Patent ID: 9101262
Filing Date: 2015-08-11
Classification: A61B

Abstract:
1. A method of performing a diagnostic test of the type for detecting the position of potential breast cancer in a breast of a patient using a contour recorder ( 108 ) and test unit ( 22 ) having a computer ( 46 ) and a memory ( 50 ) and a plurality of computer programs ( 54 , 56 , 110 , 116 , 120 , 122 , 124 , 126 , 128 ) and a diagnostic assembly ( 58 ) including at least one robotic arm ( 90 ) having a thermography sensor ( 100 ) and an ultrasound sensor ( 102 ) and a plurality of optical spectroscopy sensors ( 104 , 106 ) including an infrared light source and a plurality of receivers ( 106 ), said method comprising the steps of; a.) requesting the patient to complete a questionnaire for ascertaining family and personal medical histories, b.) storing the family and personal medical histories in the computer ( c.) positioning the patient in a prone position on the test unit ( d.) displaying a presentation on a graphical user interface ( e.) generating a start signal in response to the patient being disposed in the prone position and interacting with the graphical user interface ( f.) imaging and storing a contour-shape of the breast in response to the start signal, g.) analyzing the contour-shape to generate and store a 3D model ( h.) analyzing the contour-shape to locate an areola of the breast to establish a primary reference point ( j.) positioning the robotic arm ( k.) initiating the thermography sensor ( l.) receiving temperature data of the breast at the corresponding testing coordinate ( m.) converting the temperature data into digital temperature data points, n.) storing the digital temperature data points along with the associated testing coordinate ( o.) comparing the digital temperature data points to a predetermined thermal amplification value to generate a thermal amplification signal when any of the digital temperature data points is greater than the predetermined thermal amplification value, p.) repeating steps l.) thru o.) in response to the thermal amplification signal, q.) initiating the optical spectroscopy sensor and the infrared light source when the robotic arm ( r.) receiving transmitted and reflected light data at each of the receivers ( s.) converting the transmitted and reflected light data into digital oxygenated or deoxygenated hemoglobin data points, t.) storing the digital hemoglobin data points along with the associated testing coordinate ( u.) comparing the digital hemoglobin data points to a predetermined optical spectroscopy amplification value to generate a spectroscopy amplification signal when any of the digital hemoglobin data points are greater than the predetermined optical spectroscopy amplification value, v.) repeating steps q.) thru u.) in response to the optical spectroscopy amplification signal, w.) initiating the ultrasound sensor ( x.) measuring a reflected amount of the ultrasonic signal that is returned to the ultrasonic sensor, y.) recording the time of flight of the ultrasonic signal, z.) calculating a breast density at the testing coordinate as a function of the reflected amount of ultrasonic signal and the time of flight, aa.) converting the breast density into a digital breast density data point having a value between 1 and 100 with the digital breast density data point being proportional and corresponding to the breast density of the corresponding breast, bb.) storing the digital breast density data point along with the associated testing coordinate ( cc.) comparing the digital breast density data point to a predetermined ultrasound amplification value to generate an ultrasound amplification signal when the digital breast density data point is greater than the predetermined ultrasound amplification value, dd.) repeating steps w.) thru cc.) in response to the ultrasound amplification signal, ee.) removing the patient from the test unit ( ff.) analyzing the interrelationship of the digital temperature data points and the digital oxygenated hemoglobin data points and the digital breast density data point at the testing coordinate (