There appears to be a molecular process for relaxation. Given this, we attempt to demonstrate
this phenomenon based on established molecular and physiological processes in light of our current understanding of central and peripheral nervous system mechanisms. Central to our hypothesis is the signifi cance of norepinephrine, nitric oxide, dopamine and morphine signaling both in the central and peripheral nervous system. We fi nd that nitric oxide and morphine control catecholamine processes on many levels, including synthesis, release and actions. We conclude that enough scientifi c information exists to support these phenomena as actual physical processes that can be harnessed to provide better patient care.
this phenomenon based on established molecular and physiological processes in light of our current understanding of central and peripheral nervous system mechanisms. Central to our hypothesis is the signifi cance of norepinephrine, nitric oxide, dopamine and morphine signaling both in the central and peripheral nervous system. We fi nd that nitric oxide and morphine control catecholamine processes on many levels, including synthesis, release and actions. We conclude that enough scientifi c information exists to support these phenomena as actual physical processes that can be harnessed to provide better patient care.
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