DE4301483A1 - Device for generating photostimuli and for measuring the electroretinogram and the visual evoked cortical potential - Google Patents

Abstract

Technical field: The electroretinogram (ERG) is used in medical diagnosis. The term refers to measurement of the difference in the electrical potential between the cornea of the eye and the temporal bone after stimulation of the eye with a flash of light. The shape and magnitude of the response amplitude allow conclusions about the function of the retina. Problem: The previously conventional devices have been too large, inflexible in terms of generation of the stimulus, unfriendly to the user, which leads to erroneous operation, they have not had a high performance and they do not meet international standards. Solution: A computer-controlled system for generating the photostimuli and for measuring the electrical responses. It controls the type of photostimuli, measures the ERGs of both eyes simultaneously and records the light intensity used. The curves are evaluated automatically. The measurement curves and the results of the evaluation are printed out on a printer with graphics capabilities. Possible applications: In ophthalmological practices, hospitals, operating theatres and in outpatient departments.

Description

1. Specification of the technical area

In the field of medical diagnostics for some Years ago the electroretinogram (ERG) was used. this is the Measurement of the electrical potential difference between the Cornea of the eye and temporal bone after eye irritation with a flash of light. The course and amount of Response amplitude suggests the function of the retina to.

2. State of the art

Generate most devices currently available on the market the flash of light by using a gas discharge tube (Strobe). However, one manufacturer uses yellow ones LEDs placed directly on the cornea of the eye become. The measured curves are directly Paper writer recorded.

Disadvantages: The gas discharge tube requires high operating voltage, is very large and the duration of the light stimulus is not adjustable. So that is flexibility and mobility restricted, large full-field facilities are only stationary to operate. The ones placed directly on the cornea LEDs do not reach a homogeneous whole field and it is with today's light-emitting diodes no white light can be generated, as the international standard. The ambient room light is not shielded by this construction and can lead to inadequate adaptation relationships. The The intensity of the stimulating light is difficult to measure because it is not homogeneous Whole field is present, the direct eye contact has no place for a photosensor and yellow light is used. The measurement of the ERG is carried out on this device using one channel The curve is recorded using a paper recorder. So must  two measurements in time to examine both eyes be carried out one after the other and the evaluation of the Measurement curves recorded on paper must be done manually. This is time consuming and leads to errors. Other devices only generate the light stimulus and offer no equipment for measuring the Reply. However, all stimulating devices have the disadvantage that the ambient light is not shielded and the display the signal curves on paper recorders are not automatic Allows evaluation and postprocessing.

3rd solution

A computer controlled system for generating the light stimuli and for measuring the electrical responses. The device controls the Type of light stimuli, measures the ERGs of both eyes simultaneously and registers the light intensity used in the measurement. The The curves are evaluated on the basis of preset values Criteria automatically. The curves and the results of the Evaluation are automatically carried out on a graphics-capable printer spent. Because the measured data is stored in the computer subsequent digital processing is possible. The use of a miniaturized whole field allows the Generation of a light stimulus homogeneous over all solid angles and the measurement of light intensity. As sources of light Microbulbs are used that emit white light. Consequently this device meets the requirements of international Standards for clinical measurement of the electroretinogram. By the computer control, this device is very flexible, the Complete automation prevents incorrect operation and the small dimensions when using a portable Computers (laptops) make this diagnostic device very mobile. The Device takes up little space and can be used almost anywhere become.  

4. Description of the realization

The light stimulus source and the measuring device for registering the Electroretinograms are obtained from a personal computer (PC) controlled so that you have a complete diagnostic device with flexible, user-friendly control. Through the software control of all processes is the Operational security significantly increased and the examination and evaluation time shortened. The program enables that after applying the electrodes by starting a procedure Advertise all measurements automatically and then the measured curves together with the measured values sought and a protocol of the stimulus conditions on a graphic-capable Printer. Through this automation, the Training time for the operating personnel very short, incorrect operation almost impossible and the examination time to the minimum limited. The miniaturized full-field hemispheres guarantee due to their small dimensions, high mobility of the equipment. In connection with a portable PC (laptop), this is complete diagnostic device easily transportable, can can be installed quickly, e.g. B. in an operating room, and quickly delivers measurement results. There is one for each eye Whole-field hemisphere is provided, can be used in conjunction with the 3-channel amplifier answers both eyes at the same time be measured. There is also a separate stimulus Whole-field spheres possible.

The full-field hemispheres generate by indirect lighting homogeneous whole field. Their opacity allows together with the special, skull-adapted design that the Close eyes light-tight, including examinations in darkened rooms. The dark adaptation used to measure the scotopic ERGs is necessary, can also be used in daylight be carried out without a special room as before to provide. This is in medical practices and operating theaters important.  

Because the two full-field hemispheres resemble swimming goggles at the head of the person to be examined, the ERG in almost any patient position can be measured. This is before especially important for patients under anesthesia and injuries.

The size of the full-field hemispheres is chosen so that they both can be used for adults as well as toddlers can.

However, there is enough space for in the full-field hemispheres different light sources. For white light stimuli Microbulbs are used, because at the moment they are the only ones generate corresponding light intensity with white spectrum and are also easily controllable in brightness. For Multiple light bulbs will increase the light intensity interconnected. The special design of the micro light bulbs unlike normal light bulbs, it also allows Generation of very short flashes of light of approx. 3 ms duration. In addition, these light bulbs are also in continuous operation used to provide a corresponding bright adaptation light produce. In continuous operation are then briefly Surges that do not destroy the light bulbs, the flashes of light generated, with which inan with a single Bulb arrangement both the background light and the Generates light stimuli. By adding color filters generated colored light stimuli with the microbulbs. In addition to the microbulbs, LEDs are used used because the software control by the digital Analog converter voltage values for both light bulbs and for LEDs (0 V to 7 V in 256 steps). With LEDs can then colored, or by Interconnection of red, green and blue LEDs, white flashes of light are generated that are shorter than 1 ms.

The light from these sources does not catch the eye directly, but rather indirectly through reflection and scattering on the inside of the Whole-field hemisphere.  

The microbulbs emit that for most Investigations require white flash light and the white one Adaptation light. Their special design enables that Generation of short, bright flashes of light of only 5 ms duration, such as they are required for a standard ERG examination.

In every full-field hemisphere is for measuring the light intensity a pin diode with V - lambda filter integrated. With that Light intensities measured as they perceive the eye and the exact values of the ISCEV standard can be set become.

The control of the light sources takes place in the full field hemisphere software via digital-to-analog converter and is thereby flexible and safe to use. To protect the patient from uncontrolled flashes of light and to protect light sources from destruction by overload, is a protective circuit integrated, which allows short flashes of light, but the maximum Permanent intensity limited. Picture ??. The use of several Digital-to-analog converter also allows mixing Light stimuli, so that z. B. a channel of the digital-to-analog converter provides a constant adaptation light and the second Channel creates a colored light stimulus or that colored Alternate light stimuli.

The light stimuli for each of the two full-field hemispheres are separately adjustable. This makes them special Examination methods possible, such as B. eye irritation and the derivation of the ERG from the other, non-stimulated eye. There are 4 digital-to-analog converters installed, so that pro Whole field 2 independent light sources can be controlled. These are currently a blue light source made of light bulbs with upstream blue filter to produce a clean one scotopic stimuli and light bulbs without color filters Generation of light, scotopic and light photopic light stimuli and background light Bright adaptation.  

Logging the light intensities in the Whole-field hemisphere takes place automatically during the measurement. To there is one photometer circuit in the amplifier unit Whole field integrated, with which the photocurrents of the pin diodes in Signal voltages prepared for the analog-digital converter become. During the measurement of the ERG, the Irritation conditions registered automatically.

On the one hand, this guarantees safe documentation of the Stimulus conditions and allows the detection of possible defects in the stimulating apparatus.

The amplifier unit ensures sufficient amplification of the ERG and VEP signals so that the input of the analog-digital Converter is properly controlled. In addition, the Amplifier around a band limitation of the signal spectrum DC voltage components and high-frequency signal interference remove. To suppress the 50 Hz as well as possible To achieve mains interference at the input of the amplifier is the Input designed as a differential amplifier. So there are none additional notch filter in the amplifier to suppress the Mains frequency required. Should frequency interference nevertheless can occur after the measurement by the digital "Notch filter" can be removed by software. The Amplifier unit is used to protect the patient from electrical Residual currents through optocouplers and DC / DC converters galvanically decoupled from the personal computer.

The signal voltages coming from the amplifier unit are digitized with a 16-channel analog-digital converter. From that 7 channels are used, 2 channels for ERG, 1 channel for the VEP signal, 2 channels for the photometer circuit and 2 channels for test purposes.  

The analog-digital converter starts with a built-in Timers independently the voltage conversion and signals the end of the conversion program by interrupt signals, so that the measurement program from the control of the analog Digital conversion is relieved. This makes the computer of the Control of the analog-digital conversion frees and only needs the converted data from the analog-to-digital converter take. The processing power is therefore due to the change not reduced.

The online data acquisition program provides the Digital converter digitized voltage values during the Measurement on the computer's graphics-capable monitor it on artifacts and averages periodically repeating Measurements (averaging). This method allows very small Signals are extracted from the physiological noise. The Program either provides the incoming, averaged signal or the already averaged. It can be used at any time Quality of the measurement can be checked. Through the Interrupt control can control incoming data up to one maximum sampling rate is displayed online on the computer monitor become. For an industry standard XT personal computer and 4.77 MHz clock rate, the online sampling rate is 2000 Hz. This online sampling rate depends on the interrupt control only depends on the processing speed of the computer. For the Standard examinations will be a sampling rate of 500 Hz used, which gives a temporal resolution of 2 ms.

5. Achieved benefits

Because the measured data is stored in the computer subsequent digital processing possible. The software offers several digital filters for the measured data, so that there is no need for special analog pre-filters. The prevent digital filters compared to analog filters Maturity shifts. The use of a miniaturized Whole field allows the generation of an over all solid angles homogeneous light stimuli and the measurement of light intensity. The Measurement of light intensity guarantees a safe Documentation of the stimulus conditions. The whole-field hemispheres are opaque and shield due to their special design external light stimuli, which also means examinations in not darkened rooms are possible. The dark adaptation, the is necessary to measure the scotopic ERG can also be carried out in daylight without doing so as before to provide a special space. Since the two Whole-field hemispheres similar to swimming goggles on the head of the can be fixed to the examiner, the ERG can any patient position can be measured. Most of all, this is important for patients under anesthesia and for injuries. Therefore a full-field hemisphere is provided in each eye Connection with the multi-channel amplifier the answers both eyes can be measured simultaneously. Likewise is one separate irritation of the whole field balls possible. Thereby special examination methods possible, such as B. the irritation one eye and the derivation of the ERG from the other, not stimulated eye. Microbulbs are used as light sources used that emit white light. The control of the Light sources in the full-field hemisphere are software over several digital-to-analog converters, is therefore flexible, safe to use and the digital-to-analog converter can Voltage values for both light bulbs and Set LEDs (0 V to 7 V in 256 steps) Due to the interrupt mode of operation the analog-digital converter is the measurement program from the control of the analog-digital conversion  relieved. This allows the data collection program to digitized voltage values online on the graphic-capable Display computer monitor, with which the examiner receives immediate control over the quality of the measurement. At the same time, the signal is checked for artifacts and will be periodically repeated measurements averaged. Using this method, very small signals can be extracted from the physiological noise can be extracted. Because of the above This device fulfills the requirements of the properties international standards for clinical measurement of Electroretinogram / ISC89 /. Through the computer control is this device very flexible, the complete Automation capability prevents incorrect operation and the low Dimensions when using a portable computer (laptop), make this diagnostic device very mobile. The device needs little space and can be used almost anywhere. Through the Automation can be done by the operating personnel after a one-off Observe an examination, carry it out independently, the training time for the operating personnel is very short and the examination time is kept to a minimum. The Using a commercially available personal computer after Industry standard lowers the cost of the device very much, because the analog-to-digital converter and the graphics-capable one Printers are very inexpensive.

Description of the drawings Drawing 1 shows the entire stimulus and measuring apparatus

Part 1: External unit for the generation of stimuli and Signal amplification.

Part 2: Parallel output of the personal computer Stimulation control (Centronics).

Part 3: 16-channel analog-digital converter board with Industry standard bus.

Part 4: 4-fold digital-to-analog converter in external unit.

Part 5: Printer for the graphic output of the results.

Part 6: Computer keyboard.  

Part 7: computer monitor.

Part 8: Whole field ball.

Part 9: Eye electrode.  

Drawing 2 Representation of a whole field ball

Fig. 1: Side view of the full-field ball.

Fig. 2: View of the full-field ball from above.

Fig. 3: Side view of the full-field sphere from the front.

Fig. 4: Basic shape and foam pad of the full-field ball with a side view from the front. Part 1: basic shape, Part 2: foam padding.

Fig. 5: Lateral section through a full-field ball with
Foam pad and light source. Part 1: Light source, Part 2: Foam pad, Part 3: Eye.

Fig. 6: Front view with pin diode and light source. Part 1: Light sources, Part 2: Pindibde.

Fig. 7: light source with color filter. Part 1: lightbulb, part
2: Color filter (e.g. blue), part 3: Partial view of the full-field envelope.

Drawing 3 Protection circuit

Part 1: Digital input of the converter.

Part 2: One channel of the 4-fold digital-to-analog converter.

Part 3: light source.

Part 4: Comparator.

If the threshold voltage is undershot, the comparator switches the digital-to-analog converter.

literature

/ ISC89 / Marble et al., Standard for "Clinical Electroretinography ", Arch. Of Ophthalmology, Vol. 107, 1989.

Claims (9)

1. Device for generating light stimuli and for measuring the electroretinogram and the visually evoked cortical potential, characterized in that the stimulus source and measuring apparatus are controlled simultaneously by a personal computer (PC) with user-friendly software.
The software offers the possibility to carry out an examination manually controlled, or to repeat an examination carried out manually once completely automatically.
The software saves the measured data for later evaluations. The stored data contains patient data and diagnostic information for identification.
The software offers digital filters to edit the measured data afterwards.
The software provides Discrete Fourier Transform (DFT) and Fast Fourier Transform (FFT) for the analysis of spectral components. 2. Device for generating light stimuli and for measuring the electroretinogram and the visually evoked cortical potential according to claim 1, characterized in that the light stimulus is generated in a miniaturized full-field hemisphere with 6 cm inner diameter and 2 mm wall thickness made of solid plastic.
A full-field hemisphere is provided for each eye, so that both eyes can be stimulated simultaneously or separately.
The full-field hemispheres are opaque and their external shape shields external light stimuli.
The two full-field hemispheres, like the two glasses of a pair of swimming goggles, are connected to each other by an elastic web and are fixed to the head of the person to be examined by an adjustable rubber band. To adapt to different skull shapes, the full-field hemispheres are padded on the cutting line with opaque soft foam and are adapted to the shape of the skull.
The full-field hemispheres can be used for both adults and toddlers. 3. full-field hemisphere according to claim 2, characterized in that in the full-field hemisphere microbulbs and light-emitting diodes generate the light stimuli.
The light from these sources does not catch the eye directly, but indirectly through reflection and scattering on the inside of the full-field hemisphere. It is also painted matt white.
The micro light bulbs emit the white flash light and the white adaptation light necessary for most examinations.
Their special design enables short, bright flashes of light of only 5 ms duration to be generated, as required for a standard ERG examination according to / ISC89 /.
The LEDs allow very short flashes of light to be generated for a duration of less than 1 ms.
Colored light stimuli are generated by microbulbs by means of color filters. 4. full field hemisphere according to claim 2, characterized, that in the full-field hemisphere for measuring light intensity a pin diode with V - lambda filter is integrated. In order to light intensities are measured as they are the eye feels.   5. Device for generating light stimuli and for measuring the electroretinogram and the visually evoked cortical potential according to claim 1, characterized in that the control of the light sources in the full-field hemisphere (according to claim 2) is carried out software via several digital-to-analog converter.
The light stimuli for each of the two full-field hemispheres can be set separately.
An automatic calibration device adjusts the intensity of the light sources. 6. Device for generating light stimuli and for measuring the Electroretinogram and the visually evoked cortical Potentials according to claim 1, characterized, that the logging of light intensities in the Whole-field hemisphere takes place automatically during the measurement. 7. Device for generating light stimuli and for measuring the electroretinogram and the visually evoked cortical potential according to claim 1, characterized in that an amplifier unit amplifies and limits the ERG and VEP signals.
The amplifier unit has seven channels, 2 channels for ERG, channel for VEP signals, 2 channels for the photometer circuit and 2 channels for test purposes. 8. Device for generating light stimuli and for measuring the electroretinogram and the visually evoked cortical potential according to claim 1, characterized in that the signal voltages coming from the amplifier unit are digitized by a 16-channel analog-to-digital converter.
In conjunction with the amplifier unit, the ERG of both eyes and the VEP are measured simultaneously.
The analog-digital converter automatically starts the voltage conversion by means of a built-in timer and signals the end of the conversion to the measuring program by means of interrupt signals. 9. Device for generating light stimuli and for measuring the Electroretinogram and the visually evoked cortical Potentials according to claim 1, characterized, that an online data acquisition program is run by an analog Digital converter (according to claim 8) digitized Stress values during the measurement represents on artifacts checked and averaged.