Effects of sensory deficits on balance, functional status and trunk control in patients diagnosed with guillain-barre syndrome

High-Definition Trans-Spinal Current Stimulation Improves Balance and Somatosensory Control: A Randomised, Placebo-Controlled Trial

OBJECTIVES

To investigate and compare the effects of three different high-definition (HD) non-invasive current stimulation (NICS) protocols on the spinal cord on support balance and somatosensory abilities in healthy young people.

METHODS

Fifty-eight students were enrolled in this crossover study. All participants underwent application of (i) 1.5 mA anodal high-definition trans spinal direct current stimulation (HD-tsDCS), (ii) 1.5 mA cathodal HD-tsDCS, (iii) 1.5 mA high-definition trans spinal alternating current stimulation (HD-tsACS), and (iv) sham HD-tsDCS/ACS over the eighth thoracic vertebra in a randomised order. Balance (Y Balance test), deep sensitivity (Tuning Fork Test), and superficial sensitivity (Monofilament Test) of the lower limbs were tested immediately before and after each intervention.

RESULTS

Balance ability improved significantly following anodal HD-tsDCS and HD-tsACS compared with that following sham HD-tsDCS/ACS. Similarly, deep sensitivity increased significantly with anodal HD-tsDCS and HD-tsACS compared to that with sham HD-tsDCS/ACS and cathodal HD-tsDCS. Furthermore, superficial sensitivity improved significantly following anodal HD-tsDCS compared with that after HD-tsACS and cathodal HD-tsDCS.

CONCLUSIONS

Our data show that HD-tsNICS effectively modulates the balance and somatosensory control of the lower limbs. Several diseases are associated with illness-induced changes in the spinal network in parallel with sensorimotor disabilities. Non-invasive spinal modulation may be a favourable alternative to conventional brain applications in rehabilitation. Future studies should therefore investigate these promising approaches among cohorts of patients with disabilities.

Ultrasonography of abdominal muscles: Differential diagnosis of late-onset Pompe disease and myotonic dystrophy type 1

Introduction

Axial muscles are involved earlier and to a greater extent in late-onset Pompe disease (LOPD) than in myotonic muscular dystrophy type 1 (DM1). We aimed to evaluate abdominal muscles in LOPD compared in DM1 using muscle ultrasonography.

Methods

Patients with LOPD (n = 3), DM1 (n = 10), and age- and gender-matched healthy subjects (n = 34) were enrolled for muscle ultrasonography. Patients with LOPD and DM1 were 20 to 59 years of age with a disease duration ranging between 7 and 30 years. A multifrequency linear transducer was used to evaluate quality and thickness in the abdominal muscles and extremities.

Results

The quantitative muscle echo score revealed a higher Z score in abdominal muscles in Patients with LOPD (scores were relatively normal for the biceps and flexor digitorum groups). Patients with LOPD had significantly lower abdominal muscle thickness than patients with DM1. Abdominal muscle strength was significantly correlated with the muscle echogenicity, trunk impairment scale, and trunk control test. The extremities' sum score was correlated with the total Medical Research Council score.

Discussion

The increased quantitative muscle score in abdominal muscles, sparing the biceps and flexor digitorum groups, may offer differential diagnosis between LOPD and DM1. Ultrasound can easily access abdominal muscles and investigate muscle echogenicity and thickness. A quantitative approach using muscle echogenicity rather than muscle thickness may provide a greater correlation with trunk muscle function.

Validity, responsiveness, floor and ceiling effects of the Berg Balance Scale in patients with Guillain-Barré syndrome

We investigated the measurement properties of the Berg Balance Scale in patients with Guillain-Barré syndrome. A retrospective analysis was performed of 81 patients with Guillain-Barré syndrome of age 17-84 years who had completed inpatient rehabilitation over a 5-year period. They were assessed with the Berg Balance Scale, the 10 Meter Walk Test, and the 6 Minute Walk Test at admission and discharge. The concurrent validity of the Berg Balance Scale was confirmed by very good correlations with the 10 Meter Walk Test at admission and discharge (ρ = 0.83 and 0.78, respectively) and by excellent and very good correlations with the 6 Minute Walk Test at admission (ρ = 0.91) and discharge (ρ = 0.77). The predictive validity of the Berg Balance Scale for the 10 Meter Walk Test and the 6 Minute Walk Test at discharge was moderate (ρ = 0.62 and 0.61, respectively) and very good (ρ = -0.87) for length of stay. The minimal clinically important difference of the Berg Balance Scale was estimated to be 10 points. The scale was highly responsive to changes in balance (Cohen's d 0.9). No floor effect was identified. A ceiling effect was identified only at discharge. The Berg Balance Scale is feasible in patients with Guillain-Barré syndrome at admission and discharge from rehabilitation. However, a ceiling effect may occur at discharge in patients with high levels of balance.