A new nanoprobe can slip stealthily into a cell and give researchers an opening to monitor the cell's insides for up to a week. That could make the tiny inorganic device the first to implant within a cell without damaging it.
Such devices could eventually allow researchers to insert medication into cells, improve attachments involving artificial limbs or deep , and enable much longer study of signal-firing neurons and other cells.
The 600-nanometer-long silicon probe is somewhat larger than a virus but smaller than bacteria. It penetrates the cell membranes by imitating the design of proteins that normally act as gatekeepers, letting certain thing in or out.
Stanford University engineers coated the tips of the silicon nanoprobes with three layers of metal -- a gold layer sandwiched between two chromium layers -- to mimic the sandwich structure of the cell. Cell membranes include outer hydrophilic (water-loving) layers sandwiching an inner hydrophobic (water-repellant) zone.
The metal-coated probe may immediately give researchers the ability to monitor the electrical signals within cells as they communicate with each other or respond to medication. That would replace the current method of using a "patch clamp" to monitor cell signals, which suctions open a hole in the cell wall and kills the cell within an hour or two.
"If the stealth probe will give us a long-term patch clamp, we'll really be able to get the ability to watch these networks over long periods of time, perhaps up to a week," said Nick Melosh, a materials scientist and engineer at Stanford University.
But first, Melosh and fellow researcher Benjamin Almquist want to test the probe's functionality in carrying out all those applications. They're working with human red blood cells and cervical cancer cells, as well as hamster ovary cells.
Beautiful, way to go!
A step towards integrating nano-machines with cells...
Resistance is futile!
Awesome discovery, I am sure it would lead to better drug non obtrusive delivery mechanisms and in better understanding the cell function and structure.
I cannot stop but wonder if it would also lead to thought policing and other dreadful things that we have until now only imagined. I pray not!
soon enough they will be able to mess with our very DNA and I shall become the emperor of all insults BUHAHAHAHAHAHAHAHA!