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Medicine in Reverse

Colloid Technologies for Combating Chemical Overdoses

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Fine Particles in Medicine and Pharmacy

Abstract

The axiom “all life is dependent on chemicals” is true but the chemicals must be the right kind and in the right proportions for healthy growth. A second truth is that “external or internal contact with chemicals in overdose concentrations may result in either discomfort, disease or in death”. Often the very therapeutic chemicals (medicines by any other name) created to reduce or eliminate one type of malady result in complications elsewhere in the body when taken accidently in too high dosage. Furthermore, overdoses of illegitimate drugs and exposure to biotoxins damage organs and may lead to death. Examples of some molecules commonly overdosed are shown in Fig. 11.1. This chapter gives fundamental and applied information on oil-in water microemulsion and on functionalized carrier particle colloids designed to selectively bind and physiologically deactivate in vivo several commonly overdosed chemicals. EKG and NMR techniques have been employed to obtain important diagnostic information.

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Authors and Affiliations

  1. Chemistry Department and Center for Advanced Materials Processing, Clarkson University, 13699-5814, Potsdam, NY, USA

    Richard Partch

  2. Chemistry Department and Center for Advanced Materials Processing, Clarkson University, Mankind Corporation, 1 Casper St., 06810, Danbury, CT, USA

    Adrienne Stamper

  3. Chemistry Department and Center for Advanced Materials Processing, Clarkson University, 503 Queensgate Rd, 21229, Baltimore, MD, USA

    Evon Ford

  4. Faculty of Science, and Director of Nanotechnology Center, University of Jordan, Amman, Jordan

    Abeer Al Bawab

  5. Chemistry Department, University of Jordan, Amman, Jordan

    Fadwa Odeh

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  1. Richard Partch
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  2. Adrienne Stamper
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  4. Abeer Al Bawab
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  5. Fadwa Odeh
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  1. Clarkson University, Potsdam, 13699-5814, USA

    Egon Matijević

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Partch, R., Stamper, A., Ford, E., Bawab, A., Odeh, F. (2012). Medicine in Reverse. In: Matijević, E. (eds) Fine Particles in Medicine and Pharmacy. Springer, Boston, MA. https://doi.org/10.1007/978-1-4614-0379-1_11

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