How are you influencing wireless medicine?
High end computer aided design (CAD) software can give medical device designers a competitive edge. Although many designers characterize their work as too simple, using high end software can carry a company to the top. By designing products quickly and efficiently with high end CAD, designers can introduce products to the market before competitors, leading to higher quality and less cost with future designs.
Laser plastic welding is helping to pave the way for a new era of medical devices. As a technique for bonding two or more thermoplastic components together, it has advantages to other methods, including cleanliness, precision, hermetic sealing, and quality controls. Moreover, laser plastic welding brings economic efficiencies, design flexibility, aesthetic welding, and new material options to the medical manufacturing industry.
Patients with age-related macular degeneration (AMD) are at a high risk for vision loss. However, new wireless technology can aid the preservation of eyesight. Using cellular technology provided by Telenor Connextion, Notal Vision has recently enhanced its ForseeHome AMD Monitor, the first FDA cleared telemedicine device for monitoring the vision of patients with AMD. Equipped with psychophysical testing and wireless communication, the ForeseeHome operates as a home-based monitoring technology capable of saving one’s eyesight.
The Dynamic Thorax Phantom, a high-quality, cost-effective device has been produced for the treatment of lung cancer. This latest innovation in lung cancer radiation treatment was developed by CIRS, along with aid from BBG to manufacture the device. BBG was most crucial in the development of the control unit after enlisting Buckeye Shapeform to create custom enclosures.
Millstone Medical works with SencorpWhite’s CeraTek pouch and tray sealers to deliver high quality packaging for top medical manufacturers. SencorpWhite helps Millstone to meet quality requirements, and also provides the documentation Millstone needs for validation. The company’s successful relationship with SencorpWhite allows manufacturers to depend on Millstone for top rate packaging.
When an older instrument requires highly interruptive engineering demands to keep it on the market, some companies may seek engineering resources to support their legacy product line, which can be a viable and highly cost-effective solution. To better understand the feasibility and benefits of strategic partnerships, Celestica conducted an IVD instrument refresh project to discover unknown cost reduction options, and alleviate risks within the product lifecycle. For the project, a special task force was assembled, and important findings were established.
Demands on components increase with the advancing miniaturization in medical engineering. However, an important prerequisite for such advancement is the choice of the matching drive. Piezo-based drive solutions have thrived for quite some time in the semiconductor, biotechnology, and metrology industries. In addition, piezo-based drives are being used more often in medical engineering. Piezo elements and piezo actuators are ideal for medical applications because they generate linear motions very precisely without detours, and they are easily matched to the relevant application environment. Their small size means that not only laboratory applications can be realized, but also an increasing number of mobile solutions, be it in mobile measuring instruments, portable laboratories, infusion devices, or therapeutic equipment.
Subminiature LVDT Linear Position Sensor Serves as Critical Component in Ophthalmic Ultrasound SystemJuly 25, 2011 11:21 am | by Eileen Otto & Jean Carl | Comments
The Eye Cubed has been released by Ellex Innovative Imaging, which manufactures ophthalmic laser and ultrasound systems used by ophthalmologists to diagnose and treat eye diseases. A major element of the Eye Cubed is the MD 188 Series Sub-miniature LVDT Position Sensor by Macro Sensors. In conjunction with CT or MRI, the Eye Cubed is used for imaging orbital tumors and optic nerve abnormalities. It can also locate foreign bodies that become lodged in the eye.
DiFUSION Technologies’ new interbody implants are made of Solvay’s Zeniva PEEK, which has a modulus very similar to that of bone, along with toughness and fatigue resistance. The implants are for intervertebral body fusion of the thoracolumbar spine, and to be used with supplemental internal fixation. These implants are hollow, meaning the bone can grow through the device, and fuse the nearby bony surfaces of the vertebrae.
Thanks to a special needle design from Advanced Machine & Engineering (AME), Phoenix Medical Products has seen a 40% improvement in production and a 10% decrease in scrap. Phoenix can now safely rely on the AME needle sharpener for its needle design, production, sterilization, and packaging needs.
To ensure the effectiveness of a medical device, correct film thickness is crucial for optical and medical coatings. If film thickness is compromised, the medical device will not interact properly with a patient’s body. Accordingly, viscosity is needed to maintain preferred film thickness. Cambridge Viscosity, a provider of automated viscometers, offers seven pieces of advice when utilizing viscometers.
Eye-Com Corporation’s eye-tracking technology has led to many research and practical applications, including the development of the next generation EC7T eyeglasses. Due to increased design complexity, Eye-Com relied on Quickparts to meet the strict requirements needed for their custom designs in a timely manner.
Slide Forming Technology Still Competitive: Older technology produces parts at reduced cost and with lower scrap ratesJuly 18, 2011 10:47 am | by Pete Marut & Dale Pereira | Connecticut Spring & Stamping | Comments
Although slide forming machinery has existed for over eight decades as a metal stamping technology, it persists as a competitive method for manufacturing specific parts, including those going into medical devices that connect internal workings. As compared to standard stamping presses, slide forming machinery is usually inexpensive due to the simplicity of the tools.
Graphicast, a single-source contract manufacturer introduces a process using graphite molds to cast parts from ZA-12, a zinc-aluminum alloy that is stronger and more durable than aluminum, brass, bronze, and plastic. The graphite mold/ZA-12 casting process is a lower-cost alternative to CNC machining, die casting, sand casting, and investment casting for medium-volume production runs. Additionally, tooling costs for the graphite mold/ZA-12 process are much lower than for die casting or injection molding because graphite costs less than tool steel and requires no heat treating. Moreover, a graphite mold can often be produced weeks faster than a die-casting mold, and for about one-fifth the cost. Since a graphite mold will not warp or corrode, it can also be stored indefinitely and reused.