At the 98th Scientific Assembly and Annual Meeting of the Radiological Society of North America (RSNA) 2012, Siemens Healthcare is introducing Cios Alpha, a new mobile C-arm system with greater power output and a larger field of view in the operating room (OR) than conventional C-arms.
Also boasting a user-friendly touch screen interface, a unique position storage feature and a special cooling system that helps to ensure high image quality, the Cios Alpha demonstrates Siemens' innovation and competitiveness – two goals of the Healthcare Sector's "Agenda 2013" global initiative.
Because image intensifiers and flat detectors for mobile C-arm systems historically provide the surgeon with a round field of view when rotating the image, important image information can be lost. Due to its new radiographic collimators, Cios Alpha with flat-panel detector has an operating area field of view that is up to 25 percent larger than current mobile C-arms. When the surgeon rotates the originally square image, the new collimators – which shield the patient from unnecessary radiation – follow automatically, tracking image rotation to help ensure that the monitors display the maximum field of view.
The system's 30 x 30 cm detector, combined with its 25 kW power output, provides high-resolution, high-contrast images and can cover the finest structures in the range of submillimeters – a particularly beneficial feature in minimally invasive surgery, where fine catheters and instruments are used frequently. Due to the flat, compact design of its flat-panel detector, Cios Alpha also provides doctors and medical personnel with additional space and thus better patient access than traditional image intensifiers.
At 25 kW, Cios Alpha is the most powerful mobile C-arm system available. This is especially beneficial when operating on obese patients, who require more system power to obtain images of sufficient quality. The Cios Alpha's special cooling system protects it from overheating, helping to ensure consistently high image quality even during long operations. This is critical, as an overheated system automatically reduces the power level, which leads to reduced image quality. In that case, the C-arm system would have to be changed to complete the intervention, while the original system would require a longer cooling period prior to reuse.
Cios Alpha also has a new touch screen interface that offers surgeons greater safety and convenience in the OR. The system can be operated with three identical touch screens — on the C-arm, the monitor cart and the table-side control. Using these touch screens, the surgeon has full control of the equipment at any time during interventions. Operating staff members who often lack full view on the monitor cart can use small image previews integrated into the touch screens that enable direct control of image manipulations such as zooming or running-in of radiographic collimators. Cios Alpha also has a unique C-arm position storage feature. With one click, the motorized C-arm takes on a previously stored projection, eliminating manual repositioning. For a better overview during vascular procedures, the surgeon can use Cios Alpha's vessel overlay software.
Cios Alpha will be available in the summer of 2013. For use in disciplines such as trauma surgery and orthopedics, the system is available optionally with 12 kW power output and a 20 x 20 cm flat-panel detector. With Cios Alpha, Siemens Healthcare underscores its innovative power – a goal of the "Agenda 2013" global initiative, which the Sector unveiled in November 2011. The initiative defines plans of action to be implemented within two years in the areas of innovation, competitiveness, regional presence, and human resource development.
The Siemens Healthcare Sector is one of the world's largest suppliers to the healthcare industry and a trendsetter in medical imaging, laboratory diagnostics, medical information technology and hearing aids. Siemens offers its customers products and solutions for the entire range of patient care from a single source – from prevention and early detection to diagnosis, and on to treatment and aftercare. By optimizing clinical workflows for the most common diseases, Siemens also makes healthcare faster, better and more cost-effective. Siemens Healthcare employs some 51,000 employees worldwide and operates around the world. In fiscal year 2012 (to September 30), the Sector posted revenue of 13.6 billion euros and profit of around 1.8 billion euros. For further information please visit: http://www.siemens.com/healthcare
The products mentioned here are not commercially available in all countries. Due to regulatory reasons the future availability in any country cannot be guaranteed. Further details are available from the local Siemens organizations.
Reference Number: HCP201211003e
Ms. Kathrin Schmich
Tel: +49 (9131) 84-5337
Kathrin Schmich | Source: Siemens Healthcare
Further information: www.siemens.com/healthcare
More articles from Medical Engineering:
Varian Software Successfully Connected with Siemens Linear Accelerators
13.06.2013 | Siemens AG
Heart to Heart: Cardiac PET/MR Measures Up To PET/CT
11.06.2013 | Society of Nuclear Medicine
... two engines aircraft project “Elektro E6”.
The countdown has been started for opening the gates again for the worldwide leading aviation and space event in Le Bourget, Paris from June 17th - 23rd, 2013.
EADCO & PC-Aero will present at the Paris Air Show in Hall H4 booth F-7 their new future aircraft and innovative project: ...
Siemens scientists have developed new kinds of ceramics in which they can embed transformers.
The new development allows power supply transformers to be reduced to one fifth of their current size so that the normally separate switched-mode power supply units of light-emitting diodes can be integrated into the module's heat sink.
The new technology was developed in cooperation with industrial and research partners who ...
Cheaper clean-energy technologies could be made possible thanks to a new discovery.
Led by Raymond Schaak, a professor of chemistry at Penn State University, research team members have found that an important chemical reaction that generates hydrogen from water is effectively triggered -- or catalyzed -- by a nanoparticle composed of nickel and phosphorus, two inexpensive elements that are abundant on Earth. ...
The Fraunhofer Institute for Laser Technology ILT generated a lot of interest at the LASER World of Photonics 2013 trade fair with its numerous industrial laser technology innovations.
Its highlights included beam sources and manufacturing processes for ultrashort laser pulses as well as ways to systematically optimize machining processes using computer simulations. There was even a specialist booth at the fair dedicated to the revolutionary technological potential of digital photonic production.
Now in its fortieth year, LASER World ...
It's not reruns of "The Jetsons", but researchers working at the National Institute of Standards and Technology (NIST) have developed a new microscopy technique that uses a process similar to how an old tube television produces a picture—cathodoluminescence—to image nanoscale features.
Combining the best features of optical and scanning electron microscopy, the fast, versatile, and high-resolution technique allows scientists to view surface and subsurface features potentially as small as 10 nanometers in size.
The new microscopy technique, described in the journal AIP Advances,* uses a beam of electrons to excite a specially ...
18.06.2013 | Materials Sciences
18.06.2013 | Health and Medicine
18.06.2013 | Life Sciences
14.06.2013 | Event News
13.06.2013 | Event News
10.06.2013 | Event News