Biomedical Engineering Reference
In-Depth Information
d n 4 t 3 n g | 4
CHAPTER 7
A Look at the Future
The detection configurations presented in this topic constitute a clear demon-
stration of the intimate integration of physics, electrical and biomedical
engineering, bioanalytical chemistry, surface physical chemistry and advanced
technologies in biology and medicine. This is highly reflective of the emergence
of the relatively new paradigm of integrative science where boundaries between
traditional areas of science, medicine and engineering disappear. Research
based on such advanced detection systems offers enormous potential for
bridging the chasm between technology and biology through the provision of
methods and devices that are capable of the elucidation of new insights into
biological processes. Such new knowledge will undoubtedly lead to enhanced
approaches to the practice of medicine, especially as it pertains in this case to
areas of the discipline such as neurology.
n 3 .
7.1 Quantum Neurobiology
It has been said by scientists that the 20th century was the era of progress in
physics as extraordinary advancements were made, especially in the key realm
of quantum physics. The 21st century is predicted to be the era of biology,
where technological developments are expected to enable the connection
between molecular biology and this area of physics. The merging of quantum
physics and biology, known as quantum biology, shows great promise in
potentially shedding light on many unanswered questions in biology, medicine,
psychology and neuroscience, and deeply challenging topics such as the
understanding of consciousness. There is no doubt that expansion of quantum
biology in the coming research years will lead to a number of surprises, not only
in biology, but also in fields such as neurochemistry. As implied in the quotes at
the very beginning of this text, completely new approaches may be required in
order, for example, to understand the true nature of human consciousness.
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