Last week, scientists at CERN, the European particle physics laboratory located outside Geneva, Switzerland, conducted an experiment, the results of which now challenge one of the most fundamental principles of modern physics. I speak of Albert Einstein’s 1905 declaration that the speed of light is an absolute and that nothing in the universe could travel faster.
E = MC2, the principle under which nuclear energy and weapons have been developed, as well as all of the corollaries of the theory of relativity were called into question when a series of sub atomic particles, known as neutrinos traveled from Switzerland to Italy at a speed that was 1/60 of a billionth of a second faster than the speed of light. What has followed has been a flurry of interest by departments of physics all over the world. Confronted with this new finding, these investigators will diligently seek to reproduce or refute the findings.
This was not the first time that someone challenged the primacy of Einstein’s 1905 theory. Indeed, during the 1930s, for largely political and anti-Semitic reasons, the Nazi party attempted to disprove Einstein. Yet, all of the political meanderings, personal vendettas and intellectual jealousy could not unseat Einstein’s guiding principle. That is, until objective evidence in the form of the CERN experiments came to the fore.
Science — however lofty — and scientists — however highly regarded — dwell in the same realm as all the rest of us mere mortals. Their biases and preconceived notions often cloud their vision. Comfortable with a given paradigm, they hold unyieldingly to its principles until they are forced, however unwillingly, to relinquish their belief systems in favor of a new understanding. I write of this in the context of laboratory-based therapeutics – a field of scientific investigation that has provided firm evidence of predictive validity. These technologies have improved response, time to progression and survival for patients with leukemia, ovarian, breast and lung cancers, as well as melanoma and other advanced malignancies. Thousands of peer-reviewed published experiences have established the merit of human tumor primary cultures for the prediction of response. Investigations into the newest classes of targeted therapies are providing new insights into their use and combinatorial potential.
Yet, while the physicists of the world will now rise to the challenge of data, the medical oncologists and their academic counterparts refuse to accept the unimpeachable evidence that supports the validity of assay-directed therapy. Perhaps if our patients were treated at CERN in Geneva, their good outcomes would receive the attention they so richly deserve.