score from 1 to 10 where a greater number indicates a greater amount of discomfort for each stimulation configuration. Spinal cord stimulation produces tingling sensations and other type of sensory phenomena. It is important to document that stimulation intensities required to improve motor function remain within a range of non-painful sensations.

Time frame: 29 days

Sensorimotor Network Structure Density

The investigators will perform High-definition Diffusion Weighted Imaging to quantify Fractional Anisotropy as a measurement of axon density in the brain and spinal cord pre and post study.

Time frame: 29 days

Impression

The investigators will collect subjects and therapist feedback on how the technology is performing and what they would want to modify using The Clinical Global Impression Scale, a scale of 1-7 where a lower number indicates better performance and a higher number indicates more greatly impacted by their disease.

Time frame: 29 days

Sensorimotor Network Structure Integrity

The investigators will perform High-definition Diffusion Weighted Imaging to quantify Fractional Anisotropy as a measurement of axon integrity in the brain and spinal cord pre and post study.

Time frame: 29 days

Sensorimotor Network Function

The investigators will perform resting state and motor-task functional MRI of the brain and spinal cord to quantify neural network activation at rest and during the execution of simple motor task such as leg muscle contraction.

Time frame: 29 days

Cortico-spinal Tract Integrity

The investigators will measure muscle evoked potential consequent to Transcranial Magnetic Stimulation of the cortico-spinal tract to assess integrity of the cortico-spinal tract.

Time frame: 29 days

Spinal Circuit Excitability

The investigators will measure H-reflexes of leg muscles to quantify excitability of spinal motoneurons to stimulation of primary sensory afferents pre and post-study. Expected Result: Our main scientific hypothesis is that SCS will restore monosynaptic responses of weak spinal motoneurons, thus increasing H-reflex responses pre and post-study.

Time frame: 29 days

Motoneuron Firing Rates

The investigators will use high-density EMGs on leg muscles to calculate firing rates of single spinal motoneuron discharge during isometric maximal voluntary contractions.

Time frame: 29 days

Motor Firing Number

The investigators will use high-density EMGs on leg muscles to calculate the number of firing rates of single spinal motoneuron discharge during isometric maximal voluntary contractions.

Time frame: 29 days

Spinal Cord Stimulation in Spinal Muscular Atrophy

Overview

Conditions

Interventions

Eligibility

Locations (1)

Outcomes

Primary Outcomes

Secondary Outcomes