Method for obtaining a numerical model associating an objective measurement to a subjective sensation using ultrasound imaging technique and associated device

The invention claimed is: 1. A method for estimating a sensation felt by a subject, the sensation being only evaluable by the subject in terms of numerical values, the method comprising: at a first instant: a) imaging the at least one area of the brain by using unfocused acoustic waves produced by a transcranial ultrasound probe, to obtain at least one acquired image of the activity of the area, b) evaluating a physical quantity representative of the activity of the at least one area based on each acquired image, to obtain at least one objective measurement, an objective measurement being a measurement of a physical quantity representative of the activity of at least one area of the brain of the subject, c) obtaining from the subject at least one numerical value representative of the sensation felt by the subject, and d) determining a numerical model specific to the subject by using the obtained objective measurement and the obtained numerical value, the numerical model associating to at least one objective measurement the numerical value of the sensation felt by the subject, wherein the numerical model is selected from the group consisting of: a linear function and a non-linear function; at a second instant posterior to the first instant, the steps of: e) imaging the at least one area of the brain of the subject by using unfocused acoustic waves produced by a transcranial ultrasound probe, to obtain at least one second acquired image of the activity of the area of the brain of the subject, f) evaluating a physical quantity representative of the activity of the at least one area based on each second acquired image, to obtain at least one second objective measurement, specific to the subject obtained at the first instant, g) estimating the sensation felt by the subject by using the numerical model specific to the subject obtained at the first instant, the linear function or the non-linear function of the numerical model specific to the subject obtained at the first instant taking as an input the second objective measurement, h) providing a feedback unit with a signal representative of the estimated sensation felt by the subject, the feedback unit being selected from the group consisting of a tv set, a hifi system, a computer, a smartphone, an electronic device, a computer program, a domotic system, and a videogame, i) converting the signal representative of the estimated sensation felt by the subject into a corresponding signal perceptible by the subject, said step of converting being carried out by the feedback unit, said corresponding signal perceptible by the subject being tailored feedback to help the subject maintain or alter a sensation level and the signal perceptible to the subject being chosen in the group consisting of a visual signal, an aural signal, an haptic signal, a vibration signal and a digital signal unit, and j) providing the subject with said corresponding signal perceptible by the subject, the step of providing said corresponding signal perceptible by the subject being carried out by the feedback unit so that the subject can maintain or alter the sensation. 2. The method according to claim 1 , wherein the evaluating step comprises defining at least one interest area based on the information provided by the image and the physical quantity representative of the activity of the area is chosen in the group consisting of the blood flow activity in the at least one interest area, the blood flow velocity in the at least one interest area and blood volume in the at least one interest area. 3. The method according to claim 2 , wherein the objective measurement of step b) is chosen among the group consisting of a physical quantity, a correlation between an external event and a physical quantity, the correlation of physical quantities of several areas and a correlation between other measurements and a physical quantity. 4. The method according to claim 1 , wherein the image obtained at the step a) is a three-dimensional image of the area. 5. The method according to claim 1 , wherein the step a) of imaging comprises positioning the transcranial ultrasound probe, notably by using a vascular tree and one element chosen in the group consisting of a database, a neuronavigation tool and a helmet. 6. The method according to claim 1 , wherein a firing rate is defined for the unfocused waves, the unfocused ultrasound firing rate of the step a) being superior to 500 Hz. 7. The method according to claim 1 , wherein the unfocused waves are plane waves or divergent waves. 8. The method according to claim 1 , wherein the area is the anterior cingulate cortex (ACC). 9. A method for treating a state characterized by a subjective sensation which an area of a brain of a subject is devoted to the method for treating comprising using a numerical model determined by the method for obtaining according to claim 1 . 10. The method according to claim 1 , wherein the imaging unit is transportable by the subject. 11. The method according to claim 1 , wherein the feedback unit is transportable by the subject. 12. The method according to claim 1 , wherein the feedback unit is further provided with a signal representative of the evolution of the sensation based on the each acquired image of the area, the signal perceptible by the subject being an interactive signal so that the signal perceptible to the subject rests the same when the subject maintain the sensation level and varies when the subject alter the sensation level, to help the subject maintain or alter a sensation level. 13. A method for estimating a sensation felt by a subject, the sensation being only evaluable by the subject in terms of numerical values, the method comprising: at a first instant: a) imaging the at least one area of the brain by using unfocused waves produced by a transcranial ultrasound probe, to obtain at least one acquired image of the activity of the area, b) evaluating a physical quantity representative of the activity of the at least one area based on each acquired image, to obtain at least one objective measurement, an objective measurement being a measurement of a physical quantity representative of the activity of at least one area of the brain of the subject, c) obtaining from the subject at least one numerical value representative of the sensation felt by the subject, and d) determining a numerical model by using the obtained objective measurement and the obtained numerical value, the numerical model associating to at least one objective measurement the numerical value of the sensation felt by the subject, at a second instant posterior to the first instant, the steps of: e) imaging the at least one area of the brain by using unfocused waves produced by a transcranial ultrasound probe, to obtain at least one second acquired image of the activity of the area, f) evaluating a physical quantity representative of the activity of the at least one area based on each second acquired image, to obtain at least one second objective measurement, g) estimating the sensation felt by the subject by using the numerical model applied on the second objective measurement, the numerical model being the model obtained at the first instant, and h) providing with a feedback unit a signal representative of the estimated sensation perceptible to the subject, wherein the signal representative of the estimated sensation perceptible to the subject is tailored feedback to help the subject maintain or alter a sensation level, wherein the feedback unit is selected from the group consisting of a tv set, a hifi system, a computer, a smartphone, an electronic device, a computer program, a domotic syst