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Publication numberUS3320947 A
Publication typeGrant
Publication dateMay 23, 1967
Filing dateOct 22, 1964
Priority dateOct 25, 1963
Publication numberUS 3320947 A, US 3320947A, US-A-3320947, US3320947 A, US3320947A
InventorsKnoll Max Hans
Original AssigneeKnoll Max Hans
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Device for the excitation of nerve networks
US 3320947 A
Abstract  available in
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

May 23, 1967 M. H. KNOLL 3,320,947


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I INVEINTOR United States Patent 1 Claim. ci. 12s-2.1

This invention relates to a device for exciting or stimulating neuron networks of test persons through their skin and especially for use in the therapy and diagnostic of nervous disturbances of muscles and blood vessels as well as for the production of phosphene electrosleep or electronarcosis.

The devices used hitherto for this purpose generally consist of mains-operated electric pulse generators of frequencies from 1 to 100 or 1 to 1000 cycles per second. The outputs of such pulse generators are connected through relatively long cables to two or more metal electrodes which are pressed to the skin surface of the test person at the pOsition most appropriate for excitation. Such devices generally are relatively large, cumbersome and heavy. They also require a long cable connection from the device to the test person. This, especially in electrosleep and phosphene devices, impairs the desired effect on the test person because these arrangements impede the free mobility of the test person.

In accordance with the invention the disadvantages of the known devices are avoided by arranging the pulse generator in at least one box type housing which is placed on the body of the test person, and which has attached to its outside at least one of the electrodes. In case this box type housing consists of metal it can serve itself as an electrode. In case, however, the housing is made of insulating material which may be of advantage in view of the circuit elements arranged inside the housing, the electrode can also be attached on the surface of the housing in form of a metal covering or in the form of an appropriate electrode plate. Depending upon the field of application, various forms of electrodes can be used. Apart from the customary plane electrodes, brush or ring type electrodes for example, fitting into the eye cavities of the test person can be provided. In the latter case it has been found particularly advantageous to provide two ring shaped electrodes connected in parallel and applicable concentrically with respect to each eye cavity of the test person; a third plane or brush shaped electrode is provided, applicable to the occipital region of the cranium or on the neck of the test person. In order to adapt the device to treatment in the dark it is further of advantage to shape the box type housing in such a manner that in operation, the eyes of the test person are closed by the housing tightly, against light. Preferably, the electrode attached to the housing, especially the two electrodes attached on two separate box type housing parts, are pressed to the skin surface by means of an elastic band attached to the housing at the point most favorable for the excitation of the nerve network concerned.

The device according to the invention in which the electric pulse generator forms together with the electrodes a structural unit of compact built, is therefore applicable on the test person in a very simple manner and does not disturb the course of the test.

These and other objects of the invention will be more fully apparent from the drawings annexed herewith in which:

FIG. 1 shows, partially in cross section, and in front elevation, a device according to the invention built into a structural unit;

FIG. 2 shows the principal circuit diagram of a pulse generator as applied to a device tion.

In FIG. 1 which shows a pulse device according to the invention for exciting or stimulating a neuron network, the circuit elements of the pulse generator proper indicated at 1, 1 such as transistors, condensers, resistances, batteries and the like, are arranged in two box type housings 2, 2' forming structural units with the two electrodes, 3, 3', respectively consisting for example, of silver or the like and applicable on the skin of a test person 4. Preferably housing parts 2, 2' consist of insulating material. Housing parts 2, 2' with electrodes 3, 3, can be attached by means of belts 5 to the body portion 4, for example, the head of a test person containing the neuron network to be excited or stimulated. The circuit elements of the pulse generator arranged in parts 1, 1' of the device are connected electrically by means of one or more short cables -6. The exciter electrodes 3, 3' connected with the pulse generator, can also be arranged on insulated housings 2, 2 by means of metallizing the surface of the housings, and electrodes 3, 3' together with housing parts 2, 2' can be pressed firmly by means of belts 5 to the skin surface of the test person.

In order to enhance the transition of current from electrodes 3, 3' to the skin of test person 4', the electrodes can be covered with porous material such as flannel or foam rubber 7, 7', which has been wetted for example by means of a salt solution. A conducting electrode paste may also be applied.

In order to keep the device as little and as light as possible subminiature or microtransistor circuits, for example printed circuits, are used for the generator.

The arrangement of the box type housing parts in accordance with the invention and the configuration of the electrodes is always such that the electrodes can be applied in the desired manner on the most favorable point of the test person, for example, on the eyes. Also in accordance with the invention, another electrode, preferably brush-shaped, fitting to the occipital region of the test person, may be provided as schematically indicated at 3", attached to housing 2".

As circuitry of the pulse generator, any desired known circuits are suitable. Of particular advantage however, a transistor circuit according to FIG. 2 has been found, operating according to the principle of a blocking oscillator. In this circuit, switchable condenser 21 is charged through the collector emitter line of a transistor 20 by means of a battery 22 and adjustable resistance 23 which serves to form the pulse front. Simultaneously, charge condenser 21 is continuously discharged through the resistor condenser combination 24. If the voltage on condenser 21 has reached a certain value, a discharge occurs through the emitter-base line of transistor 20, which involves the formation of the back of the pulse. In the base circuit of transistor 20, a current limiting resistance 25 is provided which in order to avoid a feedback is bridged by a condenser 26. Resistance 27 provided in the output circuit of the transistor serves to control the output voltage. The pulse frequency is adjusted by vari-able resistance 23 or by the adjustment of condenser 21. In order to measure the effective pulse current an ammeter 28 is arranged in the line to electrodes 3, 3'.

As pulse generators for the device according to the invention, circuits are suitable operating with constant scanning ratio and continually variable frequency, or devices operating with constant pulse duration and variable duration of interval, hence possessing a variable scanning ratio. The latter type of generators can be so dimensioned that the same device permits at short pulse durations for example of less than one msec. optimum conditions for the excitation of a certain neurological according to the invenfunction for example, electrosleep, while at longer pulse durations, optimum conditions can be established for the excitation of another neurological function, for example, phosphene. For this purpose, a generator circuit can be applied as described in Elektromedizin No. 8 (1963) page 75, Fig. 5. This circuit permits a variable scanning ratio with variable interval duration whereby the pulse length remains constant with varying frequency.

I claim:

Apparatus for the excitation of the nerve networks of the human head, comprising a pair of boxes both together containing complementary electronic pulse generating means, each box having one side wall forming an electrode for contact with one side of the head, and both boxes being electronically interconnected; said pulse generating means including a transistor circuit having a collector emitter connection to its corresponding electrode, adjust-able condenser means, a battery for charging said condenser means through said collector emitter connection, thereby forming one side of the pulse of the pulse References Cited by the Examiner UNITED STATES PATENTS 3,160,159 12/1964 Hoody et a1. 128-420 3,217,706 11/1965 Sullivan 1282.1

FOREIGN PATENTS 1,177,325 12/1958 France. 1,806,186 2/1960 Germany.

RICHARD A. GAUDET, Primary Examiner.

20 S. BRODER, Assistalnt Examiner.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US3160159 *Jan 4, 1960Dec 8, 1964Hoody Jusha BorisovichDevice for inducing sleep
US3217706 *Oct 2, 1962Nov 16, 1965Spacelabs IncImpedance oculograph
DE1806186A1 *Oct 31, 1968Jul 10, 1969Voest AgAbdeckvorrichtung fuer Auffangwannen von oberirdischen,leichtere Fluessigkeiten als Wasser aufnehmenden Grossraumbehaeltern
FR1177325A * Title not available
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3521087 *May 16, 1969Jul 21, 1970Spacelabs IncCurrent limiting circuit
US3565060 *Aug 21, 1968Feb 23, 1971Us NavyBiopotential sensor employing integrated circuitry
US3918461 *Jan 31, 1974Nov 11, 1975Cooper Irving SMethod for electrically stimulating the human brain
US4018218 *Mar 12, 1975Apr 19, 1977Carlson James EMethod and apparatus for sleep induction
US4360026 *Dec 11, 1980Nov 23, 1982Venin Igor VDefibrillator
US4662884 *Apr 25, 1984May 5, 1987University Of Utah Research FoundationProstheses and methods for promoting nerve regeneration
US4722343 *Dec 16, 1985Feb 2, 1988Nicolet Instrument CorporationMethod and apparatus for applying electrical stimulus pulses to a subject
US4778467 *Jul 10, 1986Oct 18, 1988The University Of UtahProstheses and methods for promoting nerve regeneration and for inhibiting the formation of neuromas
US4817628 *Oct 18, 1985Apr 4, 1989David L. ZealearSystem and method for evaluating neurological function controlling muscular movements
US4942880 *Jun 24, 1988Jul 24, 1990Ceske Vysoke Uceni Technicke V PrazeMethod for non-invasive electric diagnosis and therapy in hemodialysis and general medicine
US6658299Jan 4, 2000Dec 2, 2003William H. DobelleArtificial system for vision and the like
US7981062Oct 9, 2009Jul 19, 2011Imi Intelligent Medical Implants AgMechanically activated objects for treatment of degenerative retinal disease
US20050004625 *Jun 9, 2004Jan 6, 2005Chow Alan Y.Treatment of degenerative retinal disease via electrical stimulation of surface structures
US20050033202 *Apr 12, 2004Feb 10, 2005Chow Alan Y.Mechanically activated objects for treatment of degenerative retinal disease
US20060142818 *Dec 12, 2005Jun 29, 2006OptobionicsMethods for improving damaged retinal cell function
US20100121231 *Oct 9, 2009May 13, 2010Chow Alan YMechanically activated objects for treatment of degenerative retinal disease
U.S. Classification600/554, 607/72, 600/26, 607/54
International ClassificationA61N1/04, A61N1/36
Cooperative ClassificationA61N1/375, A61N1/0531, A61N1/0456, A61N1/0492, A61N1/36014, A61N1/0472
European ClassificationA61N1/04E1N, A61N1/04E2, A61N1/36E, A61N1/36