|Publication number||US2241190 A|
|Publication date||May 6, 1941|
|Filing date||May 21, 1937|
|Priority date||May 21, 1937|
|Publication number||US 2241190 A, US 2241190A, US-A-2241190, US2241190 A, US2241190A|
|Original Assignee||Barnet E Bonar|
|Export Citation||BiBTeX, EndNote, RefMan|
|Referenced by (15), Classifications (12)|
|External Links: USPTO, USPTO Assignment, Espacenet|
y 1941- c. FENNING 2,241,190
METHOD AND APPARATUS FOR PHYSIOLOGICAL RESEARCH Fil ed May 21, 1957 I Patented May 6, 1941 METHOD AND APPARATUS FOR PHYSIOLOGICAL aasnanon Con Fanning, Salt Lake City, Utah, assignor of three-sevenths to Barnet E. Bonar Application May 21, 1937, Serial No. 143,907
4 Claims. (01. rat-a1) The purpose of this invention is to provide a convenient method and apparatus for observing certain physiological phenomena without the necessity of bringing any part of the apparatus into actual contact with the organ or part of the body under observation. The invention includes mechanism for making a continuous graphic record of the behavior of an organism so that its reaction under various conditionsmay be studied and compared. The invention consists in certain features and elements of construction in combination, and in the method of subjecting an organism to observation with the assistance of said combination of elements, as hereinafter described and illustrated in the drawing and as indicated by the claims.
In the drawing:
Figure 1 is a wiring diagram embodying this invention.
Figure 2 is a schematic diagram of the apparatus as arranged for use. I
Figure 3 is a reproduction of a typicalv graphic record produced with the apparatus.
The method and apparatus which constitute this invention are applicable to a wide range of investigations, both in the nature of medical research and medical diagnosis. Certain applications will be obvious as the description proceeds. i v Figure 1 shows diagrammatically at I a grounded support which may be in the nature of a tray or pan or operating table, upon which the body of the individual under examination is placed. Such a body or organism is represented in dotted outline at 2. Suspended over the body,
for an apparatus with a direct current source such as a battery,
- II, which thus provides the high potential direct current input to the oscillator circuit. The other terminal of the battery is connected to an indicating instrument such as a galvanometer, 8, and thence by a conductor, I5, to the filament, l2, of the audion. The direct high potential input passing through the electrical recording instrument, 6, is opposed by a balancing electromotive force which is supplied by a battery, I8, and which is adjustable to hold the indicating member of the instrument, 6, normally at its zero position bymeans of a. resistance unit which may include a coil, I 9, for coarse adjustment and. a second coil, 20, for flne and delicate adjustment of the resistance in the circuit. As
. a result, any slight variation in distance between 2, isv a metallic plate, 3, electrically connected having associated with it a variable condenser, 9. These elements are provided with conductors.
leading to the grid, III, of a'vacuum tube or audion which may be of the triode type, with a grid-leak and condenser interposed at I I. The filament, I2, is energized by any suitable source of current, such as a battery, I3, while the plate, II, of the tube is connected by a conductor, I5, and through a radio frequency choke coil, I6,
the metallic plate, 3, and the adjacent surface of the body will vary the electrical capacity of these parts acting as a condenser and this will alten the frequency of the oscillation of the oscillator, producing a change in the input direct current through .the audion which will be reflected in the electrical recording instrument, 5.
The conductor, l5, in connection with plate, I4, and condenser, 8, constitutes the Path taken by the output radio frequency current. The electrical recording instrument, 6, is provided with a variable shunt, 2|, so that with the balanced forces derived from opposing current sources, I1 and I8, the instrument may be rendered highly sensitive. Thus any slight movement of the surface of the subject, 2, in a direction normal to the plate, 3, or having a substantial component in that direction will react upon the oscillator circuit, changing its frequency of oscillation and thus the change will be reflected in the direct current input to unbalance the movable member of the electrical recording instrument, thus causing said movable member, 22, to swing in one direction or the other, depending upon, whether the movement of the subject, 2, is toward the plate, 3, or away from it. Thus vibratory movements, such as those caused by respiration or pulse in an animal organism, will be detected by the apparatus and translated into a swinging movement of the indicator, 22, of the instrument, 6.
In order to make a permanent record, the galvanometer spindle may be fitted with a mirror, 23, indicated in Figure 2, and from any suitable source, such as an incandescent light bulb, 24, a beam of light is projected upon the mirror, 23, along the line, 25. The reflected beam, indicated at 26, is received upon a photo-sensitive surface,
tive paper, 21, receives a record or the vibratory movements or the mirror, 23, corresponding to variations in the dielectric gap between the plate. 3, and the subject, 2.
Figure 3 is an example of such a record, in which a base line, 3|, is sub-divided to represent units of time and the zig-zag or wavy line, 32,
represents movements of the light beam, 28, caused by the vibration of the galvanometer mirror, 23. It may be mentioned that this graph happens to be an approximate facsimile of a record taken. with a female rat as the subject. The larger deviations of the line, 32, from the base line, 3|, represent uterine contractions; the small undulations, 33, of the line, 32, indicate maternal respiration, while the occasional peaks, 34, were interpreted as indicating fetal respiratory movements.
In the diagrammatic presentation of the apparatus in Figure 2, the rectangle, 35, may be understood as a suitably shielded casing adapted to house the elements shown within the shielding, 5, in Figure 1, and also the choke coil, l6, batteries, l1 and I8, and resistance elements, l9 and 20. Suitable control knobs for the adjustable elements are indicated, as well as a switch lever, which may be understood as controlling the several batteries, although for the sake of simplicity, the representation of such a switch is omitted from the wiring diagram. 1
It will be understood that the utility of the apparatus herein described and of the method of investigation indicated, is not confined to physiological research, and that it may be of considerable value in other fields. 'When the apparatus can be set up so that the subject under investigation or an element of the subject will move toward and from the .plate, 3, thus varying the dielectric gap, a record may be made of such movements and utilized as indicating the behavior of the part or element in question. Therefore, while this invention is shown and described in connection with a particular type of use, and is illustrated by means of certain specific structure embodying the invention, it will be manifest to curring from said changes in capacity of the condenser.
' 2. In an apparatus for investigating physiological phenomena, a variable tuned grid tank of an oscillator, said tank consisting of an inductance and a variable condenser, a direct current plate circuit which includes a source of direct current and a. measuring instrument responsive to variations of current 1? aw in said circuit, an audion having its plate and filament included in said direct current plate circuit and arranged with its grid connected by way of a grid leak and bias to the. variable tuned grid tank and with a fixed condenser and an inductance connecting the plate circuit to said grid tank, together with a metallic plate and a support disposed for holding an organism under observation in spaced relation to said plate, means connecting said metallic plate to the grid end of said grid tank, and means connecting said support to the other end of the variable tuned grid tank, whereby said metallic plate and said organism on the support constitute elements of a condenser in tuning relation to the variable condenser of the variable tuned grid tank so that changes in the spacing between said condenser elements alter the capacity of the condenser, thus altering the frequency of oscillation of the oscillator which provides for reversible variations of grid bias. of the oscillator to cause said grid to act as a reversible automatic variable resistance operating in a directional manner upon the fiow of direct current in the direct current plate circuit for actuating the instrument in said circuit to indicate by automatic, directional and reversible movements the relative and absolute movements of the organism relative to said metallic plate.
3. In an apparatus. for'investigating physiological phenomena, consisting of an audion of the triode type associated with a modified oscillator circuit, said circuit consisting of a variable tuned grid' tank including inductance and a variable condenser, a grid leak and fixed condenser interposed between the grid end of the grid tank those skilled in the art that various modifications and re-arrangements of the parts may be made without departing from the spirit and scope of the invention, and that the utility of the same is not limited to the particular situations specifically suggested herein, except in so far as indicated by the appended claims.
1. The method of investigating physiological phenomena which consists in placing the subject in proximate relation to a condenser plate but out of contact therewith, constituting the subject an opposing plate of the condenser, then for the purpose of observing changes in the capacity oi! such condenser caused by movement of the subject toward and from the plate, coupling the condenser into the variable tuned grid tank of an oscillator and providing an indicating device responsive to direct current variations produced in the plate circuit of the oscillator by changes in the resistance of the circuit resulting from modulation of the frequency of oscillation 00- and the grid of the audion, a fixed tuned plate tank consisting of a fixed condenser and an inductance which are inductively and conductively coupled to the grid tank, said plate tank serving by its radio frequency feed-back to set up and maintain oscillations of the oscillator, a direct current circuit which includes a source of direct current and a measuring instrument responsive to variations of current flowin said circuit together with means connnecting the plate and filament of the audion into said direct current circuit, a metallic plate and-a support disposed adjacent to the plate for holding an organism in spaced relation thereto, and connections to the grid tank whereby the plate and organism constitute elements of a condenser in tuning relation to the variable condenser of the grid tank so that changes in the spacing between said elements automatically alter the capacity of the grid tank capacitance, thus actuating the measuring instrument in response to direct current variations produced in the plate circuit of the oscillator by changes in the resistance of the circuit resulting from modulation of the frequency of oscillation occurring from changes in capacity of the condenser composed of said metallic plate and organism.
4. An apparatus for investigating physiological phenomena which comprises in combination with an oscillating circuit, a fixed plate supported in proximity to the surfaceof a body under investigation whereby the fixed plate and the surface of said body constitute a variable condenser; the oscillating circuit including a grid tank comprising an inductance and a capacitance in the form of a variable condenser, together with a grid leak and condenser interposed between the grid of the audion and the grid end of said inductance and capacitance, the other end of said inductance and capacitance being grounded; a. shielded lead connecting the said fixed plate to the grid end of the grid tank inductance and capacitance at a point between them and the grid leak and condenser, the surface of the body under investigation being connected to the grounded end of the grid tank inductance and capacitance whereby the condenser comprising the fixed plate and the surface of the said body are thus in parallel with the grid tank capacitance; the plate circuit of the oscillator consisting of two portions, one comprising an inductance and a fixed condenser, the plate of the audion being connected to one end of the plate circuitinductance with said fixed condenser interposed, the other end of said inductance being grounded, the other portion of said plate circuit comprising a high potential direct current source, a choke and a recorder all connected in series with the plate of the audion, together with the balancing source of direct current connected across the-terminals of the recorder and means for adjusting the strength of said balancing current; the cathode of the audion being grounded and the negative lead of the high potential direct current source being grounded by way of the recorder; whereby in said apparatus any change in the position of the surface of the said body relative to the said fixed plate serves to modulate the frequency of the oscillator by a change in the total grid capacitance resulting in a specific change in the natural frequency of the grid tank and such frequency modulation produces observable directional and quantity changes in the direct current passing in the plate circuit through the audion from the plate of the latter to its cathode.
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US2442805 *||Feb 26, 1945||Jun 8, 1948||Burdick Corp||Metal locator|
|US2457669 *||May 9, 1947||Dec 28, 1948||Hart Raymond S||Static suppressor for moisture meters|
|US2544529 *||Jul 23, 1947||Mar 6, 1951||Fielden John Ernest||Electrical determination of moisture content and other properties|
|US2601649 *||Aug 2, 1948||Jun 24, 1952||Emhart Mfg Co||Electronic thickness gauge|
|US2616068 *||Jun 2, 1948||Oct 28, 1952||Emhart Mfg Co||Apparatus for gauging thickness|
|US2656507 *||May 8, 1950||Oct 20, 1953||Fielden Electronies Ltd||Proximity meter|
|US2866336 *||Jul 6, 1953||Dec 30, 1958||Little Inc A||Liquid level gage|
|US2880390 *||Dec 3, 1956||Mar 31, 1959||Wayne Kerr Lab Ltd||Apparatus for measuring small distances|
|US2930977 *||May 29, 1956||Mar 29, 1960||Ludwig Machts||Method of and device for detecting differences and changes in bodies|
|US4252129 *||Nov 7, 1978||Feb 24, 1981||Kohji Tamura||Device for measuring motion of living body organs|
|US4458518 *||Jul 1, 1982||Jul 10, 1984||Medasonics, Inc.||Apparatus and method for calibrating a photoplethysmograph|
|US20100106027 *||Apr 17, 2008||Apr 29, 2010||Robert Jaeger||Device for detection and analysis of vital parameters of the body, such as, in particular, pulse and respiration|
|USRE31097 *||Jun 17, 1980||Dec 7, 1982||Cardiokinetics, Inc.||Apparatus and method for detecton of body tissue movement|
|DE1170579B *||Sep 17, 1954||May 21, 1964||Dr Ludwig Machts||Vorrichtung zum Feststellen von Eigenschaften, Verschiedenheiten oder Veraenderungen des menschlichen oder tierischen Koerpers|
|WO2008128709A1 *||Apr 17, 2008||Oct 30, 2008||Corscience Gmbh & Co. Kg||Device for detecting and analyzing vital parameters of the body, such as particularly the pulse and respiration|
|U.S. Classification||600/501, 600/535, 324/675|
|International Classification||A61B5/11, A61B5/113, A61B5/03|
|Cooperative Classification||A61B5/113, A61B5/4356, A61B5/11|
|European Classification||A61B5/43F6C, A61B5/11, A61B5/113|