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| Tiny chip could diagnose disease | Tiny chip could diagnose disease |
| (about 23 hours later) | |
| Researchers have demonstrated a tiny chip based on silicon that could be used to diagnose dozens of diseases. | Researchers have demonstrated a tiny chip based on silicon that could be used to diagnose dozens of diseases. |
| A tiny drop of blood is drawn through the chip, where disease markers are caught and show up under light. | A tiny drop of blood is drawn through the chip, where disease markers are caught and show up under light. |
| The device uses the tendency of a fluid to travel through small channels under its own force, instead of using pumps. | The device uses the tendency of a fluid to travel through small channels under its own force, instead of using pumps. |
| The design is simpler, requires less blood be taken, and works more quickly than existing "lab on a chip" designs, the team report in Lab on a Chip. | The design is simpler, requires less blood be taken, and works more quickly than existing "lab on a chip" designs, the team report in Lab on a Chip. |
| It has a flexible design so that it could be used for a wide range of diagnostics. | It has a flexible design so that it could be used for a wide range of diagnostics. |
| Much research in recent years has focused on the chemical and medical possibilities of so-called microfluidic devices at the heart of lab-on-a-chip designs. | Much research in recent years has focused on the chemical and medical possibilities of so-called microfluidic devices at the heart of lab-on-a-chip designs. |
| These microfluidics contain between dozens and thousands of tiny channels through which fluids can flow, and as micro-manufacturing methods have advanced, so has the potential complexity of microfluidics. | These microfluidics contain between dozens and thousands of tiny channels through which fluids can flow, and as micro-manufacturing methods have advanced, so has the potential complexity of microfluidics. |
| Now, scientists at IBM's research labs in Zurich have developed a cheap lab-on-a-chip that has the potential to diagnose dozens of diseases. | Now, scientists at IBM's research labs in Zurich have developed a cheap lab-on-a-chip that has the potential to diagnose dozens of diseases. |
| Bind and shine | Bind and shine |
| The device relies on an array of antibody molecules that are designed to latch on to the protein-based molecular markers of disease in blood. | The device relies on an array of antibody molecules that are designed to latch on to the protein-based molecular markers of disease in blood. |
| The antibodies are chemically connected to molecules that emit light of a specific colour when illuminated - but only when they have bound to the disease markers. | The antibodies are chemically connected to molecules that emit light of a specific colour when illuminated - but only when they have bound to the disease markers. |
| "There are devices that have been developed in microfluidics to do analysis of proteins, but most of them use active pumping and electrical components," said Luc Gervais, a co-author on the study. | "There are devices that have been developed in microfluidics to do analysis of proteins, but most of them use active pumping and electrical components," said Luc Gervais, a co-author on the study. |
| "They're very complex systems; this makes them less easy to use by non-trained personnel - and it makes them a lot more expensive to manufacture," Dr Gervais told BBC News. | "They're very complex systems; this makes them less easy to use by non-trained personnel - and it makes them a lot more expensive to manufacture," Dr Gervais told BBC News. |
| ...and the design of the "capillary pump" affects how fast blood moves | ...and the design of the "capillary pump" affects how fast blood moves |
| Instead, the new device exploits capillary action, the tendency of fluids to climb through narrow channels - the same phenomenon that drives water into a sponge placed on a wet surface. | Instead, the new device exploits capillary action, the tendency of fluids to climb through narrow channels - the same phenomenon that drives water into a sponge placed on a wet surface. |
| The speed with which blood is drawn through the chip can be controlled by the design of the micro-channels on the device. Those channels can be designed with incredible precision on a silicon chip - something with which IBM has significant experience. | The speed with which blood is drawn through the chip can be controlled by the design of the micro-channels on the device. Those channels can be designed with incredible precision on a silicon chip - something with which IBM has significant experience. |
| The microchannel-patterned chip is then sealed with a special polymer called polydimethylsiloxane, to which the "detector" antibodies easily bond. | The microchannel-patterned chip is then sealed with a special polymer called polydimethylsiloxane, to which the "detector" antibodies easily bond. |
| Different antibodies can be placed in a number of distinct channels, making it possible to diagnose a range of different diseases simultaneously. | Different antibodies can be placed in a number of distinct channels, making it possible to diagnose a range of different diseases simultaneously. |
| Such wide-ranging studies can be done in large analysers, found in the central laboratories of hospitals. | Such wide-ranging studies can be done in large analysers, found in the central laboratories of hospitals. |
| "Typically you'll take a couple of millilitres of blood, send it to the central lab and it can take up to an hour or even more to get the results," Dr Gervais said. | |
| "In our case you can get a quantitative analysis of the patient's blood within just a few minutes at the bedside of the patient." | "In our case you can get a quantitative analysis of the patient's blood within just a few minutes at the bedside of the patient." |
| What is more, it can be done with just a few microlitres of blood - a thousand times less - an amount that could be collected with a prick of a finger instead of a syringe. | What is more, it can be done with just a few microlitres of blood - a thousand times less - an amount that could be collected with a prick of a finger instead of a syringe. |
| While the approach will make diagnosis cheaper, co-author Emmanuel Delamarche said the key aspect of the approach is its speed. | While the approach will make diagnosis cheaper, co-author Emmanuel Delamarche said the key aspect of the approach is its speed. |
| "We are giving back precious minutes to doctors so they can make informed and accurate decisions right at the time they need them most to save lives." | "We are giving back precious minutes to doctors so they can make informed and accurate decisions right at the time they need them most to save lives." |
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