DE10157024B4 - Device for generating pulsating electromagnetic and / or electric fields - Google Patents

Abstract

Device for generating pulsating electromagnetic and / or electrical fields in a stimulation device with a master module (doctor module) for mutual communication with a peripheral module (patient module), wherein the information transmission between the master module and the peripheral module Module via the World Wide Web and the two modules have a computer interface, and from a sensor module coupled to the peripheral module in the patient in real time derived cardiovascular data (eg pulse / heart rate, arterial and microvascular perfusion at the site of measurement, blood vessel tone) to the master module (physician module) are transferable, evaluated there and the corresponding stimulation signals for individual treatment to the peripheral module are transferable back and that the individual stimulation is terminated when the appropriate parameters or within a defined uncertainty range.

Description

The invention relates to a method for operating a device for optimized stimulation of one or more subjects by means of pulsed electromagnetic and / or electric fields, in the context of so-called magnetic field therapy in the Quantron resonance system.

The application of pulsed electromagnetic fields (PEMF) is greatly increasing in many areas of medicine due to extraordinarily positive stimulation results [eg, Quittan, M., O. Schuhfried, GF Wiesinger and V. Fialka-Moser: Clinical Effects of Magnetic Field Therapy - a literature review. Acta Medica Austriaca. Volume 27, H. 3 (2000), 61-68; Zhadin, MN: Review of Russian Literature on Biological Action of DC and Low-Frequency AC Magnetic Fields. Bioelectromagnetics 22: 27-45 (2001)]. There is an urgent need for greater scientific penetration, based also on the findings of modern medicine and molecular research. So z. For example, the groundbreaking discovery of the "vascular nitric oxide (NO) system" [including Schmidt, HHHW: NO, endogenous messenger substance and cytotoxic agent. MED. NOT A WORD. PHARM. 17, 6 (1994), 168-185] by the pharmacologist Furchgott at the end of the 1980s not only radically changed the therapy concepts of conventional medicine, but also the result interpretation and the further development of QRS ^® magnetic field stimulation [Warnke, U .: device for influencing of low frequency electric and magnetic fields. European patent specification EP 0 621 795 B1 ; Warnke, U .; Fischer, G. and HL König: Device for the transport of ions, in particular protons. European patent specification EP 0 594 655 B1 ; Fischer, G. and U. Warnke: Device for determining the effect of pulsed magnetic fields on an organism. European patent specification EP 0 729 318 B1 ; Fischer, G .: Fundamentals of Quantum Therapy. HECATAEUS-Verlagsanstalt 1996] is decisively influenced by this. With the "stochastic resonance" discovered by Kruglikov and Dertinger [Kruglikov, IL and H. Dertinger: Stochastic Resonance as a Possible Mechanism of Amplification of Weak Electric Signals in Living Cells. Bioelectromagnetics 15: 539-547 (1994)], specifically the so-called "noise-induced stability", will explain for the first time how the cell manages to amplify extremely noisy signals and generally use the noise as an energy source for information-driven processes. This scientific knowledge is full of consequences for all stimulation methods.

In addition to the stimulation by means of pulsating magnetic fields [ua EP 0 621 795 B1 and EP 0 594 655 B1 and 1st International Symposium "Quantum Medicine in Research and Practice:" QRS ^® Magnetic Field Therapy: Present and Future ". Darmstadt / Weiterstadt April 2, 2001], stimulations with special electric fields have been known for many years [ia König, HL: Invisible Environment. Man in the field of electromagnetic forces. Self-Publishing Herbert L. König, Munich 1986 (ISBN 3-923819-04-8); Hartmann, E .: Novel treatment options in the tilting field. Expertise VI, H. 12, 1958]. It had been recognized that the electric field fluctuates very much in the open air, above the ground, in time as well as locally, and in the case of rainfall and bad weather its values deviate considerably from the fair weather values. It appears in many people a "weather sensitivity", so that obviously by a "good weather stimulation program" an influence seems possible.

For signals of extremely low frequencies, pure field fluctuations occur. These phenomena have no wave-like character, they therefore do not propagate in the sense of an electromagnetic wave according to king and must therefore be regarded as field fluctuations of a local character. Thus, due to the frequencies, especially the ULF and the (lower) ELF range are predestined for such phenomena. For example, according to König, they can be related to a thunderstorm that takes place near an observatory, since lightning discharges also have spectral components up to 1 Hz. However, such locally limited processes are much more frequently to be observed in connection with electrically charged clouds whose turbulence apparently appears externally in the form of low-frequency electric field fluctuations. While the "fair weather frequencies" have frequency ranges of about 8-13 Hz and are referred to by King with "signal type I", the signal type II is connected to the frequency range of the delta rhythm of the EEG and indicates, locally limited, usually strong weather disturbances. He thus symbolizes the signal type I "the opposite pole, the disturbed, the restless, the anomalous, the unbalanced". The weather sensitivity as "locally increased irritability" manifests itself to Varga [Varga, A .: electrosmog. Varga 1995] in "weather pains", in all their gradations "to unbearable pain, namely in diseased tissue, in scars of all kinds, bone fractures, amputation stumps, inflamed bursa, chronically ill joints and inflammatory tissue in general." There are several papers that indicate that between the weather fronts and the frequency of z. As heart attacks with acute cardiac death is a causal relationship.

Varga points out that for over 200 years in many works on the interaction between meteorological processes and biological reactions.

Based on these findings, King [Invisible Environment. Man in the field of electromagnetic forces. Self-published Herbert L. König, Munich 1986 (ISSN 3-923819-04-8)] on stimulation results with artificial electric fields, if their temporal characteristics (frequency content) in the basic parameters as well as possible match those of the natural electric field. Thus, in particular results on the biological effectiveness of 10 Hz electric fields are known u. a. z. T. highly significant changes in response times, anti-inflammatory and antispasmodic effects in acute inflammation, significant improvements in attention-load capacity in field-exposed students, as well as in office workers, significant improvements in subjective well-being. In a broad research program, König investigated the influence of 10 Hz artificially generated electrical fields on the driving and reaction behavior of test persons in a motor vehicle driving simulator. It was found that the number of driving errors (eg disregard of the right of way, stop signs, pedestrian crossings, etc.) of the subjects under field influence could be reduced by 8 to 10% on average. According to König, the performance of students was investigated with 10 Hz analog fields in a Munich grammar school. The evaluation of all scores during the school year shows a clear positive effect of the electric field. According to this, the grades on average improved by 1.2%, based on a linear grading scale from 1 to 6. Especially the group of pupils with "extroverted-labile" contributed to this with an improvement of 9.4% (absolute value 0 , 33) in particular.

On the other hand, according to König, it is known that stimulation with artificial electric fields analogous to signal type II (3-6 Hz) may result in headache after a few minutes, as test persons reported. After the headache subsides, fatigue often sets in.

• – Statisches Feld: In zeitlicher Hinsicht ist es ein Permanentfeld, das einer sehr langsamen Umbildung unterliegt.
• – Wechselfeld: Dem statischen Feld sind scheinbar regellose Komponenten überlagert, nämlich die magnetischen Störungen oder Stürme, des weiteren solche, mit mehr oder weniger ausgeprägten Periodizitäten. Die Intensität der Stürme steht in Korrelation mit der Aktivität der Sonne und dem Auftreten von Polarlichtern, die der periodischen Variationen mit dem Gang von Sonne und Mond. Aus Erdmagnetfeldmessungen geht hervor, daß Schwingungen mit einer Variationsbreite der Periodendauer von 30 Sekunden (= 0,03 Hz, also untere Grenze der peripheren Mikrozirkulation) bis 0,025 Sekunden (= 40 Hz, also obere Frequenz im EEG) auftreten. Dominant (Intensität von lediglich 10^–12 Tesla) sind Schwingungen des Magnetfeldes mit der Periodendauer von 4,5 Sekunden, d. h. 0,22 Hz. Eine solche Frequenzkomponente stimmt überein mit der optimalen Atmungsfrequenz des Menschen und kann mit der Aktivität des Parasympathikus in Zusammenhang gebracht werden. Ebenfalls treten Frequenzen von 8–13 Hz auf, die mit denen des EEG-α-Bereichs übereinstimmen. Sie korrelieren mit denen des elektrischen Feldes, so daß man von einer ausgeprägten Redundanz zwischen elektrischem und magnetischem Feld sprechen kann.

By "terrestrial magnetism" is meant the magnetic field occurring in the immediate area of the earth, the amount of which amounts on average to about 50 μTesla (= 0.5 Gauss) and barely exceeds about 70 μTesla. According to König [Invisible Environment. Man in the field of electromagnetic forces. Self-Publishing Herbert L. König, Munich 1986 (ISBN 3-923819-04-8)) from 2 components:

• - Static field: In terms of time, it is a permanent field subject to a very slow transformation.
• - Alternating field: The static field is superimposed on seemingly random components, namely the magnetic disturbances or storms, and moreover those with more or less pronounced periodicities. The intensity of the storms is correlated with the activity of the sun and the appearance of polar lights, the periodic variations with the course of the sun and moon. Earth magnetic field measurements show that oscillations occur with a variation width of the period of 30 seconds (= 0.03 Hz, ie lower limit of the peripheral microcirculation) to 0.025 seconds (= 40 Hz, ie upper frequency in the EEG). Dominant (intensity of only 10 ^-12 Tesla) are oscillations of the magnetic field with the period of 4.5 seconds, ie 0.22 Hz. Such a frequency component is consistent with the optimal respiratory rate of humans and may be associated with the activity of the parasympathetic nervous system become. Also occur frequencies of 8-13 Hz, which match those of the EEG-α-range. They correlate with those of the electric field, so that one can speak of a pronounced redundancy between the electric and the magnetic field.

• – elektrisches Feld über eine entsprechende Antenne,
• – magnetisches Feld über spezielle Applikatoren [ EP 0 594 655 B1 ]

So if certain biological processes are caused by natural electric and magnetic fields, it must be possible to emulate nature with special fields as far as possible and to stimulate humans and animals in the presence of a deficit. Such a stimulation is after EP 0 621 795 B1 and EP 0 594 655 B1 by means of special "pulsating magnetic fields" possible, on the other hand by radiation of characteristic electric fields via an antenna. Obviously, the accuracy of such a simulation of the natural electric and magnetic fields is improved in the sense of an optimization if according to the invention a simultaneous (parallel) radiation of these fields is carried out:

• Electric field via a corresponding antenna,
• - magnetic field via special applicators [ EP 0 594 655 B1 ]

The EP 0 729 318 B1 describes a device for determining the effect of pulsed magnetic fields on an organism, wherein the magnetic field treatment is to take place with a device to which a stimulation device for generating pulsed magnetic fields is connected. The device is programmed with a patient card, on which the data for the treatment are stored and a commissioning of the device is only possible is when the patient card is read into the device.

However, the cited document does not describe the optimal communication between doctor and patient, provided that a stimulation device is present at the doctor, with which an initial treatment takes place and then the data thus obtained are stored on a chip card to secure transmission of the Chip card and the data obtained there to program a patient standing device.

The EP 0 621 795 B1 describes a device for influencing local low-frequency electrical and magnetic alternating fields which act in a conductive space in a limited spatial area. It should therefore be eliminated fields of power lines, traction current lines and lines for the power supply in houses and connected electrical equipment. However, a device for generating pulsating electromagnetic and / or electrical fields in a stimulation device is not described in this document.

The DE 42 21 739 A1 describes a device with a generator generating low-frequency pulsed electric currents and a transmitting antenna connected thereto, the electromagnetic fields of which serve to act on a body region to be treated. However, a connection between a stimulation device used by a doctor and a stimulation device used at a patient's home is not described in this document.

The DE 198 24 504 A1 describes a device for stimulating a body part with at least two coils and a power supply for generating magnetic fields at Inervationszonen of the body.

Likewise, this document does not disclose communication between a stimulation device used by a physician and a stimulation device remote from a patient.

The WO 96/11723 describes a medical therapy device in which a stimulating device operating with pulsed electromagnetic and / or electric fields is controlled with a programmable memory card. Such a memory card also stores the treatment duration currently being used on the patient or other parameters which determine the continuation of the therapy. An application of a stimulation device using the memory card in the home area of the patient is not addressed in this document. Rather, the individualized for each patient memory card is carried by the patient and introduced at the start of treatment in the rooms of the doctor in the therapy device and read out. In this document it is important that once a prescribed by the therapist therapy, which may also be changed by physiological parameters of the patient in the therapy session, automatically expires and further intervention of the therapist is no longer required.

For these reasons, it is not intended in the mentioned device to read in a memory card programmed in a master module with the stimulation data for performing a home therapy in a stimulation device located at the patient and to continue the stimulation in the domestic environment.

With the EP 1 062 976 A2 a medical therapy system has become known, which is preferably provided for electrical stimulation or other treatment of the heart with electrical pulses. It is therefore a pacemaker, which is implanted in the patient and communicates via a wireless communication interface with an externally, extracorporeally arranged therapy device. The programming of a memory card containing the stimulation data in a master module located at the doctor and the reading out of this memory card in the patient in the home environment is not described in this publication.

The invention is therefore based on the WO 96/11723 A1 the object of developing a device of the type mentioned so that a secure and manipulation-free transmission of data from the doctor-based master module is guaranteed on the peripheral module located at the patient and that in the master module initially deposited stimulation data on a programmable memory card can be used to continue a home therapy on the patient.

To solve the problem, the invention is characterized by the technical teaching of claim 1.

The invention is therefore based on the object, a device of the type mentioned in such a way that a secure and manipulation-free transmission of data from the physician-based master module is guaranteed on the patient-based peripheral module.

To solve the problem, the invention of the technical teaching of claim 1 is characterized.

A decisive role in optimal stimulation of patients by means of special electrical or general electromagnetic fields is optimal communication between doctor and patient, so both by appropriate methods and devices too. In the present invention, these devices are called "modules", between the modules is a corresponding communication.

• – off-line: Ausgehend von einer ärztlichen Diagnose bzw. durch entsprechendes Feedback werden im Master-Modul die für den Patienten zum aktuellen Zeitpunkt optimalen Stimulationsdaten auf einer Chipkarte oder einen anderen Datenträger (z. B. Diskette) gespeichert. Damit ist eine automatische Aktivierung des Patienten-Moduls zum Zwecke der häuslichen Patienten-Stimulation möglich. Die notwendige Kontrolle des Stimulationsergebnisses erfolgt nach einem festgelegten Zeitpunkt durch den Arzt, so daß er eine Präzisierung der zukünftigen Stimulationsdaten für seinen Patienten auf der Chipkarte (bzw. Datenträger) vornehmen kann. Der Arzt beendet die gesamte Behandlung, wenn bei seinem Patienten entsprechende quantitative oder qualitative Parameter erreicht werden bzw. in einem festgelegten Unsicherheitsbereich liegen. Als weitere Variante ist vorgesehen, die Gültigkeitsdauer der durch den Arzt auf dem Datenträger codierten Stimulationsdaten zeitlich zu begrenzen und danach eine Löschung der Daten vorzunehmen. Dazu wird in beiden Modulen eine Uhr integriert.

According to the invention, the doctor module (master) is in mutual communication with the patient module (peripheral module). Communication is either off-line or on-line:

• - off-line: Based on a medical diagnosis or appropriate feedback, the master module stores the optimal stimulation data for the patient at the current time on a chip card or another data carrier (eg floppy disk). Thus, an automatic activation of the patient module for the purpose of home patient stimulation is possible. The necessary control of the stimulation result takes place after a specified time by the doctor, so that he can make a specification of the future stimulation data for his patient on the chip card (or data carrier). The doctor will terminate the entire treatment if adequate quantitative or qualitative parameters are achieved for his patient or within a defined uncertainty range. As a further variant, it is provided that the period of validity of the stimulation data coded by the physician on the data carrier be limited in time and thereafter a deletion of the data be carried out. For this purpose, a clock is integrated in both modules.

• – on-line: Die Informationsübertragung erfolgt über das World Wide Web. Dazu erhalten beide Module eine Rechnerschnittstelle. Von einem mit dem Patienten-Modul gekoppelten Sensor-Modul werden beim Patienten in Echtzeit abgeleitete Herz-Kreislauf-Daten (z. B. Puls-/Herzfrequenz, arterielle und mikrovaskuläre Durchblutung am Meßort, Blutgefäß-Tonus) zum Master-Modul (Arzt-Modul) übertragen, dort bewertet und die entsprechenden Stimulationssignale zwecks individueller Behandlung zum Peripherie-Modul (Patienten-Modul) zurückgesendet. Die individuelle Stimulation wird beendet, wenn entsprechende Parameter erreicht werden bzw. in einem festgelegten Unsicherheitsbereich liegen. Der Master-Modul ist wiederum gekoppelt mit einem Rechner zum Zweck der Patientenverwaltung, Speicherung der Stimulationsdaten und Eintragung von Befunden.

The Quantron Resonance system according QRS ^® EP 0 621 795 B1 and EP 0 594 655 B1 is an open stimulation system using special pulsating magnetic fields and without feedback from a patient's current cardiovascular parameters to the QRS ^® input. It is stimulated by the intensity of the magnetic field, whereby it was recognized that among other things at low intensity levels of such a field can lead to a vasodilatory effect with reduction of blood pressure and heart rate, on the other hand at higher levels, this reverses, the sympathetic tone increases. The frequency content of the field is not changed, only the signal intensity. According to the invention, the biofeedback stimulation system is therefore provided as a further variant, ie to couple the master module to a sensor module, where, on the basis of the known remission photoplethysmography (NIRP principle) EP 0 913 120 A1 ] or transmission photoplethysmography (NIRT principle) non-invasively from a peripheral measurement site (finger or great-toe berry) both central and peripheral circulatory parameters (eg pulse / heart rate, arterial and microvascular blood flow at the measurement site, blood vessel -Tonus) continuously detected and derived via a code table from this setting commands for a stimulation system and set. This provides feedback or biofeedback. In this sense, the stimulation duration is only partially freely selectable, since it is automatically terminated in the case of the (known) normal ranges running away circulation parameters. As a rule, based on practical experience, a stimulation duration of 8 to 24 minutes is selected, shortening and extensions are possible. The stimulation data thus obtained at the patient are stored on a data carrier, so that a domestic patient stimulation can be carried out automatically. The illustrated device with feedback is designed so that the stimulation can be stopped manually at any time by the physician.

• - on-line: The information is transmitted via the World Wide Web. For this purpose, both modules receive a computer interface. From a sensor module coupled to the patient module, cardiovascular data (eg pulse / heart rate, arterial and microvascular blood flow at the measuring site, blood vessel tone) derived from the patient in real time is sent to the master module (physician). Module), evaluated there and the corresponding stimulation signals for individual treatment to the peripheral module (patient module) sent back. The individual stimulation is terminated when corresponding parameters are reached or within a defined uncertainty range. The master module is in turn coupled with a computer for the purpose of patient management, storage of stimulation data and entry of findings.

The invention will be explained in more detail with reference to embodiments and figures. Show here

1 an example of a patient chip card with the possibility to save 4 special programs (memo 1 to 4),

2 the general communication between master module and patient module (peripheral module),

3 the special communication between doctor and patient,

4 an exemplary embodiment of a feedback QRS ^® -Biofeedback stimulation system, including data acquisition at the measurement locations finger and / or big toe Berry,

5 one for the example 4 underlying QRS ^® code table for pulse / heart rates derived at the finger tip location under stimulation and

6 a presentation of changes in peripheral and central cardiovascular parameters under ^QRS® stimulation derived from a finger-stick of a cancer patient by the non-invasive NIRP method.

• – Pulsfrequenz,
• – mikrovaskuläre Durchblutung am Meßort,
• – arterielle Durchblutung der entsprechenden Peripherie.

From the NIRP measurements (see 6 ) can be determined before, under and also after stimulation continuously and as averages per minute:

• Pulse rate,
• - microvascular perfusion at the measuring site,
• - Arterial perfusion of the corresponding periphery.

The associated normal ranges are on the surface in 6 seen. In order to immediately recognize visually the derived parameters, from when a stimulation was started, in 6 as an example after the 7th minute of measurements before stimulation automatically a mark (in 6 "T") is set. It is evident in the present case that both the microvascular and arterial perfusion represent non-normal values even before the QRS stimulation, which move further away from the normal range with stimulation. Based on the internal code table, signal intensity level 2 is determined at the beginning of the QRS stimulation with a set "vital program", which is reduced to "sensitive" (level Se) after a stimulation time of 1 minute, after the 3 Stimulation minute to zero, thus stopping the stimulation. Cause of such behavior are not shown here free oxygen radicals that occur in this cancer patient increasingly.

The 1 shows an exemplary ISO standard chip card, which may find application in the inventive method for operating the device for stimulation using magnetic field therapy. This card contains one or more semiconductor memories, which interact via conventional contact fields with a read / write device, wherein so-called contactless chip cards can also be used, ie those which permit inductive or capacitive communication are used.

The master module after 2 serves to create one or more special stimulation programs tailored to the particular subject or patient, which can be transferred with the aid of the chip card as a storage muscle and then read out in the patient module. Since it is provided according to the invention to store application times and / or number of applications in the execution of the stimulation programs also in the memory card quasi as protocol data and continue the possibility to record treatment results or achievements, is with retransfer and transfer of the corresponding data on or in the master Module evaluation by the attending physician possible, which in turn is then able to optimize the respective stimulation program patient-specific. Of course, this process can be software-assisted, so that the physician is largely exempt from manual programming and thus updating the stimulation program data.

According to 3 In the presence of the attending physician, a first or repeated treatment can be carried out with the aid of the master module in order to generate a basic program via a feedback measurement taking into account the cardiovascular parameters of the respective patient or subject the existing patient module is repeatedly executable.

In order to be able to objectively evaluate the result of the treatment or of the stimulation by means of magnetic field therapy, it is appropriate 4 the possibility of recording cardiovascular parameters, microvascular perfusion at the site of measurement, and arterial perfusion of the corresponding periphery. After evaluating the signals preprocessed by the sensor module, these evaluation results are passed to the master module to in turn flow into the programming of the pacing program data.

The optimized stimulation device has a predetermined number of intensive levels (see QRS level after 5 ) and it can be entered individually via an input unit treatment duration. Various basic programs are part of the software-based basic equipment of the patient module. A partner circuit allows the connection of multiple applicators, z. B. in a double bed, at least two programs run one behind the other. All therapy parameters last set are stored in the device and can be called up and activated for fast repetition via a memo function key. The chip cards can also optionally be used as quasi money cards for studios and fitness centers that provide appropriate equipment. Also, rental cards for corresponding rental devices are conceivable, with all other functions remain unaffected.

Basic smart cards contain certain clinically tested and proven pacing programs that target specific indications. These output programs can then be adapted taking into account individual patient data, so that the programming effort is further reduced in individual cases. The stimulation device cooperates with a coil mat which generates a magnetic field of different strength depending on the setting. The magnetic field strength can range from 0.3 μT to 30 μT. The magnetic field is preferably adjusted so that it is evenly distributed over the length and width of the coil mat. Coil pillows or combined pillows and mats are also used.

In summary, the working method according to the invention for operating a device for optimized stimulation of one or more subjects by means of pulsed electromagnetic and / or electrical fields is characterized in that at least one memory card is provided which can be individually programmed and which is arranged with a read / write device arranged in the stimulation device. Write unit interacts. On the output side, the optimal biological amplitude window of the respective subject is initially selected according to EP 0 729 318 B1 determined. Furthermore, a determination is made of the cardiovascular function of the respective subject. After that, an calculation or determination of field strength and frequency patterns for the stimulation program takes place taking into account the aforementioned proband typical data.

The stimulation program data are stored on the memory card and / or in another, existing in the device data memory. During the application or execution of the stimulation program, application times and / or the number of applications are then preferably recorded in a protected area of the memory card as protocol data. The protocol and stimulation program data are taken over for checking by an authorized and qualified person, which is preferably done by reading the memory card. From the protocol and stimulation program data, it is then possible to create an updated stimulation program and to store this new or modified program on the memory card or to transfer it to the device-internal data memory, and then, with renewed program execution, an improved therapeutic result or therapy goal to achieve.

Claims (12)

Device for generating pulsating electromagnetic and / or electrical fields in a stimulation device with a master module (doctor module) for mutual communication with a peripheral module (patient module), wherein the information transmission between the master module and the peripheral module Module via the World Wide Web and the two modules have a computer interface, and from a sensor module coupled to the peripheral module, the cardiovascular data derived from the patient in real-time (eg, pulse / heart rate, arterial and microvascular blood flow at the measurement site, blood vessel tone) to the master module (Physician Module) are transferable, evaluated there and the corresponding stimulation signals are retransmitted to the peripheral module for individual treatment and that the individual stimulation is terminated when the respective parameters have been reached or within a specified range of uncertainty. Apparatus according to claim 1, characterized in that the master module is used to create one or more stimulation programs, which are transmitted by means of the chip card as a storage medium and can be read in the patient module. Device according to one of Claims 1 to 2, characterized in that the period of validity of the stimulation data coded on the chip card is limited in time in that a deletion of the data takes place by means of a clock integrated in both modules. Device according to one of claims 1 to 3, characterized in that the master module is coupled to a sensor module, and the biomedical signals detected at the measurement site continuously detected and derived via a code table setting commands for the stimulation device and are adjustable. Device according to one of claims 1 to 4, characterized in that detected during the stimulation treatment environmental data, such as temperature, air pressure, humidity, acoustic loads or the like and these are stored. Apparatus according to claim 5, characterized in that the exceeding of predetermined limits of certain environmental data is determined and stored. Apparatus according to claim 5 or 6, characterized in that the storage of said environmental data or limit values is carried out on the chip card. Device according to one of the preceding claims 1 to 7, characterized in that detected during the stimulation treatment, the pulse rate, the microvascular perfusion at the measurement site and the arterial perfusion of the corresponding periphery of the subject and can be stored on the chip card. Device according to one of the preceding claims 1 to 8, characterized in that an additional electromagnetic field of low frequency and low field strength can be generated. Apparatus according to claim 9, characterized in that the frequency of the additional electromagnetic field in the range of 5 to 20 Hz, preferably 10 Hz. Device according to one of the preceding claims 1 to 10, characterized in that the stimulation device cooperates with a coil mat, which generates a magnetic field of different strength depending on the setting. Apparatus according to claim 11, characterized in that the magnetic field strength is in the range of 0.3 μT up to 30 μT.

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