The steps of the method are: providing a generator adapted to produce specific wavelengths to maximize light emissions; providing a scintillator in operative proximity to the generator, the scintillator having an associated scintillator screen of a specific phosphor or other excitive type sensitive to various wavelengths, the scintillator being sensitive to a wavelength that maximizes light emissions; positioning a patient to be diagnosed between the generator and the scintillator; emitting a specific wavelength from the generator to and through the patient onto the scintillator screen whereby the associated scintillator screen will light up and sparkle to produce a light image of the patient; providing a camera in operative proximity to the scintillator screen to record the light image produced on the scintillator screen; providing a computer with a computer screen and software; capturing and analyzing the recorded light images from the camera; and obtaining a diagnosis for treatment of the patient.
Claim CLM-00001. 1. A medical diagnosis method comprising the steps of:
providing a generator adapted to produce specific wavelengths to maximize light emissions; providing a scintillator in operative proximity to the generator, the scintillator having an associated scintillator screen of an excitive media type including a specific phosphor type sensitive to various wavelengths, the scintillator being sensitive to a wavelength that maximizes light emissions; positioning a patient to be diagnosed between the generator and the scintillator; emitting a specific wavelength from the generator to and through the patient onto the scintillator screen whereby the associated scintillator screen will light up and sparkle to produce a light image of the patient or reflect back from the back boundary of the patient to a scintillator in the receiver; providing a camera in operative proximity to the scintillator screen to record the light image produced on the scintillator screen; providing a computer with an aftermarket computer screen provided with greatly unheard number of LED's and a software designed and capable of capturing and analyzing the light intensity associated with the LED numbers, the recorded light images from the camera will allow a person to draw a repeatable conclusion from the degree of color intensity associated with the Pi wave and inflammation; and drawing a conclusion and obtaining a diagnosis which is repeatable and sustainable and allows for diagnosis and treatment of the patient.
Claim CLM-00005. 5. A medical diagnosis method comprising the steps of:
providing a generator adapted to produce a specific wavelength to maximize light emissions; providing a scintillator in operative proximity to the generator, the scintillator having an associated scintillator screen of a specific phosphor type sensitive to various wavelengths, the scintillator being sensitive to the specific wavelength; positioning a patient to be diagnosed between the generator and the scintillator; emitting the specific wavelength from the generator to and through the patient onto the scintillator screen whereby the associated scintillator screen will light up and sparkle to produce a light image of the patient between the generator and the scintillator or reflected from the patient onto the scintillator, the EMS wavelength to be used is in EMS associated with various frequencies deemed useful for the particular investigator such as RF, x-ray UV ranges of the electromagnetic spectrum, to be captured and analyzed; providing a camera in operative proximity to the scintillator screen to record the light images produced on the scintillator screen; and providing a computer having a computer screen and software, the computer adapted to capture and analyze the recorded light images from the camera, the software adapted to analyze various precise and fine light parameters from the image that will reveal hue and saturation corresponding to disease and inflammation, chronic, acute, and repairing elements; and drawing a conclusion and obtaining a diagnosis for use in treating the patient.
Claim CLM-00006. 6. A detection of COVID-19 method comprising the steps of:
providing a wavelength generator; emitting the wavelength unto and through an object or person; providing a scintillator; providing a light from a wave group, the wave group including a Pi wave and referred to as HSTPiCOG; enhancing the light at predetermined wavelengths; sending the light to a camera or recorder with an augmented LED to pixel ratio and/or number of LEDs; augmenting the pixel-LED ratio set to an optimum position or setting; maximizing and hyperdriving the light; adjusting the light produced through lasers; maximizing direction and further enhancing the light; sending the light to a computer or recorder having an LED monitor; gathering the light with high quality detectors; separating the light into bands of light using software alterations of hue/saturation; expressing the bands as numerical values to further represent extremely fine differences in the intensities of the light; converting numerical values to color using the software; sending numbers to be evaluated and compared to other numbers associated with the COVID-19 virus and disease agents; sending numerical values to be viewed as color within predetermined gradients with a minimal overlap or bleed between the colors for a color wave-form, hereinafter referred to as an HSTPiCOG wave-form; digitizing the final result; detecting inflammation and agent presence; producing audible sounds and other digital transmission to authorities if a positive color for infection is detected; and transferring information over to a digital bank to use in epidemiological studies.
