Kenneth Stewart Cole (July 10, 1900 – April 18, 1984) was an American biophysicist described by his peers as "a pioneer in the application of physical science to biology".[1] Cole was awarded the National Medal of Science in 1967.[2][3]
Biography
He was born on July 10, 1900, in Ithaca, New York, to Charles Nelson Cole, an instructor in Latin at Cornell University and Mabel Stewart. Kenneth had a younger brother, Robert H. Cole [Wikidata], with whom he remained very close throughout his life despite a large difference in age; they were joint authors of four papers published between 1936 and 1942.[4]
In 1932, Cole married Elizabeth Evans Roberts, an attorney. Later, her work was mostly concerned with civil rights and in 1957 she joined the staff of the United States Commission on Civil Rights[4]
In 1980 he became an adjunct professor of the Department of Neurosciences at the Scripps Institute of Oceanography in San Diego. He had a son, Roger Braley Cole, and a daughter, Sarah Roberts Cole.
Tissue can be modeled as an electrical circuit with resistive and capacitive properties:
Its dispersion and absorption are represented by the empirical formula:
In this equation is the complex dielectric constant, and are the "static" and "infinite frequency" dielectric constants, times the frequency, and is a generalized relaxation time. The parameter can assume values between 0 and 1, the former value giving the result of Debye for polar dielectrics. This expression requires that the locus of the dielectric constant in the complex plane be a circular arc with end points on the axis of reals and center below the axis.
It is worth emphasizing that the Cole–Cole model is an empirical model of the measured data. It has been successfully applied to a wide variety of tissues over the past 60 years, but it does not give any information about the underlying causes of the phenomena being measured.
Several references in the literature use a form of the Cole equation written in terms of impedance instead of a complex permittivity.[8] The impedance is given by:
Where and are the resistances at zero frequency (i.e. DC) and infinity, respectively. is often referred to as the characteristic frequency. The characteristic frequency is not the same when the analysis is carried out in terms of the complex permittivity.
A simple interpretation of the above equation is in terms of a circuit where a resistance is in series with a capacitor and this combination is placed in parallel with a resistance . In this case and . It can be shown that is given by .
Electrical measurements of tissues
In a series of papers in 1930s -- 1940s, he experimentally studied the electric properties of living tissues, such as Nitella,[9] frog eggs,[10] and most famously, the squid giant axon.[11][12]
Figure 4 of [11] is sometimes used as artistic representations of biophysics. It also appeared, rotated 90 degrees, in Swedish apartments as modern art.[13]
^Goldman, D.E. 1985. Kenneth S. Cole 1900-1984. Biophysical Journal 47:859-860
^ ab"Kenneth Cole, 83, Scientist, is Dead". New York Times. April 20, 1984. Kenneth S. Cole, winner of the National Medal of Science and a pioneer in the study of the electrical properties of nerves and other living cells, died Wednesday at the Wesley Palms Retirement Home in La Jolla, California He was 83 years old. Dr. Cole, known as the father of biophysics, was one of the first scientists to apply the concepts and techniques of physics to the study of the excitation and response of living cells. His studies of electrical resistance in nerve cells, especially those of squid, laid the foundation for the rapid advance of neurophysiology in the 1930s and 1940s.
^Schwan HP. 2001. The concept of bioimpedance from the start: evolution and personal historical reminiscences. Proc. IX Bioimpedance Conf., Oslo, Norway