DE102005046518B3 - Remote transmission method for detecting biomedical parameters using light reflex pupilography and a mobile communication apparatus such as a mobile telephone - Google Patents

Abstract

The method provides mobile generation, detection and transmission of reactions in reflex pupilography using a video mobile telephone. A video camera in the telephone records the short sequences of pupil reaction and the telephone display provides continuous images of the camera recording. The telephone is aligned using a ring shown in the display and this is aligned with the eye such that the ring is covered by the edge of the iris of the eye being examined. Independent claims also cover an apparatus for carrying out the method.

Description

The The invention relates to a method biomedical parameters with Help from mobile devices too capture and transfer. For this purpose, a method of light-reflex pupillography is used.

To monitor and detect biomedical effects, such as the central nervous activation and resulting drug effects, the identification of neurological diseases, traumatic brain injury, symptoms of intoxication and environment-related disorders, are used, among other methods of pupillography. While in sleep research here in particular the infrared pupillography is used, the majority of the measurements of clinical effects by means of reflected light pupillography: here, the contraction and dilatation of the pupil in response to specific light effects, mainly sequences of light flashes of defined frequency and strength , recorded and analyzed. The associated methods and devices are so far stationary and limited to laboratory applications. Although methods and applications are known to use pupillography for vigilance monitoring, for example for motorists. For this purpose, glasses and headgear, so-called HEDs (Headmounted Eyetracking Devices [2]) as well as cameras with automatic tracking and focusing were developed. However, the former require considerable restrictions in wearing comfort, the latter massive effort for the controller and are only used in attachments such as in vehicle cockpits. In addition, such devices are not yet designed for the application of reflex pupillography. The execution of such devices was previously also as a single development, each with specific technology and the correspondingly high cost. For investigation at the bedside, however, a hand-pupillometer according to Alexandrides [1] was known, which, however, due to its handling, should only be used by medical specialists and must be interpreted directly in his ads. Furthermore, it is off US 6,820,979 B1 a hand-held Pupillometer known that allows a variety of measurements, but is very expensive, because all measurements and evaluations are made in the device, stored and evaluated. In addition, individual procedures, such as the center determination of the iris, appear unnecessarily complicated. On the other hand, there is a need for a rapid and as mobile as possible review of biomedical parameters with the help of reflex pupillography, for example, to determine the mechanisms of action of drugs under given environmental and living conditions, determination of reaction in situ disturbances in aerospace medicine, on-site -Investigation of accident victims, symptoms of intoxication, drug abuse, in epileptic seizures etc, especially by helpers and medical laymen.

task The present invention is therefore a system of mobile Registration, registration and transfer the results of reflex pupillography to create that easily manageable and through data transfer independently evaluable by the capture, a secure assignment of the results to individual subjects for evaluation and proof purposes allowed and rely on through widespread and large-scale manufacturing cost-effective and easy to transfer technologies refers.

This is inventively the application of a technology achieved as video mobile telephony and in so-called camera phones is increasingly common: This is the integrated into such phones, on the face of the user directed second video camera and the current in camera phones Lightning LEDs, together with a specific focusing technique and the common ones Storage in the device or additional Memory cards, as well as mobile radio transmission used.

to Focusing is the lens of the built-in mobile phone video cameras - if necessary, switchable - with a long Focal length and macro preset executed. In a simple form this is possible through the use of additional lenses. Focusing takes place by a ring incorporated in the display (in simple form a printed foil overlay for the display) with the outer circle the targeted eye iris is brought to coincidence. This takes place the orientation, as usual with video phones, only by the appropriate Movement or posture of the device. If the focus is on a helper, this is the mission of devices with dual display or two lenses and lighting diodes - as of some mobile phone manufacturers already executed as standard - advantageous.

For measuring a lightning diode is used, as they have recent photo phones, or converted into video phones integrated illumination LED for emitting appropriate light signals. In the usual arrangement of the recording lens for video telephony next to the mobile phone display and a resulting recording distance in the usual distance for reading the display (30 to 40 cm), results in a sufficient flash effect in normal ambient light. Preferably, however, the flash brightness should be controlled according to the ambient light. For precision measurements, it is necessary to look for appropriately darkened rooms, but sunlight and headlamps or other sparkling radiation are always present to avoid the trap. In order to further extrapolate the influence of the ambient light, the control signal for the exposure control of the camera is interrogated immediately before the emission of a flash and in addition to its function of controlling the flash brightness as a correction factor for ambient brightness in the evaluation of the recording (to assess the extent of Pupil contraction or dilatation).

For an immediate Evaluation is the transfer the triggered Video sequence on a mobile radio receiving device at the attending physician, in the Clinic or emergency medical service, as well as in the case of drug trials at the CRO (Contract Research Organization). Also conceivable is the Saving the sequence in the device or on one of the now common in video mobile devices Removable media, such as CIRR, SD card, memory stick, etc. and later evaluation. The in the picture with transferred Iris can be used as an identification feature, as is the case with many iris scan security systems place. In an automated instant transmission as MMS is also the time of the transfer detectable. For the case of storage in the device or on removable media, it is also possible, the time from the im mobile device integrated clock with save. It is also in cooperation with the appropriate mobile operator possible, the location of the recording to determine from the radio cell location. More precisely, this can be done by the Query of a GPS module in the mobile phone, as it is also possible the storage or transmission further, by addition integrated sensors detectable parameters, such as ambient brightness (off the camera measurement data), Temperature, possibly skin moisture / resistance when holding the mobile phone, etc. execute.

Method:

In a preferred embodiment the evaluation is carried out after a rapid sequence of measurements of a Patient or Subject In Froband Medical Studies If a series of e.g. 10 measurements taken for reference in advance. hereupon follows a mean value calculation and the determination of the standard deviation.

To For control purposes, the same measurement is influenced by a metered Amount of alcohol or relevant pharmacological agents or drugs repeated. This captures the typical slowdown or overreaction pupil contraction and dilation. In the same way, intra-individual Response profiles in case of tiredness and measured under specific stress situations.

The Use of the profiles thus obtained can be both personal Control (such as wakefulness and responsiveness, e.g. in traffic). As a mobile-controlled remote transmission is provided, but so is the monitoring to avoid increased accident hazards, e.g. possible with drivers and pilots, but also the reasoning in drug tests, documentation of accident victims, etc.

Out the data pool of the subjects, preferably by age and gender layered selected should be a tolerance profile for healthy and uninjured persons a demographic unit. From the medical and pharmaceutical literature are also characteristic anomalies of the pupil reactions known by means of static reflex pupillography and convertible to the results of this procedure are. From this it is possible in the initial care of accident victims and in a comatose state found persons by remote diagnosis of a doctor possibly lifesaving To give instructions without the helper or paramedics having appropriate Experience or judgment of the Pupil reaction got to.

• [1] Alexandridis, E., Gräser, K.-H., Helmle, H.: Handpupillometer zur Prüfung der Pupillenlichtreflexe in der Praxis und am Krankenbett. Ophtalmologe 91: 191–193 (1994)
• [2] Zülch, Fischer, Paas, Stowasser: SMI. Teltow 1996, S.2
• [3] Kuhlmann, Jochen (Hrsg.): Pupillography – principles, methods and applications. München (u.a.) Zuckschwerdt, 1999. VII, S 66 ff.
• [4] Myers et al.: Level Dependant Signal Flow in the Light Pupil Reflex. In: Biological Cybernetics, 68/1993, S. 229–234.
• [5] Fairville Medical Options, Inc.: Pupilscan II, A Hand-Held, Cordless Pupillometer. Feb. 12, 1997.
• [6] AMTech GmbH: Introducing CIP: Compact Integrated Pupillograph and Nystagmograph, 2006.

The invention is based on attached drawing 1 explains:
A mobile phone suitable for video telephony and MMS ( 1 ) is equipped with a tele-macro lens attachment ( 2 ) in front of the video telephony self-recording lens ( 3 ) fitted. The display ( 4 ) contains a target circle with crosshair ( 5 ) into which the iris ( 6 ) lets focus. The LED flashing light ( 7 ) is printed with the recording imprint on the button ( 8th ) activates and transmits the respectively programmed flash and light sequence. A second display (not shown) on the back of the cell phone top ( 9 ) allows operation by a second person.

• [1] Alexandridis, E., Grasses, K.-H., Helmle, H .: Handpupillometer for the examination of the pupillary light reflexes in the practice and at the sickbed. Ophthalmologist 91: 191-193 (1994)
• [2] Zülch, Fischer, Paas, Stowasser: SMI. Teltow 1996, p.2
• [3] Kuhlmann, Jochen (ed.): Pupillography - principles, methods and applications. Munich (ua) Zuckschwerdt, 1999. VII, p. 66 ff.
• [4] Myers et al .: Level Dependent Signal Flow in the Light Pupil Reflex. In: Biological Cybernetics, 68/1993, pp. 229-234.
• [5] Fairville Medical Options, Inc .: Pupilscan II, A Handheld, Cordless Pupillometer. Feb. 12, 1997.
• [6] AMTech GmbH: Introducing CIP: Compact Integrated Pupillograph and Nystagmograph, 2006.

Claims (15)

Method for the mobile generation, detection and transmission of response in the reflex pupillography, using the methods of video-mobile telephony, wherein a video camera is integrated into a device that records the short sequences of the pupil reaction, and a display is integrated in the device, which continuously images the camera, characterized in that the alignment of the recording camera by means of a display in the display ring, with which the device is targeted to the sighted eye so that the ring is aligned with the edge the iris of the eye to be examined covers. Method according to claim 1, characterized in that that the detection by sending flashes of light from the device and transmission and / or Recording of the reaction takes place. Method according to Claims 1 and 2, characterized that the transmission in mobile mode to a suitably equipped evaluation instance. Method according to Claims 1 and 2, characterized that the recording in the device with the help of an integrated memory or on an integrable one and removable commercially available memory card he follows. Method according to claim 1, characterized in that that a focusing of the camera lens by positioning and attitude of the device. Method according to claim 5, characterized in that that the lens of the long focal length video camera is fixed focus or Auto Focus is suitable in macro mode. Method according to Claim 6, characterized that long focal length and macro-focus by - preferably interchangeable - conversion lenses be achieved. Method according to Claim 6, characterized that long focal length and macro focus by switching of the lens (zoom) can be realized. Method according to Claims 1 to 8, characterized that one (possibly additional) Display on the back a mobile phone that allows you to aim for the iris by helper. Method according to Claims 1 to 9, characterized that one (possibly additional) Lens and LED flash on the back of the mobile phone aiming at the iris with the mobile phone turned upside down Helper allows. Method according to claim 1, characterized in that that the displayed ring through a slide overlay on the display is produced. Method according to Claims 1 and 2, characterized that a lightning diode, as they have newer photo phones, or the LED provided for the illumination of video recordings is driven, as it requires an analysis program to the required To emit light flashes and sequences. Method according to claim 12, characterized in that that the lightning or light emitting diode in its brightness adjusted so is that they in the shooting distance of 30 to 40 cm the ambient light considerably outshined. Method according to Claims 1 and 2, characterized that a control signal for the exposure control of the camera immediately before emission of a Flash queried and as a correction factor for ambient brightness in the Evaluation of admission (extent of pupil contraction or dilatation) included becomes. device to carry out the method according to any one of the preceding claims.