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Child Neuropsychology

A blog by Dr Jonathan Reed

  • I am a avid user of Twitter and find all sorts of interesting information on there. As with the web, however it is difficult to sort out what is important. It also moves so fast that it is hard to keep track. This post highlights some important tweets I have seen regarding advances in neuroscience in the last two weeks.

    1. Repairing brain cells- Researchers at the Montreal NeurologicaI Institute and Hospital (The Neuro) and McGill University group at Montral University have developed a new technique to help repair damaged nerve cells. The study was in the October 7 issue of Journal of Neuroscience. They show that it is possible to use plastic beads coated with a substance that encourages adhesion to help cells grow and form new synapses. You can read about this study here

    2 Gene therapy. A study reported in Nature News investigated possible gene therapy for Parkinson’s disease. Parkinson’s disease is a neurological condition affecting motor control and is associated with a depleted neurotransmitter, dopamine. St├ęphane Palfi, a neurosurgeon at the French Atomic Energy Commission’s Institute of Biomedical Imaging in Orsay, and his colleagues simulated Parkinson’s disease in monkeys and then injected the monkeys’ brains with three genes essential for synthesizing dopamine. They saw significant improvements in motor behaviour after just two weeks, without any visible adverse effects. “We don’t see any problems in these monkeys,” says Palfi. One animal even exhibited sustained recovery more than 3.5 years later. You can read about this study here.

    3. Understanding brain development. Researchers at the Stanford University School of Medicine have identified a key molecular player in guiding the formation of synapses. The paper, published online Oct. 8 in the journal Cell, looks at the interaction between neurons and astrocytes. The relationship is complicated but to quote from the report in science daily “It is commonly agreed that the precise placement and strength of each person’s trillions of synaptic connections closely maps with that person’s cognitive, emotional and behavioral makeup. But exactly why a particular synapse is formed in a certain place at a certain time has largely remained a mystery. In 2005, Barres took a big step toward explaining this process when he and his colleagues discovered that a protein astrocytes secrete, called thrombospondin, is essential to the formation of this complex brain circuitry.

    In this new study, Barres, lead author Cagla Eroglu, PhD, and their colleagues demonstrate how thrombospondin binds to a receptor found on neurons’ outer membranes. The role of this receptor, known as alpha2delta-1, had been obscure until now. But in an experiment with mice, the scientists found that neurons lacking alpha2delta-1 were unable to form synapses in response to thrombospondin stimulation.

    The researchers stimulated neurons with thrombospondin and found, those neurons produced twice as many synapses in response to stimulation than did their ummodified counterparts. Understanding this key mechanism could help explain children’s brains development and why this goes wrong for some children. Understanding the biochemistry holds out hope for future treatments. You can read the full report here.

    4. Computer games and rehabilitation. Every week there are reports on how computer games can help learning. As you will see from previous posts on this blog I am great believer in the potential of computer games for rehabilitation and learning. Just one interesting post this week shows an initiative to help individuals with strokes to regain movement using computer game technology. Read about it here.

    This is just a small selection of the information I am finding on Twitter. It shows some of the advances that are being made to understand and help individuals with neurological illness. You can follow me on Twitter here.

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