Non-invasive measurement device and method for estimating local metabolic parameters

1. A method for estimation of at least one local metabolic parameter of a relevant tissue area of a patient, wherein the method comprises the following steps:

• shifting a catheter over a surface of the relevant tissue area, an optical sensor of an acquisition device being disposed at a distal end of the catheter,wherein said optical sensor is comprised of at least three diodes and a receiver, each diode emitting a light radiation at a defined wavelength different of the others diodes so that the optical sensor emits a light intensity for at least three different wavelengths comprised between 600 and 1000 nm, the at least three different wavelengths being selected as a function of absorptivity of oxyhemoglobin and deoxyhemoglobin, said receiver measuring light intensity for the at least three different wavelengths,positioning said optical sensor, against the wall of the relevant tissue area,emitting each light radiation by each diode of the optical sensor at each of the at least three different wavelengths,receiving said light intensity having passed through the relevant tissue area, said light intensity being measured by the receiver for at the least three different wavelengths so as to determine received light intensities,wherein the step of receiving said light intensity comprises a step of;
  
  receiving, a plurality of measured light intensities at different instants of a cardiac cycle for each of the at least three different wavelengths,generating curves of said received light intensities over several cardiac cycles,selecting at least one instant of the cardiac cycle of each plurality of measured light intensities so as to determine each selected light intensity for each wavelength,calculating absorbance values from each selected light intensity for the at least three different three wavelengths,determining a concentration of oxyhemoglobin and a concentration of deoxyhemoglobin from the absorbance values calculated for the at least three different three wavelengths, andestimating at least one local metabolic parameter of the relevant tissue area of the patient from said concentrations of oxyhemoglobin and said concentration of deoxyhemoglobin,wherein the step of estimating comprises;
  
  estimating oxygen consumption in the relevant tissue area from said concentrations of oxyhemoglobin and said concentration of deoxyhemoglobin in the total blood and in the venous blood,wherein the step of selecting comprises;
  
  detecting at least one of a maxima and a minima in the curves of said received light intensities at the at least three wavelengths,wherein, from all the measured light intensities of each wavelength, a light intensity for which an amount of arterial blood is minimum in the relevant tissue area such that the determined concentrations are representative of concentration of oxyhemoglobin and deoxyhemoglobin in the venous blood, andwherein, from all the measured light intensities, light intensities for which the amount of arterial blood is maximum in the relevant tissue area such that the determined concentrations are representative of concentration of oxyhemoglobin and deoxyhemoglobin in the total blood.