Surgery – Diagnostic testing – Detecting nuclear – electromagnetic – or ultrasonic radiation
Reexamination Certificate
2001-11-01
2004-08-24
Shaw, Shawna J. (Department: 3737)
Surgery
Diagnostic testing
Detecting nuclear, electromagnetic, or ultrasonic radiation
C128S903000
Reexamination Certificate
active
06782285
ABSTRACT:
TECHNICAL FIELD
The present invention relates to a system for medical detection and treatment comprising a number of treatment and/or detection devices which exchange data with each other within the context of a medical treatment, in particular a surgical or radiotherapeutic and/or radiosurgical operation.
DESCRIPTION OF RELATED ART
In the course of technical advancement, it is becoming increasingly important, even in the area of medicine, for treatment and/or detection devices to exchange data with each other. In this way, a number of devices already now co-operate under computer guidance by means of data exchange, for example in an operating room, when the operation is assisted by a medical navigation and tracking system. In this respect, position data for example, or data concerning the current status of the patient, are detected (for example by cameras or inter-operative imaging methods such as for example intra-operative nuclear spin tomographs and/or computer tomographs) and these data are delivered to a central computational and guidance unit, which after computer-assisted processing outputs treatment-assisting and/or treatment-guiding information on a screen for the physician carrying out the treatment. As it often occurs that a multitude of such treatment devices are used, and these devices exchange their data via cable connections in accordance with the prior art, there is more often than not an accumulation of laid cables which disrupt the physicians carrying out the treatment and the support staff, or restrict their freedom of movement. The cabling means that a few of the devices have to be placed very near to the patient bed, which further restricts freedom of movement. The situation is made even worse by the fact that said devices essentially require an electric power supply, and for this reason even more cable has to be laid. Moreover, installing the devices in the operating room is very costly due to the necessity of laying a large number of cables, for which reason technical support staff have to work for a long time in preparation.
Sources of errors arise if connections are inadvertently damaged, or if they corrode, or if other contact problems arise, and individual treatment devices, for example ultrasound probes, can scarcely be packed sterilely, since they hang by the cable connection.
SUMMARY OF THE INVENTION
It is therefore the object of the present invention to provide a system for medical detection and treatment comprising a number of treatment and/or detection devices which overcomes the above disadvantages of the prior art. In particular, the system is to optimise the connection of devices for data exchange. Secure data transfer is also to be ensured, and specifically the freedom of movement of the operating team is to be improved.
This object is solved in accordance with the invention by a system for medical detection and treatment comprising a number of treatment and/or detection devices which exchange data with each other within the context of a medical treatment, in particular a surgical or radiotherapeutic and/or radiosurgical operation, wherein said data are exchanged via radio interfaces in and/or on the devices. In other words, a cable-free system is provided with respect to data exchange, which has the major advantage that the cables which were previously required for data exchange are now no longer present in the operating room and also cannot therefore disrupt. Since such systems can in principle easily overcome the distances obtaining in an operation room, there advantageously exists the further possibility of placing all devices which do not necessarily have to be present in the vicinity of the patient bed at a distance from it, such that they do not obstruct. Apparatus for treatment and/or treatment-assisting apparatus can be placed at the most suitable locations, easily and regardless of cable lengths, and can even be hung from the ceiling. Moreover, the handling of hand-held devices or probes is no longer impeded by disruptive data transfer cables.
The enclosed sub-claims define preferred embodiments of the present invention.
In this way, radio transmission is possible over short distances within a treatment room in an ISM (industrial, scientific, medical) band, and at low energy, in particular around 1 mW, in the high-frequency range, in particular in a range around 2.4 GHz (ISM band), in particular at 2.4 GHz to 2.4835 GHz (blue tooth band), or alternatively in the 900 MHz ISM band and/or in the ISM band from 5.150 to 5.875 GHz. Thus, international standards (blue tooth standard, hyperLAN) which are especially suitable for application with the present invention are available, among others, for such radio transmission.
One or more of the following devices may be equipped, within the framework of the present invention, with radio interfaces for communicating:
a camera system, in particular an infrared camera system, for example for use with a medical navigation and tracking system;
an audio means, for example for use with a medical navigation and tracking system;
a video means, in particular a screen and a video-signal generating device, also head-mounted displays, for example for use with a medical navigation and tracking system;
a microscope means, for example for use with a medical navigation and tracking system;
an ultrasound detecting means and/or a means for processing detected ultrasound signals, for example for use with a medical navigation and tracking system;
robots, in particular medical robots, for example for use with a medical navigation and tracking system;
patient bearings, in particular patient beds, for example for use with a medical navigation and tracking system;
imaging devices, in particular medical imaging devices, preferably for detecting volume data sets, such as tomographs, for example for use, including intra-operatively, with a medical navigation and tracking system;
AGV devices (Automatic Guided Vehicles; driverless transport systems);
apparatus and instruments for treatment, in particular medical and/or surgical instruments, for example for use with a medical navigation and tracking system;
endoscopes;
C-arc x-ray device and/or fluoroscopy devices.
For the devices cited above, the possibility of optimally placing or arranging them in the treatment and/or operation room is to be emphasised, and other advantages also arise. For example, instruments for treatment, such as probes for example, can be designed as “intelligent” probes which transmit data concerning their current location or status or the location or status of the detected structures via their interfaces and an operating means (for example a type of mouse click). As far as the use of endoscopes is concerned, the cabling which, when using a miniature transmitter on the endoscopic probe, normally consists of an electric power supply, a light supply, and a line for sending video signals can be reduced by at least said latter video signal line, the possibility existing in principle of scaling down the endoscopic probes and their cable attachments and thus more easily and less invasively penetrating into previously inaccessible target volumes.
Advantageously, the devices can transfer data concerning their own identification and/or detected medical data and/or data concerning their own position or that of other objects. Transferring data for identifying the devices in particular makes the system very secure as compared to the prior art, since this rules out errors such as arise from defective cable connections. It is possible to carry out radio transmission for a device on a number of varying channels, until a channel is found which allows the data to be transferred sufficiently accurately, which improves the overall security of the data transfer. In this way, the sender and receiver search for a suitable channel until the optimal preconditions for data transfer are created. The coding can be varied, which ensures that the devices are correctly assigned. An identification key for each transmitter ensures straight away that the communication signals ar
Birkenbach Rainer
Möller Günter
BrainLAB AG
Renner , Otto, Boisselle & Sklar, LLP
Shaw Shawna J.
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