CA2011693C - Method and apparatus for removal of unwanted hair by using current modulation - Google Patents

Abstract

The invention relates to a method of permanent skin hair removal and an apparatus for carrying out the same. This method which consists of inserting a conductive filament into the follicle of each hair to be eliminated and applying using this filament, a galvanic current of given intensity, an HF current of given intensity or a combination of these two currents to the hair follicle to destroy the root of the latter by electrolysis, thermolysis or both, is characterized in that the intensity of at least one of the currents applied to the follicle is modulated during the duration of the application during '' the same insertion to allow permanent hair removal while reducing the pain perceived by the patient. Advantageously, the intensity modulation of the current is carried out discontinuously, according to a series of sequences of duration varying from a fraction of a second to several seconds, the current applied during each successive sequence being of constant intensity, this intensity being itself identical to or different from the intensities of the preceding sequences. According to a particular embodiment, the duration of the sequences and the intensity of each current applied during each sequence are preprogrammed.

Description

2011693 The present invention relates to a new method permanent skin removal by application of an electric current at the base of a hair to be removed.
The invention also relates to a new device specially designed to implement this new method hair removal.
It is known that to remove and dispose of permanent skin hair just destroy the root of this hair, called "papilla", which is the living part of the hair located at the bottom of the follicle where the hair is lodged.
Several so-called "electrolysis" or "thermolysis" devices, are currently available on the market and commonly used, in particular by electrologists to apply an electric current to the base of a hair to be removed in order to destroy the papillae and thus proceed to permanent skin depilation of people wanting to get rid, preferably in one session, of unsightly body hair.
Devices of this type, such as those described, for example in Canadian Patents Nos. 1,017,807; 1,142,599 and 1,248,594, include a conductive filament (called an "electrode") connected to a power generator. The filament is designed to be inserted in each of the follicles where the hairs to be removed are housed. Once the filament inserted, the current generator is activated to apply, via the filament, a current at the base of the hair so as to destroy it the taste bud. In practice, the destruction of the papilla must be done with a minimum of destruction of the surrounding tissues and with, well sure, minimal pain. Pain experienced by the patient during of the passage of electric currents of which the hair removal device is the source is to some extent inevitable. As previously indicated, however, this should be kept to a minimum.
'2011693 -All permanent hair removal devices currently available on the market, use current generators producing either a direct current (DC), hereinafter called "galvanic", either a high frequency alternating current typically equal to 13.56 MHz, hereinafter called "HF", or both.
In order to better understand not only the invention but also the techniques currently used and hence better appreciate the f ~ n ~ mental diférences ~ it should be presented i ~ m ~ tement drawings anne ~ és. On these ~ e ~. ~ Ins:
- figs 1 a to 1 d are current intensity curves as a function of time, schematically illustrating various ways known to apply, in the form of "sequences", currents galvanic and HF during the same treatment;
- fig. 2 is a current intensity curve in function of time, illustrating how, according to the invention, various "categories" of HF current can be applied under the form of sequences during the same treatment;
- figs 3, 4 and 5 are current intensity curves as a function of time, illustrating how, according to the invention, galvanic and HF currents can be combined and respectively modulated for application in the form of sequences during of the same treatment;
- fig. 6 is a representation of the control box of a "Blend" device according to a preferred embodiment of the invention; and - fig. 7 is a block diagram of the logical operation of the "blend" device, the housing of which is illustrated in FIG. 6.
The application of a galvanic current, known as "electrolysis", produces caustic soda (NaOH) at inside the hair follicles, with the intention of destroying the - '2011693 -hair papillae. The galvanic current having the property of passing in places of least electrical resistance, it goes first to bottom of the follicle where the papilla is located, living tissue having effect greater electrical conductivity due to the presence of moisture and electrolytes. Less current flows through the upper part of the follicle which contains a larger amount of fat and dead cells and therefore has electrical resistance higher.
Electrolysis, ie the application of a galvanic current, is an effective method leading only to a low failure rate. In in addition, when properly used, it is rare to obtain regrowth, which is advantageous. However, the duration of treatment for each follicle is relatively large and depends mainly on the size of the hair to be treated. The amount of soda required for destroying the papillae of a large coat is larger than that required to destroy that of a smaller hair. The amount of soda produced depends on the intensity of the current and the passage time of this one. Current passage time can therefore be reduced if the intensity of the current is ~ Qntée, and vice versa. The threshold of patient tolerance to pain caused by galvanic current constitutes however a limit never to be exceeded in terms intensity of the galvanic currents used, and thus determines the required treatment times.
It should be mentioned here that the unit of measurement currently used in electrolysis is ie UL (Units of Lye). A
UL is equivalent to the energy of a current of 0.1 mA applied for a one second period. In practice, a large coat, by e ~ ernple, requires between 50 and 60 UL, i.e., 0.4 mA current for 13 seconds, which is relatively long.

-A more recent method of hair removal is to apply a high frequency alternating current (HF) to heat the soda and / or directly destroy the papillae of the follicles by action thermal. This other method which is known as of "thermolysis" has a clear advantage over electrolysis: the duration of treatment is shorter.
It is known that epilation by thermolysis can be carried out in three different ways, depending on the type of HF current used.
Thus, as illustrated in FIG. 2 of the drawings, HF currents of low intensity and long duration (so-called method "slow" (a few seconds), medium intensity HF currents and short-lived (so-called "flash" method, a few tenths of seconds) and all HF currents of high intensity and very short duration (so-called "Super-Flash" method, a few hundredths of seconds).
By a physical effect called "peak effect", the HF current acts first at the end of the filament and therefore at the bottom of the follicle before gradually rising to the surface of the skin as you go as the desiccation spreads along the filament, this also causing a variation in the profile of the electrical resistance of the follicle. Although desirable, such an effect may lead to a burning of the skin surface when dosing HF energy applied is incorrect. It is therefore important to carefully dose applied energy, which can sometimes be tricky.
Another disadvantage associated with thermolysis is its very small range. If the specimens of very large hairs or those whose follicle is curved are totally or partially inaccessible to the filament, the destruction is incomplete and the hair regrowth is q ~ im ~ nt certain. In addition, this regrowth can be multiple or coarse.

A more recent technique known as 30US called "Blend"
consists in using simultaneously or individually currents of galvanic and HF type, always designed to destroy the roots of skin hairs and so allow e ~ traction of these from definitively. The "Blend" allows you to take advantage of the processing time shorter normally associated with thermolysis (slow method) while retaining the benefits of electrolysis. The result is a relatively fast and very effective method in terms of absence of we are.
However, there are still two major disadvantages to this.
last method: the first is withheld from the doubt that the patient, and the second to the difficulty of operating the devices existing in terms of adjusting the currents of the two types. These problems are themselves related to how the hair removal device is used and therefore aware of it. The epilation of hairs of different ~ lo ~ eurs (different UL) by the use of "Blend" techniques on the different regions of the body which are often of variable sensitivity, is a relatively complex which requires solid knowledge on the part of electrologists, with a view to obtaining treatment that is both effective and comfortable.
Currently known hair removal devices use one of the two or the two types of currents mentioned above (galvanic and l ~), independently or simultaneously (see fig. l), with own intensities and durations, through one or more conductive electrodes or filaments inserted into the follicles of the skin. The intensities and the durations of passage of the galvanic currents and / or 1 ~ are usually set using four controls separate. Two pedals and / or an electronic control device constitute the usual mode of launching of these currents, which have then each one ~ A
., _ fixed intensity and duration for each insertion. ~ e setting of parameters of the currents depends on the size of the hairs and the sensitivity of the patient in the region of the body being treated. On average, between 5 and 15 seconds of "Blend" treatment is required for each hair.
~ e to speed up the hair removal work, especially in the case of large hairs where the treatment times are long, it is good safe desirable to work with relatively large currents intensity allowing relatively rapid depilations. Most existing devices are "programmed" to work from this way to be as efficient as possible, with the downside resulting major, namely being very painful for the patient during the passage of the electric current (s).
As previously indicated, the effect of electric current on the hair root depends on its duration and intensity. A
permanent hair removal e ~ ig a minimur, l of energy to accomplish the destruction of the root, preventing hair regrowth. If the energy transmitted is insufficient, there will be hair regrowth, because the destruction of the root of it is not complete. ~ e plus, such that also indicated above, the destruction of the hair root must be done with minimal destruction of surrounding tissue, possibly resulting in a burn and / or scar the surface of the skin. Handling devices and filaments or needles used as electrodes should therefore be carefully performed to minimize unwanted effects while achieving permanent hair removal. On this subject, we can note that the threshold of tolerance ~ pain is different for each patient; a patient insensitive can benefit from faster hair removal.
Com ~ e all known methods of the same type such as previously described, the hair removal method according to the invention : 2; ~ ~ 1 6 9 ~

basically involves inserting a conductive filament ie one (electrode) in the follicle of each hair to remove and apply, using this filament, galvanic and HF currents of given intensities either separately either simultaneously in combination with the follicle 5 of the hair to destroy the root of it by electrolysis, thermolysis or both. The method according to the invention differs from the methods known in what the intensity of each of the currents applied to follicle is modulated during application 10 during the same insertion of the filament to allow permanent hair removal while reducing pain perceived by the patient. From a practical point of view, said "modulation" consists of the application of said current to different intensities during different periods during 15 said insertion in order to thereby allow a permanent hair removal while reducing perceived pain by the patient.
According to a first embodiment of the invention, the method is exclusively 20 "electrolytic". Only galvanic current is applied and of course modulated in intensity during application.
It is known that some devices electrolysis systems are provided with means ensuring a gradual rise in galvanic current during each 25 application (see Canadian patent no. 1,248,594).
The existence of such a ramp at the beginning and in some case at the end of each current application has however nothing analogous to a "modulation" as we hear it here. Indeed, in this case, the expected intensity 30 of the applied galvanic current remains essentially constant once the ramp has reached its peak.
According to a second embodiment of the invention, the method is exclusively "thermolytic".
~: A
'~' - 7a _ ~ 93 Only an HF current is applied and of course modulated in application course.
Again, it is known that some devices of existing thermolysis allow a repeat of the application of a HF current during the same 5 treatment, either in the form of identical pulse (see fig. ld), either in the form of proportional impusions, the first being for example, systematically equal to 75% of the second (see fig. Lc). This repetition and intensity variation in a single proportionality 10 pr ~ gr ~ 6th /
~ /

\
i ~ .., does not, however, amount to "modulation" as understood here insofar as, in all known devices, the current ~ F of which the application is thus repeated is always of the same category and same equal intensity or same proportional intensities, these once chosen and adjusted, always remaining constants.
Unlike this known technique, the "modulation" of which it is used in the method according to the invention, consists of the application of several intensities or "categories" of HF current, superimposed or one after the other and during the same insertion, (see figs 2, 3 and 4).
According to a third embodiment of the invention, which mode is even more interesting than the other two, the method is of the "Blend" type and includes the application of currents to the both galvanic and HF of which at least one of the two is modulated in intensity. This app can include a scheduled succession (sequences) of galvanic and HF currents during each treatment. In the latter case, the intensity of each current successively applied is also modulated. Duration of application of each of the current types is variable and can be adjusted to will between 0.01 and 8 seconds for example for the three categories HF currents, and between 0.1 and 20 seconds for galvanic current and this for each of the successive sequences of the same treatment including the number can be for example equal to 9 or more (see fig. 4) but is preferably equal to 6 (see fig. 5).
Again, it is known that some existing devices of type "Blend" allow to apply a galvanic current in combination with a single category of HF current during the same insertion (see fig. la to ld). The method according to the invention differs however of this technique known in that it uses, indifferently and if necessary, combinations of HF current of vasse intensity (long duration), medium intensity (short duration or Flash) -and high intensity (very short duration, or Super-Flash) (figs 2, 3 and 4). There is therefore "modulation" of the intensity of the applied HF current during the same insertion, as needed.
According to the invention, the intensity of the galvanic current applied simultaneously to the HF current can also be modulated in the time. This current can be constant, increasing or decreasing, and continuous or not.
It is of course admitted that some existing devices allow the application of HF currents more than once when same insertion, using pedals for example (see fig. ld). With these devices, manual readjustment of treatment parameters is still possible, but requires manual intervention by the operator during insertion and processing which makes the thing completely uninteresting, and on the verge of danger.
The method according to the invention considerably improves the traditional methods of hair removal by independent application or simultaneous galvanic and / or HF currents. Modulation of currents galvanic and HF used in the method according to the invention allows actually significantly reduce the pain felt by patients during the passage of electric currents, and this without any loss of efficiency in terms of permanent hair removal.
The current modulation (s) used in the context of present invention can be carried out continuously using a analog circuit, or discretely. In this last case, the application of the current (s) of various intensities is carried out in discontinuous according to a series of "sequences" whose duration varies typically from a fraction of a second to several seconds. The stream applied during each sequence can be of different intensity or identical to those of the previous sequences (see fig. 4). The duration and the intensity of each of the two types of current is adjustable and independently programmable. A given sequence transmits currents either of the same type (galvanic only or HF only), or currents of different types (galvanic and HF combined). Polarity galvanic currents can also be either identical or - lO - 20 1 1 693 alternated. Currents of both types are therefore sent simultaneously (superimposed) or sequentially, each to following the others.
As previously indicated, the invention also offers a new hair removal device 5 permanent specially designed ~ cu to implement the method according to the invention as described above.
The apparatus according to the invention which comprises:
- a conductive filament intended to be inserted in the follicle of each hair to be removed from a patient;
- at least one current generator connected to the filament;
- primary means of control to adjust at will the intensity of the current leaving the generator; and - second control means to adjust to 15 will the duration of the generated current applied to the filament and from there to the hair follicle to make sure destroy the root of it;
is characterized in that it further comprises:
- third means of control linked to 20 minus to said first control means to modify the adjustment of these according to a predetermined program of in order to modulate the current generated during the duration of application cation of said current to the follicle during the same insertion and thus reduce the pain perceived by the 25 patient. Again, said modulation consists of applying said current at different intensities during different periods during said insertion in the goal of allowing permanent hair removal while reducing the pain experienced by the patient.
According to a particular embodiment preferred, the third means of control are also connected to the second control means so that the total duration of current application and intensity average of it be adjusted to each other for - lOa _ 201 1 693 "automatically" ensure permanent destruction of the hair root by applying a quantity sufficient energy in terms of UL
The apparatus according to the invention can be applied to electrolysis only, in which case it induces 5 galvanic current generator. He can also apply to thermolysis alone, in which case it includes a HF current generator. He can finally i apply to both, in which case it includes both a generator HF current and one galvanic current connected to the same filament in view of a successive or simultaneous application of the two currents, one and the other of these two currents being of course intensity controlled and duration by the first and second means of control via the third means of control.
The apparatus according to the invention is therefore independent of the type of current used. It is also independent of the type of filament or electrode used. So you can use a simple needle as illustrated in Canadian patents Nos. 1.142..599 and 1,248,594 or pliers including such a needle such as illustrated, for example, in Canadian Patent No. 1,261,004. We could even use a simple needle-free pliers if desired, such as those described for example in Canadian patents nos 1,017,807; 1,190,602 and 1,144,990. We must therefore understand below that the words "conductive filaments" and any reference to the "insertion" of such filaments includes, within the framework of the present invention, the pliers and needle pliers used in this field in place of said filaments.
~ e preferably, the first and third means of control are designed and programmed to discretely modulate the current applied to the filament according to a sequence of sequences of varying duration from a fraction of a second to several seconds, the current applied during each successive sequence being of constant intensity, this intensity being itself identical to the intensities of the sequences previous, or different from these.
The programming of said control means can advantageously be carried out permanently. So, for example, four programs can be integrated into the device allowing it to to transcribe letters of programmed "shape" electric currents use of the two types of currents in order to perform hair removal with increased properties of efficiency in terms of time and quality work, as well as a reduction in subject pain associated with such an operation, all done with great simplicity how to use the device. The first program may apply to -fine hairs, the second with medium hairs, the third with coarse hairs and the fourth with very large hairs.
By simple display of the total energy required (ie the desired number of UL) depending on the size of the hair to be removed, selection means integrated into the electronics of the device choose the required integrated program. The intensity and duration of emitted currents (ie the respective power of the 2 types of currents) are then adjustable according to the patient's sensitivity and the body area to vary the hair removal time.
The sequences of currents of each type can be viewed independently ~ mm ~ nt, step by step, during the program sequential and modified (reprogrammed) by the user of the device using an integrated programming function.
A preferred embodiment of the apparatus according to the invention will now be described in detail with reference to ~ rant especially in figs 6 and 7 so as to facilitate understanding of the invention, without limiting its legal scope such as defined in the appended claims.
Description of the appliance illustrated in figs 6 and 7 The device including the control box and the internal circuit are illustrated are figs 6 and 7 has the functions and accessories following:
. a small plastic satellite (not shown) the end of a long wire so that it can be easily placed sight of the operator when he works for him allow to visualize the current flow, this satellite being provided two colored diodes (a green diode indicating the passage of the galvanic current and a red diode indicating the passage of current E ~), . a hy ~ L ~., is of standard structure, including a ground electrode and a manual electrode (not shown), intended to evaluate the hydration of the skin. A reading is given on an appropriate display (1) by pressing a key (2). This -reading can be used as a reference for setting the amount of energy required and from there choose one of the memory programs to using the electronic selection means integrated into the device for modify the electrical power transmitted to the patient, the power to be gradually increased for dry and reduced skin for hydrated skin. A galvanic current sensitivity test is started by pressing the button (3). The filament (or electrode) plugged into socket (36) or (37) is inserted into the follicle while a mass ~ stuck in the socket (11) is held at hand by the patient. The galvanic current is gradually increased to the patient's tolerance level. The value of the current displayed then serves as a reference for electrolysis for the rest of the treatment:
. a clock displayed by a display (6) intended exclusively to the operator to allow him to monitor the tepms a treatment by pressing the keys (4) corresponding to 15, 30, 45 and 60 minutes. The "Truetime" function activated by the key (5) suspends the clock countdown when the operator is not using his device (for more than 45 seconds) and restart it automatically upon resumption of work. This allows the operator to know his real working time on the patient;
. an audio beep, ie an audible signal, confirming the passage currents and the end of timed treatments. The sound signal can be deleted by pressing a key (7), . possibility of reversing the polarities of the outputs electric galvanic in anaphoresis mode - (~) key - or cataphoresis - button (9) -. These two modes are used with a metal roller (not shown) with the supply wire insertable into a socket (10) provided for this purpose. These modes of implementation work which also require the use of the mas electrode inserted in the socket (11), serve mainly to restore the pH
skin;

'_ . a dual-use pedal (not shown), allowing start or stop the passage of electric currents depending on the state of the mode used (active or inactive). Pedal mode is activated and deactivated by pressing a key (13) provided for this purpose. Of generally, in active mode, the pedal will start the currents; in mode inactive, it will be used for inte ~ e these, in case of pain for example;
. an automatic and adjustable timer to delay applying the current for a certain period of time - predetermined after detection of the fact that the electrode or filament is came into contact with the skin. This delay called ("sensor") is intended to allow to complete the delicate operations of insertion of the electrode. The display of the chosen delay is given in (14), this can vary from 0.5 to 4 seconds and can be adjusted if necessary pressing the keys (15);
. electronic means integrated into the device for ensure a gradual rise and fall of the galvanic current (DC).
DC current can be adjusted to gradually increase in intensity for about 0.5 seconds after the time allowed for insertion has passed (see fig. 5). The ramps can be obtained by a combination of programming and known electronic parts (see, for example, Canadian Patent No. 1,248,594);
. a display of the energy transmitted to the patient on a dial (16). This display gives the selected value of the power multiplied by the passage time of the galvanic current given in UL (Units of Lye);
. keys for choosing the type of current transmitted as a priority, either galvanic first (key 17), or E ~ first (key 18), or again E ~ repeated (key 19);
. keys for ~ asser, in manual mode, either Blend mode (key 32), either in ~ electrolysis mode (key 33), or in thermolysis mode (key 34). Once the mode has been chosen, the duration and -the intensity of one or both types of current is adjustable, and this independently. The intensity of the galvanic current which varies between ~ and 1.00 mA is displayed in (20) and can be adjusted in 0.05 steps mA using the arrow keys (21). Duration of galvanic current which varies between 0 and 20 sec is displayed in (22) and can be adjusted in 0.1 sec steps in dec, to 1 sec and in 0.5 sec steps thereafter, at using the arrow keys (23). The intensity of the HF current which varies between 0 and 30, is displayed in (24) and can be adjusted in steps of 1 using the arrow keys (25). The duration of the HF current which varies between 0 and 8 sec, is displayed in (26) and can be adjusted in steps of 0.01 sec in dec, to 0.1 sec, in 0.1 sec steps between 0.1 and 1 sec, and in 0.5 sec steps thereafter, using the keys (27).
The keys (21) and (23) per ~ being to adjust the intensity and the duration of the galvanic current are of course an integral part of "first and second means of control" to which it was made previous reference in the statement of the creative idea of the invention. Likewise, the keys (25) and (27) used to adjust the intensity and duration of the HF current are an integral part of these same "first and second means of control".
Four programs integrated into the electronic device, these programs are classified as follows: 2rog 1 (key 28) to fine hairs; Prog 2 (key 29) for medium hairs; Prog 3 (key 30) for coarse hair; and Prog 4 (key 31) for hair very big. These programs and the structural elements enabling their entry into memory and their application to intensity control and duration of the currents applied during treatment do of course an integral part of the "third means of control" mentioned pr ~ c ~ demment, the keys ensure their selection constituting of course the "means of selection" also mentioned above.
. In programmed mode ie having chosen one of the four above programs mentioned by pressing one of the keys (28), (29), (30) or (31), the choice of the duration and intensity of each -of the two types of currents are not adjustable independent. Programs offered are considered optimal for the corresponding cases of fine, medium, coarse or very coarse hair.
Depending on the patient's sensitivity, the average intensity of the currents galvanic and HF can however be adjusted by pressing the arrow keys (21). The arrow keys (21) allow them only to vary the intensity and therefore the duration of the insertions in allowing access to two upper levels and two levels lower according to the sensitivity of the patient, and this for each Blend Prog 1, Prog 2, Prog 3 and Prog 4 programs. Five programs are therefore accessible from each of the keys (28, 29, 30 and 31) corresponding to a given hair size, when the keys arrows (21) are used to take into account the sensitivity of the patient by distributing a given energy over a plus or ~ oins long insertion time.
. a possibility for the operator to create his own sequence of currents by activating the programming mode and, once this activation carried out, replacing (until a new bet power on) the parameters of program 4. To activate the programming mode, the operator must successively press the Blend (32), Prog 4 (31) and Memo (35) keys. The "sequence" window (40) then lights up and successively shows the digits 1 to 6, the passage from one digit to another being carried out by successive press of the memo button (35) until the end of scrolling of the six available sequences (in case the device is of course limited to this number m ~ ximllm of sequences). At each sequence, the current parameters must be adjusted to the desired values, using the arrow keys (21, 23, 27 and 25). The displays (20, 22, 24 and 26) and the steps available are the same as in the manual mode, except for the duration of the current ~ C which varies in steps of 0.1 second in ~ ~ 1.0 sec and in 0.5 sec steps thereafter. Intensity of the galvanic current displayed in (20), which varies between 0 and 1.00 mA, is adjusted by the keys (21) in 0.05 mA steps. The duration of galvanic current displayed in (22) and which varies between 0 and 20 sec., is adjusted by the keys (23) in 0.1 sec steps within 1 sec., and then in 0.5 sec steps. The intensity of the HF current displayed in (24) and which varies between 0 and 30 is adjusted by the keys (25) by step of 1. The duration of the HF current displayed in (26) and which varies between 0 and 8 sec. is adjusted by the buttons (27) in steps of 0.01 sec. in from ~ to 0.1 sec, in 0.1 sec steps. between 0.1 and 1 sec, and in steps of 0.5 sec. then.
Two electrodes or filaments (not shown) can be plugged into sockets or outlets (36,37). The active output is selected by a switch (38).
Of course, the device also includes a switch main (39). Furthermore, as seen in FIG. 6, many small LEDs are provided next to most of the keys to view their activation.
De ~ ription of the operation of the apparatus illustrated in Figures 6 and 7 The apparatus described above can operate according to fifteen different operating modes, depending on needs. These fifteen operating modes which depend on the functions selected using the bo ~ tier keys illustrated in fig. 6 can easily be understand using the block diagram in fig. 7.
Mode 1: Thermolysis only is selected (manual mode) by pressing on the key (34). The use of the clock (6) is optional. The pedal (13) is used to start the current ~ F. The duration displayed in (26) and the intensity displayed in (24) of the HF current must be adjusted with the keys (27,25).

-Mode 2: Thermolysis only is selected (manual mode) by pressing on the key (34). The use of the clock (6) is optional. The insertion delay time, also called "delay sensor" is displayed in (14) and adjusted by the key (15), is used to start the HF current. The duration displayed in (26) and the intensity displayed in (24) of the HF current must be adjusted with the keys (27, 25). The pedal (13) is available to stop the current.
~ ode 3: A "Blend" is chosen (manual mode) by pressing the button (32). The use of the clock (5) is optional. The accessory function "delay sensor" (14) is used to start the galvanic current. The pedal (13) is used to start the HF current. The duration displayed in (26) and the intensity displayed (24) of the HF current must be adjusted with the keys (27, 25). The duration displayed in (22) and the displayed intensity (20) of the galvanic current must also be adjusted with the keys (23, 21).
~ Iodine 4: A "Blend" is chosen (manual mode) and the button "galvanic first "(17) pressed. The use of the clock (6) is optional.
The accessory "delay sensor" (14) function is used to start the galvanic current. The device starts the HF current at the end of application of galvanic current. The duration displayed in (26) and the intensity displayed in (24) of the HF current must be adjusted with the keys (27, 25). The duration displayed in (22) and the intensity displayed in (20) of the galvanic current must be adjusted with the keys (23, 21). The pedal (13) is available to stop the currents.
~ lode 5: A "blend" is chosen (rnanuel mode) and the I ~ F button first (1 ~) pressed. The use of the clock (6) is optional. The accessory function "delay sensor" (14) is used to start the current ~ alvanic.

'_ , 9 The device starts the HF current at the start of the current application galvanic. The duration displayed in (2 ~) and the intensity displayed (24) of the HF current must be adjusted with the keys (27, 25). The duration displayed in (22) and the intensity displayed in (20) of the galvanic current must also be adjusted with the keys (23, 21). The pedal (13) is available to stop the currents.
r ~ ode 6: A "Blend" is chosen (manual mode) and the "HF repeat" button (19) supported. The use of the clock (6) is optional. The "delay sensor" button (14) is used to start the current galvanic. The device starts the HF current twice. At the beginning of the duration of the galvanic with 75% of the displayed intensity, and at the end with 100% of the intensity displayed in (24). The duration displayed in (26) and the intensity displayed in (24) of the HF current must be adjusted with the keys (27, 25). The duration displayed in (22) and the intensity displayed in (20) of the galvanic current must be adjusted with the keys (23, 21). The pedal (13) is available to stop the currents.
~ Iodes 7, 8, 9, 10: A "Blend" is desired and one of the keys (2 ~, 29, 30 and 31) is pressed (programmed mode). Using the clock (6) is optional. The accessory function "delay sensor" (14) is used to initiate programmed sequences of galvanic currents and HF. Parameter values cannot be changed independent ~ n ~ m ~ nt. The intensity button (21) allows you to increase or decrease decrease the pain felt according to the sensitivity of the subject by accessing two upper levels or two lower levels of sequences programmed for this purpose. The device starts the current galvanic as many times as the program requires (five sequences in the case illustrated in fig. 5), each time with the intensity and the duration programmed. The pedal (13) is available to stop the currents.

-.Iode 11: A "Blend" is chosen by pressing the key (32) and a progral ~ mation is required by successive pressing of the Prog 4 keys (31) and Memo (35) (programmable mode). The use of the clock (6) is optional. The accessory function "delay sensor" (14) is used to launch the programmed sequences of galvanic currents and HF. Parameter values can be changed independent of each of the six sequences available for creating a new program. The Prog 4 key (31) is only used access to the memory activated by the key (35), in which 1 operator can enter his prograr ~ ne. On each of the six sequences available, the duration displayed in (26) and the intensity displayed in (24) HF current must be adjusted with the keys (27, 25). The duration displayed in (22) and the intensity displayed in (20) of the current galvanic must also be adjusted with the keys (23,21). A
pressing the memo button again (35) gives access to the adjustment of the parameters of the second sequence, and so on. The device automatically returns to its operating mode (always in programmable) after the sixth sequence. Then the device launches the galvanic current as many times as the program requires (five sequences in the case of fig. 5), each time with the intensity and the duration programmed, and each time with a rising ramp or descending, as the case may be. The device also starts the current ~ IF
as many times as the program requires (4 sequences in the case of fig. 5), each time with the intensity and duration programmed.
The pedal (13) is available to stop the currents.
Mode 12: Electrolysis only is selected (manual mode) by pressing on the key (33). The use of the clock (6) is optional. The accessory function "delay sensor" (14) is used to start the galvanic current. The duration displayed in (22) and the intensity displayed in (20) of the galvanic current must be adjusted with the keys (23, 21). The pedal (13) is available to stop the currents.

-Mode 13: Electrolysis only is desired (manual mode) by pressing on the key (33). The use of the clock (6) is optional. The pedal (13) is used to start the galvanic current. The duration displayed in (22) and the intensity displayed in (20) of the galvanic current must be adjusted with the keys (23, 2I).
Mode 14: The anaphoresis is chosen (m ~ manual) by pressing the button (8). The use of the clock (6) is optional.
The intensity displayed in (20) of the galvanic current must be adjusted with the keys (21). The pedal (13) is available to stop the current.
~ Iodine 15: The cataphoresis is chosen (manual mode) by pressing the button (9). The use of the clock (5) is optional.
The intensity displayed in (20) of the galvanic current must be adjusted with the keys (21). The pedal (13) is available to stop the currents.
As can now be understood, the present invention consists es ~ ntiellement to send sequentially or simultaneously one or more current (s) of various types and different categories by modulating (ie varying) the intensity of each type by programming or any other physical means.
As can also be understood, the various above-mentioned functions and "means of control" may be "incorporated" into a microproces ~ ur controlled by the control keys of the box and connected to the current generator (s) and to the electrodes.
The value of the output current can be monitored for 1 microprocessor and an RC filter can be provided to protect the HF current interference galvanic current.

Claims (18)

22 The realizations of the invention, about of which an exclusive property or privilege right is claimed, are defined as follows: 1. Method of permanent skin removal of a patient, such as inserting a filament conductor in the follicle of each hair to be removed and to be applied using this filament, a galvanic current of given intensity, a HF current of given intensity or a combination of these two currents at the hair follicle to destroy the root of the latter by electrolysis, thermolysis or both, characterized in that the intensity at least one of the currents applied to the follicle is modulated during the duration of the application during the same insertion, said modulation consisting in the application of said current at different intensities for different periods during said insertion in order to allow thus permanent hair removal while reducing the pain perceived by the patient. 2. The method according to claim 1, charac-terized in that the intensity modulation of the current is performed continuously. 3. The method according to claim 1, charac-terized in that the intensity modulation of the current is carried out discontinuously, according to a sequence of sequences of duration varying from a fraction of a second to several seconds, the current applied during each sequence successive being of constant intensity, this intensity being itself identical to the intensities of the sequences previous or different from these. 4. The method according to claim 3, charac-terrified in that the duration of the sequences and the intensity of each current applied during each sequence are preprogrammed. 5. The method of claim 1, 2, 3 or 4, restricted exclusively to electrolysis, characterized by that only a galvanic current is applied and modulated intensity during application. 6. The method of claim 1, 2, 3 or 4, restricted exclusively to thermolysis, characterized by that only an HF current is applied and modulated in intensity during application. 7. The method of claim 1, 2 or 3, combining electrolysis and thermolysis, characterized by what both galvanic and HF currents are applied and in that at least one of these currents is modulated in intensity during application. 8. The method according to claim 4, combining electrolysis and thermolysis, characterized by what both galvanic and HF currents are applied and in that at least one of these currents is modulated in intensity during application. 9. The method according to claim 3, 4 or 8, characterized in that the total duration of application of the HF current is 0.01 to 8 seconds, in that the duration total application of galvanic current is 0.1 to 20 seconds and in that the number of sequences is lower or equal to 6. 10. A permanent skin hair removal device, of the type comprising:
- a conductive filament intended to be inserted in the follicle of each hair to be removed from a patient;
- at least one current generator connected to the filament, - first means of control to adjust at will the intensity of the current leaving the generator; and - second control means to adjust to will the duration of application of the current generated at filament and from there to the hair follicle so that make sure to destroy the root of it, characterized in that it further comprises:
- third connected control means to said first control means to modify the adjustment of these according to a predetermined program of so as to modulate the current generated during the duration application of said current to the follicle during the same insertion, the modulation consisting in the application of said current at different intensities for different periods during said insertion in order to allow thus permanent hair removal while reducing the pain perceived by the patient. 11. The apparatus according to claim 10, characterized in that said third means of control are also linked to said second means of control so that the total duration of application of the current and the average intensity of it be automatically adjusted relative to each other in function of the total energy required to ensure the permanent destruction of the hair root. 12. The apparatus of claim 11, charac-terrified in that the first and third means of controls are designed and programmed to modulate continues the current applied to the filament. 13. The apparatus of claim 11, charac-terified in that said first and third means of controls are designed and programmed to modulate so discontinuous the current applied to the filament according to a sequence of durations varying by a fraction of second to several seconds, the current applied during each successive sequence being of constant intensity, this intensity being itself different, intensities of previous sequences or identical to these. 14. The apparatus according to claim 10, 11, 12 or 13, said apparatus being intended to be used to destroy the hair root to be removed by electrolysis only, characterized in that the current generator is a galvanic current generator. 15. The apparatus according to claim 10, 11, 12 or 13, said apparatus being intended to be used to destroy the hair root to be removed by thermolysis only, characterized in that the current generator is an HF current generator. 16. The apparatus according to claim 10, 11, 12 or 13, said apparatus being intended to be used to destroy the hair root to be removed by both electrolysis and thermolysis only, characterized by what it includes a HF current generator as well as a galvanic current generator both connected to the same filament for successive or simultaneous application HF and galvanic currents, both currents produced by these two generators being controlled individually by said first and second means of control. 17. The apparatus according to claim 13, said apparatus being intended to be used to destroy the hair root to be removed by both electrolysis and thermolysis, characterized in that it comprises a HF current generator as well as a current generator galvanic both connected to the same filament for a successive or simultaneous application of HF currents and galvanic, either of the two product currents by these two generators being controlled individually by said first and second means of control, and by what it further includes:
- a plurality of programs kept in one memory;
- selection means integrated into the device and connected to the memory to choose one of the programs memory based on a total energy display required to remove a hair of a given size, and apply it to said first, second, and third control means so as to automatically adjust the durations and intensities of the currents of the two applied types successively or simultaneously during the sequences successive of the same application. 18. The apparatus according to claim 17, characterized in that it further comprises:
- means to visualize the type of current applied and the intensity of it step by step at during successive sequences; and - programming means to allow an operator to enter any other program into memory longed for.