in the news... / Ophthalmology

Keeping Up With the Progress of Progressive Lenses

by Brian Klein on Feb 21, 2012
Keeping Up With the Progress of Progressive Lenses

Progressive lenses made their commercial debut in the middle of the last century. Also known as progressive addition lenses (PAL), the lenses enable eyeglass wearers to transition from distance to near vision without the image jumping when the eyes shift from one distance zone to another. They also have a cosmetic benefit: there is no line as there is with bifocals.

In the past, producing these lenses was no easy feat. The traditional process required a semi-finished lens with a standard front. The prescription would be ground onto the back surface with a generator. Calculating the geometry to impart on the lens involves complicated mathematics. “You can imagine doing this without Excel spreadsheets to do all of your calculations,” says Dennis Fong, OD, clinical instructor at the UC Berkeley School of Optometery. “Everything was originally done by hand and then you see pictures of these old generators that made forms and then you use the forms to create the complex curvature.”

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Genetics / Informatics

USB-Powered DNA Nanopore Sequencing for $900

by Gavin Corley on Feb 21, 2012
USB-Powered DNA Nanopore Sequencing for $900

Nanopore sequencing has been promised as a technique that will revolutionize genomics for quite a few years, and it looks like we will finally see some real-world results soon. Oxford Nanopore Technologies from Oxford in the U.K. has just announced two systems for DNA sequencing, a high throughput system called GridION and a smaller USB-powered miniature sequencer called the MinION. Both devices take advantage of proprietary nanopore sensing techniques as explained in the video below.

The GridION system consists of scalable nodes which use consumable cartridges to perform multi-nanopore sensing. Each node is capable of delivering tens of gigabytes of sequence data per day. The MinION system is a miniaturized version of the GridION node and cartridge. It is a disposable, portable DNA sequencing device the size of a large USB memory stick which is expected to retail for less than $900.

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in the news...

FutureMed: Taking Electronics Out of the Proverbial Box

by Medgadget Editors on Feb 21, 2012
FutureMed: Taking Electronics Out of the Proverbial Box

“We are trying to reshape electronics to advance the quality of life,” said David Icke, CEO of MC10 at a special FutureMed-organized event on the evening of February 10. Icke explained that his company was working to free “electronics from the tyranny of rigid wafers,” enabling them to interface with soft tissue.

While the exponential pace of development has enabled phenomenal gains in computing power, modern electronics are typically rigid and packaged into boxy devices. It is certainly true that the mobile paradigm has changed how (and how often) we interact with electronic devices, but Icke predicts that further changes are on the horizon and that the next big trend will be conformable electronics.

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in the news...

Spider Silk-Inspired Biomedical Thread

by Shiv Gaglani on Feb 21, 2012
Spider Silk-Inspired Biomedical Thread

Spider webs are commonly known as a frustration when  cleaning the house, or as a source of anger when walking into one while hiking or camping. However, thanks to researchers at University of Akron they may now be associated with a more positive, biomedical application: sutures with embeddable drugs for wound healing.

Writing in a recent issue of Langmuir, the researchers describe employing…

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Dentistry

Dental CR Reader Featuring Tablet Support

by Jan Sinnige on Feb 21, 2012
Dental CR Reader Featuring Tablet Support

3DISC Imaging inc., Dulles, VA, a manufacturer of digital imaging products, has developed a compact imaging device that provides reading of reusable dental imaging plates. The FireCR Dental Reader features a tablet computer to immediately view and share imaging results at the chair side and features touch screen software that provides dentists with immediate access to the history of the patient’s dental images.

The reader is DICOM 3.0 compatible with existing systems and uses low-cost, reusable imaging plates in a variety of sizes, including bite-wing and intraoral dental imaging plates.

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Neurology / Rehab

New Tongue Drive System Uses Dental Retainer to Operate Wheelchair

by Stanley Darma on Feb 21, 2012
New Tongue Drive System Uses Dental Retainer to Operate Wheelchair

It’s been a while since we covered news about the tongue controller which enables quadriplegics the ability to operate wheelchairs and other devices by moving their tongues. The newest prototype of the Tongue Drive System makes use of a dental retainer with sensors to help control the system. The embedded sensors within the retainer track the movements of a small magnet attached to the tongue.

Problems related to using a headset as the magnet sensor in the earlier version of the system required the team to try a wireless dental retainer. The retainer is powered by a rechargeable lithium-ion battery and makes use of magnetic field sensors on the four corners of the device to track the magnet’s movements. The sensors transmit their information to an iPod or iPhone and special software enables the mobile device to control the movements of a cursor on a computer screen or to work as a substitute for a joystick in a powered wheelchair.

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in the news... / Space Medicine

Man Meets Machine in Outer Space

by Stanley Darma on Feb 20, 2012
Man Meets Machine in Outer Space

Last Wednesday the first handshake in space between a human and a humanoid took place when commander Daniel Burbank of the International Space Station (ISS) shook hands with Robonaut 2, NASA’s humanoid robot. You may remember Robonaut 2 from last year, when we reported about it (or should we say him?) after it appeared during the Super Bowl commercial break.

Robonaut 2, successor to the original Robonaut and also known as R2, is the first dexterous humanoid robot in space. R2 is capable of speeds more than four times faster, is more compact, is more dexterous and includes a deeper and wider range of sensing than its predecessor. NASA designed Robonaut to help humans work and explore in space and has sent it to the International Space Station as part of the STS-133 mission. Currently, R2 has no lower body and is deployed on a fixed pedestal. Future versions should give it legs and enable the robot to go outside the space station into the vacuum of space, and maybe practice a bit of medicine while inside.

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Ob/Gyn / Surgery / Urology

Olive Medical Releases Budget Conscious HD Surgical Camera

by Gene Ostrovsky on Feb 20, 2012
Olive Medical Releases Budget Conscious HD Surgical Camera

Olive Medical has released its fully HD surgical camera that captures images at 1080p resolution.

The company claims this is the only camera in the industry to actually capture the image at full 1080p, rather than relying on post processing to get up to full HD. Indeed it is a public secret within the industry that virtually all camera systems advertised as HD actually capture images at far lower resolutions and actual sensor brand and specifications are usually a well-kept secret. Because of the native HD acquisition, the camera system is also ten times faster according to the company. Nevertheless, Olive claims that this is a budget camera that offers high quality imaging at a low cost.

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in the news...

Paper-Based Microfluidic Technology May Let You Print Your Own Health Tests

by Gavin Corley on Feb 20, 2012
Paper-Based Microfluidic Technology May Let You Print Your Own Health Tests

As a field which seems to be generating a stream of continual innovation and promise, microfluidic technologies for point of care testing are no stranger to the pages of Medgadget. A recent innovation in this field is the development of low-cost, paper-based, printable microfluidic platforms. A recent study in the journal Biosensors and Bioelectronics by researchers at the University of Shandong and the University of Jinan in China describes a new paper-based electrochemical immunoassay device for point of care testing.

The sensor is comprised of one layer of wax-patterned paper, and one layer of screen-printed electrodes on a transparent polymer substrate. The device works like may of the existing microfluidic cartridges with samples deposited in the patterned wells where electrical readings are performed via the electrodes to determine analyte concentrations in the sample. The new sensor demonstrated a high level of linearity over a range of sample concentrations.

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