A Movement Monitor Based on Magneto-Inertial Sensors for Non-Ambulant Patients with Duchenne Muscular Dystrophy: A Pilot Study in Controlled Environment.

UNLABELLED:Measurement of muscle strength and activity of upper limbs of non-ambulant patients with neuromuscular diseases is a major challenge. ActiMyo® is an innovative device that uses magneto-inertial sensors to record angular velocities and linear accelerations that can be used over long periods of time in the home environment. The device was designed to insure long-term stability and good signal to noise ratio, even for very weak movements. In order to determine relevant and pertinent clinical variables with potential for use as outcome measures in clinical trials or to guide therapy decisions, we performed a pilot study in non-ambulant neuromuscular patients. We report here data from seven Duchenne Muscular Dystrophy (DMD) patients (mean age 18.5 ± 5.5 years) collected in a clinical setting. Patients were assessed while wearing the device during performance of validated tasks (MoviPlate, Box and Block test and Minnesota test) and tasks mimicking daily living. The ActiMyo® sensors were placed on the wrists during all the tests. Software designed for use with the device computed several variables to qualify and quantify muscular activity in the non-ambulant subjects. Four variables representative of upper limb activity were studied: the rotation rate, the ratio of the vertical component in the overall acceleration, the hand elevation rate, and an estimate of the power of the upper limb. The correlations between clinical data and physical activity and the ActiMyo® movement parameters were analyzed. The mean of the rotation rate and mean of the elevation rate appeared promising since these variables had the best reliability scores and correlations with task scores. Parameters could be computed even in a patient with a Brooke functional score of 6. The variables chosen are good candidates as potential outcome measures in non-ambulant patients with Duchenne Muscular Dystrophy and use of the ActiMyo® is currently being explored in home environment. TRIAL REGISTRATION:ClinicalTrials.gov NCT01611597

Sitting in patients with spinal muscular atrophy type 1 treated with nusinersen.

AIM: To determine factors associated with acquisition of a sitting position in patients with spinal muscular atrophy type 1 (SMA1) treated with nusinersen. METHOD: Using data from the registry of patients with SMA1 treated with nusinersen, we compared the subgroups of sitters and non-sitters after 14 months of therapy as a function of baseline level, SMN2 copy number, age at treatment initiation, and improvement at 2 and 6 months post-treatment initiation. We used Hammersmith Infant Neurological Examination, Section 2 (HINE-2) and Children's Hospital of Philadelphia Infant Test of Neuromuscular Disorders for motor evaluation. RESULTS: Fifty children (22 females, 28 males), mean age 22 months (SD 20.7; range 2.5-102.8mo) were treated. Data on sitting position acquisition were collected for 47 patients at month 14. Fifteen patients were able to sit unassisted; 11 of 15 had a baseline HINE-2 score of at least 2 points and 11 of 14 had an improvement over baseline of at least 2 points at month 6. Patients who improved by 2 or more points at month 6 were three times more likely to be sitters at month 14 than those who did not. INTERPRETATION: High baseline motor function and improvement in HINE-2 score after 6 months of treatment are associated with the probability of acquiring a sitting position in patients with SMA1 treated with nusinersen. WHAT THIS PAPER ADDS: Fifteen of 47 patients with spinal muscular atrophy could sit unaided 14 months after treatment with nusinersen. The number of SMN2 copies were not predictive of acquisition of a sitting position. Baseline condition and clinical response after 6 months of treatment were most predictive of sitting position acquisition

Upper limb disease evolution in exon 53 skipping eligible patients with Duchenne muscular dystrophy.

OBJECTIVE: To understand the natural disease upper limb progression over 3 years of ambulatory and non-ambulatory patients with Duchenne muscular dystrophy (DMD) using functional assessments and quantitative magnetic resonance imaging (MRI) and to exploratively identify prognostic factors. METHODS: Forty boys with DMD (22 non-ambulatory and 18 ambulatory) with deletions in dystrophin that make them eligible for exon 53-skipping therapy were included. Clinical assessments, including Brooke score, motor function measure (MFM), hand grip and key pinch strength, and upper limb distal coordination and endurance (MoviPlate), were performed every 6 months and quantitative MRI of fat fraction (FF) and lean muscle cross sectional area (flexor and extensor muscles) were performed yearly. RESULTS: In the whole population, there were strong nonlinear correlations between outcome measures. In non-ambulatory patients, annual changes over the course of 3 years were detected with high sensitivity standard response mean (|SRM| ≥0.8) for quantitative MRI-based FF, hand grip and key pinch, and MFM. Boys who presented with a FF27% were able to bring a glass to their mouth and retained this ability in the following 3 years. Ambulatory patients with grip strength >35% of predicted value and FF <10% retained ambulation 3 years later. INTERPRETATION: We demonstrate that continuous decline in upper limb strength, function, and MRI measured muscle structure can be reliably measured in ambulatory and non-ambulatory boys with DMD with high SRM and strong correlations between outcomes. Our results suggest that a combination of grip strength and FF can be used to predict important motor milestones

EGR2 mutation enhances phenotype spectrum of Dejerine-Sottas syndrome

International audienc

Clinical features of the DMD patients ordered by increasing age.

<p>Clinical features of the DMD patients ordered by increasing age.</p

Patient flow-chart.

<p>Patient flow-chart.</p

Reliability between test and retest for all the tasks evaluated for each ActiMyo^® variable.

<p><b>◇</b> MoviPlate; <b>⬜</b> BBT; <b>△</b> Minnesota test; <b>✱</b> Writing;<b>×</b> PC typing.</p

The tools.

<p><b>(A)</b> First version of ActiMyo^®, used in the current study. <b>(B)</b> Box and Block test. <b>(C)</b> Minnesota test with five discs.</p

The maximal scores on tasks completed by each patient at the two visits sorted by the decreasing age.

<p>The maximal scores on tasks completed by each patient at the two visits sorted by the decreasing age.</p

Correlation between the ActiMyo^® variables and the functional scores.

<p>Correlation between the ActiMyo^® variables and the functional scores.</p