Understanding brain injuries made easy: World’s tiniest hammer created!

19/02/2017

To better understand brain injuries and accurately measure the impact of force on brain cells, researchers have created the world's tiniest hammer.
This move may help pave the way for better treatments against traumatic brain injuries and diseases like Alzheimer's.
Called MicroHammer, the tiny machine has been built by researchers at University of California, Santa Barbara in the US.
"Mechanical forces have been shown to impact cells a lot," said Kimberly Turner from UC Santa Barbara.
Far from being isolated units of life, cells - stem cells in particular - take cues from their environment that, for example, direct them to differentiate into one type of cell or another, or to start healing processes.
However a major limitation to understanding the reactions of individual neural cells to forces has been the inability to reliably apply impact or pressure to them.
MicroHammer, a cellular-scale machine built to tap, strike, squeeze and poke individual neural progenitors elicits responses that will then be studied and recorded to add to a body of knowledge that can help unlock the mysteries of the brain.
Modelled after cell-sorting technology used typically for medical diagnostics and immunotherapies, the MicroHammer flows individual cells through and subjects each of them to one of a variety of physical forces.
"This project will enable precision measurements of the physical, chemical and biological changes that occur when cells are subjected to mechanical loading, ranging from small perturbations to high-force, high-speed impacts," said Megan Valentine from UC Santa Barbara.
"Our technology will provide significantly higher forces and faster impact cycles than have previously been possible, and by building these tools onto microfluidic devices, we can leverage a host of other on-chip diagnostics and imaging tools and can collect the cells after testing for longer-term studies," said Valentine. With the new devices and methods, Valentine said, the researchers expect to gain fundamentally new insight into the causes and progress of brain injuries due to trauma.
The MicroHammer is currently undergoing the process of characterisation, whereby the types and magnitudes of forces it can apply are being measured and recorded in anticipation of the first set of neuron-smashing experiments.
The knowledge gained by these experiments could pave the way toward a better understanding of neural conditions such as Alzheimer's disease as well as traumatic brain injury.
It may also lead to better prevention of such injuries by elucidating, for instance, what types of forces affect the neural cells most so helmets can be designed to buffer them.
It will have broad applications beyond brain cell research and help researchers gain insight on how forces affect other cells and tissue types.

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