FR2968563A1 - Dermatological composition based on vegetable oil, having specific electrical potential, useful e.g. for the treatment of a neurological disorder, obesity, neuroendocrine disorder and pain - Google Patents

Abstract

Dermatological composition based on vegetable oil, having an electric potential of 10 mV, is claimed. An independent claim is included for process for obtaining the dermatological composition based on vegetable oil having high electrical potential of 10 mV, comprising forming the composition comprising the vegetable oil and charging the composition using high frequency electrode or ionization. ACTIVITY : Neuroprotective; Endocrine-Gen.; Analgesic; Dermatological; Anorectic; Vulnerary. MECHANISM OF ACTION : None given.

Description

The present invention relates to cosmetic or therapeutic compositions, especially based on vegetable oils, having an electrical charge. These compositions, when applied topically to the skin, preferentially in the form of dermatological substrates or creams, are intended to produce micro-currents at the level of the superficial layers of the skin or of the epidermis. These micro currents are captured by the superficial nervous system, including nociceptors, and have the effect of stimulating the nervous system, especially the neuroendocrine system through the cerebral cortex.

Indeed, human skin has many sensory sensors connected to the peripheral and central nervous system. In particular, the nociceptors, which are sensory neurons that are specialized in the transmission of stimuli that cause sensations of heat, shock and pain, are widely represented in the form of free, highly arborized nerve endings that outcrop at the level of the superficial layer of the epidermis in the form of axons devoid of myelin. The nociceptors form the ends of what is called the "nociceptive network", which also extends, but more diffusely, in the joints, muscles, blood vessels and bone marrow. The nociceptors can be activated by all kinds of stimuli that can potentially alter the tissues, such as mechanical stimulation such as pinching, pitting or biting, but also extreme temperatures, electric shocks, hypoxia conditions (lack of oxygen) or exposures to toxic or aggressive substances. While some nociceptors are more sensitive to one type of stimulus than another, most are polymodal, that is, they can respond to more than one stimulus type.

Whatever its nature, the stimulus must reach a certain intensity in order to activate the nociceptors. The activation threshold of these is often higher than that of mechanoreceptors. The nociceptors can thus code the intensity of the painful stimulations by modulating their response according to the intensity of the stimulus. At the cutaneous level, the threshold of their activation corresponds to that of the painful sensation perceived by the subject. The electrical signal of a cutaneous temperature of 40 ° C corresponds, for example, to an action potential of 15 millivolts, while a temperature of 60 ° C corresponds to a higher potential which can be 20 or 25 millivolts . There are two types of axonal fibers: the delta-type, myelinated fibers, which allow a rapid transfer of a high-intensity action potential to the central nervous system, of the order of 20 meters per second (acute pain ), and type C fibers, slower, of the order of 2 meters per second (more diffuse and longer pain). This information is transmitted as action potentials that the cerebral cortex manages to analyze according to their intensity and distribution. Thus, for example, during a severe skin burn, when there is destruction of the epidermal cells (first or second degree burns), the brain reacts, according to the intensity of the message received, by a message neuro-endocrine response that will have the effect of regenerating the tissue burned in the area concerned by the burn. Then, at the site of the lesion, the cell layers are reconstituted, for example via the localized secretion of growth factors. These regeneration mechanisms managed by the cerebral cortex are based on the transmission of electrical information (bio-electricity) and on the fact that biological tissues have the capacity to store and transmit electrical potentials in the same way as micro-circuits. [Jaakko Malmivuo, Robert Plonsey, Bioelectromagnetism: Principles and Applications of Bioelectric and Biomagnetic Fields. Oxford University Press. New York, Oxford (1995)] The inventor hypothesized that for each variation recorded at the level of the different skin sensors, in a given time interval, corresponded an electro-quantum flux value (F), given by the following integral formula: denotes F = cf where F = quantum flux;

c = number of cutaneous sensors (transducers);

10 ie the minimum of quantified intensity;

nie = the maximum intensity quantified;

t = unit of time.

In this formula, F represents an energy value integrating all the negative or positive variations recorded by the cortex.

15 brain from the different sensors. Of this value F, variable according to the stimuli, depends the neuro-endocrine response. The inventor has estimated that it is possible by locally stimulating peripheral nerve receptors, to artificially reproduce this value F, by inducing micro-electric currents on the surface of the skin and thus to solicit the

Cerebral cortex.

In the example mentioned above - of burned skin - the quantum message corresponding to 150 or 200 ° C, can be theoretically reproduced without there being actually any cutaneous lesion by intradermal transmission of action potentials of the order of 50 mV). The brain receives the information

25 in the form of a quantum flux of value F and in response to this precise value of F, reacts by producing cellular regeneration in the area where the dermatological composition has been applied.

The inventor thus realized the invention which consists, using a dermatological composition, electrically charged, to solicit

Artificially the peripheral areas of the nervous system, and to obtain a neuro-endocrine response promoting regeneration of tissues, including skin, bone (bone density), cartilage and joints. He also found a positive effect on muscle tone and muscle mass. The invention therefore consists in reproducing the cutaneous electrical sensations by taking as emitter medium a charged dermatological composition which is affixed to a part of the body in order to obtain the desired effect. Knowing that the surface of the human skin includes many transducers (about 5 million), it is possible to intervene on all parts of the body using fluid-type substrates, with variable viscosity, which can be charge electrically to the desired micro intensity. One of the other applications of the so-called "transmitting" properties (properties of a material or of a composition for transmitting electro-electronic messages) of the compositions according to the invention is, for example, the manufacture of dressings containing a carrier carrying the information. electroconductive flow, with a view to accelerating the healing process and endowed with anti-pain effects. Tissue fat absorption is also an effect that can be achieved by means of the invention for the treatment of, for example, obesity.

The invention is also useful in the treatment of certain nervous or psychic disorders such as anxiety or depression, or disabling motor disorders. It is indeed possible, with the aid of the compositions according to the invention, to stimulate the production of serotonin, norepinephrine or dopamine, which is lacking in certain patients suffering from such syndromes.

The technology embodying the present invention called by its inventor "transmetology" uses natural frequencies and voltages, the risks of negative or toxic side effects associated with the compositions according to the invention are virtually zero, whatever are the exposure times.

DETAILED DESCRIPTION The invention therefore relates to therapeutic or cosmetic compositions, preferably based on vegetable oil, having the particularity of being electrically charged. As a rule, organic diradical copolymers are compatible to obtain the desired filler. The inventor has been able to observe, during his experiments, that substrates or compositions comprising the combination of oleic acid and amino derivatives, in particular hydroxyproline, in particular in vegetable oils, were particularly suitable for fixing the desired charge. The example is given in the present application of a composition developed by the applicant in the form of an emulsion of vegetable oils in water. A composition of this type preferably comprises between 10 and 30% of vegetable oil, more preferably between 15 and 20% by total hydrated weight of said composition. Vegetable oil usually consists of sweet almond oil, corn, grapeseed or olive oil, or a mixture of these. A composition according to the invention may also contain mineral elements, but preferably does not contain them. A composition according to the invention may also contain a preservative system, such as Geogard (Lonza), but preferably does not contain one. A composition according to the invention may also contain an emulsifier and / or an aroma, but preferably does not contain any. Preferably, a composition according to the invention does not comprise therapeutic or cosmetic active ingredients. By therapeutic or cosmetic active ingredient is meant a molecule present in the composition to which can be attributed the therapeutic or cosmetic effect sought by the composition. In general, a composition according to the invention is in the form of a formulation that is cosmetically or therapeutically neutral, and more generally serves only as a dermatological support for the electrical charge conferred on it. Preferably, the therapeutic or cosmetic effect of a composition according to the invention is mainly related to its transmitting properties, said transmissive properties being themselves related to its electrical charge. Moreover, according to a preferred aspect of the invention, the above composition does not comprise metals, in particular copper or zinc, in particular in the form of metal ions, or only in residual form, that is, to say in the state of traces. These metal elements, if any in the composition, are not used to maintain or generate the electrical charge of the composition.

The compositions according to the invention, before being loaded, can naturally have residual, variable, generally infinitesimal, voltage values of the order of a few millivolts. These voltage values can be measured with a voltmeter sensitive to the voltage state of an inert material.

To electrically charge the compositions to the desired voltage, the methods known to those skilled in the art can be used. One possibility is to charge the substrate forming the composition with a high frequency electrode, preferably at low voltage. This electrode is immersed in the substrate while the container containing the substrate is connected to the ground. For the electrode to be at high voltage, that is to say preferably at a voltage greater than 300 V and more preferably greater than 1000 volts, it can be connected to the poles of a Ruhmkorff coil. Thus, it is possible to load at 50 millivolts a composition of about 200 grams in a few minutes.

As an alternative technique for loading the compositions, gas laser or ruby scanning technology may also be suitable. The composition according to the invention is then ionized by scanning with a laser beam, infra-red or ultraviolet, which gives it an electric charge.

Once charged, the composition according to the invention has an electrical potential greater than 10 mV, preferably between 15 and 100 mV, preferably between 20 and 50 mV.

In order to maintain its charge longer, the resulting composition can be packaged in an insulating container, for example, plastic, glass or ceramic. A composition according to the invention is more particularly intended to be used as a medicament or therapeutic composition. In view of the transmetic effect of the compositions according to the invention, that is to say their capacity to stimulate the superficial nervous system and to act on the neuroendocrine system, they are useful for stimulating various functions related to the neuroendocrine system. , especially in the secretion of growth factors. The compositions according to the invention thus make it possible to regenerate the skin (cutaneous density), the cartilage, the joints or the muscles, and to increase the bone density. At the same time, they can help reduce fat tissue to fight obesity.

In terms of body aesthetics, effects can be obtained to increase muscle mass, as well as the tone of muscles and skin, which can have an anti-aging or anti-degeneration effect. A composition according to the invention may also consist of a shampoo adapted to stimulate the activity of hair bulbs and thus promote hair growth. A composition according to the invention may also be suitable for the treatment of a neurological disorder, and more particularly for the treatment of a disorder of neuro-endocrine origin. A preferred use of a composition according to the invention lies in the treatment of pain. Indeed, the invention more particularly involves the nociceptive receptors which are at the origin of the perception of pain. In one of its preferred aspects, the invention consists in combating pain by inducing action potentials at the level of the nocireceptors, making it possible to counter or deceive the nervous system with a view to lessening the painful response. The invention also relates to dressings comprising a composition according to the invention as previously described. Such dressings may have a simultaneous effect on pain and wound healing. The following examples are intended to supplement the description of the invention without limiting it. EXAMPLES

Composition Montanov (SEPPIC) 10 Sweet almond oil Corn oil Rape oil Grapeseed oil Olive oil 15 Maize starch (Maizena) Geogard 221 (Lonza) Vitamin E Demineralized water QSP 100% Final pH: 5, To obtain this composition, the procedure is as follows:

1) Melt 150 g of Montanov in the oil mixture (5X75g) at about 65 °; 2) Heat the demineralized water (1567.5 ml) to 65%; 3) Pour (1) into (2) with agitation; 4) Melt 125 g of starch in the separated water (250 g); 5) Incorporate (4) in (3); Cool to 25 ° C; 6) In the cream introduce Geogard 221 (28.75 g) as well as vitamin E (3.75 g); Adjust the pH to 5.5 with TEA or 10% NaOH. 6% 3% 3% 3% 3% 3% 5% 1,15% 0,15 0/0 72,7 0/0 Preparation of the composition The composition manufactured above is transferred to a container with a stirrer. An electrode generating a variable high frequency current is incorporated into the substrate mass, said container, which contains the substrate being connected to the ground. The composition is charged as the energy passes (electric field). For 200 g of said composition, it takes about 20 minutes to load about 50 mV. The charge can be controlled with a suitable potentiometer, for example by measuring the potential difference between the charged composition and a sample of the composition not subjected to charging. Overload is 10-15% to compensate for voltage losses during conditioning operations.

Once packaged in a container made of insulating material, the filler stays in the composition for several months. 9

Claims (22)

REVENDICATIONS1. Dermatological composition based on vegetable oil, characterized in that it has an electrical potential greater than 10 mV. 2. Composition according to claim 1, characterized in that the electrical potential of said composition is between 15 and 100 mV, preferably between 20 and 50 mV. 3. Composition according to claim 1 or 2, characterized in that it is loaded before being used for its contact with the skin. 4. Composition according to one of claims 1 to 3, characterized in that it consists of an emulsion of one or more vegetable oils with the possible presence of a preservative system, emulsifiers and flavorings. 5. Composition according to one of claims 1 to 4, characterized in that it comprises the combination of oleic acid and amino derivatives such as hydroxyproline. 6. Composition according to one of claims 1 to 5, characterized in that it does not comprise therapeutic or cosmetic active ingredient. 7. Composition according to one of claims 1 to 6, characterized in that it does not comprise metal ions or only in the form of traces, in particular copper or zinc. 8. Composition according to one of claims 1 to 7 in its use as a therapeutic agent. 9. The composition of claim 8 for the treatment of a neurological disorder. 10. Composition according to claim 8, for the treatment of a disorder of neuro-endocrine origin. 11. Composition according to claim 8, for the treatment of pain. 12. The composition of claim 8 for regenerating joints.12. The composition of claim 8 for regenerating the joints. 13. The composition of claim 8 for regenerating skin or cartilage. 14. The composition of claim 8 for increasing muscle mass or increasing muscle tone. 15. The composition of claim 8 for increasing bone density. 16. The composition of claim 8 for stimulating hair growth. 17. The composition of claim 8 for combating obesity. 18. Process for obtaining a dermatological composition based on vegetable oil having an electric potential greater than 10 mV, characterized in that a composition comprising a vegetable oil is prepared and charged with the aid of a high frequency electrode or by ionization. 19. The method of claim 18, characterized in that the composition comprising a vegetable oil is ionized by scanning with a laser beam, infra-red or ultraviolet. 20. Method according to one of claims 11 or 19, characterized in that the composition comprising a vegetable oil, once electrically charged, is packaged in an insulating container made of plastic, glass or ceramic. 21. Dermatological composition obtainable according to the method of one of claims 18 to 20. 22. A dressing comprising a dermatological composition according to any one of claims 1 to 7 and 21.