Nexans completes Creekside Cancer Care project

Nexans Cat 7A cabling supports CyberKnife system

CyberKnifeNexans has completed a project providing infrastructure cabling for the Creekside Cancer Care Outpatient Center in Lafayette, Colorado. The center is home to CyberKnife VSI, a new version of the CyberKnife, the world’s only robotic radiosurgery system which offers patients a non-invasive alternative to surgery for the treatment of tumors anywhere in the body.
The project, which was completed in June 2010, uses Nexans LANmark-7A solution, the highest performance, backwards compatible copper solution available. LANmark-7A features the revolutionary GG45 connector, which is an RJ45 formatted connector thus making it fully compatible with legacy equipment while being capable of supporting future higher bandwidths.

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About Creekside Cancer Care

Creekside Cancer Care is a free-standing cancer care facility located in a scenic and tranquil creek side setting in the foothills of the Rocky Mountains in Lafayette, Colorado, just 30 minutes from Denver International Airport. Creekside Cancer Care boasts the most advanced clinical and health care information technologies available. The clinical focus of our extensively trained physicians and staff is to provide the best and most efficient patient centric care possible for the treatment of benign and malignant tumours throughout the body as well as functional neurological disorders. For more information visit :

About the CyberKnife® Robotic Radiosurgery System

The CyberKnife Robotic Radiosurgery System is the world’s only robotic radiosurgery system designed to treat tumours anywhere in the body non-invasively. Using continual image guidance technology and computer controlled robotic mobility, the CyberKnife System automatically tracks, detects and corrects for tumour and patient movement in real-time throughout the treatment. This enables the CyberKnife System to deliver high-dose radiation with pinpoint precision, which minimizes damage to surrounding healthy tissue and eliminates the need for invasive head or body stabilization frames.