DE102010060806A1 - Method for displaying medical images of intriguing region of e.g. human body in image processing system during surgical intervention, involves overlapping representations of section of image display and video recording on output device - Google Patents

Abstract

The method involves providing image data that represents a multi-dimensional image display of a course of nerves in an intriguing region at human or animal body (4). Another image data is provided for representing a multidimensional video recording of the intriguing region. An assignment between the image data is determined by reference pixels in the image display. Representations of a section of the image display and the video recording are overlapped on an image output device (2) of a surgical microscope according to specific assignment of the reference pixels. Independent claims are also included for the following: (1) a method for producing image data (2) an image processing system comprising an image data processing unit.

Description

The invention relates to a method for displaying medical image data in an image processing system and to an image processing system.

Background of the invention

The visualization of image data is used in various fields of medicine. This includes the so-called intraoperative monitoring by visualization of electromyography signals. Electromyography is an electrophysiological diagnostic method in neurology that measures electrical muscle activity. Usually, when measuring the muscle activity, an electrical stimulation of the nerve is provided in order to electromyographically measure the associated muscle potentials. This is used, for example, in the operating environment. Here, the electromyographically derived signals are converted into acoustic signals to give the surgeon information about where in the field of surgical intervention on human or animal nerve structures are present that need to be protected. The irritation of the nerves takes place after surgical exposure by means of direct contact with a sterile stimulation electrode, through which the electrical stimulus or stimulation impulse is given up.

It has also been proposed to carry out the stimulation in electromyography by means of contactless or non-contact stimulation by stimulating the nerve to be examined with the aid of laser light ( Teudt et al .: "Optical Stimulation of the Facial Nerve: A New Monitoring Technique?", The Laryngoscope 117, pp. 1641-1647, 2007 ; Wells et al .: "Optically Mediated Nerve Stimulation: Identification of Injury Thresholds", Lasers in Surgery and Medicine 39, pp. 513-526, 2007 and Izzo et al .: "Optical Parameter Variability in Laser Nerve Stimulation: A Study of Pulse Duration, Repetition Rate, and Wavelength," IEEE Transactions on Biomedical Engineering, Vol. 54, No. 6, pp. 1108-1114, 2007 ). Prerequisite for the effectiveness and the simultaneous harmlessness of the optical stimulus method is a sufficiently large distance between stimulus threshold and destruction threshold of the laser light in the nerve tissue.

Summary of the invention

The object of the invention is to provide a method for displaying medical image data in an image processing system and an image processing system, with which an improved support of medical personnel is achieved, in particular during an operative procedure.

This object is achieved by a method for displaying medical image data in an image processing system according to independent claim 1 and an image processing system according to independent claim 6. Furthermore, a method for generating image data according to independent claim 5 is provided. Advantageous embodiments of the invention are the subject of dependent subclaims.

The invention provides the possibility of providing medical personnel, for example a surgeon, with combined image representations which on the one hand provide visualization of a region of interest on a human or an animal body and on the other hand information about one or more nerves in the region of interest provide information about one or more. Nerves in the area of interest are derived from a non-contact electromyography examination.

As part of the contact-free electromyography examination and its evaluation, a kind of "map" for nerves in the area of interest was previously created for the area of interest in humans or animals. This is done, for example, by means of an optical stimulation, in which the region of interest is scanned with a laser light source and at the same time electromyography signals are detected. The scanning laser light produces stimulation or irritation in the body when the irradiated laser light strikes a nerve. When scanning the region of interest with the laser light, which can be in the form of regular and / or irregular grating nets, the respective position of the light striking the skin surface or the position of the laser light source is detected in order to then assign these to the measured electromyography signals. Such signals are always detected when the irradiated laser light leads to stimulation / irritation. In this way, a two- or three-dimensional nerve structure in the region of interest can be determined, for example, to determine a three-dimensional nerve structure, the signal strength of the electromyography signals can be evaluated in order to derive information about the depth of a nerve structure below the skin surface.

For image display, the image data derived from the electromyography examination can then be related to other image data showing a video of the area of interest on the human or animal body. In one embodiment, reference pixels are then assigned to one another in the two pictorial representations, finally to represent the pictorial representations on an image output device superimposed.

In one embodiment, in particular, there is the advantage that the surgeon, for example a surgeon, already receives information about the course of nerve structures before any surgical intervention has even begun. Already during operative exposure, the information about the nerve structure in the area of interest can be taken into account.

It can be provided that the multidimensional image of the region of interest which is superimposed with the neurological structure obtained from electromyography is displayed in the form of a current video recording during an operation. Alternatively, it can also be provided to display the multidimensional image in the form of a digitized photo, which includes the region of interest and was made in addition to the electromyography examination, without there already being a specific surgical situation. Even in this case, the medical staff is provided with an image representation already without surgical intervention, which shows a nervous structure on the "real object", namely the region of interest on the human or animal body.

If the method for displaying the medical image data in an operating environment is executed, it can be provided that the image of the region of interest is renewed several times by current video recordings.

A preferred embodiment of the invention provides that the superimposed display is performed on the display device of a surgical microscope. Preferably, the superimposed representation in this case takes place in conjunction with video recordings which are continuously provided during an operative procedure.

In an expedient embodiment of the invention it can be provided that image data are derived which are derived from an electromyography examination of the region of interest carried out by means of optical stimulation.

An advantageous embodiment of the invention provides that the image data are filtered before the superimposed presentation, such that only nerves of interest are displayed in the superimposed presentation. The filtering of the image data can be carried out as part of an image processing. In this case, provision can be made, for example, for user inputs to be captured by the image processing system which serve to process the image data derived from the electromyography examination. For example, a user input may relate to the selection of one or more neural structures to be displayed or omitted in the overlaying presentation. In this way it is possible to optimize the information obtained in the non-contact electromyography examination about the nerve structure in the area of interest, for example for a specific surgical procedure. Thus, in one embodiment less relevant nerve structures can be filtered out and thus not represented. Such image processing can be carried out, for example, by means of a software program installed on the image processing system. Alternatively, the processing of the image data from the non-contact electromyography examination may be carried out in advance on a computer system formed separately from the image processing system.

Description of preferred embodiments of the invention

The invention will be explained in more detail below with reference to preferred embodiments with reference to figures of a drawing. Hereby show:

1 a schematic representation of an image processing system for displaying medical image data and

2 a schematic representation of a display on an image output device, wherein an image of a region of interest on a human or an animal body is superimposed by a representation of a nervous structure, the course of which was previously determined by means of a non-contact electromyography examination.

1 shows a schematic representation of an image processing system with an image data processing device 1 comprising a data processing device and an image output device coupled thereto 2 , If the image processing system is used in one embodiment in an operating environment, then according to 1 to the image data processing device 1 a video recording device 3 connected, with the continuous video recordings of a region of interest on a human or an animal body 4 , So in an area in which an operative intervention takes place, and recorded on the image output device 2 can be represented.

2 shows by way of example such an image representation on the image output device 2 , Shown is a video image 5 of the interested one Area on the human or animal body 4 , which is superimposed by a nervous structure representation 6 , The image data for the nerve structure representation 6 were previously derived from a non-contact electromyography study of the area of interest.

In non-contact electromyography examination, in one embodiment, laser light from a laser light source over the region of interest on the human or animal body 4 guided. At the same time, electromyographic signals are detected in the usual way, which always occur when the irradiated laser light leads to irritation or stimulation of a nerve structure in the region of interest. Furthermore, in the electromyography examination, the position of the laser light striking the skin surface and / or the position of the light source guided through the skin are detected, so that finally the electromyography signals can be assigned to these positions, whereby the region of interest is practically scanned.

The detection of the position of the laser light on the skin surface can be detected, for example, by use of an optical scanning device. It can also be provided to mount the laser light source for irradiating the optical stimulus or stimulation light signals to a displacement device, so that position information can be detected for the displacement positions and then assigned to the electromyography signals.

Finally, an image data representation can be derived from this, which can be superposed with the image of the region of interest, after previously identical pixels in the image of the region of interest on the one hand and the representation of the determined by means of electromyography nerve structure on the other.

The features of the invention disclosed in the foregoing description, in the claims and in the drawing may be of importance both individually and in any combination for the realization of the invention in its various embodiments.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited non-patent literature

• Teudt et al .: "Optical Stimulation of the Facial Nerve: A New Monitoring Technique?", The Laryngoscope 117, pp. 1641-1647, 2007 [0003]
• Wells et al .: "Optically Mediated Nerve Stimulation: Identification of Injury Thresholds", Lasers in Surgery and Medicine 39, pp. 513-526, 2007 [0003]
• Izzo et al .: "Optical Parameter Variability in Laser Nerve Stimulation: A Study of Pulse Duration, Repetition Rate, and Wavelength", IEEE Transactions on Biomedical Engineering, Vol. 54, No. 6, pp. 1108-1114, 2007 [0003 ]

Claims (6)

A method of displaying medical image data in an image processing system, the method comprising the steps of: providing image data representing a multi-dimensional image representation of a course of one or more nerves ( 6 ) in a region of interest on a human or an animal body ( 4 ), which are derived from a non-contact electromyography examination of the region of interest; providing further image data representing a multi-dimensional video of the region of interest, determining an association between the image data and the further image data by using reference pixels in the multidimensional image representation; the multi-dimensional video recording are assigned to each other, and - superimposing representing at least one section of the multi-dimensional image representation and the multi-dimensional video recording on an image output device according to the specific assignment of the reference pixels. A method according to claim 1, characterized in that the superimposed representation is carried out on the display device of a surgical microscope. A method according to claim 1 or 2, characterized in that image data are provided, which are derived from an executed by means of optical stimulation electromyography examination of the region of interest. Method according to at least one of the preceding claims, characterized in that the image data are filtered before the superimposed presentation, such that only nerves of interest are displayed in the superimposed presentation. A method of generating image data representative of a multi-dimensional image representation of a trace of one or more nerves in a region of interest on a human or animal body, the method comprising the steps of: applying stimulus optical signals to different portions of a stimulus Skin surface in a region of interest on a human or an animal body ( 4 Detecting positional information representing locations of impact of the optical stimulation signals on the skin surface in the region of interest, acquiring electromyography signals for the region of interest during delivery of the optical stimulation signals, and generating the course of one or more nerves in the region of interest displaying image data by the detected electromyography signals associated with the optical stimulation signals and the position information and associated pixels are generated. Image processing system, comprising: - an image data processing device ( 1 ) configured to provide image data representing a multi-dimensional image representation of a course of one or more nerves in a region of interest on a human or animal body ( 4 ) and derived from a non-contact electromyography examination of the region of interest, - to provide further image data representing a multi-dimensional video of the region of interest, and - to determine an association between the image data and the further image data by reference pixels in the multidimensional image representation and the multidimensional video recording are assigned to each other, and - an image output device ( 2 ) configured to superimpose at least a portion of the multi-dimensional image representation and the multi-dimensional video recording in accordance with the particular assignment of the reference pixels.

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