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RESEARCH PRODUCT

Mechanism of Anesthetic Action: Oxygen Pathway Perturbation Hypothesis

Maoxin WuHuping Hu

subject

General anestheticsStereochemistryFOS: Physical scienceschemistry.chemical_elementOxygenDiffusionmedicinePhysics - Biological PhysicsAnestheticsQP PhysiologyChemistryCell MembraneOxygen transportGeneral MedicineMembrane transportQD ChemistryPhysics - Medical PhysicsQuantitative BiologyOxygenMembraneBiological Physics (physics.bio-ph)FOS: Biological sciencesQ01 Interdisciplinary sciences (General)AnestheticMedical Physics (physics.med-ph)NeuroscienceQuantitative Biology (q-bio)medicine.drug

description

Although more than 150 years have past since the discovery of general anesthetics, how they precisely work remains a mystery. We propose a novel unitary mechanism of general anesthesia verifiable by experiments. In the proposed mechanism, general anesthetics perturb oxygen pathways in both membranes and oxygen-utilizing proteins such that the availabilities of oxygen to its sites of utilization are reduced which in turn triggers cascading cellular responses through oxygen-sensing mechanisms resulting in general anesthesia. Despite the general assumption that cell membranes are readily permeable to oxygen, exiting publications indicate that these membranes are plausible oxygen transport barriers. The present hypothesis provides a unified framework for explaining phenomena associated with general anesthesia and experimental results on the actions of general anesthetics. If verified by experiments, the proposed mechanism also has other significant medical and biological implications.

yearjournalcountryeditionlanguage
2001-11-01
http://arxiv.org/abs/physics/0101083