Patent Document ID: 10117596
Application ID: 13970496
Patent Status: 1

Claim One:
1. A computer-implemented method to effectively discriminate between having conductance curve attributes associated with a malignant lung lesion and not having conductance curve attributes associated with a non-malignant lung lesion in a medical patient having a lung lesion of a particular size, comprising: providing a measurement device, the measurement device comprising a computer assembly and a probe system comprising an interrogation electrode, the interrogation electrode comprising a motor and a probe tip operably coupled to the motor, the computer assembly comprising a processor, firmware, and memory in communication with a display device, the firmware configured to: apply a current of a predefined value between a reference electrode and the interrogation electrode on a body of the medical patient having a lung lesion of indeterminate malignancy, the interrogation electrode configured to permit computer controlled application of electrode contact pressure onto the medical patient's skin during a measurement sequence in response to the motor operating on the probe tip; measure a voltage as a function of the applied current; calculate conductivity between the reference electrode and the interrogation electrode; and control an amount of contact pressure applied by the probe tip of the interrogation electrode on the medical patient's skin; generating at least one patient data set, the patient data set comprising a plurality of conductivity curves generated by: increasing, by a predefined amount over a plurality of time intervals until the slope of the conductivity curves is at or near zero, the contact pressure provided between the probe tip of the interrogation electrode and the medical patient's skin, holding the contact pressure constant for a predefined period of time after the contact pressure is increased for each time interval, measuring the conductivity between the interrogation and reference electrodes during the predefined period of time for each time interval, and normalizing the measured conductivity on a scale of 0 to 100, the conductivity curves having a plurality of curve attribute values, wherein each of the plurality of curve attribute values represents a conductivity value between the reference electrode and the interrogation electrode on the body of the medical patient; selecting a previously-determined data set that corresponds to the at least one patient data set and comprises a plurality of conductivity measurements derived from a patient population comprising lung lesions, the previously-determined corresponding data set determined by comparing, from a population of patients having lung lesions located in a same region of the lung as the lesion of the medical patient, (i) a first cohort having malignant lung lesions and (ii) a second cohort not having malignant lung lesions, the malignant lung lesions of the previously-determined corresponding data set being determined by examination of lesion biopsies; stratifying the previously-determined data set on the basis of lung lesion size, the stratified data set comprising a plurality of lung lesions that differ in size by no greater than 15 mm relative to the size of the lung lesion of the medical patient; and comparing the plurality of curve attribute values of the at least one patient data set to the plurality of corresponding curve attribute values of the stratified previously-determined data set to determine a likelihood of the medical patient having a malignant lung lesion.