At the Heart of Cardiac Surgery Robot Testing

Robin Heart, instigated by the Professor’s Zbigniew Religa Foundation of Cardiac Surgery Development, is Europe’s first medical robot for cardiac surgery with semi-automatic movements, an advanced human-machine interface, and a 3D virtual training system.

There are an estimated 4 million minimally invasive surgeries undertaken annually around the world, and the robot technology aims to reduce the risk factor by using advancements in precision robotics to improve surgical accuracy and maneuverability.

Ensuring that all the vital electrical components of the robot system function properly and safely during the various stages of product development is a critical part of this research project that could radically alter the future shape of medical surgery. Testing has to be undertaken in accordance with IEC 60601-1 Medical electrical equipment – Part 1: General requirements for basic safety and essential performance. The components also have to be regularly inspected and tested to make sure they comply with IEC 62353, the standard for in-service and after repair testing of medical electronic devices.

The 288 analyzer has been supplied by Rigel Medical’s distributor in Poland, SAMSO, and features multi-lingual, menu-driven instructions, with download report, for simple operation and control of all electrical safety tests in manual, semi-automatic, or fully automatic test modes.

It is the industry’s smallest automatic safety analyzer, providing fast and accurate testing of patient, enclosure, and earth leakage as well as earth continuity and insulation resistance.

The compact design is particularly beneficial for the technicians involved in the Robin Heart project, providing improved portability and ease-of-use during completion of electrical safety checks.

Kamil Rohr, engineer at the Foundation of Cardiac Surgery Development, has been impressed by the reliability and accuracy of the tester. “It provides a higher degree of measurement accuracy than other testers, while the advanced software is impressive, allowing us in particular to plot trends in measurement values,” he says. “It incorporates a good range of features for a tester of its size, while the connectivity benefits are particularly impressive. The ability to create our own test sequences is particularly useful while we find it easy-to-use and appreciate the fact that it’s compact enough to carry around our research facility. The multi-lingual functions are also a beneficial feature, while importing and exporting data capabilities is particularly helpful, enabling us to store test information which can then be easily retrieved and used for audit purposes.”

The 288 offers an accurate solution for testing devices for electrical safety to appropriate standards including IEC/EN 62353, IEC/EN60601-1, VDE 0751-1, AS/NZS 3551, AAMI, NFPA-99, MDA DB 9801-2006. A compact Bluetooth barcode scanner enables easy identification of devices and equipment, while test results can be stored within the Rigel 288 safety analyzer.

The compact, lightweight design and long-life battery power of the Rigel 288 reduces downtime between tests, making the instrument practical and highly portable for multi-site use.

Users also have the facility to select from a range of preset test programs or develop their own customized routines.

A large internal memory facilitates the storage of test results for safety audit and traceability purposes. In addition to storing results of electrical tests, there is also the ability to record user-defined inspections and measurements from other equipment such as SpO₂, NIBP, ECG and other electro medical patient equipment.

Rigel Medical
Tampa, Fla.
www.rigelmedical.com

Elizabeth Engler Modic can be reached at emodic@gie.net.