Abstract

In 1984, the author first developed a simple, quick, non-invasive, economical method of detecting cancer in specific internal organs, using the Bi-Digital O-Ring Test (BDORT), with a microscope slide of specific cancer of a specific internal organ as a reference control substance. The detection rate for cancer screening was much greater than with any standard diagnostic tests. When imaging was performed using the BDORT, the area of positive response to the cancer positive slide was often much greater than the actual size of the cancer itself. This was due to the fact that most of the cancer tissue of the lungs or digestive system contained viruses such as HTLV-3 (often found in adenocarcinoma of the lung, stomach, head of pancreas, and colon) or HTLV-1 (often found in small-cell carcinoma of the lung and certain types of leukemia). The extent of the virus positive area was often far greater than that of the cancer tissue itself and was distributed in a much greater area surrounding the cancer. For this reason, the virus alone showed a response which could be mistaken for cancer tissue. The author succeeded in differentiating the exact location of cancer tissue itself from surrounding cancer related virus (with or without other microbes) positive area by using a pair of identical microscope slides with the same cancer tissue. One of the slides was exposed to ultra-violet rays (peak wavelength of 253.7 nm mercury vapor atomic resonance spectral line) for 40 seconds-4 minutes. After this exposure, the BDORT response to the virus (with or without other microbes) associated with the cancer tissue was completely eliminated, while the response to the cancer tissue was maintained. Using an ultraviolet exposed cancer slide, the imaging of the part of the body which responded to this virus-free cancer slide indicated the actual location of the cancer tissue, which was often confirmed by standard X-ray or other imaging methods when the thickness of the tumor was relatively large. These cancers detectable by standard laboratory tests had strikingly weakening response to the BDORT (-3.5 and -4), with ultra-violet exposed cancer slide as well as for antibody of Oncogen C-fos. The smallest size of cancer tissue detected by this method was less than 1mm in diameter in the very early stage of the cancer, which usually cannot be detected by current laboratory tests.(ABSTRACT TRUNCATED AT 400 WORDS)