Wednesday 20 March 2013

Smart contact lenses exploit the unusual characteristics of the eye

EYES will reveal an awful heap regarding someone. examine someone’s eyes and you'll be able to tell if he's happy or unhappy, truthful or insincere, sober or drunk. By peering deeper still, ophthalmologists are even ready to gauge a person’s health, recognizing way more than simply conditions that have an effect on the attention itself: hypertension and brain tumours can even be diagnosed by examining the retina. Eyes are in several respects windows on the body, though they're virtually windows on the soul.

And currently contact lenses, normally used to bring the surface world into focus, are creating it doable to look back in through these windows. the concept of “smart” contact lenses that may superimpose info on the wearer’s field of read has been around for a short time, however contact lenses are being developed that use embedded sensors and electronics to watch disease and dispense medicine. Such devices could eventually be ready to live the extent of cholesterol or alcohol in your blood and flash up an applicable warning.

The technology has huge potential, says Babak Parviz, a researcher at the University of Washington, in Seattle, who is one among the pioneers of sensible contact lenses. Such lenses may act as each sensors and displays, providing new ways in which for information to pass in and out of the body. By adding small light-emitting parts to contact lenses, it's changing into doable to map digital pictures directly onto the wearer’s field of vision to form a head-up show or augmented-reality overlay that needs no glasses, screen or headset. “The final goal would be to own a completely fledged show,” says Dr Parviz.
The first sensible contact lenses are already on the market. The Triggerfish, created by Sensimed, a spin-off from the Swiss Federal Institute of Technology in Lausanne, could be a wirelessly powered contact lens designed to assist folks with glaucoma manage their treatment. It will this by continuously measuring the curvature of the attention over a 24-hour amount employing a small strain gauge, engineered using micro-electromechanical system (MEMS) technology, that is incorporated into the lens.

In patients with glaucoma, fluid builds up inside the attention and puts pressure on the optic nerve. If it isn’t treated properly this could irreversibly harm the patient’s vision, says Jean-Marc Wismer, Sensimed’s chief govt. however determining the right drug treatment depends upon initial knowing when throughout the day the intraocular pressure (IOP) peaks.

The profile of this pressure is believed to follow characteristic circadian patterns. however at the instant there's no technology that may live it continuously. “The customary these days is to position patients in an exceedingly laboratory for twenty-four hours,” says Mr Wismer. throughout now a patient’s IOP will be measured each few hours employing a customary machine known as a Goldmann tonometer. however though this approach will live the IOP terribly effectively, it's unable to try to to therefore continuously.


By measuring the changes within the curvature of the attention caused by a build-up of internal pressure, Sensimed’s Triggerfish lens will build up a far a lot of correct profile. additionally to the strain gauge, all the electronics needed to handle the signal-processing and communications are embedded inside the silicone lens (pictured).

An induction loop is employed to power the device and to relay information from the lens to a receiver worn by the patient. (Induction loops are used to power hearing-aid implants while not the requirement for troublesome wires.) Since the tip of 2010 the technology has been offered in eight European countries, and approval in America is predicted by the tip of this year, in step with Mr Wismer. “We currently have regarding two hundred patients in total,” he says.
Tears contain charged atoms that interfere with the operation of a wise lens’s built-in antenna

The device will have one vital disadvantage, however. The short vary of the induction-loop antenna within the lens suggests that the external antenna has got to be terribly near the eye: taped round the eye socket, in fact. carrying alittle chip in your eye (normal vision isn't impaired) appearance strange enough, however having an enormous monocle taped to your head appearance stranger still.

It is but ideal, Mr Wismer admits, however his firm’s device isn't meant to be worn continuously. Instead, the concept is that it might be worn for twenty-four hours once each six months or therefore. The hope is that this device can facilitate to boost the treatment of glaucoma by illuminating the link between variations within the IOP and also the progression of the disease.

Another sensible contact lens is, however, designed to be worn continuously. though still below development, this lens is geared toward treating diseases instead of monitoring them. it's been developed by Daniel Kohane, a professor of anaesthesiology and director of the Laboratory for Biomaterials and Drug Delivery at the Children’s Hospital in Boston. His sensible lenses are designed to unharness medicine slowly into the attention over an extended amount.

Compared with the simplicity of eye drops this could appear a little over the highest, however there are superb reasons to develop this type of technology, says Dr Kohane. “Eye drops don't seem to be terribly efficient—only alittle fraction really gets into the attention,” he says. “But the larger downside is compliance.” a typical downside with ophthalmic diseases is that patients fail to use their eye drops as prescribed. “Things that ought to work don’t work, which ends up in an escalation of the disease and also the therapy.”
A new perspective on drug delivery

Dr Kohane’s resolution is to form a sort of contact lenses that has encapsulated inside it a pouch containing a drug. “It’s a flat toroid or doughnut created out of a permeable polymer that contains the drug,” he says. “As the film degrades it releases the drug, leaching out slowly.” The payload may be nearly something, like a painkiller, an antibiotic or an anti-inflammatory drug. In vitro experiments have showed that such a lens may still unharness ciprofloxacin, an antibiotic, in an exceedingly controlled manner for over one hundred days.

The current style is solely passive, however Dr Kohane is currently performing on a version that may be triggered in response to a specific stimulus. If his lens were to be combined with sensors like those found within the Triggerfish, for instance, it might be doable to watch the IOP and deliver glaucoma medicine when it peaks. however there are alternative things that got to be taken under consideration. “If I cough, my IOP goes up,” says Dr Kohane. a wise contact lens would got to be clever enough to deal with this.

An additional concern is that the result his therapeutic lens could have on the wearer’s vision. “A concern is that because the drug is released, the amendment in form can alter the main target of the patient,” says Dr Kohane. this is often one reason why the pouch is doughnut-shaped, in order that it wraps round the pupil while not obscuring the wearer’s vision. “As a lot of} as we are able to tell that doesn’t amendment it much,” he says.

Smart contact lenses don’t simply got to specialize in monitoring or treating the eyes. Dr Parviz has been developing a distinct style of lens supposed for monitoring glucose levels in folks with diabetes. the attention could be a surprisingly smart place to try to to this non-invasively, as a result of glucose levels in tear fluid correspond on to those within the blood, he says. this suggests levels will be continuously gauged while not most as a pinprick.

To measure the glucose level Dr Parviz uses a way known as amperometric sensing that involves measuring the changes in small currents between sets of electrodes. just like the Triggerfish, the lens is powered and communicates wirelessly. however his style encompasses a bigger vary, therefore no induction loop round the eye is required.

Tests on rabbits have showed that the lenses work and might detect even terribly low glucose levels, says Dr Parviz. however there's a haul with using amperometric sensing: the electrodes don't seem to be sealed inside the lens, and so are exposed. Proteins then build up on the sensors, affecting their operation and reducing the helpful lifespan of the lens. it's doable that cleaning the lens often may scale back this downside, however it's unclear what result lens-cleaning fluid would have on its built-in electronics. Tears additionally create a haul, as a result of they contain electrically charged atoms, or ions, that interfere with the operation of the sensible lens’s built-in antenna.

As with Sensimed’s device, all the electronics and sensors in Dr Parviz’s contact lens are located outside the central space of the lens, to avoid interference with the wearer’s vision. however Dr Parviz needs to feature show parts, within the type of small embedded light-emitting diodes (LEDs), to his lenses in order that they'll overlay info on the wearer’s field of read.

Dr Parviz has already demonstrated that red and blue dots, or pixels, will indeed be embedded in lenses, though inexperienced also will be needed to form a full-colour show. He has shown that the pixels will be powered wirelessly and he has demonstrated that he will shrink the optics needed to bring these dots of sunshine into focus, even once they are therefore near the attention. So far, however, the closest Dr Parviz has come back to making an actual show could be a lens containing a grid of simply eight pixels.

Given the ubiquity of high-definition screens containing uncountable pixels this could not appear terribly spectacular. however it's value remembering that this is often far more troublesome than making traditional displays. Quite except for the challenges of powering such alittle device and bringing the pixels into focus, the tiny size of a contact lens implies that the pixels can got to be a lot of smaller than those in an exceedingly typical laptop monitor or mobile-phone show so as to supply an analogous resolution. “Our smallest ones are regarding fifty microns across,” he says. “We will positively build them smaller.” He can have to: a pixel on a high-resolution iPhone screen, by comparison, is regarding eighty microns (millionths of a metre) across.

It is still early days for this new field. Dr Parviz’s immediate goals are to make straightforward, low-resolution displays, and to develop alternative varieties of biosensor, like one capable of measuring lactic-acid levels in athletes throughout coaching. As he and alternative researchers develop sensible contact lenses with new capabilities, this is often a technology that's value keeping a watch on.

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