Trunk and hip muscle activity in early walkers with and without cerebral palsy – A frequency analysis

Poor control of postural muscles is a primary impairment in cerebral palsy (CP), yet core trunk and hip muscle activity has not been thoroughly investigated. Frequency analysis of electromyographic (EMG) signals provides insight about the intensity and pattern of muscle activation, correlates with functional measures in CP, and is sensitive to change after intervention. The objective of this study was to investigate differences in trunk and hip muscle activation frequency in children with CP compared to children with similar amounts of walking experience and typical development (TD). EMG data from 31 children (15 with CP, 16 with TD) were recorded from 16 trunk and hip muscles bilaterally. A time–frequency pattern was generated using the continuous wavelet transform and instantaneous mean frequency (IMNF) was calculated at each interval of the gait cycle. Functional principal component analysis (PCA) revealed that IMNF was significantly higher in the CP group throughout the gait cycle for all muscles. Additionally, stride-to-stride variability was higher in the CP group. This evidence demonstrated altered patterns of trunk and hip muscle activation in CP, including increased rates of motor unit firing, increased number of recruited motor units, and/or decreased synchrony of motor units. These altered muscle activation patterns likely contribute to muscle fatigue and decreased biomechanical efficiency in children with CP.     

A short isoform of STIM1 confers frequency-dependent synaptic enhancement

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PDMS device for patterned application of microfluids to neuronal cells arranged by microcontact printing.

A microfluidic device in polydimethylsiloxane (PDMS) consisting of an eight lines micro-injection array integrated in a base flow channel has been realized. The device is assembled from multiple PDMS parts, which have been moulded using notably micromachined masters in SU-8 photoresist. In contact with a planar substrate, up to eight independent laminar flow lines with cross-sections of 100 x 200 microm(2) can be generated. Dedicated for the application of pharmaceutical compounds to electrogenic cells in vitro, this device was tested with a neuronal cell line, Mz1-cells. These were cultured on lines of laminin deposited onto polystyrene substrates by microcontact printing. We were able to inject into this culture multiple lines of coloured PBS in parallel to the orientation of cellular growth. No mixing between the individual flow lines did occur.     

Uses and future applications of flow cytometry in immunotoxicity testing.

Flow cytometry is an emerging technology that has numerous applications to immunotoxicity testing. The use and development of high-speed single-cell laser-based assays capable of quantitation of fluorescence, light scatter, and electrical impedance measurements can provide important information on xenobiotic-induced toxicity in defined target cell populations. The purpose of this article is to briefly review established and emerging immunotoxicology assays that use flow cytometry. In the coming years it is likely that many new flow cytometry assays will be developed and validated that will improve the sensitivity and perhaps specificity of immunotoxicity testing. Since flow cytometry is readily adaptable to high-throughput screening, it is also likely that this technology will increasingly find its place in the preclinical testing of drugs and chemicals in the pharmaceutical and chemical industries.     

CIB2 and CIB3 are auxiliary subunits of the mechanotransduction channel of hair cells

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