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US3730188A - Electrosurgical apparatus for dental use - Google Patents

Electrosurgical apparatus for dental use
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US3730188A
US3730188AUS00127727AUS3730188DAUS3730188AUS 3730188 AUS3730188 AUS 3730188AUS 00127727 AUS00127727 AUS 00127727AUS 3730188D AUS3730188D AUS 3730188DAUS 3730188 AUS3730188 AUS 3730188A
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rectifiers
electrosurgical apparatus
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radio
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I Ellman
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Abstract

Electrosurgical apparatus for dental use employing an electronic radio-frequency oscillator is described. The radio-frequency oscillator or R.F. generator is powered by an electronic power supply constructed to selectively deliver full-wave rectified voltage and current for excellent cutting with minimal hemostasis, half-wave rectified voltage and current providing moderate cutting with maximum hemostasis, and voltage and current between the full-wave rectified and half-wave rectified condition for combined good cutting and good hemostasis. A further variation makes selectively available filtered or unfiltered rectified voltage and current for further control over cutting and hemostasis.

Description

United States Patent [191 Ellman ELECTROSURGICAL APPARATUS FOR DENTAL USE [22] Filed: Mar. 24, 1971 [21] Appl. No.: 127,727
[52] U.S. Cl ..128/303.l4, 128/303.17
[51] Int. Cl. ..A6lb 17/38, A6ln 3/02 [58] Field of Search ..l28/303.14, 303.17, 128/423 [56] References Cited UNITED STATES PATENTS 1,945,867 2/1934 Rawls ..l28/303.l4
3,058,470 10/1962 Seeliger et a1. ..128/303.17 X
3,261,358 7/1966 Bernard ..128/423 3,478,744 11/1969 Leiter l28/303.l4
POWER SUPPLY [11 1 3,739,188 51 May 1,1973
Primary ExaminerChanning L. Pace Attorney-Jack Oisher [5 7] ABSTRACT Electrosurgical apparatus for dental use employing an electronic radio-frequency oscillator is described. The radio-frequency oscillator or R.F. generator is powered by an electronic power supply constructed to selectively deliver full-wave rectified voltage and current for excellent cuttin with minimal hemostasis, half-wave rectified voltage and current providing moderate cutting with maximum: hemostasis, and voltage and current between the full-wave rectified and half-wave rectified condition for combined good cutting and good hemostasis. A further variation makes selectively available filtered or unfiltered rectified voltage and current for further control over cutting and hemostasis.
9 Claims, 9 Drawing FiguresACTIVE AC 36 INPUT GROUND Patented May 1, 1973 3,730,188
ACTIVE POWER suPPLY AC INPUT snouuo Fi 2a POS.B 13% my. Fig. 2b
POS. C 151, i 2C os. D \f'u Fig. 50
0 F n 5 P 8 pi; 2,5
INVENTOR. LA. ELLMAN ATTORNEY ELECTROSURGICAL APPARATUS FOR DENTAL USE This invention relates to electrosurgical apparatus primarily for dental use.
Electrosurgical apparatus has come into wide use in dentistry because of its capability for making incisions in or cutting live gum tissue while minimizing bleeding, i.e., hemostasis. In its known form, the apparatus comprises a high-frequency oscillator or radio-frequency (R.F.) generator in the range, generally, of 2-4 MHz, which is usually a conventional Hartley or Colpitts oscillator employing a triode or tetrode electron tube capable of delivering from 25-100 watts of R.F. power. Such R.F. generators have been generally powered by single phase full-wave or half-wave rectifier circuits operated directly from the commonly available A.C. house supply and capable of supplying the high voltages and currents necessary to operate the R.F. generator. However, the R.F. output that is optimum for cutting is often not the optimum R.F. output for controlling bleeding. Prior art efforts to overcome these difficulties have followed generally along two different paths. In the first, two different kinds of R.F. generators have bee provided each to supply a different form of R.F. output for maximizing cutting or maximizing hemostasis. For example, a spark-gap generator is used for generating damped R.F. oscillations giving excellent coagulation, and an electron tube generator is employed for providing sustained undamped oscillations for excellent cutting. Apparatus has been developed following the second path employing special gating multivibrator or other pulsing circuits for enabling controlled bursts of short duration of the R.F. oscillations to be supplied to the tissue.
Both of these prior art paths have resulted in complicated, expensive apparatus that have not fulfilled a real need in the dental art for simple, inexpensive apparatus offering sufficient control over the waveform of the generated R.F. power output enabling the dentist to obtain optimum cutting, hemostasis, or combined cutting and hemostasis for satisfying the wide variation in operating conditions encountered in treating many dental patients.
The main object of the invention is improved electrosurgical apparatus capable of delivering controlled R.F. power to provide excellent cutting, excellent hemostasis, or both with remarkably simple and inexpensive circuitry.
These and other objects of the invention as will appear hereinafter are achieved in accordance with the invention by constructing the power supply that powers or activates the R.F. generator such that, in a manner selected by the dentist, it will provide to the R.F. generator fully-rectified D.C. power, half-wave rectified D.C. power, and forms of rectified D.C. power lying between these extremes. As a further feature of the invention, the power supply can be selectively controlled to provide filtered or unfiltered D.C. power to the R.F. generator providing still a further way of optimizing the cutting and coagulating capabilities of electrosurgery for dental use.
The foregoing and other objects of the invention will become more apparent from the following detailed description of several exemplary embodiments of the invention taken in conjunction with the accompanying drawing wherein: FIG. 1 is a circuit diagram of one form of electrosurgical apparatus in accordance with the invention employing a bridge rectifier circuit; FIGS. 2a, 2b and 2c illustrate the waveforms of the three D.C. output voltages derivable from the bridge rectifier embodiment of FIG. 1; FIG. 3 is a circuit diagram of just the power supply of .a second embodiment of the invention employing a center-tapped transformer; FIG. 4 is a circuit diagram of just the power supply of a third embodiment of the invention employing a filtered rectifier; FIGS. 5a, 5b and 5c illustrate the waveforms of the three D.C. output voltages derivable from the embodiment of F IG. 4.
FIG. 1 illustrates a typical R.F. electron tube generator employing a Colpitts oscillator circuit. This is employed merely to illustrate one form of known oscillator, it being understood that other known forms of radio-frequency oscillators may also be used. Also, while a tetrode tube is shown, triodes or semiconductor devices can be used in place of the tetrode. The filament circuitry for the tube is not shown as it is well known, and similarly many of the known safety features of the circuit have been omitted as unnecessary to an understanding of the present invention.
Thetetrode 10 contains the usual cathode 11,control grid 12,screen grid 13 and plate'l4. Theusual tank circuit 15, consisting of paralled connectedcoil 16 andcapacitors 17 is coupled via capacitors l8 andgrid resistor 19 between thecontrol grid 12 andplate 14. The connection between thetank capacitors 17 is grounded. Thecontrol grid 12 is also connected via an R.F.choke 21 andresistor 22 to ground. Thecathode 12 is grounded via an on-off switch 23, which can be a foot switch operable by the dentist for turning the R.F. generator on and off as desired. The R.F. power output is taken from the plate via several blockingcapacitors 25, one of which 26 is variable to control the output R.F. power. The power can be applied to the patient viaterminals 27, which is the hot or active terminal, and 28, which is ground. As is well known, the patient is connected to theground terminal 28, and the usual cutting implement or electrode is connected to theactive terminal 27 and then applied by the dentist to the patients tissue where cutting or coagulation is desired.
The high voltage for operating the R.F. generator is obtained from a power supply designated 30. Thepower supply 30 comprises the usualhigh voltage transformer 31 having a primary winding 32 connected to the A.C. supply, usually 1 10 volts, Hz, and a high voltage secondary winding 33 connected to opposite sides of abridge rectifier 34 at points designated 35 and 36. The remaining two points of the bridge designated 37 and 38, are connected respectively to thetetrode plate 14 via an R.F. choke 39 and: to ground. Three of the rectifiers, designated 40, of the bridge are connected in the usual way as shown. However, in accordance with the invention, thefourth rectifier 41, instead of being connected directly to point 38 as is usual, is connected to themovable arm 42 of athreeposition rotary switch 43 having positions A, B, and C. Position A is directly grounded. Position B is grounded via aseries resistor 44, and Position C is unconnected or open.
FIG. 2 illustrates the voltage output waveforms from thepoint 37 to ground of thepower supply 30 withswitch 43 in the three positions as selected by the dentist upon operating theswitch 43. Withswitch 43 in position A, a normal bridge rectifier is obtained producing unfiltered full-wave rectification, as illustrated by the solid line curve in FIG. 2a. Withswitch 43 in position C, one leg of the bridge is disabled producing unfiltered half-wave rectification, as illustrated in FIG. 2C. Withswitch 43 in position B, one leg of the bridge has anadditional resistance 44 in series causing a voltage drop across it with the result that while fullwave rectification is obtained, the output voltage level during the half cycle when therectifier 41 is conducting is reduced, producing a full voltagehalf sine wave 44, as illustrated in FIG. 2b, and a partial voltagehalf sine wave 45.
Application of the voltages depicted in FIG. 2 to the R.F. generator will cause it to break into oscillation each time the rising voltage of each half sine wave reaches a level causing the tetrode to conduct, and the R.F. oscillations will terminate as the voltage reapproaches zero. Thus, the FIG. 2 solid line waveforms illustrate the top half of the modulation envelope of the R.F. power output which can be applied to the patient, the bottom half being a mirror image of the top half. This is illustrated by the dashed curves shown.
The R.F. power generated by the waveform depicted in FIG. 2a provides the hottest current and thus maximum cutting but with minimum hemostasis. The R.F. power corresponding to the waveform of FIG. 20 provides poorer cutting but excellent hemostasis because the R.F. energy is interrupted for a time substantially equal to the time of its application, thus allowing the tissue to cool between the R.F. pulses. The waveform of FIG. 2b provides an operating condition roughly halfway between that of FIGS. 2a and 20, that is, the cutting is better than with the waveform of FIG. 20, and the hemostasis is more effective than with the waveform of FIG. 20 because of thesmaller power pulses 45, allowing some tissue cooling, alternating with thelarger power pulses 44.
Thus, by simple switching of one of the legs of the bridge rectifier in and out of the circuit, or in series with a resistor, a very simple circuit results for controlling the output R.F. power waveforms in a stepped manner for optimizing, at the will of the operating dentist, the apparatus for cutting, for hemostasis, and for combined cutting and hemostasis.
FIG. 3 is a circuit of a modified power supply providing an even greater flexibility of operation. A full-wave rectifier circuit is illustrated, this time with acentertapped transformer 50, of which only the secondary is shown. The usual tworectifiers 51 and 52 are shown. In the usual full-wave rectified circuit, the anode of therectifier 52 would be connected directly to thepoint 53, with the result that the output wave-form would appear as depicted in FIG. 2a. In accordance with the invention however, the rectifier anode is connected to themovable arm 54 of arheostat 55 oneend 56 of whose resistor is connected to thepoint 53, and theother end 57 of which is unconnected or open. With thearm 54 full counterclockwise atpoint 56, then the full-wave output of FIG. 2a is obtained. With thearm 54 full clockwise atpoint 57, then, with a sufficiently high resistance, say 50,000 ohms, therectifier 52 is effectively open-circuited producing the half-wave voltage depicted in FIG. 20. Witharm 54 in intermediate positions, then waveforms similar to that of FIG. 2b are obtained, with the amplitude of thesmaller voltage 45 being controllable in a continuous manner between the full level shown in FIG. 2a and the zero level shown in FIG. 2c. This provides the practicing dentist with a greater degree of control over the output power for most efficient cutting, hemostasis or both. It is understood that therheostat 55 of FIG. 3 can be employed as a substitute for the three-position switch 43 to provide the same advantages in a bridge rectifier.
FIG. 4 shows a further modified power supply affording still greater control of the output R.F. power. As in FIG. 1, a bridge rectifier is depicted, the same numbers referencing the same elements, except in this modification a three-ganged three-position switch 60, 61, 62 is employed. Themovable arm 63 ofswitch 60 connects therectifier 41 to ground in two positions D and E, and leaves it unconnected in the third position F. Theswitch 61 of the three-ganged switch connects the powersupply output lead 64 to a filter capacitor in switch position D, and remains unconnected in positions E and F. Theswitch 62, similarly to switch 61, connects a lower voltage point from avoltage divider 65 vialead 66 to afilter capacitor 67 in position D, and remains unconnected in positions E and F.
The results on the DC. output from the supply rectifier circuit is depicted in FIG. 5. In position D, FIG. 5a, a normal full-wave condensor filter rectification is obtained that is applied to thetetrode plate 14, while similarly the voltage applied to thescreen 13 of the tetrode is additionally filtered bycapacitor 67, providing a high degree of cutting action due to the continu ous R.F. power generation, as illustrated by the dashed waveforms. In position E, FIG. 5b, a full-wave unfiltered rectified output is obtained, similar to that of FIG. 2a. In position F, FIG. 5c, half-wave unfiltered rectified output is obtained, similar to that of FIG. 20. Of course, this combination with filtering can also be combined with theresistor 44 orrheostat 55 of FIGS. 1 and 3 respectively, providing additional possibilities of control over the R.F. power output as desired by the dentist.
As before, the filtered fully rectified supply voltage will afford the hottest current and cleanest cutting with minimal hemostasis whereas the unfiltered half-wave rectified supply voltage will afford poorer cutting but maximum coagulation, and the unfiltered full-wave rectified supply voltage an inbetween condition.
In a typical example for the FIG. 1 embodiment, the
plate voltage will be, for example, 600 volts, the screen voltage about 300 volts, and theresistor 44 may be about 7,500 ohms.
While my invention has been described and illustrated in several specific embodiments, it will be understood they are merely exemplary, and that various changes and modifications may be made in the circuitry disclosed without departing from the principles of the invention herein described.
What is claimed is:
l. Electrosurgical apparatus for dental use providing controlled cutting and coagulation comprising a radiofrequency oscillator circuit for generating at its output radio-frequency oscillating currents when activated by voltage at its input, means coupled to the output of said radio-frequency oscillator for applying said radiofrequency oscillating currents to a dental patient, a voltage supply circuit for receiving AC. voltage and converting same to a rectified DC. output voltage capable of activating said radio-frequency oscillator when applied to the oscillator input, means for applying the said output voltage of the supply circuit to the input of the radio-frequency oscillator, and means connected to said voltage supply circuit for selectively changing the waveform of its output voltage and thereby selectively modifying the radio-frequency oscillating currents generated by the oscillator when activated by said output voltage, said voltage supply circuit comprising a single-phase full-wave rectifier circuit comprising plural rectifiers capable of producing a fully-rectified output voltage, and the selective changing means comprising means connected to the rectifier circuit for producing a half-wave rectified output voltage.
2. Electrosurgical apparatus as set forth in claim 1 wherein the selective changing means comprises means for introducing resistance in series with at least one of the rectifiers to produce a rectified output voltage wherein the peak voltage is different for alternate half cycles.
3. Electrosurgical apparatus as set forth in claim 1 wherein the selective changing means comprises means for connecting one of the rectifiers to the bridge circuit, means for disconnecting one of the rectifiers from the bridge circuit, and means for connecting one of the rectifiers in series with a fixed resistor in the bridge circuit.
4. Electrosurgical apparatus as set forth in claim 1 wherein the selective changing means includes a variable resistance, and means for selectively connecting the variable resistance into the voltage supply circuit.
5. Electrosurgical apparatus as set forth in claim 1 wherein the voltage supply circuit comprises a single phase full-wave bridge rectifier circuit and the selective changing means includes means for disabling at least one of the rectifiers.
6. Electrosurgical apparatus as set forth in claim 1 wherein the rectifier circuit comprises a center-tapped transformer and two rectifiers, and the selective changing means comprises means for disconnecting one of the two rectifiers.
7. Electrosurgical apparatusas set forth in claim 6 wherein the selective changing means comprises means for introducing a resistance in series with one of the two rectifiers.
8. Electrosurgical apparatus as set forth in claim 1 wherein the voltage supply circuit comprises filtering means, and the selective changing means comprises means for selectively connecting the filtering means to the voltage supply circuit.
9. Electrosurgical apparatus as set forth in claim 8 wherein the selective changing means comprises a three-position switch for connecting the filtering means in one switch position and for disabling part of the rectifying circuit in another switch position.

Claims (9)

1. Electrosurgical apparatus for dental use providing controlled cutting and coagulation comprising a radio-frequency oscillator circuit for generating at its output radio-frequency oscillating currents when activated by voltage at its input, means coupled to the output of said radio-frequency oscillator for applying said radio-frequency oscillating currents to a dental patient, a voltage supply circuit for receiving A.C. voltage and converting same to a rectified D.C. output voltage capable of activating said radio-frequency oscillator when applied to the oscillator input, means for applying the said output voltage of the supply circuit to the input of the radio-frequency oscillator, and means connected to said voltage supply circuit for selectively changing the waveform of its output voltage and thereby selectively modifying the radio-frequency oscillating currents generated by the oscillator when activated by said output voltage, said voltage supply circuit comprising a single-phase full-wave rectifier circuit comprising plural rectifiers capable of producing a fully-rectified output voltage, and the selective changing means comprising means connected to the rectifier circuit for producing a half-wave rectified output voltAge.
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US3884237A (en)*1972-06-191975-05-20Malley Conor C OApparatus for intraocular surgery
US3952748A (en)*1974-07-181976-04-27Minnesota Mining And Manufacturing CompanyElectrosurgical system providing a fulguration current
US3961630A (en)*1973-11-121976-06-08Dentsply Research & Development CorporationProtective circuit for radio-frequency electrosurgical device
US4092986A (en)*1976-06-141978-06-06Ipco Hospital Supply Corporation (Whaledent International Division)Constant output electrosurgical unit
US4100505A (en)*1976-05-071978-07-11Macan Engineering & Manufacturing Company, Inc.Variable crest factor high frequency generator apparatus
US4191188A (en)*1976-05-071980-03-04Macan Engineering & Manufacturing Company, Inc.Variable crest factor high frequency generator apparatus
US4211230A (en)*1978-07-311980-07-08Sybron CorporationElectrosurgical coagulation
US4301801A (en)*1979-02-161981-11-24Ipco Hospital Supply Corporation (Whaledent International Division)Electrosurge failsafe system
DE3612646A1 (en)*1985-04-161987-04-30Ellman InternationalElectrosurgical handle piece for blades, needles and forceps
US5318564A (en)*1992-05-011994-06-07Hemostatic Surgery CorporationBipolar surgical snare and methods of use
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US5472443A (en)*1991-06-071995-12-05Hemostatic Surgery CorporationElectrosurgical apparatus employing constant voltage and methods of use
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US3884237A (en)*1972-06-191975-05-20Malley Conor C OApparatus for intraocular surgery
US3875945A (en)*1973-11-021975-04-08Demetron CorpElectrosurgery instrument
US3961630A (en)*1973-11-121976-06-08Dentsply Research & Development CorporationProtective circuit for radio-frequency electrosurgical device
US3952748A (en)*1974-07-181976-04-27Minnesota Mining And Manufacturing CompanyElectrosurgical system providing a fulguration current
US4100505A (en)*1976-05-071978-07-11Macan Engineering & Manufacturing Company, Inc.Variable crest factor high frequency generator apparatus
US4191188A (en)*1976-05-071980-03-04Macan Engineering & Manufacturing Company, Inc.Variable crest factor high frequency generator apparatus
US4092986A (en)*1976-06-141978-06-06Ipco Hospital Supply Corporation (Whaledent International Division)Constant output electrosurgical unit
US4211230A (en)*1978-07-311980-07-08Sybron CorporationElectrosurgical coagulation
US4301801A (en)*1979-02-161981-11-24Ipco Hospital Supply Corporation (Whaledent International Division)Electrosurge failsafe system
DE3612646A1 (en)*1985-04-161987-04-30Ellman InternationalElectrosurgical handle piece for blades, needles and forceps
US5769849A (en)*1991-06-071998-06-23Hemostatic Surgery CorporationBi-polar electrosurgical endoscopic instruments
US5324289A (en)*1991-06-071994-06-28Hemostatic Surgery CorporationHemostatic bi-polar electrosurgical cutting apparatus and methods of use
US5810808A (en)*1991-06-071998-09-22Hemostatic Surgery CorporationHemostatic bi-polar electrosurgical cutting apparatus and methods of use
US5472443A (en)*1991-06-071995-12-05Hemostatic Surgery CorporationElectrosurgical apparatus employing constant voltage and methods of use
US5484436A (en)*1991-06-071996-01-16Hemostatic Surgery CorporationBi-polar electrosurgical instruments and methods of making
US5776128A (en)*1991-06-071998-07-07Hemostatic Surgery CorporationHemostatic bi-polar electrosurgical cutting apparatus
US5633578A (en)*1991-06-071997-05-27Hemostatic Surgery CorporationElectrosurgical generator adaptors
US5318564A (en)*1992-05-011994-06-07Hemostatic Surgery CorporationBipolar surgical snare and methods of use
US5445635A (en)*1992-05-011995-08-29Hemostatic Surgery CorporationRegulated-current power supply and methods for resistively-heated surgical instruments
US5484434A (en)*1993-12-061996-01-16New Dimensions In Medicine, Inc.Electrosurgical scalpel
US5766166A (en)*1995-03-071998-06-16Enable Medical CorporationBipolar Electrosurgical scissors
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