Patent ID: 8945018
Filing Date: 2015-02-03
Classification: A61B

Abstract:
1. A blood flow measuring apparatus comprising: a plurality of sensor units, each of the plurality of sensor units including a light emitting part configured to emit first light and second light onto a measurement area, a light receiving part configured to receive the first light and second light transmitted through the measurement area, and a brain wave measuring electrode configured to measure a brain wave and integrally formed on a peripheral surface of the light emitting part and the light receiving part, a wavelength of the first light being different from a wavelength of the second light, wherein the plurality of sensor units are provided at different positions from each other and have the identical configuration to each other; at least one more light receiving part configured to receive the first light and second light transmitted through the measurement area, wherein said at least one more light receiving part functions as a light receiving part of a different sensor unit from the sensor unit including the at least one more light receiving part among the plurality of sensor units; and a control part configured to measure a blood flow state of the measurement area according to signals outputted by the light receiving parts wherein the first light and second light emitted by the light emitting part is received by the light receiving parts arranged at different distances from the light emitting part and the light receiving parts output the signals responsive to the received first light and second light, and wherein the control part is configured to make a light emitting part of one of the plurality of sensor units emit the first light and the second light, detect amounts of transmitted light of the first and second light received by light receiving parts of at least two of the plurality of sensor units that are separated at different distances from the one of the plurality of sensor units, and is configured to measure the brain activity state of the measurement area according to measurement data responsive to the amounts of the transmitted light of the first light and the second light, said measurement data being outputted by the light receiving parts of the at least two of the plurality of sensor units, and the control part is configured to measure the blood flow state of the measurement area by performing an arithmetic process to cancel a component of oxygen saturation in the blood, and execute the arithmetic process to calculate a test subject's red blood cell concentration as a function of only a hematocrit by ratioing between a red blood cell concentration in the first light and a red blood cell concentration in the second light, wherein each of the plurality of sensor units includes an optical path separating member configured to have different refraction indexes with respect to light that proceeds from the light emitting part to the measurement area and light that proceeds from the measurement area to the light receiving part that is included it the sensor unit; and the light emitting part emits the light and said light receiving part included in the sensor unit receives the light through the optical path separating member.